related projects

Project MERCCURI is an investigation of how microbes found in buildings on Earth (in public buildings, stadiums, etc) compare to those on board the biggest building ever built in space – the International Space Station (ISS).

The project provides an opportunity for YOU-- citizen scientists and student scientists --to participate in the research by using kits we will send you to collect microbes from surface areas in buildings or even your own cell phone or shoes. You can form a team or join a team to collect samples through September 2013 with the help of the Science Cheerleaders (current and former NFL and NBA cheerleaders who are also scientists and engineers!).
Your samples will be mailed to the University of California Davis where they will be sequenced and analyzed. Results will be shared on SciStarter so you can compare your samples to those from other locations, including the International Space Station! In addition, up to 40 samples will be selected to fly on the International Space Station where their growth rates will be compared to their counterparts in the UCDavis lab! Wouldn't it be cool if your sample is sent to the International Space Station!?

Teachers: Meet the Project MERCCURI team at the National Science Teachers Association conference in San Antonio on April 11, from 2-3pm! Then, join us at the San Antonio Spurs game on April 12 as we collect microbes from the stadium to send to space!

We collected microbes from a Sacramento Kings and Orlando Magic games and now we invite you to join us at the following events (more will be posted on SciStarter.com/ISS):

April 11: National Science Teachers Association annual conference in San Antonio. From 2-3 pm, Henry B. Gonzalez Convention Center, room 215. If you plan to be there, swing by, say hi, and learn how to get involved in Project MERCCURI to send microbes to space!

April 12: San Antonio Spurs game. Meet us on the court to collect microbes and shoot some baskets! The Spurs are offering discount tickets in addition to providing access to their court! Note: This game is almost sold out so consider purchasing your ticket soon.

April 12: We'll be at Yuri's Night parties celebrating the anniversary of manned space flight...and helping guests collect microbes from their own shoes and cellphones. Meet us at the Museum of Life and Sciences in Durham, NC, the Science Club in Washington, DC, and the California Science Center in L.A.

April 16: We'll be at the National Arts Building in New York City to celebrate Yuri's Night and collect more microbes.

April 20: Philadelphia Science Festival on the Benjamin Franklin Parkway! Stay tuned for more on that!

April 20-21: Calling all programmers! Help hack an app for Project MERCCURI at the NASA Space Apps Challenge in Philly!
If you can’t make it to one of these events, have no fear. We’re in the process of confirming similar events across the country and WE NEED YOU to help us collect microbes and, if you're interested, analyze the results. We will send periodic updates to you as new events are confirmed. We will also hold contests and other special offers to give you the chance to send your microbes to us from the comfort of your home.

Help map, collect, and correct information about power generation locations around the world. Through placing pins of power generation sources on a map or filling out and reviewing correcting information about these sources you will help make studying power generation impact on the global carbon cycle and climate change reach new levels.

I need your help finding "Desmond," an Elderberry Longhorn Beetle, formally known as *Desmocerus palliatus!*

This *beautiful* beetle species used to live throughout a large part of eastern North America but in recent decades it appears as if it has declined in numbers. We need your help to figure out if and why this might be true and how we can help them move back into areas they once lived.

The Elderberry Longhorn Beetle is easy to spot with its bold patterns of blue and gold and long antennae. It's so attractive, in fact, that it was chosen for a USPS stamp design in 1999!

The Dark Sky Meter (available for iPhones) allows citizen scientists to contribute to a global map of nighttime light pollution. Light pollution is a growing problem in urban environments, but now you can help scientists better understand its effects on the environment. By utilizing the camera built in to your iPhone, the Dark Sky Meter actually measures ‘skyglow’ and updates the data in real time.

The Pro version of the app also charts weather conditions and cloud cover so you can take readings at optimal times. The app is as easy to use as taking a picture, and is a fun way to learn about your night sky.

How many stars can you see where you live? The Loss of the Night App (available for Android devices) challenges citizen scientists to identify as many stars as they can in order to measure light pollution. The app is fun and easy to use, and helps users learn constellations as they contribute to a global real-time map of light pollution.

Stargazing is a fantastic way to engage young scientists, but this ancient past time has become increasingly difficult in growing urban areas. Help scientists understand the effects of light pollution and learn about your night sky!

You don't need to leave the city to take part, in fact, the app is designed specifically for use in very polluted areas.

The more stars you observe, and the more often you run the app, the more precise the data for your location will become. As the seasons change so do the stars in the sky, and since there aren't so many very bright stars it is extremely helpful if urban users do measurements in each season.

iPhone users can contribute their own data via the dark sky meter project: http://www.scistarter.com/project/802-Dark%20Sky%20Meter

Anyone without a phone can take part during some parts of the year via GLOBE at Night: http://www.scistarter.com/project/169-GLOBE%20at%20Night

Despite its apparently steady glow, the Sun is a churning mass of superhot plasma that regularly produces powerful flares and storms that can knock out power and communication systems here on Earth. With this Lab explore what makes the Sun so volatile and get access to the same data, images, and tools that scientists use to predict solar storms—so that you can predict them for yourself.

CyberTracker Conservation is a non-profit organisation that promotes the vision of a Worldwide Environmental Monitoring Network. Our ultimate vision is that smart phone users worldwide will use CyberTracker to capture observations on a daily basis.

CyberTracker is the most efficient method of gps field data collection. You can use CyberTracker on a Smartphone or handheld computer to record any type of observation. CyberTracker, which requires no programming skills, allows you to customize an Application for your own data collection needs.

WNYC invites families, armchair scientists and lovers of nature to join in a bit of mass science: track the cicadas that emerge once every 17 years across New Jersey, New York and the whole Northeast by building homemade sensors and reporting your observations.

Magicicada Brood II will make its 17-year appearance when the ground 8" down is a steady 64° F. Help predict the arrival by planting a homemade temperature sensor in the ground and reporting your findings back to to WNYC. Your observations will be put on a map and shared with the entire community.

Starting March 15, 2013, the Audubon Society needs citizen scientists to track, report on, and follow the spring hummingbird migration in real time. A free mobile app makes it easy to report sightings, share photos and learn more about these remarkable birds.

Your participation will help scientists understand how hummingbirds are impacted by climate change, flowering patterns, and feeding by people.

You can participate at any level – from reporting a single sighting to documenting hummingbird activity in your community throughout the life of the project. Help scientists document the hummingbirds journey and direct change in the future to ensure these incredible birds do not disappear.

A study was conducted 40 years ago which suggested a link between climate and when west-European hedgehogs (Erinaceus europaeus) come out of hibernation. Last year we repeated this study and over two thousand people logged around 45,000 hedgehogs across Britain. The unusual weather in 2012 has made patterns of activity quite confusing so we are repeating the survey this year to find out more.

We need your help to collect hedgehog records from 1st February until 31st August 2013. Understanding patterns of hedgehog behaviour across the UK will enable us to target the conservation strategy for this charming animal, which is currently in severe decline.

The iSeeChange Almanac is a socially networked weather Almanac for communities to collectively journal their climate experiences -- their observations, feelings, questions, and decisions --- against near-real time climate information.

Founded in April 2012 in Western Colorado, iSeeChange is a public radio and media experiment that fosters multimedia conversations between citizens and scientists about how seasonal weather and climate extremes affect daily American life. From the earliest spring recorded in the history of the United States, a landmark wildfire season, nationwide droughts, and weather records breaking everyday, climate affects every citizen and binds communities together.

iSeeChange is produced by Julia Kumari Drapkin in Western Colorado at KVNF Mountain Grown Community Radio as a part of Localore, a nationwide production of AIR in collaboration with Zeega, with principal funding from the Corporation for Public Broadcasting.

We just launched the Almanac this week in Western Colorado. Stay tuned for more locations in the coming year!

The Horowitz Dog Cognition Lab in NYC is investigating the different ways people and dogs play together, and we need your help (well, you and your dog’s help). We are cataloguing all the ways people play with their dogs and asking dog owners to submit short videos of their own dog-human play.

By participating in Project: Play with Your Dog, citizen scientists are providing valuable information into the nuances and intricacies of our relationships with dogs.

AirCasting is a platform for recording, mapping, and sharing health and environmental data using your smartphone. Each AirCasting session lets you capture real-world measurements, annotate the data to tell your story, and share it via the CrowdMap.

Using the AirCasting Android app, AirCasters can record, map, and share:
(o) sound levels recorded by their phone microphone;
(o) temperature, humidity, CO and NO2 gas concentrations recorded by the Arduino-powered AirCasting Air Monitor, and;
(o) heart rate measurements recorded by the Zephyr HxM.

Using AirCasting Luminescence, these sensor streams can also be represented using LED lights.

The Human Microbiome Project and other microbiome projects worldwide have laid an important foundation for understanding the trillions of microbes that inhabits each of our bodies. However, opportunities for the public to get involved in such research has been limited. Now, American Gut gives you an opportunity to participate and to compare the microbes in your gut to those in the guts of thousands of other people in the US and elsewhere. American Gut is a project built on open-source, open-access principles. Our data are for the good of understanding and will be shared both with participants and with other scientists.

Help track the health and abundance of the mid-Atlantic scallop fishery!

Researchers at the University of Delaware have developed a new robot-based approach to surveying marine life the ocean floor. They use Autonomous Underwater Vehicles (AUVs), which can navigate underwater without direct human control, to take photos of marine life in its natural habitat.

By becoming a SubseaObserver you'll play a roll in ocean conservation by helping organizations such as the National Oceanic and Atmospheric Administration (NOAA) make better decisions about how to manage the scallop fishery now and for future generations.

As a SubseaObserver you can name your own virtual AUV and choose what part of the mid-Atlantic you'd like to explore.

SubseaObservers also includes information about scallop biology, how the fishery is managed, how AUVs work and where they're used.

Panamath is a free-standing software that can be used to assess number sense - your intuitive recognition of numbers and their relationship. Researchers in laboratories throughout the world have utilized this research tool in studies of number knowledge, mathematical acuity, and learning in general.

Curious? Use Panamath to test your own number sense, read more about the research being done or download the software and adapt it for your own research or educational purposes.

Psychologists at Birkbeck Babylab wants to know what makes babies laugh. We think babies are going to be laughing at things that they are just starting to understand. (Once you know that dogs are supposed to go ‘woof’, a dog that goes ‘miaow’ is only going to be hilarious.) With enough detailed observations from enough babies at different ages we can paint a cheerful picture of what they understand at different ages.

So if you’ve made a baby laugh recently we’d like to hear about it. If you haven’t made a baby laugh recently, go and find one and get to work. It's fun but it's also science!

Digital Fisher needs volunteers to help analyze deep-sea videos -- 15 seconds at a time. Volunteers watch a short video of the ocean and click on a simple response.

The NEPTUNE Canada observatory has recorded thousands of hours of video from underwater cameras, but there is currently no software sophisticated enough to automatically identify a wide variety of animals. This is where you come in!

With no training at all, you'll be able to help scientists unveil the mechanisms that shape the animal communities of the ocean. You'll help scientists answer fundamental questions about biodiversity, species behavior, and the impact of various environmental factors.

Project BudBurst, a NEON citizen science program, is a network of people across the United States monitoring plants as the seasons change. We are a national field campaign designed to engage the public in the collection of important ecological data based on the timing of leafing, flowering, and fruiting of plants (plantphenophases). Project BudBurst participants make careful observations of these phenophases. We are interested in observations from five plant groups – deciduous trees and shrubs; wildflowers and herbs; evergreens; conifers; and grasses. To participate, you simply need access to a plant.

Supporting and enhancing our understanding of continental-scale environmental change, Project BudBurst data are being collected in a consistent manner across the country for scientists and educators to use to learn more about the responsiveness of individual plant species to changes in local, regional and national climates. Thousands of people from all 50 states are participating and have generated a robust data set that is available for use by scientists and educators to increase understanding of how plants respond to environmental change. Formal and informal educators are finding Project BudBurst an effective approach to engaging their students and visitors in an authentic research experience.
Join our growing community!

Whether you have an afternoon, a few weeks, a season, or a whole year, you can make an important contribution to a better understanding of changing climates. Participating in Project BudBurst is easy – everything needed to participate is on the web site. Choose a plant to monitor and share your observations with others online. Not sure where to start? Take a look at our Ten Most Wanted species.

Project BudBurst is a NEON Citzen Science Program funded by the National Science Foundation.

CoCoRaHS, The Community Collaborative Rain, Hail, and Snow Network is a unique, non-profit, community-based network of volunteers of all ages who measure and report precipitation. By using low-cost measurement tools, stressing training and education, and utilizing an interactive website, our aim is to provide the highest quality data for natural resource, education and research applications.

Each time a rain, hail, or snow storm occurs, volunteers take measurements of precipitation from their registered locations (reports of 'zero' precipitation are encouraged too!). The reports are submitted to the website and are immediately available for viewing. It's educational, but moreover, fun! Just wait until you start comparing how much rain fell in your backyard vs. your neighbor!

The data are used by the National Weather Service, meteorologists, hydrologists, emergency managers, city utilities, insurance adjusters, the U.S. Department of Agriculture, engineers, mosquito control, ranchers and farmers, outdoor and recreation interests, teachers, students, and neighbors in the community.

Bat Detective is an online citizen science project which allows visitors to the website to take part in wildlife conservation by listening out for bat calls in recordings collected all over the world.

By sorting the sounds in the recordings into insect and bat calls, bat detectives will help biologists learn how to reliably distinguish bat 'tweets' to develop new automatic identification tools.

Bats use lots of different types of sounds, from singing to each other to find a mate, to using the echoes from their tweets to find their way around. Usually bat sounds are inaudible to humans as they are too high for us to hear, but special 'time expansion' ultrasonic detectors convert these sounds to a lower frequency, and visitors to the Bat Detective website can listen to these unique recordings and help distinguish different sounds.

One out of every five species of bats is threatened with extinction and better automatic identification tools are desperately needed to quickly process vast amounts of sound data collected by volunteers from the bat monitoring programme iBats who survey bat populations each year.

Bats are found all over the world from local parks to pristine rainforests and monitoring their population trends provides an important indicator of healthy ecosystems. Developing new tools that allow biologists to interpret population trends from sound will allow bats' tweets to act as a way to track environmental change.

Bat Detective was developed at University College London, Bat Conservation Trust, Bat Life Europe with the Citizen Science Alliance.

Dictionaries have existed for centuries, but scientists still haven't worked out the exact meanings for most words. This is a serious problem if you want to train computers to understand language. If we don't know what words mean, it's hard to teach computers what they mean. It is similarly hard to understand how children come learn the meanings of words, when we don't fully understand those meanings ourselves.

Rather than try to work out the definition of a word all at once, we have broken the problem into a series of separate tasks. Each task has a fanciful backstory -- which we hope you enjoy! -- but at its heart, each task is asking about a specific component of meaning that scientists suspect makes up one of the building blocks of meaning.

You can participate for as little as a few minutes or come back to the site over and over to help code the many thousands of words in English.

Help explore how biochar works in local soils by using your very own garden. (Biochar is a specialized form of charcoal that is suitable for use in agriculture.) This little-known soil enhancer has been shown in lab tests and field trials around the world to be beneficial for soil health and plant production, and we want to test it under local conditions.

This project is easy, fun, and an interesting activity for the whole family. We are also partnering with school garden programs, so if you are involved with one please contact us as well.

We want to be able to find correlations between people's ideas, behaviours and aspirations (all of which we are calling memes) and their health, wellbeing and lifespan.

If we can find ideas, memes, behaviours and aspirations that could potentially increase health, wellbeing and lifespan we use this data to create an academic dataset, educational tools and further citizen science and quantified self practices.

We are not just interested in finding associations with increasing average lifespan, or reaching the current maximum lifespan, but finding ideas and behaviours that may be correlated with increasing maximum lifespan as well as maintaining mutual health and wellbeing.

The dataset will be analysed using inter-disciplinary methods including linguistics, bioinformatics, omics, statistics, machine learning, computational modelling, memetics.

We would like to get at least 1000 participants, and many ideas, behaviours and aspirations per person.

I am a PhD student who has so far funded this project personally to following my passions (longevity science, science outreach and empowering people to be healthy, happy and long lived). I would really appreciate if you could take part and share this project with your friends and family.

What we think and do effects how long we will live and could potentially live - let us work together to find the best thoughts and actions to create a better world!

The Astro Drone game is part of a scientific crowd sourcing project. People who possess a Parrot AR drone can play the game, in which they are challenged to perform different space missions in an augmented reality. Contribute to future space exploration by playing the free Astro Drone game!

The iPhone app is more than a game. Players can choose to contribute to a scientific crowd sourcing experiment that aims to improve autonomous capabilities of space probes, such as landing, obstacle avoidance, and docking. The app processes the images made by the AR drone's camera, extracting abstract mathematical image features. These features can neither be interpreted by humans, nor can the original image be reconstructed. However, the features can be used by robots to learn how to navigate in their environment. Players can join the experiment by going to the high score table. If they agree, the feature data is sent over the Internet.

The first release contains the training level, in which players learn to dock as well as possible to the International Space Station. New levels will be added incrementally with new releases.

AstroDrone is a project performed by the Advanced Concepts Team of the European Space Agency.

The Canine Health Project tracks individual statistics on purebred dogs, using the Rat Terrier as a model. Information such as height, weight, date of birth, genotype, number of progeny and list of related individuals are recorded as a reference.

Join seafarers in the global scientific experiment to study marine phytoplankton.

The phytoplankton underpin the marine food chain, so we need to know as much about them as possible. To participate in this project, you'll need to create a Secchi Disk, a tool that measures water turbidity, and use the free iPhone or Android ‘Secchi’ application.

You can take a Secchi Disk reading as often as you wish, every day, once a week, twice a month, or just occasionally. The data you collect will help scientists around the world to understand the phytoplankton.

Join in and help make this the world’s largest public marine biological study.

Planet Four is a citizen science project in which volunteers help planetary scientists identify and measure features on the surface of Mars.

Scientists need your help to find and mark ‘fans’ and ‘blotches’ on the Martian surface, features that indicate wind direction and speed. By tracking these features, you can help planetary scientists better understand Mars’ climate.

All of the images you'll see depict the southern polar region, a little known area of Mars. The majority of these images have never been seen by humans until now.

This is your chance to explore the surface of Mars like never before!

You’ll learn your dog’s cognitive style by playing fun, science-based games –- an experience that gives you the insight you need to make the most of your relationship with your best friend.

A key aspect of the Dognition methodology is our use of Citizen Science – research that can be conducted by everyone, not just people with Ph.D.s. By gathering this data we can begin to understand more about all dogs, much more quickly and on a broader scale than if scientists had to conduct this research themselves.

Where are the invasive species in Maine? Where aren’t they? Students, educators, citizens, and scientists are working together to find out.

As part of the Vital Signs community you can help steward the 32,000 miles of rivers and streams, 6,000 lakes and ponds, 5,000 miles of coastline, and 17 million acres of forest that are threatened by invasive species.

Together we are using scientific tools and habits of mind to look for native and invasive species in local habitats. We are sharing what we find and do not find online. We are contributing to a greater understanding of our shared environment.

Come join our ongoing BioPrinter community project!

Did you know you can print live cells from an inkjet printer? Companies like Organovo are developing ways to 3D print human tissues and organs. But the basic technologies are so accessible that we wanted to play around with them ourselves.

We've built our own functioning bioprinter from a couple of old CD drives, an inkjet cartridge, and an Arduino. We probably won't be printing human organs any time soon, but how about printing a leaf from plant cells? Or add a BlueRay laser to turn it into a miniature laser cutter to print "lab-on-a-chip" microfluidic devices. The possibilities are endless - it all depends where *you* want to take it!

Our community projects are open to anyone, and are driven entirely by whoever wants to show up and participate. This is a great opportunity to come check out BioCurious, and jump into some of the projects going on.

This project has something for everyone, whether it's hardware hacking. programming, Arduinos, microfluidics, synthetic biology, plant biology, cell culturing, tissue engineering - you name it! Everyone has something to learn, or something to teach.

By just taking photos and observing spiders, you can help the Explorit Science Center learn about which climates certain spiders live in and track the distribution of spiders over time.

Join the Explorit’s Community Science Project by finding and recording spiders in your home or neighborhood (as many as you can!). Use your camera or smart phone to take a photo of the spider and submit it online to add to our geographical database.

Spiders have long been thought of a useful natural method of pest control, but how will expected temperature changes or other environmental changes affect the spider’s usefulness as pest-killers and their distribution?

We don't yet know how climate change will impact spiders, and in turn impact agriculture such as crops and farms- but when we understand where spiders are living today, we will be better able to predict what may happen to spiders and agriculture in the future.

Access to health care and the cost and safety of healthcare services are of critical interest to our country. Physicians and other professional care providers, and academic and community-based hospitals and clinics, are important partners in discovering the best methods to deliver care. Input from patients – the consumers of healthcare services – is also vital. Regenstrief Institute, Inc., an internationally recognized healthcare research organization affiliated with the Indiana University School of Medicine, is conducting an online contest, inviting submission of original ideas for improving the delivery of health care in the U.S. As an academic institution, we are particularly interested in the ideas of our next generation of young professionals and scientists. The winning idea will be selected by a panel of medical and community-based professionals and researchers, according to the following criteria: innovative idea with measurable impact for healthcare consumers; feasible to implement in the U.S. healthcare system within five years; and compatible with Regenstrief Institute’s mission to improve health through research that enhances the quality and cost-effectiveness of health care. The prize includes a trip for the winner to Indianapolis, Indiana for the idea kick-off at the Indiana University School of Medicine and Regenstrief Institute, Inc.

Landmark Trees of India is a documentation, geography, and monitoring project with a focus on famous, remarkable, and heritage trees of India.
India is a country of superlative population, superlative biodiversity, and superlative environmental variety. These landmark trees can teach us about the landscapes, biodiversity, and people of India and the other nations of the world.

We are a group of scientists interested in exploring the potential applications of Ecuador’s unique biodiversity. As a first step, we are working to assemble and apply gene libraries collected from around the country.
You can join field trips in Ecuador to collect samples, work in a lab extracting and sequencing nucleic acids, or from home assembling and curating the electronic database.

This is a transcription project that aims to transcribe the Digital Bleek and Lloyd Collection, written in the late 1870's. This collection contains scanned notebooks of |Xam and !Kun languages of the Hunter-Gatherer (Bushman) people of Southern Africa.

Science Pipes is a free service that lets you connect to real biodiversity data, use simple tools to create visualizations and feeds, and embed results on your own website.

SciencePipes allows anyone to access, analyze, and visualize the huge volume of primary biodiversity data currently available online. This site provides access to powerful scientific analyses and workflows through an intuitive, rich web interface based on the visual programming paradigm, similar to Yahoo Pipes. Analyses and visualizations are authored in an open, collaborative environment which allows existing analyses and visualizations to be shared, modified, repurposed, and enhanced.

Behind the scenes, SciencePipes is based on the Kepler scientific workflow software which is used by professional researchers for analysis and modeling. SciencePipes brings that scientific power to new audiences by consolidating the same workflow components used by scientists into pieces that have more intuitive meaning, and by providing components specifically targeted to these audiences.

Because SciencePipes provides tools for original data analyses rather than visualizations of predetermined analyses, it empowers users to develop new and valuable results. Those results can be exposed as dynamic web resources, in web contexts unrelated this site. Finally, because of the generality of the Kepler scientific system upon which this site is built, this online system can be extended to science and engineering disciplines beyond the environmental sciences.

The Canadian Forest Service is asking Canadians to use their local knowledge to identify possible deforestation areas.

Satellites produce much of the available imagery about Canadian forests. However, many of these images do not have enough detail to identify an area has been deforested. The only way to identify deforestation is to visit the area in person. These visits involve travel by air and land vehicles, which results in heavy use of fossil fuels.

By asking local people to visit the sites and then report back to us on the event, we can saving money, reduce travel costs/green house gas emissions, and engaging citizens with their local environment. In addition, your local knowledge and input can help reduce our carbon footprint and deliver one of the most accurate Carbon accounting estimates in world.

uBiome is the world's first effort to map the human microbiome through citizen science.

What's the microbiome? The microbiome are the bacteria that live on and within us. It sounds kind of funny, but all of us are actually covered in helpful germs. Many conditions – from diabetes to depression, asthma to autism -- have been found to relate to the microbiome.

uBiome brings this cutting edge technology directly to consumers for the first time. The more data we collect, the more we can learn about this important area of research. We've been featured so far in Wired, Venture Beat, the Los Angeles Times, Scientific American, BoingBoing, and more.

Magpie Mapper is a smartphone app for recording observations of Magpies, one of the most fascinating and striking birds in the United Kindgom. When you see a magpie, simply log it on the app and your data will be used in our research into how birds are distributed throughout our towns cities and countryside.

With their long tails and impressive black and white plumage, magpies are unmistakable. Magpies are so ingrained in our folklorethat people often greet them with "Hello Mr Magpie!".

Now you can digitally salute a magpie with the Magpie Mapper app!

Marblar is unique and fun way to engage in citizen science and exchange ideas across disciplines. Marblar posts research projects in need of creative, real-world applications and they ask YOU to come up with those applications.

Singing up is easy and free and there are new projects added regularly. Projects are posted for three weeks. Through online collaboration, the final solutions are posted for users to vote on and further discuss. Top solutions are even awarded cash prizes!

Beginning November 14 through the end of the year, students ages 13-18 around the globe are invited to participate in “Data Detectives”, an engaging web experience to learn about how Big Data will impact their lives and the world they will be inheriting.

Data Detectives is the student component of the Human Face of Big Data, a global crowdsourced project conceived by “Day in Life” series creator Rick Smolan. It aims to help people better visualize the ways big data is shaping our future on this planet, and includes a smartphone app, worldwide events, a large format illustrated book with an interactive iPad app, and a documentary.

The Data Detectives initiative invites students to answer questions, explore fascinating examples of how Big Data is changing their world, interact with real-time data and see how other students around the globe are impacted in similar and different ways.

Nonmarine ostracods, tiny crustaceans with an excellent fossil record, are common in aquatic ecosystems. The Ostracod Metadatabase of Environmental and Geographical Attributes (OMEGA) facilitates access to global geographical and environmental distributional data for nonmarine ostracods, supporting applications in biodiversity auditing, biogeography and the calibration of species as fossil proxies for past environmental and climatic change. Citizen Scientists can help improve accuracy and coverage of datasets by adding, correcting and validating the geographical coordinates of localities.

The Museum of Natural History, Los Angeles County, is partnering with Butterflies and Moths of North America (BAMONA) to share data and learn more about L.A. butterflies and moths. Help us find and photograph them in Los Angeles.

We know there are 237 species recorded for L.A, County, but how many can you find?

Help scientists recover Arctic and worldwide weather observations made by United States’ ships since the mid-19th century.

These transcriptions will contribute to climate model projections and will improve our knowledge of past environmental conditions. Historians will use your work to track past ship movements and tell the stories of the people on board.

Hurricane Sandy is currently moving northward along the East coast of the USA (as of 10/29/12), and is expected to collide with a cold front and move inland across the northeastern USA during the next several days. On Friday, WaterIsotopes initiated a call for assistance in collecting samples of precipitation (both rain and snow) associated with the passage of this system.

The goal is to develop an unprecedented spatial and temporal dataset documenting the isotopic composition of rainwater (and snow) associated with this major storm system. These data will tell us about water sources and cycling within the storm system.

We're hoping to see evidence for changes in water sources to the storm as it first collides with the approaching cold front and then leaves the ocean to traverse the NE USA.

There are cures for cancers buried in our data. Help us find them.

Cancer Research UK and the Zooniverse need your help to classify archive cancer samples. We’re on the brink of many new breakthroughs. By giving just a few minutes of your time and a few clicks of your mouse, you can help accelerate our research. By doing so, you are helping us to make these breakthroughs happen faster.

Each image you will see is a tiny tumour sample from a huge dataset. Help our scientists to accelerate the analysis of this data by identifying the coloured sections of the image using our prompts, and bring forward the cures for cancers.

Get to know the nature of YOUR world! The Fairbanks Community of Observers is to encourage greater public clarity around environmental indicators of climate change in Vermont and northern New Hampshire. Using the website developed by the Fairbanks Museum, we'll collect your quantitative data focused on the life cycles of specific birds, butterflies and wildflowers that are sensitive to environmental change as well as seasonal weather data that is characteristic to our region.

The Community of Observers is for individuals, families, clubs, groups and schools. It is designed to encourage citizen scientists to gain a deeper understanding of the cycles and patterns that characterize our region through the seasons, and how the habitats that depend on these cycles might be affected by global climate shifts.

The Bodleian Libraries are enlisting the help of the public in order to improve access to their music collections. Over four thousand digitized scores, mostly piano music from the nineteenth century, many of which have illustrated covers, have now been made available online.

By describing these images, you will not only be helping to provide access to this valuable but hitherto 'hidden' collection, you will also be facilitating future research into popular music of the period and the wider social function which it performed during the Victorian age.

The Geo-Wiki Project is a citizen science network that hopes to improve the overall quality of land use and land cover maps across the globe. They host a variety of projects, all of which use their online Google Earth Application to enlist citizen scientists to improve spatial data. By comparing global land use and land cover data to the aerial photography that appears in Google Earth, you can help improve the validity of important data that is being used to solve important global problems.

Geo-Wiki supports a variety of projects that tackle issues that include climate change, the bio-diversity of plants, and the viability of changing agriculture.

They even have developed mobile apps that allow you to ‘ground truth’ data by adding your own photographs of what’s near you.

Video games have the potential to do more than entertain. Citizen Sort is taking advantage of this potential by designing video games that make doing science fun.

Citizen Sort is a research project at the School of Information Studies at Syracuse University in New York. Students from Syracuse University drew, colored, programmed and coded two unique citizen science video games. They are Forgotten Island and Happy Match.

Happy Match is a twist on the classic matching game. Players will classify photos of animal, plant and insect species that scientists took live in the field. Each round of the game has a different question and players will drag the animal, plant or insect photo into one of the photo answers along the bottom. Scientists wrote the questions in Happy Match based on information they want to know. By classifying the photos, you'll these help scientists as they study the natural world.

Forgotten Island is a point and click adventure game. Players take on the role of a lost adventurer with a secret past. As the player explores the island they meet a suspicious robot spouting orders to re-classify the falling photographs of plant, animal or insect species. The player will also solve puzzles and explore diverse locations from icy peaks to fiery volcanoes.The more classifications a player does, the more money they earn buy items and solve the mystery of Forgotten Island.

Citizen Sort is partially supported by the US National Science Foundation under grant SOCS 09-68470.

eCYBERMISSION is a web-based Science, Technology, Engineering and Mathematics (STEM) competition free for students in grades six through nine where teams can compete for State, Regional and National Awards while working to solve problems in their community. Deadline to sign up: January 15th

eCYBERMISSION challenges you to explore how Science, Technology, Engineering and Mathematics work in your world.

Biodiversity Volunteer Portal

Helping to understand, manage and conserve Australia's biodiversity through community based capture of biodiversity data.

Help us capture the wealth of biodiversity information hidden in our natural history collections, field notebooks and survey sheets. This information will be used for better understanding, managing and conserving our precious biodiversity.

ZooTeach is a website where teachers and educators can share high quality lesson plans and resources that complement the Zooniverse citizen science projects. Citizen science offers a unique opportunity for any person, of any age, of any background to get involved and make a contribution to cutting edge science. Here at Zooniverse headquarters we believe that getting students involved in citizen science offers educators a free, easily accesible and inspiring opportunity to bring real science into the classroom.

Join thousands of people around the world in a conversation about World Wide Views on Biodiversity. What do you think about the way biodiversity is managed? How do you think we should solve the problem of biodiversity loss? Tell us – and see what others are saying!

On Saturday, September 15, people in over 30 countries joined together for a day of deliberations about these issues. There is still time to add your voice – use the materials on the project's site to learn more about the issue of biodiversity, and then chime in with your ideas. Strike up a conversation with your friends to help inform your decision, or leave a comment to start a discussion with others.

Biodiversity is the species, genetic, and ecosystem diversity in an area, sometimes including associated components such as landscape features or climate. Still feel like you need to know more? You can dive deep into the issues with information from some of the National Research Council’s recent and historic work on the topic. Or skip ahead to the booklet, which all participants in the World Wide Views on Biodiversity deliberations received.
Charge:

Vote to add your voice to the conversation.

SatCam lets you capture observations of sky and ground conditions with a smart phone app at the same time that an Earth observation satellite is overhead.

When you capture a SatCam observation and submit it to our server, it helps us to check the quality of the cloud products that we create from the satellite data. In return, we send you the satellite image that was captured at your location, anywhere in the world! SatCam supports the Terra, Aqua, and Suomi NPP satellites.

SatCam was developed at the Space Science and Engineering Center, University of Wisconsin-Madison .

NASA’s Jet Propulsion Laboratory (JPL) needs you to take complex scientific data and images and turn them into informative graphics to convey a simple and easy to understand messages! The JPL’s newest venture is called JPL Infographics, and they need your help to create and post your very own creations of scientific graphic art.

All of the resources are at your fingertips, including high-resolution images, 3-D models, fact sheets, and loads of other data build your very own Infographics. You can browse the numerous of other user creations to get inspired and then upload your creation online!

This is a really fun and challenging project and your work will be used to educate and inform others on the goings on of cutting-edge space exploration. So fire of both sides of your brain and create some educational space art!

Just listen to a few laughs and tell us whether they are real or posed.

The results will help scientists from University College London to understand the way we perceive and react to different sounds. The experiment should take about 10 minutes.

The Meteon Network is an ambitious collaboration in Italy to make scientific data from over 400 weather nationwide stations available in an easy to understand visual interface. You can now join in this groundbreaking work and gain access to loads of real time data. You can even add your own data and share analysis among the many members of the network.

The Meteon Network also employs several newer, more human centric, data products including something they call ‘weatherness’, among others, that are normalized to an easy to understand scale. All of these, and several other more traditional weather related measurements, are all displayed in real time on the Network’s interactive mapping application.

This kind of nationwide effort to monitor, analyze, and give citizens a more complete picture of weather may serve as a model for others to follow. Now is your chance to get involved in a trailblazing project and get into weather today!

This DIY mapping tool was the first developed by Public Lab, as part of the Grassroots Mapping project. Citizens use helium-filled balloons and digital cameras to generate high resolution “satellite” maps of areas such as in the Gulf Coast and Gowanus Canal. Although this tool has been in use for two years, components of the kit -- kite and balloon design, the rig, the camera -- continue to evolve as they are adopted in new places and adapted for new purposes. Besides the aerial mapping tools, Public Lab has also developed MapKnitter.org, an online tool for stitching aerial images into maps.

Infrared photography can help in assessing plant health, and has been used on satellites and planes for agricultural and ecological assessment primarily by vineyards, large farms and large-scale (read: expensive) research projects. By creating and open-sourcing a low-cost near-infrared camera and working with wetlands advocates, farmers and environmental activists, the Public Lab community has begun to explore grassroots uses for this powerful analytic technique.

The U.S. Geological Survey is asking volunteers to help map man-made structures and facilities, such as schools and fire stations, in the state of Colorado then, in a few months, the United State. Using an internet mapping application, volunteers can help the USGS update The National Map by correcting or adding information about structures nearby.

"Correctly locating and identifying fire stations, police stations, schools, and hospitals not only makes USGS maps more useful, but can literally save a life," said USGS Director Marcia McNutt.

This smartphone app will help you explore habitats in your area and easily monitor wildlife populations by logging locations, photos, and responding to form questions all with the ease of your smartphone.

More than 7,000 ring-billed gulls have been marked near Montreal, Quebec with individually coded bands to track their movements throughout their annual cycle. We are more specifically interested by their post-breeding dispersal and their fidelity to their colony. Repeated observations of individuals also allow us to estimate annual survival. This is part of a larger study that aimed at understanding the behavior and population dynamics of these birds within an integrated management framework.

At this very moment in Serengeti National Park, 200 cameras are flashing throughout the night, in corners of the park where tourists never go.

These are camera traps -- remote, automatic cameras that take pictures of passing wildlife - and the Serengeti Lion Project is conducting the largest-ever camera trap survey to better understand the Serengeti ecosystem. The camera traps capture over 1,000,000 images of wildlife each year, capturing the grandeur of the wildebeest migration and rarely seen species from aardvarks to zebras.

Help to transmit these photos by satellite from the Serengeti to the U.S., where they can be analyzed to advance science and conservation. Join this unprecedented initiative to bring cutting edge technology to the wilds of Serengeti, and you'll get first access to witness the Serengeti Live on your computer.

Australia's national crowdsourced koala map, plotting the locations of koala populations in the wild, points of impact, causes of death and injury. Become a member of KoalaTracker.com.au to view the map, search the database, see the library of member images available for use in non-commercial projects. Learn more about the koala and how you can really do something to save it before it is too late.

We are currently seeking research assistants to join our field team in Ecuador studying the conservation ecology of reptiles and amphibians.

While Ecuador is a relatively small country—it’s roughly the size of Arizona—it stands as the third most diverse country in the world for amphibians (510 species) and is seventh for reptiles (430 species), making it a herpetologically mega-diverse region. Due to the severe deforestation taking place in addition to many other pressures on Ecuador’s fauna, TBG research program aims to study, document, and preserve these rich and unique communities of reptiles and amphibians found within the country’s diverse array of ecosystems.

As we are now in our 8th year working in Ecuador, we have study sites encompassing both the coastal forests in western Ecuador and the Amazon rainforest on the eastern side of the Andes Mountains. The work that research participants will be involved with will primarily consist of conducting night surveys for reptiles and amphibians (however other taxa such as invertebrates are also of interest), animal data collection, and lab work. Lab work consists of more detailed information such as scale counts (for reptiles) and other morphological information, animal measurements, screening for chytrid disease (amphibians), preservation (only when necessary), and acquisition of DNA samples. Diagnostic photographs of all animals will be taken. Other tasks include animal handling and general note taking and data organization

Volunteer participants will gain valuable research experience, contribute towards our mission in conservation ecology, and will have an unforgettable experience that provides the opportunity to study the most biologically diverse region of reptiles and amphibians in the world. For 2013 we now have expeditions scheduled in Western Ecuador for February 2-13 and FeBruary 16-27 and in Amazonian Ecuador for June 2-13.

The chloroplasts inside plant cells appear to "clump" together during bacterial infection; this can be devastating for plants and seriously compromise crop yields. We need your help to classify plant cell images by their "clumpiness" in order to further this research.

Helping us to classify the images will give insights into the progression of bacterial infection in plant cells.

ZomBee Watch is a citizen science project sponsored by the San Francisco State University Department of Biology, the San Francisco State University Center for Computing for Life Sciences and the Natural History Museum of LA County. ZomBee Watch was initiated as a follow-up to the discovery that the Zombie Fly Apocephalus borealis is parasitizing honey bees in California and possibly other areas of North America.

ZomBee Watch has three main goals.
1. To determine where in North America the Zombie Fly Apocephalus borealis is parasitizing honey bees.
2. To determine how often honey bees leave their hives at night, even if they are not parasitized by the Zombie Fly.
3. To engage citizen scientists in making a significant contribution to knowledge about honey bees and to become better observers of nature.

We need your help finding out where honey bees are being parasitized by the Zombie Fly and how big a threat the fly is to honey bees. So far, the Zombie Fly has been found parasitizing honey bees in California and South Dakota. We are teaming up with citizen scientists (like you!) to determine if the fly has spread to honey bees across North America.

We need your help to better understand dragonfly migration in North America. Although it spans three countries and has been documented since the 1880s, North American dragonfly migration is still poorly understood, and much remains to be learned about migratory cues, flight pathways, and the southern limits of overwintering grounds. Become part of an international network of citizen scientists and help monitor the spring and fall movements of the 5 main migratory species in North America, or report on these species throughout the year at a pond or wetland of your choice.

Counting butterflies for just fifteen minutes could help scientists better understand the environment. The Big Butterfly Count is a recently started national survey that hopes to engage citizen scientists by creating easy and engaging survey methods. Started by the charity group Butterfly Conservation in 2010, the program has grown to over 34,000 participants!

The big butterfly count takes place this year from Saturday 14th July - Sunday 5th August 2012. All you have to do is submit your butterfly counts for just fifteen minutes of observation. A colorful identification poster is available online and submission on the project website couldn’t be easier.

Butterflies are quite sensitive to changes in the environment and are excellent indicators of potential issues with other wildlife. By studying the trends in butterfly counts, scientists can better understand the relationships between wildlife and the environment.

This is an easy, fun, and meaningful way to engage in science. Print out an identification poster, get outside, and start counting!

What should we do about climate change?

Somehow we have to answer this question. You can help. The Climate CoLab seeks to harness the collective intelligence of contributors from all over the world to develop solutions to the problem of global climate change.

In this online global forum, people can create, analyze and select detailed proposals outlining the actions they believe should be taken to address climate change.

Tomatosphere offers students an opportunity to run real scientific experiments and help Canadian scientists study long-term space travel.

Through a comprehensive project curriculum for students in grades 3-10, Tomatosphere aims to inspire students by engaging them in real and meaningful science. Students are charged to monitor and record the germination rate for pre-treated tomato seeds in order to give researchers a better understanding of the long-term viability of growing tomatoes in space. The study is set up as a blind study with a control group of untreated seeds and a group that has undergone exposure to space-like conditions, including low temperatures and pressures. Oh, and you are highly encouraged to eat your final product!

The project provides a wealth of teacher and student resources as well as supplemental curriculum to add valuable extensions to student’s learning. Registration and data submission is easy through the Tomatosphere website.

Petridish allows citizens to support science by directly funding independent and small -scale research projects. While this is a somewhat non-traditional citizen science project, funding is an important part of science, and Petridish allows science lovers everywhere to truly make a difference and support innovative science.

Similar to other crowd funding style websites, Petridish lets you browse projects and donate online to the research projects of your choice. Each project has a variety of donation levels with enticing rewards for each level. Typical rewards included souvenirs from the field, acknowledgement in journal articles, chances to join researchers in the field, dinner with a famous researcher, and even naming rights to new species!

You can explore projects by both research subject and reward type. After you donate, share your involvement and information about the project through Facebook and Twitter and help projects gain momentum and reach their goals.

Calling all Citizen Scientists to contribute your thoughts to the DEVISE project and help develop tools to measure learning in citizen science! DEVISE (Developing, Validating, and Implementing Situated Evaluation Instruments) is an NSF-funded project spearheaded by the Cornell Lab of Ornithology. A major goal of DEVISE is to help project leaders evaluate the many different ways in which participants learn as they collect, analyze, and manipulate data. We need your feedback to develop tools that can accurately measure outcomes related to science and environmental interest, knowledge, skills, and behaviors. Participating in this project is easy – just follow the link "get started now" above right, and give your thoughts on topics such as the Nature of Science, Motivation, Science Inquiry Skills, and Environmental Stewardship. There are no right or wrong answers - we just want your opinions.
Simply click the Join In tab above or the Get Started button to the right!

The Solar Hydrogen Activity Research Kit (SHArK) Project gives you the tools to discover a storable form of solar energy.

Solar energy is the only option for producing the renewable carbon-free power needed to power the planet. However, because the sun doesn't shine at night, it is critical that we develop a method to store the energy for night. Producing hydrogen from sunlight and water is an ideal solution to the storage problem.

The SHArK Project uses the process of photoelectrolysis, whereby certain metal oxides are used with solar energy to split water into hydrogen and oxygen. Currently, no known stable material is capable of efficiently and inexpensively photoelectrolyzing water with visible light. There are, however, millions of untested compounds that might.

This is where students can take the reigns and contribute to real and meaningful science. The SHArK project provides inexpensive kits that include inkjet printers, laser pointers, and LEGOs® to allow students a fun and engaging way to explore chemistry and contribute potential solutions to the world’s energy problem.

Harness the power of the sun with the SHArK Project!

Do you have an Astronomy Story to tell? Create interactive, narrated tours about your favorite astronomical objects in WorldWide Telescope, and share them with the world.

Solitary bees and wasps in your own backyard!!!

Native Buzz is a citizen science project created by the University of Florida (UF) Honey Bee Research and Extension Lab. Our goal is to learn more about the nesting preferences, diversity and distribution of our native solitary bees and wasps, share the information gained and provide a forum for those interested in participating in the science and art of native beekeeping (and wasp-keeping!).

Here at University of Florida Native Buzz you can keep track of your own native buzz nest site and see the results of other participant’s nest sites.

River otters are ideal ambassadors for habitat preservation and restoration since they are charismatic carnivores reliant on healthy watersheds to thrive. The River Otter Ecology Project strives to build understanding and shed light on the conservation status and ecology of the North American river otter and the ecosystems they inhabit in the San Francisco Bay Area. Our work will serve to fill key gaps in the biology and ecology of these elusive but important aquatic carnivores while also directly engaging the public in their conservation through field-research, environmental education and strategic restoration partnerships.

You are invited to the Hubble Space Telescope's vast science archive to dig out the best unseen Hubble images -- and win prizes!

Over two decades in orbit, Hubble has made a huge number of observations. But hidden in Hubble’s huge data archives are still some truly breathtaking images that have never been seen in public. The archive is so vast that nobody really knows the full extent of what Hubble has observed.

This is where you come in. Researchers need you to find and tweak Hubble observations using a set of simple online tools. If you're feeling saucy, you can find Hubble observations and then process them using professional astronomical imaging software. You can win various Apple products and goodies.

Competition ends May 31, 2012.

The North American Bird Phenology Program, part of the USA-National Phenology Network, was a network of volunteer observers who recorded information on first arrival dates, maximum abundance, and departure dates of migratory birds across North America. Active between 1880 and 1970, the program was coordinated by the Federal government and sponsored by the American Ornithologists' Union. It exists now as a historic collection of six million migration card observations, illuminating almost a century of migration patterns and population status of birds. Today, in an innovative project to curate the data and make them publicly available, the records are being scanned and placed on the internet, where volunteers worldwide transcribe these records and add them into a database for analysis.

Ancient Lives allows citizen scientists to help transcribe ancient papyri texts from Greco-Roman Egypt. The data gathered will help scholars reveal new knowledge of the literature, culture, and lives of Greco-Romans in ancient Egypt.

The 1,0000 year old transcripts were originally found by researchers in 1896 in the city of Oxrhynchus, often called the ‘City of the Sharp-Nosed Fish’. Over the next decade, over 500,000 fragments of papyri were uncovered and the collections stands today as largely unstudied. That is why Ancient Lives needs your help to measure fragments and transcribe Ancient Greek characters.

The project is a collaboration between researchers at Oxford University and several other international groups.

Planet Hunters is a project from Zooniverse where citizen scientists help astronomers identify new planets.

Through data taken from the Kepler Spacecraft, citizens are helping scientists identify stars with possible planets in the Cygnus constellation. The Spacecraft takes brightness data every thirty minutes from over 150,000 stars so there is a lot to look at.

When planets pass in front of stars, the brightness of that star dips, which shows up on the light curves taken from Kepler. These patterns are not always easily recognized by computer algorithms, and in many cases, the human brain is actually more capable of identifying brightness dips.

How much will the ground shake when your students take part in the Big Cheer on April 27, 2012 at 1:30pm ET (10:30am PT)?

Join the Big Cheer for Science on April 27, 2012 at 1:30 pm ET, presented by SciStarter, Science Cheerleader, USGS, the Iris Consortium, Discover Magazine and the USA Science and Engineering Festival. Anchored at the USA Science and Engineering Festival in Washington, DC, this one minute cheer will include plenty of stomping and shaking in an effort to get kids jazzed about science AND measure seismic activity caused by their cheer!

Liven up your classroom with a cheer that students do standing next to their desks.

In Washington, DC, dozens of Science Cheerleaders (scientists and engineers--who also happen to be cheerleaders for the Redskins, Wizards and Ravens among other NFL and NBA teams) will lead a one minute cheer for science with 10,000 students at the DC Convention center. While we're doing the cheer in DC, hundreds of schools across the country will do the same cheer at the same time.

During the cheer, you can have your students record your local ground movement during the Big Cheer and share it with other participating schools for comparison. Comparisons can be further made to how much the ground shakes during the Big Cheer at the Washington D.C. Convention Center and in your classroom and to how much it shakes during an actual earthquake.

To join the Big Cheer, click on the Join In tab above or the "Get Started" button to the right!

To learn about hundreds of other research projects in need of help from the public, check out the SciStarter Project Finder: http://scistarter.com/finder.

GOOOO SCIENCE and ENGINEERING!

Submit your cellular images to The Cell: An Image Library - CCDB is a public and easily accessible resource database of images, videos, and animations of cells, capturing a wide diversity of organisms, cell types, and cellular processes. The purpose of this database is to advance research on cellular activity, with the ultimate goal of improving human health.

This Library is a repository for images and movies of cells from a variety of organisms. It demonstrates cellular architecture and functions with high quality images, videos, and animations. This comprehensive and easily accessible Library is designed as a public resource first and foremost for research, and secondarily as a tool for education. The long-term goal is the construction of a library of images that will serve as primary data for research.

The Library effort represents not only the creation of the electronic infrastructure, but also a systematic protocol for acquisition, evaluation, annotation, and uploading of images, videos, and animations.

FieldScope is a community web-mapping tool that promotes student engagement as citizen scientists and involves them in learning through mapping. By combining easy data integration with powerful mapping visualization, FieldScope is on the cutting edge of community mapping.

The application is accessed online and is requires no installation. Students are able to upload field data photos and other media as well as collaborate with other students and scientists, and perform analysis on existing data. There are many rich projects to choose from, including mapping water quality in the Chesapeake Bay, investigating watershed dynamics, and mapping rivers and streams in the National Parks.

With students able to contribute and interact alongside scientists, meaningful science is sure to happen!

Help scientist improve maps of Mars and participate in other research tasks to help NASA manage the large amount of data from the Red Planet.

Users create Martian profiles and become "citizens" of the planet. In the map room, citizens can then earn Martian credits by helping place satellite photos on Mars’s surface, counting craters, and even helping the rovers Spirit and Opportunity by tagging photos with descriptions.

The highly interactive website is rich in content and contains other informational videos and mapping applications for citizens to tour Mars and get to know every nook and cranny of its rocky surface.

Become a Martian, explore Mars, have fun!

Help scientists with the Lunar Reconnaissance Orbiter better understand the structure and history of the lunar surface: identify, measure, and classify images of craters on the moon. Your efforts will help us define the places future missions will study closer - including perhaps even future human missions.

The Zero Robotics Autonomous Space Capture Challenge asks individuals and teams of programmers from around the world to develop a fuel-optimal control algorithm. The algorithm must enable a satellite to accomplish a feat that’s very difficult to do autonomously: capture a space object that’s tumbling, spinning or moving in the opposite direction.

From March 28 to April 25, 2012, challenge participants will collaborate via the Zero Robotics Website to create a computer algorithm that will be programmed into bowling-ball sized satellites called SPHERES (short for Synchronized Position, Hold, Engage, and Reorient Experimental Satellites) aboard the International Space Station (ISS). An object, simulating a Phoenix payload on-orbit delivery system, will be set in motion inside the ISS under varying conditions, such as tumbling or spinning. The algorithm developed will need to direct the SPHERES satellite to approach the moving object and orient itself to contact with the object via Velcro on the SPHERES satellites.

The winners of each round will be invited to the Massachusetts Institute of Technology to view the finals via videolink from the ISS, where the four algorithms will be programmed into SPHERES and tested.

Zero Robotics is co-sponsored by NASA and is run by the Massachusetts Institute of Technology’s Space Systems Laboratory to engage U.S. middle and high school students in science, technology, engineering and mathematics (STEM).

You don’t have to be a science expert to be a brilliant solar stormwatcher. Help scientists spot explosions on the Sun and track them across space to Earth. Your work will give astronauts an early warning if dangerous solar radiation is headed their way. And you could make a new scientific discovery.

Explore interactive diagrams to learn out about the Sun and the spacecraft monitoring it. The STEREO spacecraft is scientists’ latest mission to study the Sun and space weather – not clouds and rain, but how solar storms change conditions in space and on Earth.

Solar Stormwatch isn't just about classifying data. You can talk to other members on our forum, sign up for our space weather forecast from Twitter, and learn about the latest discoveries on our blog. You can also see how solar storms affect Earth at our Flickr group Aurora chasers, featuring beautiful photos of aurora.

if you’d like to know more about what you’re looking at, then explore our beautiful and interactive zoomable diagrams to find out about the Sun and the STEREO spacecraft monitoring it. And check out our scientists’ profiles too.

Temperature Blast is a Maryland Science Center C3 Citizen Science project designed to introduce participants to methods of studying climate. Citizen Scientists collect live and archive Weatherbug data from select stations in the Baltimore region to compare temperatures and log this data for scientists.

Scientists at the Baltimore Ecosystem Study then use this data to test models of temperature patterns across the city to aid in urban planning. This data illustrates the Urban Heat Island effect on the area, a phenomenon classified by temperature differences between a metropolitan area and more rural landscape nearby. An Urban Heat Island is not an effect of climate change, but rather of our activity shaping the environment around us.

Using either this website or our Smartphone application (available free of charge for both iPhone and Android) Citizen Scientists submit temperature data from six weather stations in the Baltimore region. The purpose of this is to collect a stream of simultaneous data from multiple sites in and around the metropolitan area. This data, along with first-hand location observations, will be used to understand the Urban Heat Island Effect in Baltimore.

Anyone with access to the Internet and/or a Smartphone can be a Citizen Scientist and participate in Temperature Blast!? While the data obtained from the program is relevant to the Baltimore metropolitan region, there is no geographic or age restriction for Citizen Scientists.

In order to conduct a large-scale survey of urban spiders, we need the help of the public. We are asking people to collect spiders in their homes and gardens, fill out a simple data sheet about their collection, and send or bring the spiders and forms to the Natural History Museum.

In spite of their importance and abundance, we do not know much about the spiders in Los Angeles. There are no truly large collections of urban spiders from this area, as most collectors concentrate on studying natural areas.

As an important international port, new species of spiders from various parts of the world are always being accidentally introduced into the Los Angeles area, and some of these have established breeding populations. We need to know how widespread these introduced species have become, and how they have interacted with the native spiders. Also, we want to know how urbanization and the loss of natural habitat has affected populations and distributions of naturally occurring spiders.

In the late 1990′s, bee biologists started to notice a decline in the abundance and distribution of several wild bumble bee species. Three of these species (western bumble bee, rusty patched bumble bee, yellowbanded bumble bee) were once very common and important crop pollinators over their ranges. Franklin’s bumble bee was historically found only in a small area in southern Oregon and northern California, and it may now be extinct. A recent study led by Sydney Cameron, Ph.D., has also drawn attention to a rapid decline of the American bumble bee.

We are very interested in tracking the status of these five bumble bee species and finding out where current populations are situated. If you have seen any of these bees please send us a photo. If you are interested in finding out more, would like to see the historical distribution of these bumble bees, or would like to know how to identify them, please visit our website.

We are also interested in collecting information about bumble bee nesting habits. Please let us know if you have found one.

The Wolbachia Project brings real-world biology research into high school and undergraduate classrooms to empower students with science.

Mission

The four core goals of this initiative are:

1. Engage citizen scientists in nature and real-world research

2. Encourage international participation in the collection of new scientific data on Wolbachia bacteria that live inside insects and other arthropods

3. Enhance interest in science through an integrative lab series spanning biodiversity to molecular biology

4. Give people an idea of what it's like to be a scientist.

Outline:

In this integrative lab series, you will collect insects and other arthropods in your local area, identify the organism using an online key, extract DNA from the animal, use biotechnology techniques to test for the presence of Wolbachia bacteria in your samples. You will also be able to send your sample to a research institute that will sequence the Wolbachia DNA so you can do a bioinformatic / phylogenetic analysis of the Wolbachia symbiont.

SETILive is an exciting new project in which volunteers try to detect extraterrestrial signals from space.

The Search for Extraterrestrial Intelligence (SETI) uses images from the Allen Telescope Array and powerful computer algorithms to search for these signals automatically. However, the computer algorithms have a hard time distinguishing between signals that might be extraterrestrial and those that are from earth. This is where you come in!

Researchers need your help to find interesting signals in all that noise. Eventually, they want to learn whatever tricks you use to do your classifications, so they can teach their computer algorithms to do the same thing.

Students and teachers will gain hands on experience undertaking field work led by a team of experienced scientists from CSIRO. A comprehensive website is available (teachwild.org.au) to further student learning and to provide a unique, protected environment in which students and teachers can connect with other schools across the country to share their experiences. Also, students can continue their monitoring program without the assistance of our staff.

Your school will be provided with access to the Australian Biosecurity Intelligence Network (ABIN) and our Teach Wild secure community space. This community space will be kept up to date with innovative information about marine debris.

The activities have been developed to ensure part of the key learning areas in Science, Maths and Geography in the Australian Curriculum are achieved for years 6‐12.

The Your Wild Life team needs citizen scientists to go boldly where few have gone before -- into the life-filled ecosystem of your house!

The species in and around our households are interesting intrinsically. They are the ones we interact with most often, and they are the species among which evolution is likely proceeding most rapidly. These species living on and beside us are also interesting for another very important reason: their presence and absence may directly influence our health and wellbeing.

Yet curiously scientists have dedicated relatively little attention to understanding the ecology and evolution of the species that live alongside us, be they bacteria, fungi, or insects…until now.

With simple sampling devices, statistical wherewithal, and the ability to detect invisible species using genetic methods, scientists now have the tools and techniques necessary for domestic exploration. But they're missing one very important member of our team: YOU.

With an easy-to-use sampling kit, you can help research test a handful of hypotheses related to microbial wild life in and around you home.

The Your Wild Life team needs citizen scientists to share observations and photos of camel crickets in your home!

To date, their network of keen citizen observers has reported a preponderance of camel crickets in their basements, garages and garden sheds. Some interesting patterns in cricket distribution have emerged, and the researchers have learned that a Japanese camel cricket is way more common in the US than previously thought.

Have you seen one of these leggy beasts? Submit your observations today!

With AlmereGrid you can donate your unused computing time to science. We are located in the Netherlands and support Dutch - and other European universities. Currently we run medical applications from the Erasmus MC - an academic hospital in Rotterdam. We try to communicate in Dutch as much as possible with our volunteers.

Bumble bees are important pollinators, and science needs YOUR help to conserve them. You can contribute to our knowledge of bumble bees and their lives all over the world. Your contribution will tell us about which bumble bees live where, the flowers they visit, and when they're active during the year.

The photo group is administered by Athena Rayne Anderson, a doctoral candidate in Ecology at the University of Georgia, and author of the website.

EyeWire is a citizen science project aimed at mapping the neural connections of the retina. All you have to do is play a relaxing and absorbing game of coloring brain images!

In the game, participants reconstruct the tree-like shapes of the neurons in the retina. By tracing branches throughout images, you can help the computer develop 3-D reconstructions of the neurons.

Anyone can participate – you don’t need any specialized knowledge of neuroscience – and your contributions will help scientists understand how the brain functions. In addition, engineers will also use your input to improve the computational technology that powers the game. This will eventually lead to making software that can detect brain abnormalities that are related to disorders like autism and schizophrenia.

The National Ecological Observatory Network (NEON) is offering a new online
course for educators focused on its successful citizen science program – *PBB
- 501 Project BudBurst: Introduction to Plant Phenology and Climate Change.
* This inaugural offering is *being offered at no charge *to K-12 educators
and is suited for both formal and informal educational settings. This
online course provides all needed information to implement Project BudBurst
(www.budburst.org) in the classroom and engage your students in a national
program by learning more about plants and climate change at a local level.

Act now and be part of the first online course from The BudBurst Academy
that begins on February 15 and take advantage of the *registration fee
being waived*.

Involvement in Project BudBurst will give students valuable experience
collecting data and will give them the opportunity to make meaningful
contributions to ongoing scientific research where scientists are very
interested in the observations students across the county are making.

This professional development course will provide you with detailed
information on Project BudBurst and how to participate including how to
select your plants and make observations, suggestions for structuring your
classroom involvement, classroom activities to engage your students in
making observations, analyzing data, as well as forming a community with
other K-12 educators within Project BudBurst.

Participants in PBB - 501 can sign up for optional graduate level
continuing education credits from Colorado School of Mines. The fee for 2
credits is $90.00

More information can be found at www.budburst.org/academy

Humans shed about 1.5 million microscopic skin cells, and ten times as many bacterial cells, every hour. These cells are transferred to numerous surfaces in a home via touch. What type of biological impression are we leaving on our home environments? If you are moving to a new home soon, then we need your help to find out.

We are looking for 20 people (four individual bachelors or bachelorettes between 18-30, four couples between 25-65, and two families with couples between 35-45 and two children 15 years old or younger) to participate in our study. Those relocating within the Chicagoland area are preferred, but all are welcome to apply. Households with cats, dogs, or uncaged birds are not eligible.

The goal of this study is to collect and examine the unique biological material shed by individuals throughout the normal course of a day to determine how rapidly their unique community of bacteria - called a microbiome - is established in their new home environment.

This study examines microbiota associated with the hands, feet, and nose of each individual, as well as those present on the most-often used doorknobs, light switches, floors, and countertops. You collect the data! ***This material is collected using swabs every other day for two weeks prior to moving, and four weeks following a move into a new home.*** All collection and storage materials will be provided to you. The research team will also ask you to note your cleaning schedule and some basic information about guests and visitors to the home for one month after moving in.

The results of this study will demonstrate the way in which we interact with the living surfaces of our home, and the fundamental impact humans have on the composition of microbes in their houses. The experimental design allows for a detailed examination of variables that make up the home environment, such as temperature and moisture, and how they favor different types of microbes shed by the human inhabitants.

The Milky Way Project aims to sort and measure our galaxy. We're asking you to help us find and draw bubbles in beautiful infrared data from the Spitzer Space Telescope.

Understanding the cold, dusty material that we see in these images, helps scientists to learn how stars form and how our galaxy changes and evolves with time.

Marine scientists need your help to categorize the complex calls of Killer Whales (Orcas) and Pilot Whales and to understand what the calls mean.

Whales and dolphins make sophisticated sounds that play a critical role in communicating, orienting in the ocean environment, and locating food. Scientists have already begun to categorize Killer Whale calls; however, Pilot Whale calls are much less studied.

Project organizers have assembled recordings of two species from across the world's oceans and seas. Citizen scientists simply listen to individual whale calls and identify potential matching calls. Your contribution will help researchers understand what the whales are saying. You can also help discover whether certain calls are made by an individual, one group, or across broad areas.

I do research in child undernutrition and am working on a project to understand the important factors underlying child undernutrition in Fort Saint Michel – an urban slum of Cap Haitien, Haiti. We’re gearing up for a mapping exercise in Fort Saint Michel to capture the exact locations of important health-promoting and health-compromising factors in the area using GPS devices. But first, we need your help!

The problem: As you can see in the image, the commercial area of Cap Haitien is fairly well curated in Google Maps, but the densely inhabited areas of Fort Saint Michel and La Petite Anse are not.

How you can help: Street names, businesses, markets, footpaths – if you know it, we want to see it! If you have knowledge of this area of Cap Haitien, we’re asking for you to share your knowledge with the world!

Now's the time to set up your American Kestrel nest box! This bird's population is experiencing long-term declines in North America, and existing data are insufficient for understanding the causes. The American Kestrel Partnership is an international research network designed to generate data, models, and conservation plans for kestrel habitat and populations at large spatial scales. The Partnership unites the data-generating capacity of citizen scientists with the data-analysis expertise of professional scientists by promoting research collaboration among citizen scientists, universities, government agencies, conservation organizations, schools, and businesses. The Partnership also fosters long-term conservation values and appreciation of science by engaging the public with hands-on research experiences.

The goal of this project is to discover Kuiper Belt Objects with just the right orbit and just the right characteristics to make them eligible for a visit from the New Horizons mission. At this time, the space probe has enough fuel in reserve to allow up to two different objects to be visited.

This is where you come in. To find these icy KBO targets we need your help poring over thousands of ground based images, taken specially for this purpose using giant telescopes. Hiding within these images are undiscovered slow-moving Kuiper Belt Objects, asteroids zipping through the foreground, and millions of background stars.

The Flusurvey is an online system for measuring influenza trends in the UK.

In contrast to traditional surveillance methods, the Flusurvey collects data directly from the general public, rather than via hospitals or GPs. This is particularly important because many people with flu don't visit a doctor so don't feature in traditional flu surveillance.

Each week, participants report any flu-like symptoms they have experienced since their last visit. If you have no symptoms, this only takes a few seconds. We provide participants with regular updates on the epidemic, all the latest news and advice about flu.

This year, for the first time, we are coordinating with similar surveys in 9 other European countries, letting us monitor flu as it spreads across the continent. You can find out more on the "Join in" tab.

Help NASA find life on Mars by exploring the bottom of the lakes of British Columbia, Canada.

The Pavilion Lake Research Project (PLRP) has been investigating the underwater environment with DeepWorker submersible vehicles since 2008. Now with MAPPER, you can work side-by-side with NASA scientists to explore the bottom of these lakes from the perspective of a DeepWorker pilot.

The PLRP team makes use of DeepWorker subs to explore and document freshwater carbonate formations known as microbialites that thrive in Pavilion and Kelly Lake. Many scientists believe that a better understanding of how and where these rare microbialite formations develop will lead to deeper insights into where signs of life may be found on Mars and beyond. To investigate microbialite formation in detail, terabytes of video footage and photos of the lake bottom are recorded by PLRP's DeepWorker sub pilots. This data must be analyzed to determine what types of features can be found in different parts of the lake. Ultimately, detailed maps can be generated to help answer questions like "how does microbialite texture and size vary with depth?" and "why do microbialites grow in certain parts of the lake but not in others?". But before these questions can be answered, all the data must be analyzed.

Count birds within a 15-foot area, anywhere in the Western states, for one hour on Thanksgiving Day; you decide the hour and the location.
Last year 431 counters in the eleven Western States and Alaska made 440 counts. They tallied 161 species of birds (plus a lot of mammals and other things, too). The top five species counted in these states were House Sparrow (1), Dark-eyed Junco (2), House Finch (3), Black-capped Chickadee (4) and European Starling (5). As predicted, the Pine Siskin dropped out of the top five last season, but should be more numerous this year. Participants should send in a report even if no birds were seen during the hour.

Harsh winter conditions significantly affect young turkeys. New York State Department of Environmental Conservation seeks wildlife lovers in every county to help them observe and count young male and female turkeys (also known as Jakes and Jennies), from January 2012 through March 2012.

N.H. Fish and Game's winter wild turkey flock survey invites you to help record sightings of wild turkey flocks in New Hampshire from January to mid-March each year. This effort helps biologists assess the impact of winter weather on our turkey population!

Constellation is a platform for different aerospace related projects that need intensive computational power. The platform supports the efforts of participating projects by providing Distributed Computation capability using BOINC (Berkeley Open Interface for Network Computing).

Constellation will send work-units of attached projects to volunteering, idle PCs where the units are processed. The combined power of all volunteering users will help to solve important scientific tasks in fields from astronomy to aerospace-engineering beginning from student up to university projects. The bottom line is to benefit from the generosity of the volunteers and to benefit from the accumulation of different projects, like sharing programming knowledge in distributed computing and influencing the others' simulation by its own solutions.

The platform is an open space for anyone, who is an air and space enthusiast and wants to donate idle computing time or even skill for a sub-project on platform. Applications for sub-project are welcome!

SOHO is the most successful comet discoverer in history, having found over one thousand eight-hundred comets in over thirteen years of operation! What's even more impressive is that the majority of these comets have been found by amateur astronomers and enthusiasts from all over the world, scouring the images for a likely comet candidate from the comfort of their own home.

Absolutely anyone can join this project -- all you need is an internet connection and plenty of free time!

Wherever you are – anywhere in the world – contribute to science by taking a photo of a blank white piece of paper!

Photos are needed on the following dates:

September 17 and 18, 2011
September 23, 2011
November 6, 2011
December 12, 2011
February 4, 2012
March 20, 2012
May 5, 2012
June 20, 2012
August 6, 2012
September 22, 2012
November 5, 2012

Your photo will used to measure how much of the sun’s energy is reflected back from the Earth -- our planet's "albedo." It's one way scientists can monitor how much energy – and heat – is being absorbed by our planet. By contributing to the Albedo Project, you will be providing data that can be used to examine the similarities and differences of reflectivity around the world.

Should grassy surfaces have the same value in Brazil as in Norway? How does clay soil in the southeastern USA differ from sandy desert in the southwestern USA? Is there any difference in urban “hot spots” that can be attributed to latitude?

Individuals, schools, small and large groups can all use these data to help inform activities that are appropriate and effective for their communities. Whether it is maintaining the health of parks and green spaces, or legislating green building codes, there is something each can do. It is the hope of this project to present some of the actions taken, as well as follow their albedo records over time.

The School of Ants project is a citizen-scientist driven study of the ants that live in urban areas, particularly around homes and schools. Collection kits are available to anyone interested in participating.

Teachers, students, parents, kids, junior-scientists, senior citizens and enthusiasts of all stripes are involved in collecting ants in schoolyards and backyards using a standardized protocol so that project coordinators can make detailed maps of the wildlife that lives just outside their doorsteps.

The maps that are created with these data are telling us quite a lot about native and introduced ants in cities, not just here in North Carolina, but across the United States and, as this project grows, about the ants of the world!

Help identify and catalog the trees in Philadelphia's urban forest! PhillyTreeMap is an open-source, web-based map database of trees in the greater 13-county 3-state Philadelphia region. The wiki-style database enables non-profits, government, volunteer organizations, and the general public to collaboratively create an accurate and informative inventory of the trees in their communities. The project was funded by a USDA Small Business Innovation Research Grant and is in support of the Philadelphia Parks & Recreation's 30% tree canopy goal and the Pennsylvania Horticultural Society's "Plant One Million" campaign. As more trees are added to the database, PhillyTreeMap uses the iTree software from the USDA Forest Service to calculate the environmental impact of the region's urban forest. So get outside and add some trees!

The Oklahoma Invasive Plant council needs Oklahoma residents to report data on invasive plants in their area.

Participants gather information about the invading species and its location, and then submit it on the project website.

By contributing, you can help the project facilitate management of invasive plants and protect the economic and natural resources of Oklahoma’s land and water.

In the Health Tracking Network, people across the world work together to monitor common illnesses and discover factors related to illness.

When you join the Health Tracking Network, you:
* spend 2-3 minutes per week answering questions about cold and flu symptoms and other topics;
* earn money for charities of your choice; and
* can track your own health, fitness, or anything of interest to you with separate tracking tools.

The Health Tracking Network has no ads, and participation is free and completely anonymous.

We seek volunteers from across the world. You must be 18 years or older to participate.

Download and play the ACTUV Tactics Simulator and submit your results to the Defense Advanced Research Projects Agency (DARPA). Your results will help develop the future of anti-submarine warfare.

Think you can best an enemy submarine commander so he can’t escape into the ocean depths?

If you think you can, you are invited to put yourself into the virtual driver’s seat of one of several Anti-Submarine Warfare (ASW) Continuous Trail Unmanned Vessel (ACTUV) configurations and show the world how you can use its capabilities to follow an enemy submarine.

DARPA’s ACTUV program is developing a fundamentally new tool for the Navy’s ASW toolkit and seeks your help to explore how best to use this tool to track quiet submarines. Before autonomous software is developed for ACTUV’s computers, DARPA needs to determine what approaches and methods are most effective. To gather information from a broad spectrum of users, ACTUV has been integrated into the Dangerous WatersTM game. DARPA is offering this new ACTUV Tactics Simulator for free public download.

This software has been written to simulate actual evasion techniques used by submarines, challenging each player to track them successfully. Your tracking vessel is not the only ship at sea, so you’ll need to safely navigate among commercial shipping traffic as you attempt to track the submarine, whose driver has some tricks up his sleeve.

Give it a try!

Phylo is a game in which participants align sequences of DNA by shifting and moving puzzle pieces. Your score depends on how you arrange these pieces. You will be competing against a computer and other players in the community.

Though it may appear to be just a game, Phylo is actually a framework for harnessing the computing power of mankind to solve a common problem -- Multiple Sequence Alignments.

A sequence alignment is a way of arranging the sequences of DNA, RNA or protein to identify regions of similarity. These similarities may be consequences of functional, structural, or evolutionary relationships between the sequences. From such an alignment, biologists may infer shared evolutionary origins, identify functionally important sites, and illustrate mutation events. More importantly, biologists can trace the source of certain genetic diseases.

Traditionally, multiple sequence alignment algorithms use computationally complex heuristics to align the sequences. Unfortunately, the use of heuristics do not guarantee global optimization as it would be prohibitively computationally expensive to achieve an optimal alignment. This is due in part to the sheer size of the genome, which consists of roughly three billion base pairs, and the increasing computational complexity resulting from each additional sequence in an alignment.

Humans have evolved to recognize patterns and solve visual problems efficiently. By abstracting multiple sequence alignment to manipulating patterns consisting of coloured shapes, we have adapted the problem to benefit from human capabilities. By taking data which has already been aligned by a heuristic algorithm, we allow the user to optimize where the algorithm may have failed.

All alignments were generously made available through UCSC Genome Browser. In fact, all alignments contain sections of human DNA which have been speculated to be linked to various genetic disorders, such as breast cancer. Every alignment is received, analyzed, and stored in a database, where it will eventually be re-introduced back into the global alignment as an optimization.

Let's play!

Wildlife Health Event Reporter (WHER) is an online, experimental reporting system for reporting and sharing the sightings of sick or dead wildlife.

Individual reports viewed together can lead to the detection and containment of wildlife disease outbreaks that may pose a health risk to people, domestic animals and other wildlife. For smart phone users, the HealthMap mobile phone application, Outbreaks Near Me, is also available. It captures the same information that the web-based WHER application collects and allows users to upload photos. WHER hopes to harness the power of the many eyes of the public to better detect wildlife disease phenomenon.

Additionally, WHER was developed by the Wildlife Data Integration Network (WDIN), a program of the Nelson Institute for Environmental Studies at the University of Wisconsin-Madison, in partnership with the USGS National Wildlife Health Center.

FrogWatch USA Chapters are overseen by the Association of Zoos and Aquariums and are hosted and managed by zoos, aquariums, and like-minded organizations.

At a training session hosted by a local chapter, volunteers will learn to identify local frog and toad species by their calls during the breeding season and how to report their findings accurately. By mastering these skills, volunteers gain increased experience and control over asking and answering scientific questions which, in turn, augments science literacy, facilitates conservation action and stewardship, and increases knowledge of amphibians.

Help scientists recover worldwide weather observations made by Royal Navy ships around the time of World War I. These transcriptions will contribute to climate model projections and improve a database of weather extremes. Historians will use your work to track past ship movements and the stories of the people on board.

SKYWARN is a national network of volunteer severe weather spotters. The spotters are trained by local National Weather Service Forecast Offices on how to spot severe thunderstorms, tornadoes, hail, and flooding. In some parts of the country, spotters also report snowfall and ice accumulation.

During hazardous weather, such as severe thunderstorms, floods, tornadoes, snow and ice storms, SKYWARN volunteers report what is happening at their location. They are asked to report whenever certain criteria are met such as when one inch of rain has fallen, four inches of snow is on the ground, a thunderstorm is producing hail, or trees have been blown down.

Reports arrive at the forecaster's office via the telephone, fax, Internet, and amateur radio. The reports are combined with radar and satellite data to determine what the storms will do next. Spotters provide the "ground-truth" to forecasters. Radar may tell us that heavy snow is falling, but it can not tell us how much snow is on the ground or if rain is mixing with the snow. Spotters do. The reports are used by forecasters to send out public statements, warnings and advisories, and short-term forecasts.

Two-thirds of SKYWARN volunteers are licensed amateur radio operators. Amateur radio plays a big role in the SKYWARN program. During severe weather, amateur radio volunteers man a radio station at our office. They talk to our spotters in the particular area that a storm is hitting and request information needed by the forecasters such as hail size or rainfall accumulation. Large storms such as hurricanes can knock out phone service. SKYWARN amateur radio volunteers help us when there are communications outages so that we can continue to receive weather reports and feed warnings and other critical information out to communities.

SKYWARN volunteers are people who either have a strong interest in weather or are public service oriented. This includes amateur radio operators, REACT members, or emergency response personnel. Our spotters are all ages beginning as young as 14 and range well into retirement age. We have farmers, pilots, engineers, housewives, lawyers, television cameramen, teachers, students, firemen, and more. Our volunteers are truly diverse but with a common interest in weather and a strong desire to help their community.

CitSci.org is a platform that supports a variety of citizen science programs using a centralized database to store and deliver science data, with a focus on community based monitoring programs. This platform allows program coordinators to create their own projects and datasheets, manage members, define measurements, create analyses, and even write feedback forms.

Map habitat in backyards, parks, and schools. Work towards more sustainable landscapes. The YardMap network lets you draw your landscapes with a beautiful online mapping tool and helps you learn about how to use your outdoor spaces (big or small) to aid birds and other wildlife. Connect to other citizen scientists, solve problems, share your maps and good ideas all while helping to build an invaluable database of habitat data for Cornell Lab of Ornithology Scientists.

The Acoustics Research Centre at the University of Salford is building a sound map of the world as part of a new study into how sounds in our everyday environment make us feel. We need your help!

We’re asking people across the world to use our new iOS app on their iPhones or iPads (or any recorder) to record short clips from different sound environments, or "soundscapes"--anything from the inside of a family car to a busy shopping centre. Then we ask volunteers to comment on their soundscapes and upload them to our virtual soundscape map.

Recordings and responses will be analyaed by acoustic scientists, and significant findings will be reported on this website.

Sound Around You aims to raise awareness of how our soundscape influences us, and could have far reaching implications for professions and social groups ranging from urban planners to house buyers.

The Great Lakes Worm Watch needs citizen scientists to conduct earthworm surveys in forests and other habitats anywhere in North America.

Earthworms are not native to the Great Lakes Region; they were all wiped out after the last glaciation. The current population, brought here by early Europeans, is slowly changing the face of our native forests, but very little is known about the distributions of earthworm and earthworm species across the region. While valuable, this type of information is labor-intensive, and it is difficult for researchers to get funding to do this kind of work. Citizen scientists can help.

There are several ways to get involved:

1. Document earthworm occurrences: This involves collecting and sending earthworm specimens with location information to Great Lakes Worm Watch. These specimens will be archived at the University of Minnesota, and the species and location information will be added to the project database.

2. Collect habitat data: Great Lakes Worm Watch would like data from all habitat types, especially natural ecosystems like forests, woodlands, and prairies. In addition, data from habitats dominated by human activity are also of value, such as farm fields, pastures, and parks. Depending on your level of interest and expertise, you can choose to conduct a general or detailed habitat survey. You can use the instructions and data sheets developed by the project coordinators to make the data easily transferable to the database.

3. Conduct soil surveys: In addition to earthworm and habitat data, Great Lakes Worm Watch is also interested in getting data about the soil conditions at sites in which you sampled for earthworms. You can use the instructions and data sheet developed by project coordinators to make the data easily transferable to the database.

Get started! Anyone can make a BIG difference when it comes to containing the spread of exotic earthworms!

The Bird Conservation Network Census needs citizen scientists to record bird distribution and abundance information for birds in the Chicago region.

Bird monitors can participate at different levels:

- If you have a special interest in a particular site, you can become a regular monitor at that site and keep a year-round watch on the birds that nest, winter, or migrate through that site.

- You may help track changes in nesting populations by conducting point count surveys during the breeding season.

- You may visit a site during the nesting season and record numbers and species of birds just as you would on a Christmas Count.

- If you do not have the time to become a regular site monitor, you can still contribute your sightings.

The Bird Conservation Network has created a set of standardized methods for studying the birds of the Chicago Wilderness region. These methods can serve a variety of research purposes while also allowing birders to participate at different levels of intensity. Participants commit to making five or more visits to the site each year with at least two of those visits coming during breeding season (June). Also, participants should be able to recognize Illinois birds by sight and sound. By general rule, a birder should have about at least three years of experience with field identification of birds in the Illinois area.

The goals of this study are to generate a general picture of bird distribution in the region, to collect data to assist land managers and conservation planners in decision making, and to create a database compatible with other types of habitat data being gathered in the region which can be used by researchers investigating specific ecosystem questions. If you are an avid birder at a Chicago Park District nature area, you are encouraged to become a bird monitor.

Bird Atlas 2007-11 needs volunteers in the United Kingdom to help produce maps of distribution and relative abundance for all bird species that breed and winter in the area.

Bird atlases provide a fascinating periodic insight into the status of all of the bird species of an area. This project will allow researchers to assess changes in bird distributions since previous breeding atlases in 1970 and 1990, and since the last winter atlas of the early 1980s. Atlases have been immensely important for furthering bird knowledge and conservation, and Bird Atlas 2007-11 is destined to set the agenda for the next decades of ornithology in Britain and Ireland.

Fieldwork will span four winters and four breeding seasons, starting November 1, 2007, and concluding in 2011. There are two ways in which you can help:

1. Timed Tetrad Visits - record all the birds you see and hear in a 2km x 2km square. Visit for an hour or more in the winter and breeding season.

2. Roving Records - any bird, anytime, anywhere. If you see it, record it, and, the project coordinators will map it.

The Bird Atlas is a huge project that will synthesize millions of individual bird records. Don't miss this chance to make an important contribution.

Bird Ringing at the British Trust for Ornithology is a network of more than 2,500 trained and licensed volunteers in the United Kingdom that ring--or tag--more than 900,000 birds every year.

Bird ringing involves the fitting of small, uniquely numbered metal rings on the legs of birds. By identifying these birds as individuals, researchers can start to understand changes in the survival and movements of bird populations.

Bird ringers come in many types, from individuals working in urban areas to large groups working in a wide geographic area, and can start at any age. Though you definitely don’t need to be a bird expert to ring, it does help if you have some prior bird knowledge. Anyone who wants to participate in the project will need to gain field experience with a qualified trainer.

You’ll no doubt find that ringing is a very satisfying activity. Not only will you be adding to 100 years of data used directly by conservationists, but you will also enjoy the experience of seeing birds close up. Whether you want to train to ring birds in nest boxes, gardens, or a local gravel pit, your contribution is vital to the project's success.

BirdTrack is a free, online bird recording system for birdwatchers to store and manage their own records from anywhere in Britain and Ireland. Everyone with an interest in birds can get involved by recording when and where they watched birds then completing a list of the species seen and heard during the trip.

Exciting real-time outputs are generated by BirdTrack, including species reporting rate graphs and animated maps of sightings, all freely-available online. The data collected are used by researchers to investigate migration movements and distributions of birds and to support species conservation at local, national and international scales.

BirdTrack is year-round and ongoing, making it an ideal project for getting children enthused about birds and migration. Teachers are encouraged to add their school grounds as a BirdTrack site then help their students to record the birds they see and hear.

The success of BirdTrack relies on YOU. Get started today!

The Salish Sea Hydrophone Network needs volunteers to help monitor the critical habitat of endangered Pacific Northwest killer whales by detecting orca sounds and measuring ambient noise levels. Volunteers are especially needed to help notify researchers when orcas are in the Salish Sea, which encompasses the waters of Puget Sound and the surrounding area.

Sponsored by a coalition of organizations, including the National Oceanic and Atmospheric Administration and the Whale Museum in Olympia, Washington, the network consists of five hydrophones, each hooked up to a computer to analyze the signal and stream it via the internet.

Even though software is used to distinguish animal from other underwater sound, human ears do a better job. So volunteers monitor the network from their home computers anywhere in the world, and alert the rest of the network when they hear whale sounds. Sometimes boats or onshore monitors are deployed to observe the whales while they are making sounds. Researchers hope to learn more about the uses of orca communications and whale migration patterns.

BeakGeek allows citizen scientists to share information about birds and bird sightings using freely available and simple social networking tools such as Twitter. BeakGeek adds value to the data created with these tools by providing map based visualizations and monitoring for terms such as "Rare Bird Alert".

The Monarch Larva Monitoring Project enlists citizen scientists to collect long-term data on larval monarch populations and milkweed habitat.

Developed by researchers at the University of Minnesota, the project aims to better understand how and why monarch populations vary in time and space, with a focus on monarch distribution and abundance during the breeding season in North America.

As a volunteer, you can participate in two ways: You can commit to regularly monitoring a specific patch of milkweed or you can submit anecdotal observations. If you commit to regular monitoring, you'll conduct weekly monarch and milkweed surveys, measuring per plant densities of monarch eggs and larvae. You'll also be able to participate in more detailed optional activities, such as measuring parasitism rates and milkweed quality. Your contributions will aid in conserving monarchs and their threatened migratory phenomenon, and will advance our understanding of butterfly ecology in general.

In addition to contributing to an understanding of monarch biology, you'll gain hands-on experience in scientific research. Through this experience, we hope that your appreciation and understanding of monarchs, monarch habitat, and the scientific process are enhanced.

Tracking Climate in Your Backyard seeks to engage youth in real science through the collection, recording, and understanding of precipitation data in the forms of rain, hail, and snow.

The purpose of this project is to encourage youth, specifically ages 8-12, to better understand the scientific process by engaging them in the collection of meaningful meteorological data in their community. In this way, youth develop an understanding of scientific methods and standardization, and by recording and sharing their data through a citizen science project, they recognize the importance of accurate data collection. The citizen science portion of the project, the Community Collaborative Rain, Hail, and Snow Network, collects precipitation data for scientific analysis and for issuance of severe storm warnings and flash flooding events. We believe that when youth know they are contributing data to a real, scientific cause, their engagement levels rise.

This National Science Foundation-funded project is a collaboration between the Paleontological Research Institution and Museum of the Earth, which have experience in professional development and informal education, New York State 4-H, which provides an excellent outreach base and fosters hands-on, experiential learning for youth, and the Community Collaborative Rain, Hail, and Snow Network, which runs a citizen science project to record precipitation measurements in an online database.

The Mastodon Matrix Project needs citizen volunteers to analyze actual samples of matrix (the dirt) from a 14,000 year old mastodon excavated in New York! Learn the process of science and work like a paleontologist on real research material!

Volunteers sort through the matrix to find shells, bones, hair, pieces of plants, and rocks from the time when the mastodons lived and roamed the Earth. The matrix and discoveries are then sent back to the Paleontological Research Institution, where they will be cataloged and further analyzed by paleontologists to help scientists form a true picture of the ecology and environment of the late Pleistocene.

Mastodons are extinct relatives of modern elephants. Mastodons were numerous and widespread in North America up until around 10,000 years ago, when they became extinct--with many other species--at the end of the last glacial period.

Celebrate Urban Birds provides an opportunity for everyone across the country to watch birds and participate in activities focused on birds and neighborhood habitat improvement.

Participants learn about 16 species of birds and watch an area about the size of half a basketball court for 10 minutes to see if they can find any of those birds. Urban Bird Celebration provides all of the necessary materials to get you started.

An important part of the celebration is to help scientists at the Cornell Lab of Ornithology collect information about the 16 key species of urban birds. The scientists have created a project that will use data collected from participants in the celebration to study these resident and migratory birds - their numbers, their behavior, their interaction with the urban habitat.

Join us in the search for interstellar dust! On January 15, 2006, the Stardust spacecraft's sample return capsule parachuted gently onto the Utah desert. Nestled within the capsule were precious particles collected during Stardust's dramatic encounter with comet Wild 2 in January of 2004; and something else, even rarer and no less precious: tiny particles of interstellar dust that originated in distant stars, light-years away. They are the first such pristine particles ever collected in space, and scientists are eagerly waiting for their chance to "get their hands" on them.

Before they can be studied, though, these tiny interstellar grains will have to be found. This will not be easy. Unlike the thousand of particles of varying sizes collected from the comet, scientists estimate that Stardust collected only around 45 interstellar dust particles. They are tiny - only about a micron (a millionth of a meter) in size! These miniscule particles are embedded in an aerogel collector 1,000 square centimeters in size. To make things worse, the collector plates are interspersed with flaws, cracks, and an uneven surface. All this makes the interstellar dust particles extremely difficult to locate.

This is where you come in!

By asking for help from talented volunteers like you from all over the world, we can do this project in months instead of years. Of course, we can't invite hundreds of people to our lab to do this search-we only have two microscopes! To find the elusive particles , therefore, we are using an automated scanning microscope to automatically collect images of the entire Stardust interstellar collector at the Curatorial Facility at Johnson Space Center in Houston. We call these stacks of images focus movies. All in all there will be nearly a million such focus movies. These are available to Stardust@home users like you around the world. You can then view them with the aid of a special Virtual Microscope (VM) that works in your web browser.

Together, you and thousands of other Stardust@home participants will find the first pristine interstellar dust particles ever brought to Earth!

In recognition of the critical importance of the Stardust@home volunteers, the discoverer of an interstellar dust particle will appear as a co-author on any scientific paper by the Stardust@home team announcing the discovery of the particle. The discoverer will also have the privilege of naming the particle!

Physics Songs aims to be the world's premier website devoted to collecting and organizing all songs about physics. It is managed by Walter F. Smith, Professor of Physics at Haverford College.

Songs about physics can help students to remember critical concepts and formulas, but perhaps more importantly they communicate the lesson that physics can be fun. They certainly help to establish an informal classroom atmosphere, in which even shy students are willing to ask questions.

The songs may also activate a different part of the students' brains.

Students’ Cloud Observations On-Line (S’COOL) is a citizen science project in which volunteers make and report cloud observations from sites of their choosing, such as a field trip, vacation, or even a backyard. The project aims to collect data on cloud type, height, cover, and related conditions from all over the world. Observations are sent to NASA for comparison to similar information obtained from satellite.

Many people take for granted how powerful clouds are in our atmosphere. It is clouds, in part, that affect the overall temperature and energy balance of the Earth. The more that scientists know about clouds, the more they will know about our Earth as a system. The S'COOL observations help validate satellite data and give a more complete picture of clouds in the atmosphere and their interactions with other parts of the integrated global Earth system. Citizens benefit from their participation in a real-world science experiment and from their access to a variety of background material. Educational materials for teachers are also available.

The Perfect Pitch Test is a study to determine whether absolute pitch differs systematically for different timbres. Your participation involves a brief survey and a pitch-naming test and will make an important contribution to auditory research.

Do you have absolute pitch, the ability to identify or recreate a musical note without any reference? If so, researchers at the Perfect Pitch Test need your help.

The Great Sunflower Project uses data collected by citizen scientists to produce the first real map of the state of the bees.

Some bee populations have experienced severe declines that may affect food production. However, nobody has ever measured how much pollination is happening over a region, much less a continent, so there is little information about how a decline in the bee population can influence gardens.

The Great Sunflower Project makes it easy to gather this information. Plant a seed or two, spend 15 minutes watching your flowers for bee visits, and send in your data. You can make as many observations as you want while your flowers are in bloom. Plant, Watch, Enter. Repeat. That's it. And, who doesn't like sunflowers?!

The Great Backyard Bird Count is an annual four-day event during which bird watchers count birds to create a real-time snapshot of where birds are located across the continent.

Scientists and bird enthusiasts can learn a lot by knowing where birds are. Unfortunately, no single scientist or team of scientists could hope to document the complex distribution and movements of so many species in such a short time.

Anyone, from beginning bird watchers to experts, can participate in the The Great Backyard Bird Count. It takes as little as 15 minutes on one day, or you can count for as long as you like during each day of the event. It’s free, fun, and easy, and it helps the birds. In addition, yearly data collection makes the information more meaningful and allows scientists to investigate far-reaching questions.

Project Squirrel is calling all citizen scientists to count the number of squirrels in their neighborhoods and report their findings. The goal is to understand urban squirrel biology, including everything from squirrels to migratory birds, nocturnal mammals, and secretive reptiles and amphibians. To gain data on squirrel populations across the United States, citizen scientists will also be asked, when possible, to distinguish between two different types of tree squirrels - gray and fox.

Anyone can participate in Project Squirrel. No matter where you live, city or suburb, from the Midwest to the East Coast, Canada to California, if squirrels live in your neighborhood, you are encouraged to become a squirrel monitor.

The scientists at Project Squirrel will also use this project to understand the effect that participation in citizen science has on participants. By contributing to Project Squirrel and documenting your experience, you can provide valuable information that will eventually be used to recruit other citizen scientists.

The Citizen Weather Observer Program is a group of ham radio operators and other private citizens around the country who have volunteered the use of their weather data for education, research, and use by interested parties. There are currently over 8,000 registered members worldwide and over 500 different user organizations. Their weather data are used by the National Oceanic and Atmospheric Administration and distributed to user organizations.

The Citizen Weather Observer Program is a public-private partnership with three main goals:

1. Collect weather data contributed by citizens
2. Make these data available for weather services and homeland security
3. Provide feedback to the data contributors so that they have the tools to check and improve their data quality.

Foldit is a revolutionary new computer game enabling you to contribute to important scientific research.

We’re collecting data to find out if humans' pattern-recognition and puzzle-solving abilities make them more efficient than existing computer programs at pattern-folding tasks. If this turns out to be true, we can then teach human strategies to computers and fold proteins faster than ever!

Knowing the structure of a protein is key to understanding how it works and to targeting it with drugs. A small protein can consist of 100 amino acids, while some human proteins can be huge (1000 amino acids). The number of different ways even a small protein can fold is astronomical because there are so many degrees of freedom. Figuring out which of the many, many possible structures is the best one is regarded as one of the hardest problems in biology today and current methods take a lot of money and time, even for computers.

Foldit attempts to predict the structure of a protein by taking advantage of humans' puzzle-solving intuitions and having people play competitively to fold the best proteins.

Project MERCCURI is an investigation of how microbes found in buildings on Earth (in public buildings, stadiums, etc) compare to those on board the biggest building ever built in space – the International Space Station (ISS).

The project provides an opportunity for YOU-- citizen scientists and student scientists --to participate in the research by using kits we will send you to collect microbes from surface areas in buildings or even your own cell phone or shoes. You can form a team or join a team to collect samples through September 2013 with the help of the Science Cheerleaders (current and former NFL and NBA cheerleaders who are also scientists and engineers!).
Your samples will be mailed to the University of California Davis where they will be sequenced and analyzed. Results will be shared on SciStarter so you can compare your samples to those from other locations, including the International Space Station! In addition, up to 40 samples will be selected to fly on the International Space Station where their growth rates will be compared to their counterparts in the UCDavis lab! Wouldn't it be cool if your sample is sent to the International Space Station!?

Teachers: Meet the Project MERCCURI team at the National Science Teachers Association conference in San Antonio on April 11, from 2-3pm! Then, join us at the San Antonio Spurs game on April 12 as we collect microbes from the stadium to send to space!

We collected microbes from a Sacramento Kings and Orlando Magic games and now we invite you to join us at the following events (more will be posted on SciStarter.com/ISS):

April 11: National Science Teachers Association annual conference in San Antonio. From 2-3 pm, Henry B. Gonzalez Convention Center, room 215. If you plan to be there, swing by, say hi, and learn how to get involved in Project MERCCURI to send microbes to space!

April 12: San Antonio Spurs game. Meet us on the court to collect microbes and shoot some baskets! The Spurs are offering discount tickets in addition to providing access to their court! Note: This game is almost sold out so consider purchasing your ticket soon.

April 12: We'll be at Yuri's Night parties celebrating the anniversary of manned space flight...and helping guests collect microbes from their own shoes and cellphones. Meet us at the Museum of Life and Sciences in Durham, NC, the Science Club in Washington, DC, and the California Science Center in L.A.

April 16: We'll be at the National Arts Building in New York City to celebrate Yuri's Night and collect more microbes.

April 20: Philadelphia Science Festival on the Benjamin Franklin Parkway! Stay tuned for more on that!

April 20-21: Calling all programmers! Help hack an app for Project MERCCURI at the NASA Space Apps Challenge in Philly!
If you can’t make it to one of these events, have no fear. We’re in the process of confirming similar events across the country and WE NEED YOU to help us collect microbes and, if you're interested, analyze the results. We will send periodic updates to you as new events are confirmed. We will also hold contests and other special offers to give you the chance to send your microbes to us from the comfort of your home.

The Dark Sky Meter (available for iPhones) allows citizen scientists to contribute to a global map of nighttime light pollution. Light pollution is a growing problem in urban environments, but now you can help scientists better understand its effects on the environment. By utilizing the camera built in to your iPhone, the Dark Sky Meter actually measures ‘skyglow’ and updates the data in real time.

The Pro version of the app also charts weather conditions and cloud cover so you can take readings at optimal times. The app is as easy to use as taking a picture, and is a fun way to learn about your night sky.

How many stars can you see where you live? The Loss of the Night App (available for Android devices) challenges citizen scientists to identify as many stars as they can in order to measure light pollution. The app is fun and easy to use, and helps users learn constellations as they contribute to a global real-time map of light pollution.

Stargazing is a fantastic way to engage young scientists, but this ancient past time has become increasingly difficult in growing urban areas. Help scientists understand the effects of light pollution and learn about your night sky!

You don't need to leave the city to take part, in fact, the app is designed specifically for use in very polluted areas.

The more stars you observe, and the more often you run the app, the more precise the data for your location will become. As the seasons change so do the stars in the sky, and since there aren't so many very bright stars it is extremely helpful if urban users do measurements in each season.

iPhone users can contribute their own data via the dark sky meter project: http://www.scistarter.com/project/802-Dark%20Sky%20Meter

Anyone without a phone can take part during some parts of the year via GLOBE at Night: http://www.scistarter.com/project/169-GLOBE%20at%20Night

Despite its apparently steady glow, the Sun is a churning mass of superhot plasma that regularly produces powerful flares and storms that can knock out power and communication systems here on Earth. With this Lab explore what makes the Sun so volatile and get access to the same data, images, and tools that scientists use to predict solar storms—so that you can predict them for yourself.

The iSeeChange Almanac is a socially networked weather Almanac for communities to collectively journal their climate experiences -- their observations, feelings, questions, and decisions --- against near-real time climate information.

Founded in April 2012 in Western Colorado, iSeeChange is a public radio and media experiment that fosters multimedia conversations between citizens and scientists about how seasonal weather and climate extremes affect daily American life. From the earliest spring recorded in the history of the United States, a landmark wildfire season, nationwide droughts, and weather records breaking everyday, climate affects every citizen and binds communities together.

iSeeChange is produced by Julia Kumari Drapkin in Western Colorado at KVNF Mountain Grown Community Radio as a part of Localore, a nationwide production of AIR in collaboration with Zeega, with principal funding from the Corporation for Public Broadcasting.

We just launched the Almanac this week in Western Colorado. Stay tuned for more locations in the coming year!

Aurorasaurus maps aurora-related Tweets and citizen science reports of the aurora during the first solar maximum (now!) with social media. The google maps contains predictions of the auroral oval based on space data, along with weather, and citizen scientist markers. When auroral activity really occurs this is the best place to go for accurate predictions of whether it can be seen in your area!

Citizens in Space has purchased 10 flights on the XCOR Lynx spacecraft which will be made available to the citizen-science community. Join us on May 4-5 to learn how you, or your experiment, could be on board.

We'll meet across the street (literally) from NASA Ames Research Center to learn how citizen scientists can build instruments and experiments with more power than a NASA satellite from a few years back...with components available at Radio Shack or Fry's Electronics.

The Space Hacker Workshop will provide hands-on exposure to a variety of microcontrollers, sensors, imaging systems, and other components that you can use to design and build microgravity, fluid-physics, life-science, and engineering experiments.

The workshop is a chance to connect with and learn from leaders from XCOR Aerospace, NASA Ames Research Center and open source development space experiment development platform ArduLab.

Citizens in Space project manager Edward Wright will be on hand to discuss flight opportunities for experiments and citizen astronauts, including an exclusive glimpse at citizen-astronaut training activities scheduled for this summer.

Laptops are suggested. Wifi is provided by the Hacker Dojo.

Registration is limited and includes coffee, snacks, and lunch both days.

The Astro Drone game is part of a scientific crowd sourcing project. People who possess a Parrot AR drone can play the game, in which they are challenged to perform different space missions in an augmented reality. Contribute to future space exploration by playing the free Astro Drone game!

The iPhone app is more than a game. Players can choose to contribute to a scientific crowd sourcing experiment that aims to improve autonomous capabilities of space probes, such as landing, obstacle avoidance, and docking. The app processes the images made by the AR drone's camera, extracting abstract mathematical image features. These features can neither be interpreted by humans, nor can the original image be reconstructed. However, the features can be used by robots to learn how to navigate in their environment. Players can join the experiment by going to the high score table. If they agree, the feature data is sent over the Internet.

The first release contains the training level, in which players learn to dock as well as possible to the International Space Station. New levels will be added incrementally with new releases.

AstroDrone is a project performed by the Advanced Concepts Team of the European Space Agency.

Planet Four is a citizen science project in which volunteers help planetary scientists identify and measure features on the surface of Mars.

Scientists need your help to find and mark ‘fans’ and ‘blotches’ on the Martian surface, features that indicate wind direction and speed. By tracking these features, you can help planetary scientists better understand Mars’ climate.

All of the images you'll see depict the southern polar region, a little known area of Mars. The majority of these images have never been seen by humans until now.

This is your chance to explore the surface of Mars like never before!

ZooTeach is a website where teachers and educators can share high quality lesson plans and resources that complement the Zooniverse citizen science projects. Citizen science offers a unique opportunity for any person, of any age, of any background to get involved and make a contribution to cutting edge science. Here at Zooniverse headquarters we believe that getting students involved in citizen science offers educators a free, easily accesible and inspiring opportunity to bring real science into the classroom.

SatCam lets you capture observations of sky and ground conditions with a smart phone app at the same time that an Earth observation satellite is overhead.

When you capture a SatCam observation and submit it to our server, it helps us to check the quality of the cloud products that we create from the satellite data. In return, we send you the satellite image that was captured at your location, anywhere in the world! SatCam supports the Terra, Aqua, and Suomi NPP satellites.

SatCam was developed at the Space Science and Engineering Center, University of Wisconsin-Madison .

NASA’s Jet Propulsion Laboratory (JPL) needs you to take complex scientific data and images and turn them into informative graphics to convey a simple and easy to understand messages! The JPL’s newest venture is called JPL Infographics, and they need your help to create and post your very own creations of scientific graphic art.

All of the resources are at your fingertips, including high-resolution images, 3-D models, fact sheets, and loads of other data build your very own Infographics. You can browse the numerous of other user creations to get inspired and then upload your creation online!

This is a really fun and challenging project and your work will be used to educate and inform others on the goings on of cutting-edge space exploration. So fire of both sides of your brain and create some educational space art!

Tomatosphere offers students an opportunity to run real scientific experiments and help Canadian scientists study long-term space travel.

Through a comprehensive project curriculum for students in grades 3-10, Tomatosphere aims to inspire students by engaging them in real and meaningful science. Students are charged to monitor and record the germination rate for pre-treated tomato seeds in order to give researchers a better understanding of the long-term viability of growing tomatoes in space. The study is set up as a blind study with a control group of untreated seeds and a group that has undergone exposure to space-like conditions, including low temperatures and pressures. Oh, and you are highly encouraged to eat your final product!

The project provides a wealth of teacher and student resources as well as supplemental curriculum to add valuable extensions to student’s learning. Registration and data submission is easy through the Tomatosphere website.

On June 5, 2012 at sunset on the East Coast of North America and earlier for other parts of the U.S., the planet Venus will make its final trek across the face of the sun as seen from Earth until the year 2117. The last time this event occurred was on June 8, 2004 when it was watched by millions of people across the world. Get prepared for this once in a lifetime event! Check your viewing times/locations here: http://venustransit.nasa.gov/2012/transit/viewing_locations.php

For over 100 years the main quest of astronomers was to pin down the distance between Earth and Sun (the Astronomical Unit), which would give them a key to the size of the solar system. Careful studies of the transit of Venus became the gold mine they would harvest to reveal this measure.
Editor's note: On 6/5, NASA will web cast the transit. Learn more here:http://venustransit.nasa.gov/2012/transit/

New technologies, like this VenusTransit phone app, will allow you to send observations of the 2012 Transit of Venus to a global experiment to measure the size of the solar system. The free phone app has been developed by Norbert Schmidt of DDQ in the Netherlands.

Prior to the transit, you can use the phone app to practice timing the interior contacts using a simulation of the transit. Additionally, you can see predicted times of contact for your location. During the transit, the phone app will assist you in measuring the time of the interior contacts. After the transit, you can access your data on a map on our website.

At the start and end of the transit, Venus will touch the limb of the sun on the inside. The exact times of these contacts vary according to your location on earth as a result of parallax. By combining the contact times measured all across the world, the distance to the sun can be determined.
To download the free app, click on the "Join In" tab, above, or the "Get Starter" button on the right!

Lowell Observatory is proud to announce the Lowell Amateur Research Initiative (LARI). This program seeks to pair the ever-growing and technically sophisticated amateur astronomy community in exciting research projects with Lowell astronomers.

A passionate researcher, Percival Lowell always sought to communicate new ideas and the joy of astronomy research to the public. In that same spirit, LARI brings together professional and amateur astronomers in a way that affords interested amateurs an opportunity to participate in cutting-edge research and potentially make significant contributions to science. Amateurs can help Lowell astronomers in their work and help create dedicated research teams. LARI will expand Lowell Observatory's education and public outreach missions, and promote greater awareness of astronomy and related sciences.

Currently, Lowell astronomers are conducting several projects that would benefit from the participation of amateur astronomers. These projects span a broad range of technical skills and knowledge from taking very deep images of galaxies to monitoring small stars for transient events to data mining. 

Citizens in Space, a project of the United States Rocket Academy, plans to fly citizen-science experiments on fully reusable suborbital spacecraft that are now being developed by US companies.

Citizens in Space has acquired an initial contract for 10 flights with XCOR Aerospace, the Mojave, California-based company that is developing the Lynx spacecraft. It expects to acquire additional flights from XCOR and other companies in the future.

Citizens in Space is currently training three astronaut candidates to fly as operators. It will select and train seven additional astronaut candidates over the next 12 to 24 months. Citizens in Space is also inviting citizen scientists to build 100 experiments to fly on those flights, which are expected to begin in late 2013 or early 2014.

In addition to the general call for experiments, Citizens in Space will offer a cash prize for certain experiments deemed to be of special importance.

Attention amateur astronomers: it’s time to Target Asteroids!

Amateur astronomers everywhere now have a chance to contribute to NASA’s long-term research of Near Earth Objects (NEOs)! The project starts in April 2012 and continues for a whole decade, with data collected directly supporting the efforts of NASA’s OSIRIS-Rex mission.

The OSIRIS-Rex mission, Origins Spectral Interpretation Resource Identification Security – Regolith Explorer mission, launches in 2016 and will reach the asteroid 1999 RQ36 in 2019, staying for over 500 days and then returning with 6 grams of material to earth in 2023.

By observing an established list of NEOs, you will have the unique opportunity to contribute to meaningful science and help direct future research and the goals of missions like OSIRIS-Rex. Amateur astronomers have a particularly valuable ability to make observations nightly, and in many cases, can make very good quality observations.

So, fire up your telescopes and start targeting some asteroids today!

The Solar Hydrogen Activity Research Kit (SHArK) Project gives you the tools to discover a storable form of solar energy.

Solar energy is the only option for producing the renewable carbon-free power needed to power the planet. However, because the sun doesn't shine at night, it is critical that we develop a method to store the energy for night. Producing hydrogen from sunlight and water is an ideal solution to the storage problem.

The SHArK Project uses the process of photoelectrolysis, whereby certain metal oxides are used with solar energy to split water into hydrogen and oxygen. Currently, no known stable material is capable of efficiently and inexpensively photoelectrolyzing water with visible light. There are, however, millions of untested compounds that might.

This is where students can take the reigns and contribute to real and meaningful science. The SHArK project provides inexpensive kits that include inkjet printers, laser pointers, and LEGOs® to allow students a fun and engaging way to explore chemistry and contribute potential solutions to the world’s energy problem.

Harness the power of the sun with the SHArK Project!

Do you have an Astronomy Story to tell? Create interactive, narrated tours about your favorite astronomical objects in WorldWide Telescope, and share them with the world.

The International Space Apps Challenge is a 2-day, worldwide citizen science event that focuses on developing technologies to solve relevant issues on earth, and in space. The event will take place on all seven continents and will even include collaborators from the international space station. From San Francisco, Nairobi, Melbourne, and even a research station on Antarctica, participants will have the opportunity to collaborate with citizen scientists and professional scientists from a variety of cultures offering a an amazing opportunity for creating unique solutions to a growing list of over 30 global challenges.

The event will take place on April 21st and 22nd of 2012 in a variety of locations across the world. At the event, participants will compete as teams to address challenges ranging from creating a mobile geospatial data visualization application to document environmental degradation activity to creating a mobile application to aid citizens in using social media to report natural disasters. The event aims to unite governments by demonstrating the principles of the Open Government Partnership, an effort endorsed by the U.S. and 52 other countries to promote transparency, participation, and collaboration between governments and citizens. A powerful Citizen Science initiative indeed! Further, the event presents a great opportunity to promote Science, Technology, Engineering, and Mathematics (STEM) education to students through applying technology as solutions to global challenges.

The International Space Apps Challenge is a ‘codeathon’ style event where highly collaborative software development processes result in innovative solutions to unique challenges. Bringing together software developers, engineers, science students, and technologists from around the world is sure to create novel ideas of global scope. The growing list of challenges has been compiled from NASA and several other partnering international agencies; however, you can work with event planners and scientists to submit your own challenge to the event.

This event holds great potential for creating meaningful solutions to global issues and is a truly unique opportunity to collaborate with scientists around the world. Register now to join other citizen scientists and help contribute to global science!

You are invited to the Hubble Space Telescope's vast science archive to dig out the best unseen Hubble images -- and win prizes!

Over two decades in orbit, Hubble has made a huge number of observations. But hidden in Hubble’s huge data archives are still some truly breathtaking images that have never been seen in public. The archive is so vast that nobody really knows the full extent of what Hubble has observed.

This is where you come in. Researchers need you to find and tweak Hubble observations using a set of simple online tools. If you're feeling saucy, you can find Hubble observations and then process them using professional astronomical imaging software. You can win various Apple products and goodies.

Competition ends May 31, 2012.

Planet Hunters is a project from Zooniverse where citizen scientists help astronomers identify new planets.

Through data taken from the Kepler Spacecraft, citizens are helping scientists identify stars with possible planets in the Cygnus constellation. The Spacecraft takes brightness data every thirty minutes from over 150,000 stars so there is a lot to look at.

When planets pass in front of stars, the brightness of that star dips, which shows up on the light curves taken from Kepler. These patterns are not always easily recognized by computer algorithms, and in many cases, the human brain is actually more capable of identifying brightness dips.

Help scientist improve maps of Mars and participate in other research tasks to help NASA manage the large amount of data from the Red Planet.

Users create Martian profiles and become "citizens" of the planet. In the map room, citizens can then earn Martian credits by helping place satellite photos on Mars’s surface, counting craters, and even helping the rovers Spirit and Opportunity by tagging photos with descriptions.

The highly interactive website is rich in content and contains other informational videos and mapping applications for citizens to tour Mars and get to know every nook and cranny of its rocky surface.

Become a Martian, explore Mars, have fun!

Help scientists with the Lunar Reconnaissance Orbiter better understand the structure and history of the lunar surface: identify, measure, and classify images of craters on the moon. Your efforts will help us define the places future missions will study closer - including perhaps even future human missions.

The Zero Robotics Autonomous Space Capture Challenge asks individuals and teams of programmers from around the world to develop a fuel-optimal control algorithm. The algorithm must enable a satellite to accomplish a feat that’s very difficult to do autonomously: capture a space object that’s tumbling, spinning or moving in the opposite direction.

From March 28 to April 25, 2012, challenge participants will collaborate via the Zero Robotics Website to create a computer algorithm that will be programmed into bowling-ball sized satellites called SPHERES (short for Synchronized Position, Hold, Engage, and Reorient Experimental Satellites) aboard the International Space Station (ISS). An object, simulating a Phoenix payload on-orbit delivery system, will be set in motion inside the ISS under varying conditions, such as tumbling or spinning. The algorithm developed will need to direct the SPHERES satellite to approach the moving object and orient itself to contact with the object via Velcro on the SPHERES satellites.

The winners of each round will be invited to the Massachusetts Institute of Technology to view the finals via videolink from the ISS, where the four algorithms will be programmed into SPHERES and tested.

Zero Robotics is co-sponsored by NASA and is run by the Massachusetts Institute of Technology’s Space Systems Laboratory to engage U.S. middle and high school students in science, technology, engineering and mathematics (STEM).

You don’t have to be a science expert to be a brilliant solar stormwatcher. Help scientists spot explosions on the Sun and track them across space to Earth. Your work will give astronauts an early warning if dangerous solar radiation is headed their way. And you could make a new scientific discovery.

Explore interactive diagrams to learn out about the Sun and the spacecraft monitoring it. The STEREO spacecraft is scientists’ latest mission to study the Sun and space weather – not clouds and rain, but how solar storms change conditions in space and on Earth.

Solar Stormwatch isn't just about classifying data. You can talk to other members on our forum, sign up for our space weather forecast from Twitter, and learn about the latest discoveries on our blog. You can also see how solar storms affect Earth at our Flickr group Aurora chasers, featuring beautiful photos of aurora.

if you’d like to know more about what you’re looking at, then explore our beautiful and interactive zoomable diagrams to find out about the Sun and the STEREO spacecraft monitoring it. And check out our scientists’ profiles too.

SETILive is an exciting new project in which volunteers try to detect extraterrestrial signals from space.

The Search for Extraterrestrial Intelligence (SETI) uses images from the Allen Telescope Array and powerful computer algorithms to search for these signals automatically. However, the computer algorithms have a hard time distinguishing between signals that might be extraterrestrial and those that are from earth. This is where you come in!

Researchers need your help to find interesting signals in all that noise. Eventually, they want to learn whatever tricks you use to do your classifications, so they can teach their computer algorithms to do the same thing.

Journey North engages students in a global study of wildlife migration and seasonal change. K-12 students share their own field observations with classmates across North America. They track the coming of spring through the migration patterns of monarch butterflies, robins, hummingbirds, whooping cranes, gray whales, bald eagles— and other birds and mammals; the budding of plants; changing sunlight; and other natural events. Find migration maps, pictures, standards-based lesson plans, activities and information to help students make local observations and fit them into a global context. Widely considered a best-practices model for education, Journey North is the nation's premiere "citizen science" project for children. The general public is welcome to participate.

The Milky Way Project aims to sort and measure our galaxy. We're asking you to help us find and draw bubbles in beautiful infrared data from the Spitzer Space Telescope.

Understanding the cold, dusty material that we see in these images, helps scientists to learn how stars form and how our galaxy changes and evolves with time.

The goal of this project is to discover Kuiper Belt Objects with just the right orbit and just the right characteristics to make them eligible for a visit from the New Horizons mission. At this time, the space probe has enough fuel in reserve to allow up to two different objects to be visited.

This is where you come in. To find these icy KBO targets we need your help poring over thousands of ground based images, taken specially for this purpose using giant telescopes. Hiding within these images are undiscovered slow-moving Kuiper Belt Objects, asteroids zipping through the foreground, and millions of background stars.

Help NASA find life on Mars by exploring the bottom of the lakes of British Columbia, Canada.

The Pavilion Lake Research Project (PLRP) has been investigating the underwater environment with DeepWorker submersible vehicles since 2008. Now with MAPPER, you can work side-by-side with NASA scientists to explore the bottom of these lakes from the perspective of a DeepWorker pilot.

The PLRP team makes use of DeepWorker subs to explore and document freshwater carbonate formations known as microbialites that thrive in Pavilion and Kelly Lake. Many scientists believe that a better understanding of how and where these rare microbialite formations develop will lead to deeper insights into where signs of life may be found on Mars and beyond. To investigate microbialite formation in detail, terabytes of video footage and photos of the lake bottom are recorded by PLRP's DeepWorker sub pilots. This data must be analyzed to determine what types of features can be found in different parts of the lake. Ultimately, detailed maps can be generated to help answer questions like "how does microbialite texture and size vary with depth?" and "why do microbialites grow in certain parts of the lake but not in others?". But before these questions can be answered, all the data must be analyzed.

Constellation is a platform for different aerospace related projects that need intensive computational power. The platform supports the efforts of participating projects by providing Distributed Computation capability using BOINC (Berkeley Open Interface for Network Computing).

Constellation will send work-units of attached projects to volunteering, idle PCs where the units are processed. The combined power of all volunteering users will help to solve important scientific tasks in fields from astronomy to aerospace-engineering beginning from student up to university projects. The bottom line is to benefit from the generosity of the volunteers and to benefit from the accumulation of different projects, like sharing programming knowledge in distributed computing and influencing the others' simulation by its own solutions.

The platform is an open space for anyone, who is an air and space enthusiast and wants to donate idle computing time or even skill for a sub-project on platform. Applications for sub-project are welcome!

SOHO is the most successful comet discoverer in history, having found over one thousand eight-hundred comets in over thirteen years of operation! What's even more impressive is that the majority of these comets have been found by amateur astronomers and enthusiasts from all over the world, scouring the images for a likely comet candidate from the comfort of their own home.

Absolutely anyone can join this project -- all you need is an internet connection and plenty of free time!

Play your part and help discover our Universe!
Have a computer? Want to help astronomers make awesome discoveries and understand our Universe? Then theSkyNet needs you!
Your computer is bored. It has spare computing power nearly all the time that could be used to do something cool. So why not let it?
By connecting 100s and 1000s of computers together through the Internet, it's possible to simulate a single machine capable of doing some pretty amazing stuff. That's what theSkyNet is all about - using your spare computing power to process radio astronomy data.

Science Hack Day is a 48-hour-all-night event that brings together designers, developers, scientists and other geeks in the same physical space for a brief but intense period of collaboration, hacking, and building 'cool stuff'. By collaborating on focused tasks during this short period, small groups of hackers are capable of producing remarkable results. Some Hack Days have a specific focus. There have already been very successful Music Hack Days and Government Hack Days. It's time for a Hack Day focused on science!

Wherever you are – anywhere in the world – contribute to science by taking a photo of a blank white piece of paper!

Photos are needed on the following dates:

September 17 and 18, 2011
September 23, 2011
November 6, 2011
December 12, 2011
February 4, 2012
March 20, 2012
May 5, 2012
June 20, 2012
August 6, 2012
September 22, 2012
November 5, 2012

Your photo will used to measure how much of the sun’s energy is reflected back from the Earth -- our planet's "albedo." It's one way scientists can monitor how much energy – and heat – is being absorbed by our planet. By contributing to the Albedo Project, you will be providing data that can be used to examine the similarities and differences of reflectivity around the world.

Should grassy surfaces have the same value in Brazil as in Norway? How does clay soil in the southeastern USA differ from sandy desert in the southwestern USA? Is there any difference in urban “hot spots” that can be attributed to latitude?

Individuals, schools, small and large groups can all use these data to help inform activities that are appropriate and effective for their communities. Whether it is maintaining the health of parks and green spaces, or legislating green building codes, there is something each can do. It is the hope of this project to present some of the actions taken, as well as follow their albedo records over time.

Project Calliope is an upcoming orbiting satellite that will convert Earth's ionosphere to music for people to share. Calliope lets people get a sense of how active space is. Calliope will measure the ionosphere for its 12-week life and transmit that data as sonified MIDI data (akin to sheet music) so anyone with a ham radio or web connection can listen to it-- or remix it into their own music compositions. It is planned to launch into orbit in late 2011.

You can contribute to a nation-wide effort this spring to provide more accurate juniper pollen forecasts! Juniper pollen causes severe allergic reactions in many people. The Juniper Pollen Project is a NASA-funded collaborative effort between the USA National Phenology Network and several universities in Arizona, New Mexico, and Texas to improve predictions of pollen release and allergy and asthma warnings.

You can join this effort by periodically checking individual juniper trees in your area for pollen cone development and reporting your observations via the USA National Phenology Network web page. Just choose one or more of our four species of juniper: Pinchot's juniper (Juniperus pinchotii), Rocky Mountain juniper (Juniperus scopulorum), oneseed juniper (Juniperus monosperma), or Ashe's juniper (Juniperus ashei), make observations of your juniper, and report your findings via the USA-NPN’s online system, Nature’s Notebook.

This annual contest, co-sponsored by NASA Ames and the National Space Society, is for 6-12th graders (11-18 years old) from anywhere in the world. Individuals, small teams of two to six, and large teams of seven or more (often whole classrooms with teacher leadership) may enter their design for and description of a human colony in outer space.

Submissions must relate to orbital settlements; they may not be on a planet or moon. Settlements must be permanent, relatively self-sufficient homes, not temporary work camps. Designs, original research, essays, stories, models, artwork or any other orbital space settlement
related materials may be submitted.

Grades 6-8, 9-10 and 11-12 are judged separately, except for the grand prize. The single highest scoring team or individual attending will receive the NSS Bruce M. Clark, Jr. Memorial Space Settlement Award for $3,000.

Submissions must be received by March 15.

SETI, or the Search for Extraterrestrial Intelligence, is a scientific effort seeking to determine if there is intelligent life outside Earth. SETI researchers use many methods. One popular method, radio SETI, listens for artificial radio signals coming from other stars. SETI@home is a radio SETI project that lets anyone with a computer and an Internet connection participate.

Radio telescope signals consist primarily of noise (from celestial sources and the receiver's electronics) and man-made signals such as TV stations, radar, and satellites. Modern radio SETI projects analyze the data digitally. More computing power enables searches to cover greater frequency ranges with more sensitivity. Radio SETI, therefore, has an insatiable appetite for computing power.

Previous radio SETI projects have used special-purpose supercomputers, located at the telescope, to do the bulk of the data analysis. In 1995, David Gedye proposed doing radio SETI using a virtual supercomputer composed of large numbers of Internet-connected computers, and he organized the SETI@home project to explore this idea. SETI@home was originally launched in May 1999.

The SETI@home project hopes to convince you to allow us to borrow your computer when you aren't using it and to help us "…search out new life and new civilizations." We'll do this with a screen saver that can go get a chunk of data from us over the internet, analyze that data, and then report the results back to us. When you need your computer back, our screen saver instantly gets out of the way and only continues it's analysis when you are finished with your work.

Garden BirdWatch needs citizen scientists in the United Kingdom to gather information on how different species of birds use gardens and how this use changes over time. Gardens are an important habitat for many wild birds and provide a useful refuge for those affected by changes in the management of the countryside. The data gathered in this project enables researchers at the British Trust for Ornithology to monitor the changing fortunes of garden birds.

Some 16,000 participants currently take part in Garden BirdWatch. Participants send in simple, weekly records of bird species that they see in their gardens. This information is either submitted on paper count forms or by using Garden BirdWatch Online. Each participant also supports the project financially through an annual contribution of £15 (approximately $22). In return, participants receive the quarterly color magazine, Bird Table, count forms, and access to advice on feeding and attracting garden birds.

All new joiners will receive a free copy of an exclusive paperback version of the acclaimed "Garden Birds and Wildlife" (normally £14.99).

Using small telescopes around the world, Global Telescope Network members observe and analyze astronomical objects related to the NASA Fermi Gamma-ray Space Telescope (formerly GLAST), Swift, and XMM-Newton missions.

These missions are designed to study astronomical objects through their emission of x-rays and gamma rays. But much can be learned by combining observations over a broad range in the electromagnetic spectrum. So, the Global Telescope Network has been assembled to make observations in the optical range to complement the observations by space-borne observatories.

Members can participate in a number of activities, including gamma-ray burst photometry analysis, surveillance data analysis, and galaxy monitoring, and by donating telescope time. The Global Telescope Network in turn provides involvement for students, teachers, and amateur astronomers in cutting-edge astronomical research. It also offers mentoring in research practices, telescope use, data analysis, and educational resources.

On the evening of May 18, NASA all-sky meteor cameras located at NASA’s Marshall Space Flight Center and at the Walker County Science Center near Chickamauga, Ga. tracked the entry of a large meteor estimated to weigh some 60 pounds over northeastern Alabama. This meteor was first picked up at an altitude of 47 miles over northwest Huntsville, moving at a speed of 8 miles per second toward the southeast. It was last visible northeast of Gurley at an altitude of 23 miles. The meteor was quite bright, with an intensity rivaling that of the waxing crescent moon (in astronomical terms, it was about visual magnitude -8.3).

Residents who saw the meteor on the night of the 18th, or those who may have noticed or picked up an unusual rock in the vicinity are requested to contact the NASA Meteoroid Environment Office at the Marshall Space Flight Center. Eyewitnesses are asked to give a detailed description, including the time of the sighting, and those who suspect they have a meteorite are requested to give the location of the find and provide a digital photo of the object.

Moon Zoo invites you to help astronomers count and analyze craters and boulders on the surface of the moon. You will examine images from NASA's Lunar Reconnaissance Orbiter, which show the lunar surface in remarkable detail, including features as small as about one and a half feet across.

One aim of Moon Zoo is to provide detailed crater counts for as much as the Moon's surface as possible. The number of craters on a particular piece of the surface tells us how old it is.

Craters can tell us more than just the history of the lunar surface, though. In particular, you're asked to look for craters with boulders around the rim. Boulders are a sign that the impact was powerful enough that it excavated rock from beneath the regolith (the lunar 'soil') and so by keeping an eye out for these we can begin to map the depth of the regolith across the surface of the Moon.

Of course, in exploring the lunar surface who knows what else you might find. We very much hope that Moon Zoo will lead to the discovery of many unusual features.

INSPIRE volunteers use build-it-yourself kits to measure and record very low frequency radio emissions. These include naturally occurring "sferics" (short for "atmospherics") often generated by lightning and known as "tweeks," "whistlers," and "chorus" as well as man-made emissions.

There is a great deal of scientific curiosity about the nature and generation mechanisms of natural very low frequency radio emissions and how they interact with the Earth's ionosphere and magnetic fields. INSPIRE is taking an active role in furthering the investigation of very low frequency emissions by involving citizen volunteers in its research.

INSPIRE represents a rare opportunity to work with real NASA space scientists on real scientific problems.

Join us in the search for interstellar dust! On January 15, 2006, the Stardust spacecraft's sample return capsule parachuted gently onto the Utah desert. Nestled within the capsule were precious particles collected during Stardust's dramatic encounter with comet Wild 2 in January of 2004; and something else, even rarer and no less precious: tiny particles of interstellar dust that originated in distant stars, light-years away. They are the first such pristine particles ever collected in space, and scientists are eagerly waiting for their chance to "get their hands" on them.

Before they can be studied, though, these tiny interstellar grains will have to be found. This will not be easy. Unlike the thousand of particles of varying sizes collected from the comet, scientists estimate that Stardust collected only around 45 interstellar dust particles. They are tiny - only about a micron (a millionth of a meter) in size! These miniscule particles are embedded in an aerogel collector 1,000 square centimeters in size. To make things worse, the collector plates are interspersed with flaws, cracks, and an uneven surface. All this makes the interstellar dust particles extremely difficult to locate.

This is where you come in!

By asking for help from talented volunteers like you from all over the world, we can do this project in months instead of years. Of course, we can't invite hundreds of people to our lab to do this search-we only have two microscopes! To find the elusive particles , therefore, we are using an automated scanning microscope to automatically collect images of the entire Stardust interstellar collector at the Curatorial Facility at Johnson Space Center in Houston. We call these stacks of images focus movies. All in all there will be nearly a million such focus movies. These are available to Stardust@home users like you around the world. You can then view them with the aid of a special Virtual Microscope (VM) that works in your web browser.

Together, you and thousands of other Stardust@home participants will find the first pristine interstellar dust particles ever brought to Earth!

In recognition of the critical importance of the Stardust@home volunteers, the discoverer of an interstellar dust particle will appear as a co-author on any scientific paper by the Stardust@home team announcing the discovery of the particle. The discoverer will also have the privilege of naming the particle!

Are you interested in bringing Hubble Space Telescope data into your classroom? Then check out NASA Top Stars!

U.S. formal (K-12 and college) and informal educators were invited to submit their best examples of using NASA's Hubble Space Telescope for science, technology, engineering or mathematics education. Those selected as Top Stars received national recognition and awards. Winning entries are published online for other educators to use to inspire their students.

The deadline to enter was Feb. 28, 2010. While the contest has ended, the Top Stars website provides access to a showcase of Top Stars winners and other resources for the classroom.

Top Stars is an IGES initiative, through funding from NASA, and in cooperation with the Space Telescope Science Institute.

The National Science Digital Library encourages citizens to help enlarge and strengthen their library of high quality resources and tools that support science, technology, engineering, and mathematics education.

Developers of content in these subject areas, National Science Foundation grantees, educators and learners, and all other members of the community are welcome to recommend digital resources for the library. These resources include activities, lesson plans, Web sites, simulations, or any materials that help educators meet the demands of an increasingly complex technology-based world.

As a national network of learning environments, resources, and partnerships, the National Science Digital Library seeks to serve a vital role in educational cyberlearning for the nation, meeting the informational and technological needs of educators and learners at all levels.

NASA needs your help to monitor the rates and sizes of large meteoroids striking the moon's dark side. By monitoring the moon for impacts, NASA can define the meteoroid environment and identify the risks that meteors pose to future lunar exploration. This data will help engineers design lunar spacecraft, habitats, vehicles, and extra-vehicular activity suits to protect human explorers from the stresses of the lunar environment.

The Great World Wide Star Count is an international event that encourages learning in astronomy by inviting everyone to go outside, look skywards after dark, count the stars they see in certain constellations, and report what they see online.

Participating in the event is fun and easy! You can join thousands of other students, families and citizen scientists from around the world counting stars. Don't miss out!

Help solve the mystery of epsilon Aurigae, a star that has baffled scientists since 1821. You don’t need any prior scientific training to observe and record the changing brightness of this star this site provides all of the tools you need to become a citizen scientist, including a training program that begins with stars that are easy to find and observe. Slowly the stars become more challenging as you go down the list. By the time you reach epsilon Aurigae at the bottom of the list, you’ll be an expert variable star observer contributing real data to professional scientists.

NASA's Radio JOVE project enables students and amateur scientists to observe natural radio emissions from Jupiter, the Sun, and our galaxy. Participants learn about radio astronomy first-hand by building their own radio telescope from an inexpensive kit and/or using remote radio telescopes through the Internet. They also collaborate with each other through interactions and sharing of data on the network.

The Radio JOVE project began in 1998. Since then, more than 1,600 teams of students and interested individuals have purchased non-profit radio telescope kits and are learning radio astronomy by building and operating a radio telescope. This self-supporting, non-profit program continues to thrive and inspire new groups of students as well as individuals.