The Sound of Science! 5 Citizen Science Projects That Need Your Ears

Bookmark and Share

In our latest newsletter we’ve picked citizen science projects where you can collaborate with scientists and use sounds and radio waves to track environmental health, understand our solar system, and even search for extraterrestrial intelligence.

And don’t forget to tune into NPR/WHYY’s Citizen Science radio series, produced in partnership with SciStarter.

And without further ado, here’s science you can do!



setihomeSETI, or the Search for Extraterrestrial Intelligence, is a scientific effort seeking to determine if there is intelligent life outside Earth. 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. Get started!


Radio JOVE

radio jove

NASA’s Radio JOVE project enables students and amateur scientists to observe natural radio emissions from Jupiter, the Sun, and our galaxy. Learn about radio astronomy first-hand by building your own radio telescope from an inexpensive kit and/or using remote radio telescopes through the Internet. Get started!


Frog Listening Network


Amphibians are considered “sentinels” of environmental health. By knowing where in our environment frogs are flourishing and where they may be vanishing, researchers can direct their efforts to protect key habitats. Learn how to identify amphibians in Florida, by their sounds! Get started!


Citizen Weather Observer Program

Image Credit: CWOP

Join thousands of ham radio operators and other people with personal weather stations around the country volunteering their weather data for education and research. Get started!


Interactive NASA Space Physics Ionosphere Radio Experiments (INSPIRE)

Image Credit: INSPIRE

Use build-it-yourself kits to measure and record very low frequency radio emissions. Help advance our understanding of how they interact with the Earth’s ionosphere and magnetic fields. You’ll work with NASA space scientists on real scientific problems! Get started!



Image Credits (In order)

SET@Home, NASA, Josch13 / Pixabay CC0, CWOP, INSPIRE

Category: Citizen science | Tagged , | Leave a comment

When Dog Vomit Smells Delightful

Bookmark and Share
What can a change in our capacity to smell can tell us about our health? (Image credit: PublicDomainPictures / Pixabay CC0 )

What can a change in our capacity to smell can tell us about our health? (Image credit: PublicDomainPictures / Pixabay CC0 )

Editor’s note: The Smell Experience Project is one of more than 800 projects on SciStarter. Use our project finder to search and participate in citizen science that interests you!

I hate the smell of a mall. Everything reeks of that seemingly incurable lust for stuff—‘buy me, buy me’ is the cry. It’s as if the building is overdosing on the smell of money, and perspires that sickly-sweet perfume. You can lick it off the air. But that’s just me—my daughter loves it.

It’s not accidental. There are firms who research and provide signature scents for companies like Tommy Hilfiger. recently reported on this. And if you didn’t know that, consider this: scientific papers have been published that actually test the impact of ambient odors on mall shopper’s emotions, cognition and, wait for it… spending!1  The authors concluded that the cognitive theory of emotions explains the influence of ambient scent best, and they went on to discuss managerial implications. I guess if LL Bean could manage that I would become more entranced with the idea.

Recently, the Smell Experience Project, a citizen science project that tested volunteers for a change in odor perception, published its findings. Imagine that you walked into Macy’s and smelt something like dog vomit, but it was the actual signature scent—you would know that your nose is misleading you—that would be a give-away. Dolores Malaspina, MD the researcher at The Institute for Social and Psychiatric Initiatives who is using this information is particularly interested in what a change in olfaction or odor perception actually tells physicians and psychiatrists. She says, “We have a large amount of publications showing that olfaction is related to symptoms and cognition in schizophrenia and that there are strong sex differences in cases and controls. In the disease we have appreciated olfaction as an indicator of higher cognitive control, in addition to olfactory specific mechanisms and regions. We can use profiles of olfactory function to address the heterogeneity of schizophrenia, that is, to find different subgroups of cases.”

Another question that can’t be ignored is whether the deficits in olfactory perception could be a cause of behavioral distress or disorders. To address this question Malaspina and colleagues conducted an Internet based study of 1000 people reporting a change in olfactory function2. She says the results were intriguing, “They showed that olfactory dysfunction substantially impacts a person’s quality of life, despite being of little concern to treating physicians.” The results show that olfactory stimulation and processing may help maintain a healthy brain, and people who loose their sense of smell may experience emotional consequences.

While there may be less practical problems associated with impaired or distorted odor perception than with impairments in visual or auditory perception, many affected individuals report experiencing olfactory dysfunction as a debilitating condition. Smell loss-induced social isolation and smell loss-induced anhedonia (the inability to experience social enjoyment) can severely affect quality of life.

I might mention that Discover has published a long list of Malaspina’s work, and she notes that, “Discover was also one of the first magazines to take my findings on paternal age and psychiatric illness seriously. They published this in an article by Josie Glausiusz entitled Seeds of Psychosis in the 2001 edition.”

Changes in odor perception can be a symptom of a condition, such as depression, head injury, dementia, or allergies, or a side effect of medication. Because the changes are subjective and difficult to measure, medical professionals often do not ask patients about changes in their sense of smell. As a result, there is little documented information about these changes. With the Smell Experience Project researchers successfully turned to the public for their help to better understand how changes in sense of smell can serve as an important and useful health indicator.


  1. Impact of ambient odors on mall shoppers’ emotions, cognition, and spending – A test of competitive causal theories Jean-Charles Chebat, Richard Michon, Journal of Business Research, 2003.
  2. Hidden consequences of olfactory dysfunction: a patient report series Keller and Malaspina, 2013
Category: Citizen science | Leave a comment

Eyes on the Rise: Sea Level Rise Rally

Bookmark and Share


Editor’s Note: This is a guest post by Dr. Robert Gutsche, Jr., Assistant Professor in the School of Journalism and Mass Communication at Florida International University and a part of the team at Eyes on the Rise, a crowd-hydrology citizen science project.

University and high school students at Florida International University’s Biscayne Bay Campus are launching an effort to measure possible flooding on King Tide Day (Oct. 9) on Miami Beach, beginning with a sea level rise rally at 9 a.m. on Sept. 29, 2014. The event will be hosted by, a collaboration of four journalism professors at FIU, hundreds of college and high school students, and a dozen Miami area scientists, media and technology professionals.

Continue reading »

Category: Uncategorized | Leave a comment

Wisconsin’s Water Action Volunteers – Making Waves for Action [GUEST POST]

Bookmark and Share

Editor’s Note: This post was written by Kris Stepenuck, Wisconsin’s Water Action Volunteers Stream Monitoring Program Director.

Monitor the quality and quantity of Wisconsin’s streams with Water Action Volunteers.

Interested in water monitoring projects? We’ve got you covered!


A Water Action Volunteer checking a local stream.

A Water Action Volunteer checking a local stream.

Human uses of the land impact the quality and quantity of waters in local streams, which in turn, can affect our recreational activities such as fishing, boating and swimming, and our drinking water quality. If we understand where, how and to what extent our streams are impacted, we can take steps to protect and improve them.

Citizen scientists in Wisconsin’s Water Action Volunteers (WAV) program assess the quality and quantity of water in their local streams. Their monitoring helps natural resource professionals understand the extent of non-point pollution in the state. Non-point pollution comes from sources across the landscape and is the primary source of pollution in Wisconsin’s (and our nation’s) waters. It includes sediment and nutrients, such as phosphorus and nitrogen, which enter streams from agricultural and urban lands. Volunteer monitors also help track streamflow over time, since urban and agricultural land uses can significantly increase or decrease flows. For example, in urban areas, increased impervious surfaces result in less infiltration of rainwater into the ground and change baseflows and stormwater runoff. Also, where there is groundwater pumping, streamflow can be drastically reduced, which can endanger fish and other aquatic life.

WAV, sponsored by the Wisconsin Department of Natural Resources (WDNR) and the University of Wisconsin-Extension, has three levels of participation: Introductory; Status and Trends; and Special Projects Monitoring. Anyone interested in learning more about his or her local stream is encouraged to participate. Although methods are targeted towards adults and middle and high school students, younger children can participate in many of the activities with assistance. Everyone must begin with introductory monitoring unless they have previous experience. Each spring, trainings are held in various locations in Wisconsin for new volunteers to learn monitoring methods. The time commitment is one hour per month from May through October for Introductory and Status and Trends monitoring, while the time commitment varies for adults who participate in Special Project Monitoring. Some Special Project volunteers monitor for just a few minutes per month to assess phosphorus. Others monitor year around, sometimes several times per month, to assess impacts of road salting on streams. Those interested in joining WAV can visit the program website to find contacts and a calendar of upcoming events.

Continue reading »

Category: Citizen science | Tagged | Leave a comment

Your Citizen Science Idea Could Fly to Mars and Win You $20,000 from NASA!

Bookmark and Share
mars balance challenge

Rack your brains for a chance to win cash from NASA (Image Credit: NASA)

Buckle up folks, ‘cause NASA is coming to you with a challenge. On Saturday, NASA announced at the World Maker Faire in New York that it has opened up registration for the ‘Mars Balance Mass Challenge’. The space agency has had a history of engaging citizen scientists through online crowdsourcing initiatives such as Target Asteroids!, Planet Mappers and Be a Martian and on the ground challenges such as its annual Sample Return Robot Challenge. In August this year, they partnered with ECAST (Expert and Citizen Assessment of Science and Technology) for the ‘Informing NASA’s Asteroid Initiative’ which invites the public to discuss and comment on how NASA is tackling asteroid exploration, potential asteroid threats and planetary defense.
Continue reading »

Category: Uncategorized | Tagged | Leave a comment

Citizen Science and Water Monitoring: How Healthy is the Water Near You?

Bookmark and Share

On September 18th of each year, the World Water Monitoring Challenge (WWMC) encourages people around the world to test the quality of the water near them, share their findings, and become inspired to protect one of the most important (if not the most important) resource on our planet.

In celebration of the WWMC, SciStarter‘s editors are floating a handful of water projects by you in our latest newsletter!



World Water Monitoring Day

Use a DIY kit to sample your local water body for basic water quality parameters: temperature, acidity (pH), clarity (turbidity), and dissolved oxygen. Create world map of the health of water bodies in the process. Get started!

Continue reading »

Category: Citizen science | Tagged | Leave a comment

Citizen Science in the Classroom: Mapping Mars and Be a Martian with NASA [GUEST POST]

Bookmark and Share

Editor’s Note: This post has been republished and shared in celebration of SciStarter’s Back To School campaign where you will find 10 citizen science projects aligned with Next Generation Science Standards.


Students Explore the Surface of Mars and Contribute to Citizen Science From Their Classroom

Mars Rover main page


1st -12th


The National Aeronautics and Space Administration (NASA) is asking for help in processing data collected on Mars, in the form of pictures taken by the Mars Rovers, Spirit and Curiosity. On the “Be a Martian” home page there is a dashboard where teachers or students may create an account with a Martian profile, complete with choosing your alien. Each action, associated with a profile, is given points or virtual badges for participating. Creating a profile is not necessary, you may also participate as a “Martian tourist.”  After registering (or not) you will be taken to their Citizenship Hall, which has links for pages with polling, a “theater” with video clips about the rovers, the ability to create a post card to send to the rover Spirit, and an Atlas with geographic information about Mars. Accessed from the Citizenship Hall is the, the second major page of their website, the “Map Room.”  In the map room there is an introductory video about the program and students have the opportunity to try their hands at three types of Martian mapping. These include aligning photos to match topographic images, counting craters, and tagging physical features of the landscape.

Materials You’ll Need:

  • Computer or computers with internet access.
  • Projector or smart board may be useful for working as a class.
  • Color printer

Why This Citizen Science Project is a Strong Candidate for the Classroom:

  • This project can be done in any setting, rural or urban.
  • No special tools are required outside of a computer with internet access.
  • Students gain a “sense of place” through learning about space and other planets.
  • NASA provides a great deal of supporting curriculum, hand-outs, posters, and multi-media resources.

Continue reading »

Category: Citizen science | Tagged , | 1 Comment

Coop’s Citizen Sci Scoop: The Key to Unlocking Collaborative Conservation for Birds

Bookmark and Share


This was a big week in the news for citizen science in bird conservation. Audubon released a report on projected impacts of climate change on birds. The annual State of the Birds report was released at an event in Washington, DC. One partner in the State of the Birds is the U.S. North American Bird Conservation Initiative (NABCI) Committee. Given the citizen science data used in the Audubon report and State of the Birds report, the NABCI chose a timely focus for the fall issue of their All-Bird Bulletin: The Power of Citizen Science for Bird Conservation. I was asked to write the concluding article, which I’m sharing here.

One of the biggest mysteries that puzzles ornithologists and birdwatchers alike is not about the songs of birds, or their nesting, or even their migration. The biggest mystery about birds is how humanity can best co-exist with them. When we manage our natural resources, we cannot tell birds when to migrate, which routes to take, or where to nest. We can only manage people and habitats in ways that we think will influence birds for the better. Can citizen science help provide answers to resolve this co-existence mystery? We think so.

A lot can be accomplished without citizen science. Scientists are taught to do research, publish it, and to tell managers about their findings. Birdwatchers are taught to join conservation organizations, adopt green behaviors, and write to elected officials. In this way, bird conservation is a balanced mix of rigorous science and shared public values and it gets us pretty far. But birdwatchers collect a lot of information that can be used to achieve our desire for bird conservation—if we make effective use of it. In this way, bird watchers become citizen scientists.

Citizen science is a way to discover more about birds and leverage the human dimension of conservation. With it we can gain both a shared understanding of birds and a shared concern for birds. Here are three ways citizen science expands our options for conservation:

First, citizen science not only makes good science but also fosters good citizenship. Good citizenship arises because people are empowered by the process of co-creating knowledge. There is something transformative about discovery—new knowledge enables people to see the world differently— which is a major force for change. When birdwatchers join citizen science projects, they are entering a powerful collaborative effort.

Birdwatchers have always been responsive to conservation. In response to declines in bird species at the turn of the nineteenth to twentieth centuries, people shifted from killing birds to watching them, and the term “birdwatching” was born. Conservation-oriented birdwatchers transformed the Christmas Side Hunt into the Christmas Bird Count. They switched from collecting eggs to monitoring nests. In the 1960s, Rachel Carson’s Silent Spring sparked the formation of the Breeding Bird Survey and the Nest Record Cards (now called NestWatch). Birdwatchers, and serious birders, are adjusting their hobbies to advance research and conservation. Most recently, concern for birds moved eBirders to see the value of not only reporting additions to their life lists, but in repeatedly creating complete checklists that indicate the presence and absences of species at a site. As birdwatchers discover what’s possible with their collective observations, through programs such as eBird and Breeding Bird Survey, they increasingly engage in citizen science. In the past, by the thousands. Now by the tens of thousands. One day, perhaps, by the millions.

Joining with others in citizen science to gain a shared understanding of the world is a powerful feeling. Studies in informal science education have just begun to explore the empowerment aspects of citizen science. One of the first evaluations of social impacts of  citizen science began with a focus on learning and attitude changes from citizen science participation in ornithology in 2005. They found that people learned more about birds, but didn’t detect changes in attitudes about birds or science, probably because people self-select into the project and came to the project with highly positive attitudes already. Since then other studies have found that participation by “newbies” in citizen science can lead to more positive attitudes about science. Now new, more sensitive, evaluation instruments have been developed and we await more studies of participants in ornithological citizen science.

Meanwhile, studies of citizen science in other disciplines have found that participation can lead to increases in awareness, knowledge, interest, skills, attitudes, and conservation behaviors. For example, in Texas, researchers documented that volunteers who monitor water quality gained social capital through community networking on environmental issues and this has led to increased capability of the community to address these issues. In North Carolina, researchers found that volunteers monitoring the nesting of Loggerhead Sea Turtles gained local expertise and now co-manage this endangered species with the state agency. They even undertake adaptive management by adjusting their field practices according to the results of the monitoring.

In the Midwest, researchers found that people monitoring Monarch butterfly larva have experienced an increase in their feelings of connection with nature, which subsequently led to conservation actions. In Louisiana, vulnerable communities collected data on exposures to health risks after the Gulf Oil Spill. These data made their way into the hands of policy-makers (though sadly did not result in new policy). In the western U.S.,  collaborative monitoring of forest resources by immigrant communities built trust among agencies and stakeholders. Taken together, it seems that citizen science can create communities with resilience that arises from being able to learn and respond.

Second, citizen science is one of the few tools for the study and management of residential lands. While much of the nation’s public lands remain important natural areas for birds, residential lands matter too. According to The State of the Birds 2012 Report, about 60 percent of land in the United States is privately owned. In western states, public lands abound, but in the East, some states are as much as 98 percent private. We cannot rely on public lands to harbor and sustain all bird species. As urban sprawl increases, residential communities hold the potential to make or break conservation efforts. Landowners engage, intentionally and unintentionally, in actions that affect, for better or worse, the conservation of birds.

Citizen science projects like YardMap are designed to increase people’s capacity to manage their residential lands for birds. Imagine implementing the recommendations from books like Steve Kress’s The Bird Garden and collectively evaluating each recommendation via YardMap? Logistically, how else can we study and effectively manage millions of dispersed, relatively tiny parcels of land in a coordinated way? As managers of their own property, the public has the potential to adaptively manage residential landscapes at scales that have continental significance. Citizen science thus can bring inclusive and deliberative approaches to create a new culture of landuse practices with significant conservation potential. In this scenario, citizen scientists become agents of the public good and facilitators of research and conservation.

Third, citizen science is a way for the public to bring both values and knowledge to the decision-making table. The perspectives, ideas, values, and opinions of members of the public are valid influences on policy, and these can be benchmarks that decision makers use to make informed judgments on issues. Through participation in citizen science, members of the public can also contribute to the other key part of the decision-making equation: formation of scientific knowledge. For example, scientific research via citizen science could tell policy makers how many birds might be at risk from the placement of a communication tower along a flyway; public values can tell policy makers the benchmark, that is, the amount of risk that is acceptable.

Thus, with citizen science the most heightened civic engagement is possible: contributions to the formation of new knowledge and articulation of values. People can hold different values, disagree in their opinions, and be informed by different experiences, but knowledge derived from sound science is reliable, repeatable, and indisputable. With citizen science, the public can engage in the science and that leaves room for public discourse on the values. The cautionary flag is to avoid inadvertent advocacy by clearly distinguishing value judgments from scientific information. Citizens can by all means contribute both but must do so distinctly.
Citizen science advances scientific research, provides informal science education, can facilitate social and environmental change, brings fulfillment, joy, enriching experiences, and scientific discoveries, creates networks with social capital, and the list goes on. Despite how far citizen science has taken us, however, it is still in its infancy. The bottom line is that the participatory process of citizen science is operating in the service of society by informing collaborative conservation decisions and solutions based on shared evidence and shared values.


Category: Citizen science, Uncategorized | Tagged , , , , , , , | 3 Comments

Citizen Science for the Classroom: Special Edition

Bookmark and Share

Your citizen science backpack is here!

Here are 10 citizen science projects you can use in your classroom. SciStarter’s Karen McDonald aligned them with the new Next Generation Science Standards!

Click the title of each project to link to detailed blog posts with full descriptions of how the project can work in a classroom, and how it aligns with NGSS. Then, click “Get Started” to go directly to the SciStarter website to learn more about the project.

Learn more:”Integrating Citizen Science Into Your Classroom.” And find more projects suitable for the classroom here: SciStarter’s Classroom Picks!

Continue reading »

Category: Uncategorized | Tagged , | Leave a comment

Coop’s Citizen Sci Scoop: Bird watchers have themselves to thank (and here is why you should thank them too)

Bookmark and Share

Like any parent, I get a lot of questions from my kids that only an encyclopedia could properly answer. I got away with being vague when they were young: “What plant is this?” they would ask, as if they were being introduced to a new person.

“Um, a succulent.”

“Hi, succulent.”

Now they want details: “But what kind of succulent?”

Sometimes I follow in my dad’s footsteps and use his made-up words. “Mom, is there a term for the lock button on the car door?”

“Yes, that’s the ginicky.”

Suddenly I’ve become a stickler for names. Well, for one name. I recently did some digging and had a startling realization: the work of citizen scientists is quite substantial but mostly unacknowledged in the scientific literature! After working for more than a decade with citizen science, I promptly want everyone to know that this – citizen science – is the name for the wonderful phenomenon of ordinary people contributing to science. Sure, there are plenty of other names like crowdsourcing, volunteer monitoring, community-based monitoring, and more. Sure, I used to call it zealous birding (with the utmost respect). But now I realize that if we don’t all call it the same name, then we can’t easily keep track of the important role it plays in the world.

I’ve been working with a meteorologist, matching up historic weather data to historic nesting data across the United States. We are examining whether patterns in the occurrence of unhatched eggs in nests can be explained by weather variables. I was attempting a little academic bonding when I asked, “Isn’t this great that we are using bird citizen science and weather citizen science together?”

Unmoved, my meteorologist said, “This is not weather citizen science.”

My jaw dropped. “What?! Who collected all these weather observations?”

“Farmers,” he replied.

I sat and waited quietly while his words sunk in.

“What I mean is, this started before the term citizen science was even coined.”

I stared, still waiting quietly.

“Ok, so this is weather citizen science, but we don’t call it that.” (We meant meteorologists, in contrast to the lesser ornithologists).

I’ll leave meteorologists alone, for now, because their hands are full dealing with climate change deniers (Plus, I know what it’s like to hear birders talk about birds, so I can easily imagine what it’s like to hear weather bugs talk about the weather).


I want to focus on ornithologists. After all, the term citizen science, when used as I do here to refer to volunteers collecting data*, was coined by Rick Bonney at the Cornell Lab of Ornithology. He was initially referring specifically to birdwatchers. Certainly ornithologists must have adopted the term?

A couple of colleagues and I explored this question in our new paper in PLOS. We knew, from our own research experiences, that citizen science can provide data at spatial and temporal scales unobtainable by any single researcher. Even a tenured professor. With graduate students. Climate change is a global phenomenon unfolding over decades. We decided to look in detail at the literature on birds and climate change.

Lo and behold, there are heaps that we know about migratory birds and climate change. Here are 10 claims in the literature (Each deserve at least a blog post of their own, but that will have to wait). First, songbirds are responding to climate change by arriving earlier on breeding grounds. Second, short-distance migrants likely respond slightly differently in their timing than long-distance migrants. Third, birds are arriving earlier primarily by taking different routes. Fourth, the mechanisms controlling phenology are hardwired, likely controlled by photoperiod cues. Fifth, despite being hardwired, the exact timing of behaviors have some natural variation in response to local conditions, in this case, sixth, the variation is mainly due to weather en route. Seventh, the annual cycle constrains responses (that is, birds need to have time to breed, molt, and migrate, so there are limits on how much time any single phase can carve out of the year). Eighth, there is increased mismatch in timing between prey and predators during the breeding season. Ninth, climate change is causing population declines of birds, and, tenth, affecting community composition.

This impressive list of claims were formulated based on over 170 studies cited in a review paper in 2011. What’s unusual to see in a review is that 18 of the authors gave their expert opinions about each claim. They averaged their opinions and found there was not equal certainty about each claim. Some claims had a solid basis of support, particularly spring arrival dates advancing and short- and long-distance migration mattering. Other claims remain on shaky ground for the time being, like climate change causing population declines and alterations in community composition.

As an ornithnologist, I’m impressed by how much is known about migratory birds and climate change. My colleagues sure have been busy in the field! Or have they? On closer inspection, my co-authors and I reached three interesting conclusions.

First, by looking at the papers cited in relation to each claim, we saw that every claim contained some papers (24% at a minimum) that relied on citizen science. For some claims, as much as 77% of the studies relied on citizen science. Bravo birdwatchers!

Second, there was absolutely no relationship between the percent of citizen science supporting a claim and the opinions that researchers held about the claim. In fact, the claim regarded as having the most support was also the claim with the highest reliance on citizen science.

Third, NOT ONE of the papers referenced used the term citizen science. We had to scour the methods to determine whether volunteers were involved. Most often we could not tell unless the Acknowledgements section thanked the volunteers. In a few cases, we had to contact the authors and ask if the data were collected by volunteers. In one case, the author did not know who collected the data – it was simply a publicly available source.

I’m happy to learn that there are a lot of other ornithologists out there like me, using citizen science data. Unlike me, they just don’t talk about it. And that is their choice. But they should use citizen science as a keyword. The keyword could become a geeky way to say ‘thank you.’

For example, earlier this week, a study came out in PeerJ about insect fossils in France. Only from a tweet and a blog post did I learned that the discoveries involved two amateur organizations. The paper mentioned the Société des Naturalistes et Archéologues de l’Ain and ‘Sympetrum Recherche et Protection des Libellules’, but how could I know these were citizen science groups? Similarly, non-ornithologists won’t necessarily know that counts from the Breeding Bird Survey or banding data (called ringing in Europe) from bird stations are the sorts of data collected by volunteers.

The ‘invisibleness’ findings explained a lingering puzzle. If you use a search engine, like Google scholar, and the search term ‘citizen science’, then about 80% of what you get are papers about citizen science. These are papers from the fields of informal science education, informatics, human-computer interactions, and others that study and support the practice of citizen science. Only about 20% (this is an off-the-cuff guesstimate, as was the 80%) of the papers are new discoveries that rely on citizen science contributions.

There is an enormous wealth of knowledge for which we implicitly assume comes exclusively from people working in the scientific profession. When we stop and call it by its name, we begin to see the importance of publicly engaged research. Credit should be dispersed a little wider. Birdwatcher, you actually you have each other to thank.

Now, when a kid asks a parent, “What in the world is that bird watcher doing?”

The answer will be a name, like an introduction.

“Hi, citizen science.”



*Citizen science was coined by Alan Irwin in 1995, with a different meaning. For example, see this past post.


Category: Citizen science, Uncategorized | Tagged , , , , , , , , , | 3 Comments