Learning More About Earthworms With Citizen Science

Have you ever wanted to conduct scientific research? Citizen, or community science involves non-scientists in assisting scientists with research. The term covers a huge variety of projects: from online-only where you can classify galaxies, to practical outdoor activities, and even helping with scientific expeditions. Ideally, citizen science benefits everyone—scientists collect more data, and over larger geographic areas than they could on their own. Non-scientists benefit by learning something new and experiencing how science works, and hopefully having fun! The small size of most soil organisms is challenging for citizen science. However, earthworms are easy to recognize and relatively large, so there have been several citizen science projects focused on them. In this article, we discuss earthworm citizen science from its origins with 18th and 19th century natural historians, to the modern day. Discover what non-scientists have contributed to earthworm science and how you can design your own earthworm investigations.


WHY CITIZEN SCIENCE?
Science is not only carried out by scientists. When other people, like students or families, collect scientific data and help with research, it is called citizen science. Citizen science, also known as community

CITIZEN SCIENCE
Scientific studies carried out in whole or part by volunteers rather than paid scientists, also known as community science. science, allows anyone to participate in research, and its popularity has been increasing. Scientists benefit because this helps them to gather data that would have been di cult, expensive, or impossible for them to collect on their own. On the other hand, citizen scientists gain the opportunity to be directly involved in research and learn about science.

TYPES OF CITIZEN SCIENCE
There are many kinds of citizen science. Some projects borrow the power of personal computers to search for alien life or to find cures setiathome.berkeley. edu/ for diseases . Some online citizen science projects ask people for foldingathome.org/ help with identifying wildlife or galaxies, translating documents, and many more tasks . Other citizen science projects need people to go www.zooniverse.org/ outside to survey wildlife or to measure water pollution . There are www.birdcount.org freshwaterwatch. thewaterhub.org/ even expedition-style projects, in which volunteers help scientists with research on volcanoes and rainforests.

WHY STUDY EARTHWORMS?
Healthy soils are important for all life on Earth, as they recycle nutrients, filter water, and help plants to grow. As earthworms feed and burrow, they mix the soil and provide the nutrients that most plants need. Depending on the location of a study, the scientific questions addressed by earthworm research di er. In some places, like the United Kingdom, earthworms are considered beneficial and scientists want to find out more about where they are, to improve soil health. But in other areas of the world, like most of Canada and the northern United States, the last ice age wiped out the earthworms. Now the only earthworms living there are those that were brought into the region by people, often accidentally, with soil or plants that were imported from Europe. Scientific research in these areas often tries to determine where earthworms are found and how they are spreading, to try to reduce their impacts in forests. Even where earthworms are invasive, they are still usually considered beneficial in gardens and for composting and are only a problem when they escape into wild areas.

CITIZEN SCIENCE FOR EARTHWORMS
Earthworms were some of the first soil animals to be studied by early scientists and they continue to be studied by scientists today, with There are three main types of earthworms, called ecotypes: endogeic, anecic, and epigeic. Some of their characteristics are described here (Credits: earthworm clipart from Vecteezy.com Earthworm photographs © Trustees of the Natural History Museum/Harry Taylor). the help of farmers, gardeners, students, and many others. Most soil organisms are small and require special equipment and knowledge to study them, which makes it di cult to include them in citizen science. Earthworms are a happy exception, as they are relatively large and easy to find and observe without special equipment. The usual method for finding earthworms is to dig out a cube of soil from the ground and then search through it by hand, picking out any earthworms. Another method uses a mixture of hot mustard powder and water poured on the soil. If the mustard water touches any earthworms in the soil, they move to the surface where they can be captured, but the mustard does not do permanent harm.
Although the species of most earthworms cannot be identified without a microscope, they can be grouped into di erent categories according to their lifestyle. These categories are called ecotypes. The three ECOTYPE Groups of earthworms based on their burrowing and feeding habits.
ecotypes-endogeic, anecic, and epigeic ( Figure )-can usually be ENDOGEIC An earthworm that creates horizontal burrows in soil, feeding on soil as it burrows. Usually pale in color.

ANECIC
A type of earthworm that builds deep vertical burrows and comes to the surface to feed on leaf litter. Often large and red in color.

EPIGEIC
Earthworms that feed and burrow on or near the soil surface, feeding on leaf litter. Usually small and red in color. distinguished by citizen scientists.

EARLY EARTHWORM CITIZEN SCIENCE
The earliest natural scientists, such as John Ray ( -) and Carolus Linneaus ( -), grouped all long, wiggly animals together as "worms" and many still have common names that reflect this. Some moth caterpillars are called inchworms, legless lizards are called slow worms, and glowing beetle larvae are known as glow worms. John Ray was the first to record the phrase "the early bird catches the worm" in his book "A Handbook of Proverbs," published in . Linneaus developed rules for naming organisms and named the common earthworm Lumbricus terrestris-the same name it has today. WHAT DID DARWIN DISCOVER ABOUT EARTHWORMS?
Darwin found that earthworms have no sense of hearing. He discovered this by shouting at earthworms and playing them various musical instruments including a piano, a bassoon, and a tin whistle. However, earthworms in pots placed on a piano hid in their burrows when notes were played, showing that they can sense vibrations through the soil. Darwin also investigated earthworms' sense of smell by blowing tobacco smoke and perfume at them, and they did not react. They can smell their favorite foods though-Darwin experimented with giving captive earthworms many di erent foods and noted which they preferred. He found that wild cherry leaves were preferred over lime and hazel leaves. Cabbages, horseradish, carrot, and celery were also liked, but herbs, such as sage, thyme, and mint were barely touched.
Darwin observed the way that large stones and ancient buildings are slowly buried, including making a journey to Stonehenge to examine buried stones there. Darwin placed a large stone on the soil surface of his garden and, over years, recorded how long it took the stone to be buried by earthworms. Using this experiment, Darwin estimated that earthworms move , kg of soil (the weight of five and a half African elephants) per hectare (about one and quarter soccer pitches) to the surface each year-this process is called bioturbation.

BIOTURBATION
The movement of soil by living animals or plants.

EARTHWORM CITIZEN SCIENCE TODAY
Despite the long history of research involving earthworms, we still do not know enough about where they are most common and how they are a ecting other species. Citizen science is helping scientists answer these questions. There are increasing numbers of programs in di erent parts of the world that involve earthworm sampling (Figure  and Table ). The data citizen scientists collect is mailed to scientists or sent in through smartphone apps. Some of the programs are designed for use in schools and include suggestions for how they fit with kids.frontiersin.org January | Volume | Article | course material, while other programs are designed so that anyone can participate.

DISCOVERIES FROM EARTHWORM CITIZEN SCIENCE
A lot of the research from citizen science projects is still underway, but there have already been some exciting discoveries. And Citizen Scientists have been extremely important! For example, in the United States, citizen scientists have helped to detect the spread of new species, such as jumping worms (Amynthas species), which were introduced from Asia. In Finland, citizen scientist helped showing that the number of earthworm species decreases moving from the south to the north of the country. In the north, most of the places surveyed had no earthworms or only one species, likely because of the cold temperatures. In the United Kingdom, the OPAL Soil and Earthworm Survey discovered that citizen scientists find it quite di cult to identify earthworm species but can tell ecotypes apart correctly -% of the time.
The project "What is Under Your Feet?" confirmed that earthworm numbers change with the seasons, with the most found in spring and autumn [ ]. There were also more earthworms found after rain. The project # minworms counted earthworms from farm fields and found that plowing the soil reduced the number of earthworms [ ]. Some farms had no epigeic or anecic earthworms, which may mean the fields are plowed too often. The "Earthworm Watch" project found that gardens that use organic fertilizer, such as manure and compost, have % more earthworms than gardens that added no fertilizers. • Start a compost bin in your yard-how long does it take for earthworms to arrive? . Using data from schools to model variation in soil invertebrates across the UK: the importance of weather, climate, season and habitat. Pedobiologia : -. doi: . /j.pedobi. . . . Stroud, J. L.

REFERENCES
. Soil health pilot study in England: outcomes from an on-farm earthworm survey. PLoS ONE :e . doi: . /journal.pone.

CONFLICT OF INTEREST:
The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest.