Washington [US], September 28 (ANI): Earthworms are important drivers of global food production, contributing to approximately 6.5 per cent of grain yield and 2.3 per cent of legumes produced worldwide each year, according to a new study.
The study was published in the journal Nature Communications.
These new estimates from a trio of CSU researchers mean earthworms may account for as much as 140 million metric tons of food produced annually тАФ roughly comparative to the number of cereal grains (rice, wheat, rye, oats, barley, maize and millet) grown annually by Russia, the worldтАЩs fourth-largest producer.
тАЬThis is the first effort that IтАЩm aware of thatтАЩs trying to take one piece of soil biodiversity and say, “OK, this is the value of it; this is what itтАЩs giving us on a global scale,тАЩтАЭ said Steven Fonte, associate professor of agroecosystem ecology in the Department of Soil and Crop Sciences at CSU, and the studyтАЩs lead author.
Earthworms help establish healthy soils by supporting plant growth in multiple ways тАФ building good soil structure, assisting in water capture and aiding in the beneficial churn of organic matter that makes nutrients more available to plants. Other research has also shown that earthworms can facilitate the production of plant-growth-promoting hormones and help plants protect themselves against common soil pathogens. Some estimates have indicated earthworms can increase overall plant productivity by about 25 per cent.
Fonte and his colleagues тАФ Nathan Mueller, an associate professor in the Department of Ecosystem Science and Sustainability, and Marian Hsieh, a doctoral student in the same department тАФ estimated the contribution of earthworms to global food production by overlaying and analyzing maps of earthworm abundance, soil properties, fertilize rate and crop yields.
тАЬEarthworms are contributing a lot in these areas where we have fewer chemical inputs,тАЭ Fonte said.
For this study, Fonte and his colleagues analyzed earthworm impacts on four-grain crops: rice, maize, wheat and barley; the group examined a set of legumes that included soybeans, peas, chickpeas, lentils and alfalfa, among others.
Fonte said he thinks soil biodiversity has historically been undervalued, and that he hopes this work will bring more attention to how healthy soils can have positive, tangible impacts on crops.
тАЬIf we manage our soils in a more sustainable way, we can better harness or leverage this biodiversity and produce more sustainable agroecosystems,тАЭ Fonte said. тАЬThis work highlights that potential.тАЭ
тАЬSoils are just such an intricate habitat,тАЭ he said. тАЬBut thereтАЩs really been very few efforts to understand what that biodiversity means to our global crop yields.тАЭ
Diana Wall, a professor in the Department of Biology and the science chair of the Global Soil Biodiversity Initiative, was excited by the data published in the Nature Communications paper. тАЬThis, to me, is a really clever, very data-rich paper,тАЭ Wall said. тАЬItтАЩs really impressive.тАЭ
This information could also have implications for future efforts to mitigate drought and erosion, Fonte said. For example, he said, earthworms can improve soil porosity, aiding in the beneficial capture and retention of water.
Fonte cautioned that he and his colleagues are not advocating for anyone to transplant earthworms into places they do not already exist. Rather, he hopes this work shows how improved management of soil biology in places where earthworms already call home has the potential to enhance agricultural productivity and reduce our reliance on agrochemicals. This study marks an important first step, Fonte said, but he hopes that researchers will continue to dig into the positive benefits that other soil organisms have on crops.
тАЬSoils are still this huge, big black box that we donтАЩt fully understand,тАЭ Fonte said.
тАЬThis work helps show that thereтАЩs a lot of opportunity that weтАЩre just kind of ignoring,”тАптАпhe said, adding, тАЬThere are probably other soil organisms that are even more important, especially microbial communities.тАЭ (ANI)
