Credit: Yakov Kuzyakov
Scientists from RUDN University have classified the distribution of soil microorganisms at different latitudes from tropical to temperate forests. The results of the study were published in Functional Ecology.
Billions of species of microorganisms are found in soil. Therefore, a complete match of microbial composition in different soils is impossible. At the same time, similar groups of microorganisms can be found in very remote soils, where the climate and vegetation differ completely. It is obvious that the microorganisms themselves could not "walk" thousands of kilometers, and the transfer due to animals and plants is unlikely. Therefore, the principles of distribution of microorganisms in soils at large distances are practically unknown.
Scientists investigated ecological question: How the distribution of microorganisms in soils depends on the habitat properties, vegetation and their interactions.
"We have described the distribution of microorganisms in soils at different latitudes at a distance of up to 3,700 km and the factors affecting the distribution. We selected soil samples in forests in various climatic zones in China, have identified the microorganisms, mainly bacteria, and compared the composition of microbial groups in various soils depending on climatic, soil and vegetation conditions," said Yakov Kuzyakov, one of the authors of the paper from RUDN University.
Scientists collected soil samples in forests, where plant communities have been stable for decades and centuries. Groups of microorganisms were identified by their DNA in the topsoil. Parallel, the scientists have investigated three large groups of environmental factors: 1) climate-related (average temperature and precipitation), 2) soil properties related (acidity, stable and easily accessible carbon, nitrogen and phosphorus) and 3) plant communities related factors (the amount and composition of plant residues).
After studying the distribution of large DNA groups, the scientists concluded about the most important factors for distribution of microbial groups from completely different soils.
"We have identified the predictors – the main factors, by which we can determine the microorganisms present in different soils. The distribution of microorganisms is mostly affected by soil properties, less by climate, and much less by plants. We can explain more than 80% of the variation in the composition of microorganisms based on these factors and their interactions," the scientist added.
Microorganisms perform various functions: detoxication of pollutants, nutrient mineralization for plants, symbiosis with plants, decomposing plant residues, release of greenhouse gases, nitrogen fixation from the atmosphere, stimulating root growth, and many others. These functions affect both productivity and stability of natural and agricultural ecosystems.
"In the near future, we will try to use the approaches and the results we got in this study to agricultural and urban soils. The composition and the groups of microorganisms, as well as the factors affecting agricultural and urban soils, which are affected by humans, certainly differ. Human factor and land use can play a significantly greater role than, for example, the climatic factor for natural soils. If we know the natural and anthropogenic factors of microbial distribution in soils, we can influence their functions – and thus the productivity and sustainability of natural and agricultural ecosystems," the scientist concluded.
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The work was carried out in collaboration with scientists from the Institute of Physicochemical and Biological Problems in Soil Science (IPCBPSS) RAS, the University of Oklahoma, the University of Göttingen (Germany), Tsinghua University (China), the Institute of Geographical Sciences and Natural Resources Research (IGSNRR) CAS, and the Lawrence Berkeley National Laboratory.
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Related Journal Article
http://dx.doi.org/10.1111/1365-2435.12952/suppinfo
