Microbial Diversity and Biogeochemical Cycling of Nitrogen and Sulfur in the Source Region of the Lancang River on the Tibetan Plateau
Copyright policy )Microbial Diversity and Biogeochemical Cycling of Nitrogen and Sulfur in the Source Region of the Lancang River on the Tibetan Plateau
The Tibetan Plateau is known as the “third pole” on Earth, influencing regional and global climates and providing fresh water to billions of people. Climate change and anthropogenic activities are ...
- Leibniz Institute DSMZ – German Collection of Microorganisms and Cell Cultures Germany
- China University of Geosciences China (People's Republic of)
- Leibniz Association Germany
- College of New Jersey United States
- China University of Geosciences China (People's Republic of)
surrounding soils, sulfur species, providing fresh water, Plant Biology, source region, active sulfate reduction, nirs </, anthropogenic activities, Microbiology, tibetan plateau, influencing regional, reduced inorganic sulfur, major environmental drivers, Environmental Sciences not elsewhere classified, unclassified nitrosomonadaceae, lancang river, potential keystone genus, different habitats, vital driver, largely unknown, varied largely, Ecology, different surface soils, network analysis inferred, bacterial communities, access source region, bacterial community distribution, nitrospira </, river water, climate change, study provides, microbial diversity, first comprehensive characterizations, quite consistent, global climates, microbial community, Biological Sciences not elsewhere classified, biogeochemical cycling
surrounding soils, sulfur species, providing fresh water, Plant Biology, source region, active sulfate reduction, nirs </, anthropogenic activities, Microbiology, tibetan plateau, influencing regional, reduced inorganic sulfur, major environmental drivers, Environmental Sciences not elsewhere classified, unclassified nitrosomonadaceae, lancang river, potential keystone genus, different habitats, vital driver, largely unknown, varied largely, Ecology, different surface soils, network analysis inferred, bacterial communities, access source region, bacterial community distribution, nitrospira </, river water, climate change, study provides, microbial diversity, first comprehensive characterizations, quite consistent, global climates, microbial community, Biological Sciences not elsewhere classified, biogeochemical cycling
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