WebMentioning: 18 - Belowground organisms are extremely complex and diverse, ranging from microscopic archaea, bacteria, fungi, and protists, to larger organisms such as … WebMay 1, 2024 · We collected surface soils in forest, farmland, grassland, and desert ecosystems from the Chinese Ecosystem Research Network ... 7 and 14 DRW cycles with variable drought periods at 20 °C. Soil respiration was measured in the rewetting phases of each DRW cycle. We also measured microbial biomass carbon (C), dissolved organic C, ...
Agricultural intensification reduces microbial network complexity …
WebRandom forest modeling further suggested the significant role of microbial modules in explaining soil multifunctionality, together with environmental factors. These findings indicate divergent responses of belowground multitrophic organisms to land-use changes, and the potential role of microbial module in forecasting soil multifunctionality. WebFeb 10, 2024 · To obtain the whole soil microbiome diversity and network complexity, we conducted a soil survey of bacteria, fungi and protists via a paired-plot design (i.e., a … eastchester certified
Land-use intensification differentially affects bacterial, fungal and ...
WebOct 24, 2024 · Soil microbial network complexity declined strongly along the gradient with the highest richness ... a next challenge is to link the composition of the soil biome, including multitrophic ... WebMar 1, 2024 · Incorporating natural complexity into BEF research is a key challenge in ecology. Energy flux dynamics in networks underpin BEF theory in multitrophic systems. Network energetics define stability and functions across ecological scales, allowing for the expansion of BEF research to complex systems. WebOur results represent a significant advance in forecasting the impacts of belowground multitrophic organisms on ecosystem functions in agricultural systems, and suggest that … cube birmingham