Euedaphic Rather Than Hemiedaphic or Epedaphic Collembola Are More Sensitive to Different Climate Conditions in the Black Soil Region of Northeast China DOI Creative Commons
Chunbo Li, Shaoqing Zhang,

Baifeng Wang

et al.

Insects, Journal Year: 2025, Volume and Issue: 16(3), P. 275 - 275

Published: March 5, 2025

Soil biodiversity is profoundly affected by variations in climate conditions and land use practices. As one of the major grain-producing areas China, belowground black soil region Northeast also types. However, most previous studies have focused on aboveground biodiversity, research limited. The main aim this study was to investigate effects practices Collembola communities different life forms China. Here, we selected three climatic from high low latitudes Northeast, with (soybean, maize, rice) sampled each area. We found that higher temperatures humidity rice soybean maize are associated a density species richness. Specifically, richness euedaphic Colmbola humidity, while all maize. Additionally, discovered environmental factors feeding resources (soil microorganisms) both significant communities, exerting more substantial influence. Our results suggest vulnerable differences than epedaphic hemiedaphic Collembola. Consequently, may alter vertical distribution characteristics fauna (e.g., increasing soil-dwelling fauna) as well ecological processes agricultural environments.

Language: Английский

Euedaphic Rather Than Hemiedaphic or Epedaphic Collembola Are More Sensitive to Different Climate Conditions in the Black Soil Region of Northeast China DOI Creative Commons
Chunbo Li, Shaoqing Zhang,

Baifeng Wang

et al.

Insects, Journal Year: 2025, Volume and Issue: 16(3), P. 275 - 275

Published: March 5, 2025

Soil biodiversity is profoundly affected by variations in climate conditions and land use practices. As one of the major grain-producing areas China, belowground black soil region Northeast also types. However, most previous studies have focused on aboveground biodiversity, research limited. The main aim this study was to investigate effects practices Collembola communities different life forms China. Here, we selected three climatic from high low latitudes Northeast, with (soybean, maize, rice) sampled each area. We found that higher temperatures humidity rice soybean maize are associated a density species richness. Specifically, richness euedaphic Colmbola humidity, while all maize. Additionally, discovered environmental factors feeding resources (soil microorganisms) both significant communities, exerting more substantial influence. Our results suggest vulnerable differences than epedaphic hemiedaphic Collembola. Consequently, may alter vertical distribution characteristics fauna (e.g., increasing soil-dwelling fauna) as well ecological processes agricultural environments.

Language: Английский

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