Spatial biogeography of microbes in soils vs. aquatic ecosystems in U.S.’s major natural biomes
Leo Oo Sai, Xinhao Zhu, David A. Lipson, Xiaofeng Xu

TL;DR
This study explores how environmental factors influence microbial abundance in U.S. soil and aquatic ecosystems, revealing distinct patterns between these habitats.
Contribution
The study provides new insights into the environmental drivers of microbial abundance in different ecosystems using NEON data.
Findings
Aquatic microbial cell density is positively linked to specific conductance and water temperature but negatively to dissolved oxygen.
Soil microbial biomass carbon increases with soil moisture, carbon, and nitrogen content but decreases with soil temperature and pH.
Bacteria dominate both ecosystems, while Archaea and unclassified microbes show variable contributions across locations.
Abstract
Microbial macroecology has gained recognition as a critical component of microbial ecology. Using data from the National Ecological Observatory Network (NEON), this study examined the spatial patterns of microbial abundance and their environmental controls in soil and aquatic ecosystems across major natural biomes in the United States. Microbial cell density in aquatic ecosystems and soil microbial biomass carbon in terrestrial ecosystems were analyzed, and their relationships with environmental variables were evaluated using correlation analyses. In aquatic ecosystems, microbial cell density ranged from 1.8 × 105 to 4.1 × 106 cells mL−1 and was positively associated with specific conductance (r = 0.32, p < 0.01) and water temperature (r = 0.19, p = 0.03), but negatively associated with dissolved oxygen (r = −0.21, p = 0.01). Across all locations, the cell density averaged…
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Taxonomy
TopicsMicrobial Community Ecology and Physiology · Fecal contamination and water quality · Soil Carbon and Nitrogen Dynamics
