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- Title
Dryland nitrogen deposition induces microbiome‐driven increases in biocrust respiration and losses of soil carbon.
- Authors
Dou, Weiqiang; Xiao, Bo; Delgado‐Baquerizo, Manuel; Revillini, Daniel; Kidron, Giora J.
- Abstract
Biocrusts are a dominant component in drylands worldwide and play critical roles in supporting soil microbial diversity and carbon (C) stocks. Nitrogen (N) fertilization associated with human activities threatens drylands, which are often considered N‐limited ecosystems. Here, we conducted a field experiment in two contrasting soil types (loess vs. sand) to investigate the impacts of low (30 kg N ha−1 year−1) and high (90 kg N ha−1 year−1) fertilization on moss‐biocrust dominated traits, soil nutrients, microbial taxonomic richness, soil C stocks and respiration rates (Rs). We showed that 5 months of N addition resulted in reductions in soil organic C content by 91% and increased both soil microbial richness and diversity. Our results further showed that relative to controls, low levels of N addition increased biocrust Rs by 52% through increased moss biomass and density (38% and 73%) and microbial taxonomic richness and diversity (18% and 23%), while no significant changes in biocrust Rs were observed after high levels of N addition. Considering multiple environmental factors simultaneously, we show that N fertilization indirectly promoted soil respiration and C losses via increases in microbial richness and diversity, which are critical drivers of soil function. Our work provides solid evidence that N deposition, even at low levels of N addition, can result in rapid losses of C in dryland soils. Our findings suggest that to maintain healthy dryland ecosystems and promote C, we must mitigate future land degradation and minimize anthropogenic N deposition.
- Subjects
SOIL respiration; SOIL erosion; CARBON in soils; LAND degradation; MICROBIAL diversity; HEAVY-metal tolerant plants; CULTURAL pluralism
- Publication
Land Degradation & Development, 2024, Vol 35, Issue 2, p647
- ISSN
1085-3278
- Publication type
Article
- DOI
10.1002/ldr.4942