Global soil acidification impacts on belowground processes

With continuous nitrogen (N) enrichment and sulfur (S) deposition, soil acidification has accelerated and become a global environmental issue. However, a full understanding of the general pattern of ecosystem belowground processes in response to soil acidification due to the impacting factors remain...

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Bibliographic Details
Published inEnvironmental research letters Vol. 14; no. 7; pp. 74003 - 74012
Main Authors Meng, Cheng, Tian, Dashuan, Zeng, Hui, Li, Zhaolei, Yi, Chuixiang, Niu, Shuli
Format Journal Article
LanguageEnglish
Published Bristol IOP Publishing 01.07.2019
Subjects
acid deposition
Acidic soils
Acidification
Aluminum
Biomass
Calcium ions
Carbon
Cations
Forest ecosystems
Iron
Magnesium
Meta-analysis
microbes
Microorganisms
Nitrogen
Nitrogen enrichment
pH effects
Respiration
Soil acidification
Soil analysis
soil cations
Soil chemistry
Soil nutrients
Soil pH
soil respiration
Soil temperature
Soils
Sulfur
Terrestrial ecosystems
Terrestrial environments
Toxicity
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Summary:With continuous nitrogen (N) enrichment and sulfur (S) deposition, soil acidification has accelerated and become a global environmental issue. However, a full understanding of the general pattern of ecosystem belowground processes in response to soil acidification due to the impacting factors remains elusive. We conducted a meta-analysis of soil acidification impacts on belowground functions using 304 observations from 49 independent studies, mainly including soil cations, soil nutrient, respiration, root and microbial biomass. Our results show that acid addition significantly reduced soil pH by 0.24 on average, with less pH decrease in forest than non-forest ecosystems. The response ratio of soil pH was positively correlated with site precipitation and temperature, but negatively with initial soil pH. Soil base cations (Ca2+, Mg2+, Na+) decreased while non-base cations (Al3+, Fe3+) increased with soil acidification. Soil respiration, fine root biomass, microbial biomass carbon and nitrogen were significantly reduced by 14.7%, 19.1%, 9.6% and 12.1%, respectively, under acid addition. These indicate that soil carbon processes are sensitive to soil acidification. Overall, our meta-analysis suggests a strong negative impact of soil acidification on belowground functions, with the potential to suppress soil carbon emission. It also arouses our attention to the toxic effects of soil ions on terrestrial ecosystems.
Bibliography:ERL-106403.R2
ISSN:1748-9326
1748-9326
DOI:10.1088/1748-9326/ab239c