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Low Carbon Loss from Long-Term Manure-Applied Soil during Abrupt Warming Is Realized through Soil and Microbiome Interplay

Enzhao Wang, Bing Yu, Jiayin Zhang, Songsong Gu, Yunfeng Yang, Ye Deng, Xue Guo, Buqing Wei, Jingjing Bi, Miaomiao Sun, Huaqi Feng, Alin Song, Fenliang Fan

2024Environmental Science & Technology33 citationsDOI

Abstract

Manure application is a global approach for enhancing soil organic carbon (SOC) sequestration. However, the response of SOC decomposition in manure-applied soil to abrupt warming, often occurring during diurnal temperature fluctuations, remains poorly understood. We examined the effects of long-term (23 years) continuous application of manure on SOC chemical composition, soil respiration, and microbial communities under temperature shifts (15 vs 25 °C) in the presence of plant residues. Compared to soil without fertilizer, manure application reduced SOC recalcitrance indexes (i.e., aliphaticity and aromaticity) by 17.45 and 21.77%, and also reduced temperature sensitivity ( Q 10 ) of native SOC decomposition, plant residue decomposition, and priming effect by 12.98, 15.98, and 52.83%, respectively. The relative abundances of warm-stimulated chemoheterotrophic bacteria and fungi were lower in the manure-applied soil, whereas those of chemoautotrophic Thaumarchaeota were higher. In addition, the microbial network of the manure-applied soil was more interconnected, with more negative connections with the warm-stimulated taxa than soils without fertilizer or with chemical fertilizer applied. In conclusion, our study demonstrated that the reduced loss of SOC to abrupt warming by manure application arises from C chemistry modification, less warm-stimulated microorganisms, a more complex microbial community, and the higher CO 2 intercepting capability by Thaumarchaeota.

Topics & Concepts

ManureSoil carbonEnvironmental scienceEnvironmental chemistrySoil respirationTotal organic carbonCarbon fibersAgronomySoil waterSoil scienceChemistryMaterials scienceBiologyComposite numberComposite materialSoil Carbon and Nitrogen DynamicsAgriculture Sustainability and Environmental ImpactGut microbiota and health
Low Carbon Loss from Long-Term Manure-Applied Soil during Abrupt Warming Is Realized through Soil and Microbiome Interplay | Litcius