Datum
2023-04-26Schlagwort
570 Biowissenschaften, Biologie 630 Landwirtschaft, Veterinärmedizin BodenfruchtbarkeitAcrisolKohlenstoffErgosterolSaurer BodenTropenMetadata
Zur Langanzeige
Aufsatz
Does liming improve microbial carbon use efficiency after maize litter addition in a tropical acidic soil?
Zusammenfassung
Soil pH is one of the main drivers of soil microbial functions, including carbon use efficiency (CUE), the efficiency of microorganisms in converting substrate C into biomass, a key parameter for C sequestration. We evaluated liming effects after maize-litter addition on total CUE (including microbial residues), CUE of microbial biomass (CUEMB), and fungal biomass on an acidic Acrisol with a low C. We established a 6-week incubation experiment to compare limed and unlimed Acrisol treatments and a reference soil, a neighboring Nitisol with optimal pH. Fungal biomass (ergosterol) increased ~ 10 times after litter addition compared with soils without litter, and the final amount was greater in the limed Acrisol than the Nitisol. Litter addition induced a positive priming effect that increased with increasing pH. The increases in soil pH also led to increases in litter-derived CO₂C and decreases in particulate organic matter (POM)C. Thus, in spite of increasing microbial biomass C, CUE decreased with increasing pH and CUEMB was similar across the three soils. CUEMB was positively associated with saprotrophic fungi, implying that fungi are more efficient in incorporating litter-derived C into microbial, especially fungal biomass after 42 days. By including undecomposed maize litter and microbial residues, CUE provided a more comprehensive interpretation of pH and liming effects than CUEMB. Nevertheless, longer-term studies may provide further information on substrate-C turnover and the persistence of liming and pH effects.
Zitierform
In: Biology and Fertility of Soils Volume 59 / issue 6 (2023-04-26) eissn:1432-0789Förderhinweis
Gefördert im Rahmen des Projekts DEALZitieren
@article{doi:10.17170/kobra-202307248465,
author={Moran-Rodas, Virna Estefania and Jörgensen, Rainer Georg and Wachendorf, Christine},
title={Does liming improve microbial carbon use efficiency after maize litter addition in a tropical acidic soil?},
journal={Biology and Fertility of Soils},
year={2023}
}
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2023-07-24T13:26:41Z 2023-07-24T13:26:41Z 2023-04-26 doi:10.17170/kobra-202307248465 http://hdl.handle.net/123456789/14918 Gefördert im Rahmen des Projekts DEAL eng Namensnennung 4.0 International http://creativecommons.org/licenses/by/4.0/ Priming effect Soil pH Carbon sequestration Soil organic carbon Fungal ergosterol Acrisol Nitisol 570 630 Does liming improve microbial carbon use efficiency after maize litter addition in a tropical acidic soil? Aufsatz Soil pH is one of the main drivers of soil microbial functions, including carbon use efficiency (CUE), the efficiency of microorganisms in converting substrate C into biomass, a key parameter for C sequestration. We evaluated liming effects after maize-litter addition on total CUE (including microbial residues), CUE of microbial biomass (CUEMB), and fungal biomass on an acidic Acrisol with a low C. We established a 6-week incubation experiment to compare limed and unlimed Acrisol treatments and a reference soil, a neighboring Nitisol with optimal pH. Fungal biomass (ergosterol) increased ~ 10 times after litter addition compared with soils without litter, and the final amount was greater in the limed Acrisol than the Nitisol. Litter addition induced a positive priming effect that increased with increasing pH. The increases in soil pH also led to increases in litter-derived CO₂C and decreases in particulate organic matter (POM)C. Thus, in spite of increasing microbial biomass C, CUE decreased with increasing pH and CUEMB was similar across the three soils. CUEMB was positively associated with saprotrophic fungi, implying that fungi are more efficient in incorporating litter-derived C into microbial, especially fungal biomass after 42 days. By including undecomposed maize litter and microbial residues, CUE provided a more comprehensive interpretation of pH and liming effects than CUEMB. Nevertheless, longer-term studies may provide further information on substrate-C turnover and the persistence of liming and pH effects. open access Moran-Rodas, Virna Estefania Jörgensen, Rainer Georg Wachendorf, Christine 619-627 doi:10.1007/s00374-023-01722-8 Bodenfruchtbarkeit Acrisol Kohlenstoff Ergosterol Saurer Boden Tropen publishedVersion eissn:1432-0789 issue 6 Biology and Fertility of Soils Volume 59 false
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