Differential long-term fertilization alters residue-derived labile organic carbon fractions and microbial community during straw residue decomposition

被引:51
|
作者
Ge, Zhuang [1 ,2 ]
Li, Shuangyi [1 ]
Bol, Roland [2 ,3 ]
Zhu, Ping [4 ]
Peng, Chang [4 ]
An, Tingting [1 ]
Cheng, Na [1 ]
Liu, Xu [1 ]
Li, Tingyu [1 ]
Xu, Zhiqiang [5 ]
Wang, Jingkuan [1 ]
机构
[1] Shenyang Agr Univ, Coll Land & Environm, Northeast Key Lab Conservat & Improvement Cultiva, Minist Agr, Shenyang 110866, Liaoning, Peoples R China
[2] Forschungszentrum Julich, Inst Bio & Geosci Agrosphere IBG 3, Wilhelm Johnen Str, D-52428 Julich, Germany
[3] Bangor Univ, Environm Ctr Wales, Sch Nat Sci, Bangor LL57 2UW, Gwynedd, Wales
[4] Jilin Acad Agr Sci, Gongzhuling 136100, Jilin, Peoples R China
[5] Liaoning Agr Dev Serv Ctr, Shenyang 110034, Peoples R China
来源
SOIL & TILLAGE RESEARCH | 2021年 / 213卷
基金
中国国家自然科学基金;
关键词
Labile soil organic carbon; Soil microbial community; Soil microbial network; Key species; High-throughput sequencing; C-13-labelling technique; LITTER DECOMPOSITION; SUCCESSION REVEALS; EXTRACTION METHOD; MATTER FRACTIONS; BIOMASS CARBON; SOIL CARBON; MAIZE STRAW; DYNAMICS; NITROGEN; FUNGAL;
D O I
10.1016/j.still.2021.105120
中图分类号
S15 [土壤学];
学科分类号
0903 ; 090301 ;
摘要
Straw residue amendment and fertilization are the key global management strategies for achieving more sustainable agriculture. However, the temporal changes in labile soil organic carbon (SOC) fractions and microbial community (MB) in response to differential long-term fertilization during straw residue decomposition remain unclear. We collected topsoil samples (0-20 cm; Mollisols) from three fertilizer management strategies (CK, no fertilization control, IF, inorganic fertilizer, and IFM, inorganic fertilizer plus manure) in a long-term field experiment. Subsequently, we conducted an in-situ micro-plot incubation experiment with and without C-13-labeled maize straw residue (delta C-13 = 246.9 parts per thousand). We found that the straw-residue C in soil was mainly retained as particulate organic carbon (POC). The residue-derived POC was significantly increased, by 3, 5, and 20 times, whereas the residue-derived dissolved organic carbon (DOC) was significantly decreased by 71 %, 57 %, and 95 % in CK, IF, and IFM treatments, respectively, with straw addition (abbreviated as CKS, IFS, and IFMS respectively) during straw residue decomposition. The content of residue-derived microbial biomass carbon (MBC) was higher at 40.6 mg kg(-1) (IFMS) and 33.0 mg kg(-1) (IFS) compared to 27.0 mg kg(-1) in the unfertilized (CKS) treatment at the end of the incubation period (day 150). The number of edges of the bacterial network was decreased by 16 %, 53 %, and 73 % in the treatments of CKS, IFS, and IFMS, respectively, compared with the corresponding fertilizer treatments without straw application. While the number of edges of fungal network also decreased by 57 % in CKS treatment, those in IFS and IFMS treatments increased by 160 % and 310 %, respectively. This indicated that straw residue addition decreases the bacterial microbial network complexity in all treatments, but it increases fungal network complexity in IFS and IFMS treatments. The highest microbial activities of the bacterial and fungal keystone taxa were observed on the 1 st day in the IFS treatment and on the 150th day in the CKS treatment. However, the highest microbial activities of bacterial keystone taxa were observed on the 60th day, and the highest microbial activities of fungal keystone taxa were detected on the 150th day in the IFMS treatment. The observed temporal changes in the microbial community suggested that independent of agricultural fertilizer management, straw residue-derived POC and DOC promoted fungal C processing, whereas for bacterial C, this was facilitated only by straw residue-derived MBC in these Mollisols. Highlighting straw residue incorporation helps to sustain microbial diversity and associated carbon processing in agricultural soils.
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页数:14
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