Long-term application of legume green manure improves rhizosphere soil bacterial stability and reduces bulk soil bacterial stability in rice

IF 3.7 2区 农林科学 Q1 ECOLOGY
Jian Xiao , Jianglin Zhang , Haoliang Yuan , Xue Xie , Yajie Gao , Yanhong Lu , Yulin Liao , Jun Nie
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Abstract

Overusing chemical fertilizers (CFs) causes soil degradation, which can be mitigated by partially substituting CFs with green manure. This study investigated the impact of traditional vs. improved fertilization schemes that included Chinese milk vetch (CMV) on soil properties and bacterial communities in rice rhizosphere and bulk soil from plots over 12 years under fertilization. The treatments included the conventional fertilization (CF100), CMV (22.5 t ha−1) with 100 % CF (CMV + CF100), CMV with 80 % CF (CMV + CF80), CMV with 60 % CF (CMV + CF60), and CMV with 40 % CF (CMV + CF40). CMV + CF40 increased the soil organic matter (SOM) content in the rhizosphere (bulk) soil by 38.02 % (37.86 %) compared to CF100 (P < 0.05). The quality index in bulk soil increased by 5.49%–8.17 % through all CF combined with CMV. The rhizosphere bacterial diversity was 1.11%–2.30 % higher, and richness was 2.87%–4.93 % higher than in bulk soil. In the bulk soil, only the CMV + CF40 increased the bacterial Shannon by 0.40 %, Ace by 0.84 %, and Chao1 indice by 0.89 %. Relative abundances of Geobacter in bulk soil were by 13.90%–52.27 %, Leptospirillum by 25%–77.12 %, and Desulfobacca by 7.42%–37.85 % higher than in the rhizosphere. The stability of the rhizosphere and bulk soil bacterial communities under the CMV input was predicted by the SOM and available phosphorus contents, as indicated by the degree of bacterial average variation. The CMV + CF40 was recommended as the optimal alternative rate based on local soil ecological considerations.

长期施用豆科绿肥可提高水稻根瘤层土壤细菌稳定性,降低土壤中大量细菌的稳定性
过度使用化肥(CFs)会导致土壤退化,而用绿肥部分替代化肥可以缓解这一问题。本研究调查了传统施肥方案与改良施肥方案(包括中国牛奶薇菜(CMV))对施肥 12 年的水稻根瘤菌圈和大体积土壤中的土壤性质和细菌群落的影响。处理包括常规施肥(CF100)、CMV(22.5 吨/公顷-1)与 100 % CF(CMV + CF100)、CMV 与 80 % CF(CMV + CF80)、CMV 与 60 % CF(CMV + CF60)和 CMV 与 40 % CF(CMV + CF40)。与 CF100 相比(P < 0.05),CMV + CF40 增加了根圈(大块)土壤中土壤有机质(SOM)含量的 38.02 %(37.86 %)。所有 CF 与 CMV 结合使用后,大体积土壤的质量指数提高了 5.49%-8.17 %。与块状土壤相比,根圈细菌多样性提高了 1.11%-2.30 %,丰富度提高了 2.87%-4.93 %。在大块土壤中,只有 CMV + CF40 能使细菌 Shannon 增加 0.40 %,Ace 增加 0.84 %,Chao1 指数增加 0.89 %。与根瘤菌圈相比,块状土壤中的革兰氏菌相对丰度高出 13.90%-52.27 %,钩端螺旋菌高出 25%-77.12 %,脱硫杆菌高出 7.42%-37.85 %。根据细菌平均变化程度,SOM 和可利用磷含量可预测在 CMV 输入条件下根瘤菌层和大体积土壤细菌群落的稳定性。基于当地土壤生态的考虑,建议将 CMV + CF40 作为最佳替代率。
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来源期刊
European Journal of Soil Biology
European Journal of Soil Biology 环境科学-生态学
CiteScore
6.90
自引率
0.00%
发文量
51
审稿时长
27 days
期刊介绍: The European Journal of Soil Biology covers all aspects of soil biology which deal with microbial and faunal ecology and activity in soils, as well as natural ecosystems or biomes connected to ecological interests: biodiversity, biological conservation, adaptation, impact of global changes on soil biodiversity and ecosystem functioning and effects and fate of pollutants as influenced by soil organisms. Different levels in ecosystem structure are taken into account: individuals, populations, communities and ecosystems themselves. At each level, different disciplinary approaches are welcomed: molecular biology, genetics, ecophysiology, ecology, biogeography and landscape ecology.
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