Chen Zhijun, Li Yue, Hu Min, Xiong Yunwu, Huang Quanzhong, Jin Song, Huang Guanhua
Chinese-Israeli International Center for Research and Training in Agriculture, China Agricultural University, Beijing 100083, PR China; College of Water Conservancy, Shenyang Agricultural University, Shenyang 110866, PR China.
Chinese-Israeli International Center for Research and Training in Agriculture, China Agricultural University, Beijing 100083, PR China; Center for Agricultural Water Research, China Agricultural University, Beijing 100083, PR China.
Sci Total Environ. 2023 Jun 25;879:163113. doi: 10.1016/j.scitotenv.2023.163113. Epub 2023 Mar 24.
Lignite-converted bioorganic fertilizer substantially improves soil physiochemical properties, but little is known about how lignite bioorganic fertilizer (LBF) affects soil microbial communities and how the changed microbial communities impact their stability, functions, and crop growth in saline-sodic soil. Therefore, a two-year field experiment was conducted in saline-sodic soil in the upper Yellow River basin, Northwest China. Three treatments, i.e., the control treatment without organic fertilizer (CK), the farmyard manure treatment (FYM) amended with 21 t ha (same as local farmers) sheep manure, and the LBF treatment amended with the optimal rate of LBF (3.0 and 4.5 t ha), were designed in this study. The results showed that after two years of application of LBF and FYM, the percentage of aggregate destruction (PAD) was significantly reduced by 14.4 % and 9.4 %, respectively, while the saturated hydraulic conductivity (K) was obviously increased by 114.4 % and 99.7 %, respectively. The LBF treatment significantly increased the contributions of nestedness to total dissimilarity by 101.4 % and 156.2 % in bacterial and fungal communities, respectively. LBF contributed to the shift from stochasticity to variable selection in the assembly of the fungal community. The LBF treatment enriched the bacterial classes of Gammaproteobacteria, Gemmatimonadetes, and Methylomirabilia and fungal classes of Glomeromycetes and GS13, which were mainly driven by PAD and K. Additionally, the LBF treatment significantly increased the robustness and positive cohesions and decreased the vulnerability of the bacterial co-occurrence networks in both 2019 and 2020 in comparison with the CK treatment, indicating that the LBF treatment increased stability of bacterial community. The relative abundance of chemoheterotrophy and arbuscular mycorrhizae in the LBF treatment were 89.6 % and 854.4 % higher than those in the CK treatment, respectively, showing that the LBF enhanced sunflower-microbe interactions. The FYM treatment improved the functions mainly regarding sulfur respiration and hydrocarbon degradation by 309.7 % and 212.8 % in comparison with the CK treatment, respectively. The core rhizomicrobiomes in the LBF treatment showed strong positive connections with the stabilities of both bacterial and fungal co-occurrence networks, as well as the relative abundance and potential functions of chemoheterotrophy and arbuscular mycorrhizae. These factors were also linked to the growth of sunflowers. This study reveals that the LBF improved sunflower growth due to enhance microbial community stability and sunflower-microbe interactions through altering core rhizomicrobiomes in saline-sodic farmland.
褐煤转化生物有机肥显著改善了土壤理化性质,但对于褐煤生物有机肥(LBF)如何影响土壤微生物群落,以及变化后的微生物群落如何影响盐碱土中微生物群落的稳定性、功能和作物生长,人们知之甚少。因此,在中国西北黄河上游流域的盐碱土上进行了为期两年的田间试验。本研究设计了三种处理,即不施有机肥的对照处理(CK)、施用21吨/公顷(与当地农民相同)羊粪的农家肥处理(FYM),以及施用最佳施用量(3.0和4.5吨/公顷)LBF的LBF处理。结果表明,施用LBF和FYM两年后,团聚体破坏率(PAD)分别显著降低了14.4%和9.4%,而饱和导水率(K)分别显著提高了114.4%和99.7%。LBF处理使细菌和真菌群落中嵌套性对总差异的贡献分别显著增加了101.4%和156.2%。LBF促进了真菌群落组装从随机性向可变选择的转变。LBF处理富集了γ-变形菌纲、芽单胞菌纲和甲基微菌纲等细菌类群以及球囊菌纲和GS13等真菌类群,这主要受PAD和K的驱动。此外,与CK处理相比,LBF处理在2019年和2020年显著提高了细菌共现网络的稳健性和正向凝聚力,并降低了其脆弱性,表明LBF处理提高了细菌群落的稳定性。LBF处理中化学异养和丛枝菌根的相对丰度分别比CK处理高89.6%和854.4%,表明LBF增强了向日葵与微生物的相互作用。与CK处理相比,FYM处理分别使主要涉及硫呼吸和烃降解的功能提高了309.7%和212.8%。LBF处理中的核心根际微生物群与细菌和真菌共现网络的稳定性以及化学异养和丛枝菌根的相对丰度和潜在功能均表现出强烈的正相关。这些因素也与向日葵的生长有关。本研究表明,LBF通过改变盐碱地农田中的核心根际微生物群,增强了微生物群落稳定性和向日葵与微生物的相互作用,从而促进了向日葵生长。
