Key Laboratory for Humid Subtropical Eco-geographical Processes of the Ministry of Education, School of Geographical Sciences, Fujian Normal University, Fuzhou, 350007, China.
College of Resource and Environment, Shanxi Agricultural University, Taiyuan, 030031, China.
Environ Microbiol. 2021 Apr;23(4):2169-2183. doi: 10.1111/1462-2920.15385. Epub 2021 Jan 12.
Crop plants carry an enormous diversity of microbiota that provide massive benefits to hosts. Protists, as the main microbial consumers and a pivotal driver of biogeochemical cycling processes, remain largely understudied in the plant microbiome. Here, we characterized the diversity and composition of protists in sorghum leaf phyllosphere, and rhizosphere and bulk soils, collected from an 8-year field experiment with multiple fertilization regimes. Phyllosphere was an important habitat for protists, dominated by Rhizaria, Alveolata and Amoebozoa. Rhizosphere and bulk soils had a significantly higher diversity of protists than the phyllosphere, and the protistan community structure significantly differed among the three plant-soil compartments. Fertilization significantly altered specific functional groups of protistan consumers and parasites. Variation partitioning models revealed that soil properties, bacteria and fungi predicted a significant proportion of the variation in the protistan communities. Changes in protists may in turn significantly alter the compositions of bacterial and fungal communities from the top-down control in food webs. Altogether, we provide novel evidence that fertilization significantly affects the functional groups of protistan consumers and parasites in crop-associated microbiomes, which have implications for the potential changes in their ecological functions under intensive agricultural managements.
作物携带大量的微生物群,为宿主提供巨大的益处。原生生物作为微生物消费者的主要群体和生物地球化学循环过程的关键驱动因素,在植物微生物组中仍在很大程度上被低估。在这里,我们对来自一个具有多种施肥制度的 8 年田间试验的高粱叶生境、根际和土壤的原生生物多样性和组成进行了描述。叶生境是原生生物的重要栖息地,以根足虫、有孔虫和变形虫为主。根际和土壤的原生生物多样性明显高于叶生境,三种植物-土壤组合之间的原生生物群落结构差异显著。施肥显著改变了原生生物消费者和寄生虫的特定功能群。变异划分模型表明,土壤特性、细菌和真菌预测了原生生物群落的很大一部分变异。原生生物的变化可能反过来通过食物网的自上而下控制显著改变细菌和真菌群落的组成。总的来说,我们提供了新的证据表明,施肥显著影响与作物相关的微生物组中原生生物消费者和寄生虫的功能群,这对它们在集约化农业管理下潜在的生态功能变化具有重要意义。
