School of Life Sciences, Ningxia University, Yinchuan, China.
School of Ecology and Environment, Ningxia University, Yinchuan, China.
J Appl Microbiol. 2022 Aug;133(2):323-339. doi: 10.1111/jam.15549. Epub 2022 Apr 13.
Cattle and poultry manure composting are often applied on agricultural lands but the fungal community composition before and after application in soils is still unclear. This study describes soil fungal diversity after manure applications contribute to the correct resource use of livestock and poultry manures.
Fresh manure samples were obtained from 10 beef cow farms and 12 egg-laying poultry farms at five distinct phases of rearing. Surface soil samples were collected from vegetable plots within the farms after manure application at 15, 30 and 45 t hm . Using high-throughput sequencing techniques, the ITS region was used to describe soil fungus populations. The fungal OTUs, Chao1 and ACE of cattle manure were relatively higher in the fattening stage (>12 months), the OTUs and ACE of chicken manure were the highest in the initial laying stage (16-24 weeks). The fungal diversity indices of vegetable soils had no linear change after cow or chicken manure application compared with the control. Ascomycota (84.7% of total sequences), Neocallimastigomycota (9.69%) and Basidiomycota (4.6%) were the dominant phyla in cattle manure. Ascomycota (88.9%) also predominated in chicken manure followed by Basidiomycota (8.9%). Following both cattle and chicken manure applications, the abundance of Ascomycota decreased, whereas Basidiomycota and Chytridiomycota increased in the soils. None of the dominant genus increased or decreased linearly with the increase of cattle and chicken composting application rate. The fungal-dominant genera of the soils with and without manure composting application were mostly affected by soil pH and EC than manure. Pearson's correlation analysis revealed that organic matter, Cu and Hg contents were strongly linked to the fungal diversity and the abundance of specific taxa in cattle manure. In chicken manure, OM, TN and Zn were major factors controlling the fungal diversity and community composition. Soil pH, EC and Cu, Zn, Cd, Hg and As content had pronounced effects on the beneficial and pathogenic genus in soil with and without manure composting. Beneficial fungal genus such as Aspergillus, Plectosphaerella, Acremonium, Meyerozyma and fungal pathogenic such as Fusarium, Cladosporium, Verticillium were sensitive to properties (EC, pH, OM) and heavy metals (Cu, Zn, Hg) contents of the environment relatively. This study can serve as an applicable contribution helping in farms management (especially to cattle and poultry breeding) and improving their resource use of livestock and poultry manures.
Soil heterogeneity rather than manure determines fungal communities in the vegetable fields, but we can encourage the sensible use of cattle and chicken manures in agroecosystems.
This study will help farmers regulate the dosage of feed components which can increase the number of beneficial fungal genus or reduce the number of pathogenic fungal genus, improve their resource use of livestock and poultry manures and encourage the sensible use of cattle and chicken manures in agroecosystems.
牛和家禽粪便堆肥常用于农业土地,但在施用前后土壤中真菌群落组成仍不清楚。本研究描述了施用有机肥后土壤真菌多样性,有助于正确利用畜禽粪便资源。
从 10 个肉牛场和 12 个蛋鸡场的 5 个不同饲养阶段获得新鲜粪便样本。在施用 15、30 和 45 吨/公顷的有机肥后,从农场内的蔬菜田采集表层土壤样本。使用高通量测序技术,ITS 区域用于描述土壤真菌种群。牛粪便的真菌 OTUs、Chao1 和 ACE 在育肥阶段(>12 个月)相对较高,鸡粪便的 OTUs 和 ACE 在初始产蛋阶段(16-24 周)最高。与对照相比,牛或鸡粪施用后蔬菜土壤的真菌多样性指数没有线性变化。子囊菌门(总序列的 84.7%)、Neocallimastigomycota(9.69%)和担子菌门(4.6%)是牛粪中的主要门。子囊菌门(88.9%)也在鸡粪中占优势,其次是担子菌门(8.9%)。在施用牛和鸡粪后,土壤中子囊菌门的丰度下降,而担子菌门和壶菌门的丰度增加。随着牛和鸡堆肥施用量的增加,没有一个优势属呈线性增加或减少。有和没有堆肥施用的土壤中真菌优势属主要受土壤 pH 和 EC 的影响,而不是粪肥。皮尔逊相关性分析表明,有机质、Cu 和 Hg 含量与牛粪中真菌多样性和特定类群的丰度密切相关。在鸡粪中,OM、TN 和 Zn 是控制真菌多样性和群落组成的主要因素。土壤 pH、EC 以及 Cu、Zn、Cd、Hg 和 As 含量对有和没有堆肥施用的土壤中的有益和致病属有明显影响。有益真菌属,如曲霉属、多毛孢属、节菱孢属、梅耶罗酵母属和真菌病原属,如镰刀菌属、枝孢属、弯孢属,对环境的特性(EC、pH、OM)和重金属(Cu、Zn、Hg)含量相对敏感。本研究可以为农场管理(特别是牛和家禽养殖)提供应用贡献,并提高其对畜禽粪便资源的利用。
土壤异质性而不是粪肥决定了蔬菜田中的真菌群落,但我们可以鼓励在农业生态系统中合理使用牛和鸡粪。
本研究将帮助农民调节饲料成分的用量,增加有益真菌属的数量或减少病原真菌属的数量,提高其对畜禽粪便资源的利用,并鼓励在农业生态系统中合理使用牛和鸡粪。
