Effects of Snail Bellamya purificata Farming at Different Stocking Densities on the Algal and Fungal Communities in Sediment

IF 2.1 3区 农林科学 Q2 FISHERIES
Fishes Pub Date : 2023-09-28 DOI:10.3390/fishes8100488
Yiran Hou, Mengmeng Zhou, Rui Jia, Wei Sun, Yanhong Yang, Xiongjian Huang, Bing Li, Jian Zhu
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Abstract

The snail Bellamya purificata is recognized as a potential bio-remediation species, and is commonly employed in polyculture to enhance resource utilization efficiency and realize culture environment regulation. In order to enrich the microbiome studies on elucidating the ecological effects of snail B. purificata farming, we assessed the effect of B. purificata farming activities, at varying stocking densities, on the algal and fungal communities in sediment. Four experimental groups were established in our study, each corresponding to a different stocking density: 0, 234.38, 468.75, and 937.5 g/m2, represented as CON, LD, MD, and HD, respectively. High-throughput sequencing based on ITS and 23S ribosomal RNA (rRNA) genes was employed to analyze the variations in algal and fungal communities under B. purificata farming activities at different stocking densities. B. purificata farming activities had no significant effect on the alpha diversities of fungal and algal communities, but significantly altered the compositions of fungal and algal communities in sediments, especially B. purificata farming activity at low stocking density. B. purificata farming activities at low stocking density could significantly increase the relative abundances of fungal genera Paraconiothyrium and Penicillium compared with the CON group. The promoting effect diminished with increasing density. B. purificata farming activities at low or medium stocking density also could enhance the relative abundances of algal genera Microchloropsis, Scenedesmus, and Auxenochlorella. Hence, B. purificata farming activity at low stocking density might be the optimum density to enhance resource utilization efficiency and minimize environmental pollution.
不同放养密度下纯螺养殖对沉积物中藻类和真菌群落的影响
纯化贝拉米蜗牛是公认的一种潜在的生物修复物种,常用于混养,以提高资源利用效率,实现养殖环境调节。为了丰富微生物组学研究,阐明净化螺养殖的生态效应,我们评估了不同放养密度下净化螺养殖活动对沉积物中藻类和真菌群落的影响。设置4个试验组,分别对应0、234.38、468.75和937.5 g/m2的载畜密度,分别用CON、LD、MD和HD表示。采用基于ITS和23S核糖体RNA (rRNA)基因的高通量测序方法,分析了不同放养密度下纯化白鲟养殖活动下藻类和真菌群落的变化。养殖活动对沉积物中真菌和藻类群落的α多样性影响不显著,但显著改变了沉积物中真菌和藻类群落的组成,尤其是低放养密度下的养殖活动。与CON组相比,低放养密度下的养殖活动显著增加了真菌类副aconiothyrium和青霉属的相对丰度。促进作用随着密度的增加而减弱。低、中放养密度下的养殖活动也能提高小绿藻属、场景藻属和Auxenochlorella属藻类的相对丰度。因此,低放养密度可能是提高资源利用效率和减少环境污染的最佳密度。
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Fishes
Fishes Multiple-
CiteScore
1.90
自引率
8.70%
发文量
311
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