稻蟹共作与池塘养殖系统中河蟹生长性能、酶活性及微生物群的比较分析

Comparative analysis of crab growth performance, enzyme activity, and microbiota between rice-crab coculture and pond farming systems.

作者信息

Zhu Xiaochen, Nie Miao, Sun Na, Zhang Yazhao, Sun Mingxia, Li Changlei, Jiang Qing, Wei Hua, Li Yingdong, Hu Qingbiao, Zhao Yingying, Li Xiaodong

机构信息

Hebei Key Laboratory of the Bohai Sea Fish Germplasm Resources Conservation and Utilization, Beidaihe Central Experiment Station, Chinese Academy of Fishery Sciences, Qinhuangdao, China.

College of Animal Science and Veterinary Medicine, Shenyang Agricultural University, Shenyang, China.

出版信息

Front Vet Sci. 2025 Mar 19;12:1571454. doi: 10.3389/fvets.2025.1571454. eCollection 2025.

DOI:10.3389/fvets.2025.1571454

PMID:40177674

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11961982/

Abstract

INTRODUCTION

To support the sustainable development of rice and aquaculture industries, various rice-animal coculture systems have been developed. One such system, the rice-crab coculture system (RCC), has been practiced for decades in northern China. However, studies on the crab physiological status in RCC remain limited. Microorganisms play a crucial role in aquaculture by influencing animal nutrition, health, nutrient cycling, water quality, and environmental impact. Research on the gut and environmental microbiota in RCC is scarce.

METHODS

This study compared the growth performance, immune and digestive enzyme activities of crabs between RCC and traditional pond farming system (PF). In addition, the microbiota in crab guts, water, and sediment from both systems was investigated using gene sequencing.

RESULTS

Crabs in RCC exhibited superior growth performance and higher enzymatic activities, including acid phosphatase (ACP), alkaline phosphatase (AKP), lipase (LPS), and trypsin (TRY). Significant differences were observed in microbiota composition across crab gut, water, and sediment samples, respectively. RCC crabs had a lower abundance of Bacteroidota and a higher abundance of Firmicutes in their gut microbiota. The RCC environment was enriched with beneficial bacteria such as Rhizobiales, Methylococcales, KD4-96, C39, Xanthomonadales, and Nitrosomonadaceae. Microbial function predictions confirmed enhanced methanotrophy and nitrogen fixation in the RCC.

DISCUSSION

The RCC enhances the growth rate and immune capability of crabs. Crabs from RCC consume more animal-based nutrition, which results in distinct differences in gut microbiota composition and higher levels of LPS and TRY compared to those in PF. Additionally, RCC supports environmentally beneficial bacteria that contribute to greenhouse gas reduction, carbon and nitrogen fixation, organic matter decomposition, and ammonia oxidation, benefiting both the crabs and their ecosystem. These findings enhance our understanding of crab physiology and microbial communities in RCC and PF systems.

摘要

引言

为支持水稻和水产养殖业的可持续发展，已开发出各种稻-动物共养系统。其中一种系统，即稻-蟹共养系统（RCC），在中国北方已实践了数十年。然而，关于RCC中螃蟹生理状态的研究仍然有限。微生物通过影响动物营养、健康、养分循环、水质和环境影响，在水产养殖中发挥着关键作用。关于RCC中肠道和环境微生物群的研究很少。

方法

本研究比较了RCC和传统池塘养殖系统（PF）中螃蟹的生长性能、免疫和消化酶活性。此外，使用基因测序研究了两个系统中螃蟹肠道、水和沉积物中的微生物群。

结果

RCC中的螃蟹表现出更好的生长性能和更高的酶活性，包括酸性磷酸酶（ACP）、碱性磷酸酶（AKP）、脂肪酶（LPS）和胰蛋白酶（TRY）。在螃蟹肠道、水和沉积物样本的微生物群组成上分别观察到显著差异。RCC螃蟹肠道微生物群中拟杆菌门的丰度较低，厚壁菌门的丰度较高。RCC环境富含有益细菌，如根瘤菌目、甲基球菌目、KD4-96、C39、黄单胞菌目和亚硝化单胞菌科。微生物功能预测证实RCC中的甲烷营养和固氮作用增强。

讨论

RCC提高了螃蟹的生长速度和免疫能力。与PF中的螃蟹相比，RCC中的螃蟹消耗更多基于动物的营养，这导致肠道微生物群组成存在明显差异，LPS和TRY水平更高。此外，RCC支持对环境有益的细菌，这些细菌有助于减少温室气体、碳和氮固定、有机物分解和氨氧化，使螃蟹及其生态系统都受益。这些发现增进了我们对RCC和PF系统中螃蟹生理学和微生物群落的理解。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/bb85/11961982/dcbb28f462a3/fvets-12-1571454-g0001.jpg

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稻蟹共作与池塘养殖系统中河蟹生长性能、酶活性及微生物群的比较分析

Comparative analysis of crab growth performance, enzyme activity, and microbiota between rice-crab coculture and pond farming systems.

作者信息

机构信息

出版信息

INTRODUCTION

METHODS

RESULTS

DISCUSSION

引言

方法

结果

讨论

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