Zhimin Zhang1, Qinghui Deng1,2, Lingling Wan1,2, Xiuyun Cao1, Yiyong Zhou1, Chunlei Song1. 1. Key Laboratory of Algal Biology, State Key Laboratory of Freshwater Ecology and Biotechnology, Institute of Hydrobiology, Chinese Academy of Sciences, Wuhan 430072, China. 2. University of Chinese Academy of Sciences, Beijing 100039, China.
Abstract
Aquaculture is among the most important and fastest growing agriculture sectors worldwide; however, it generates environmental impacts by introducing nutrient accumulations in ponds, which are possibly different and further result in complex biological processes in the sediments based on diverse farming practices. In this study, we investigated the effects of long-term farming practices of representative aquatic animals dominated by grass carp (GC, Ctenopharyngodon idella) or Chinese mitten crab (CMC, Eriocheir sinensis) on the bacterial community and enzyme activity of sediments from more than 15 years of aquaculture ponds, and the differences associated with sediment properties were explored in the two farming practices. Compared to CMC ponds, GC ponds had lower contents of TC, TN, and TP in sediments, and similar trends for sediment pH and moisture content. Sediment bacterial communities were significantly different between GC and CMC ponds, with higher bacterial richness and diversity in GC ponds. The bacterial communities among the pond sediments were closely associated with sediment pH, TC, and TN. Additionally, the results showed profoundly lower activities of β-1,4-glucosidase, leucine aminopeptidase, and phosphatase in the sediments of GC ponds than CMC ponds. Pearson's correlation analysis further revealed strong positive correlations between the hydrolytic enzyme activities and nutrient concentrations among the aquaculture ponds, indicating microbial enzyme regulation response to sediment nutrient dynamics. Our study herein reveals that farming practices of fish and crab differently affect bacterial communities and enzymatic activities in pond sediments, suggesting nutrient-driven sediment biological processes in aquaculture ponds for different farming practices.
Aquaculture is among the most important and fastest growing agriculture sectors worldwide; however, it generates class="Species">environmental imclass="Chemical">pacts by introducing nutrient accumulations in class="Chemical">ponds, which are class="Chemical">possibly different and further result in comclass="Chemical">plex biological class="Chemical">processes in the sediments based on diverse farming class="Chemical">practices. In this study, we investigated the effects of long-term farming class="Chemical">practices of reclass="Chemical">presentative aquatic animals dominated by class="Chemical">pan class="Species">grass carp (GC, Ctenopharyngodon idella) or Chinese mitten crab (CMC, Eriocheir sinensis) on the bacterial community and enzyme activity of sediments from more than 15 years of aquaculture ponds, and the differences associated with sediment properties were explored in the two farming practices. Compared to CMC ponds, GC ponds had lower contents of TC, TN, and TP in sediments, and similar trends for sediment pH and moisture content. Sediment bacterial communities were significantly different between GC and CMC ponds, with higher bacterial richness and diversity in GC ponds. The bacterial communities among the pond sediments were closely associated with sediment pH, TC, and TN. Additionally, the results showed profoundly lower activities of β-1,4-glucosidase, leucine aminopeptidase, and phosphatase in the sediments of GC ponds than CMC ponds. Pearson's correlation analysis further revealed strong positive correlations between the hydrolytic enzyme activities and nutrient concentrations among the aquaculture ponds, indicating microbial enzyme regulation response to sediment nutrient dynamics. Our study herein reveals that farming practices of fish and crab differently affect bacterial communities and enzymatic activities in pond sediments, suggesting nutrient-driven sediment biological processes in aquaculture ponds for different farming practices.
Authors: Robert L Sinsabaugh; Christian L Lauber; Michael N Weintraub; Bony Ahmed; Steven D Allison; Chelsea Crenshaw; Alexandra R Contosta; Daniela Cusack; Serita Frey; Marcy E Gallo; Tracy B Gartner; Sarah E Hobbie; Keri Holland; Bonnie L Keeler; Jennifer S Powers; Martina Stursova; Cristina Takacs-Vesbach; Mark P Waldrop; Matthew D Wallenstein; Donald R Zak; Lydia H Zeglin Journal: Ecol Lett Date: 2008-09-25 Impact factor: 9.492
Authors: Brett J Baker; Cody S Sheik; Chris A Taylor; Sunit Jain; Ashwini Bhasi; James D Cavalcoli; Gregory J Dick Journal: ISME J Date: 2013-05-23 Impact factor: 10.302