{"title":"鱼类生产力对水质变化的响应——以坦桑尼亚潘加尼流域Nyumba ya Mungu大坝为例","authors":"H. O. Mangi, S. Onywere, E. Kitur","doi":"10.1155/2023/7353898","DOIUrl":null,"url":null,"abstract":"Fish habitat degradation, such as water pollution due to the rapid expansion of incompatible land uses, is one of the noteworthy challenges to freshwater ecosystems. Elevated contents of nutrients and contaminants in water are some of the imperative challenges. This research was conducted to investigate the link between water qualities and fish productivity in the Nyumba ya Mungu Dam, whose fishery potential had decreased by 95% between 1972 and 2018. Physicοchemical characteristics, namely, temperature, pH, dissolved oxygen (DO), turbidity, total nitrogen, total phosphorus, chlorophyll a, and the water depth of fishing net location, were assessed following standard procedure. Fish catches per unit effort representing fish biomass/productivity were monitored for twelve months from January to December 2019. Pearson’s correlation analysis indicated that fish catch per unit effort was positively and significantly correlated with turbidity (r = 0.461, \n \n P\n \n < 0.01) and TP (r = 0.405, \n \n P\n \n < 0.01). Stepwise multiple regression model results indicated that turbidity, dissolved oxygen, and the depth of the fishing net location are the statistically significant predictors of fish catch per unit effort which represented fish biomass. Findings further indicated that the model combining turbidity and dissolved oxygen predicted a 24% change in fish catch per unit effort, whereas turbidity, dissolved oxygen, and the depth of fishing net location contributed a 28.9% change in fish catch per unit effort. In conclusion, fish productivity in the NMD is limited by organic matter availability and nutrient levels that cause algae bloom occurrence. Turbidity is an indicator of organic matter availability and the effect of algae bloom on fish productivity. Inflow of nutrients to the dam nourishes the algae biomass, thus creating vicious cycles on fish productivity as fish species in the dam failed to take advantage of high primary production by algae.","PeriodicalId":43584,"journal":{"name":"International Journal of Ecology & Development","volume":null,"pages":null},"PeriodicalIF":0.2000,"publicationDate":"2023-07-24","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Fish Productivity Response to Water Quality Variations: A Case Study of Nyumba ya Mungu Dam, in Pangani Water Basin, Tanzania\",\"authors\":\"H. O. Mangi, S. Onywere, E. Kitur\",\"doi\":\"10.1155/2023/7353898\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Fish habitat degradation, such as water pollution due to the rapid expansion of incompatible land uses, is one of the noteworthy challenges to freshwater ecosystems. Elevated contents of nutrients and contaminants in water are some of the imperative challenges. This research was conducted to investigate the link between water qualities and fish productivity in the Nyumba ya Mungu Dam, whose fishery potential had decreased by 95% between 1972 and 2018. Physicοchemical characteristics, namely, temperature, pH, dissolved oxygen (DO), turbidity, total nitrogen, total phosphorus, chlorophyll a, and the water depth of fishing net location, were assessed following standard procedure. Fish catches per unit effort representing fish biomass/productivity were monitored for twelve months from January to December 2019. Pearson’s correlation analysis indicated that fish catch per unit effort was positively and significantly correlated with turbidity (r = 0.461, \\n \\n P\\n \\n < 0.01) and TP (r = 0.405, \\n \\n P\\n \\n < 0.01). Stepwise multiple regression model results indicated that turbidity, dissolved oxygen, and the depth of the fishing net location are the statistically significant predictors of fish catch per unit effort which represented fish biomass. Findings further indicated that the model combining turbidity and dissolved oxygen predicted a 24% change in fish catch per unit effort, whereas turbidity, dissolved oxygen, and the depth of fishing net location contributed a 28.9% change in fish catch per unit effort. In conclusion, fish productivity in the NMD is limited by organic matter availability and nutrient levels that cause algae bloom occurrence. Turbidity is an indicator of organic matter availability and the effect of algae bloom on fish productivity. 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引用次数: 0
摘要
鱼类栖息地退化,如不相容土地利用迅速扩大造成的水污染,是淡水生态系统面临的重大挑战之一。水中营养物质和污染物含量的升高是一些紧迫的挑战。该研究旨在调查Nyumba ya Mungu大坝水质与鱼类生产力之间的关系,该大坝的渔业潜力在1972年至2018年期间下降了95%。物理-化学特性,即温度、pH值、溶解氧(DO)、浊度、总氮、总磷、叶绿素a和渔网位置的水深,按照标准程序进行评估。从2019年1月至12月监测了代表鱼类生物量/生产力的单位努力渔获量。Pearson相关分析表明,单位努力渔获量与浑浊度(r = 0.461, P < 0.01)和TP (r = 0.405, P < 0.01)呈显著正相关。多元逐步回归模型结果表明,浊度、溶解氧和渔网位置深度是代表鱼类生物量的单位努力渔获量的统计显著预测因子。研究结果进一步表明,结合浊度和溶解氧的模型预测的单位努力渔获量变化为24%,而浊度、溶解氧和渔网位置深度对单位努力渔获量的变化贡献了28.9%。综上所述,NMD的鱼类产量受到导致藻华发生的有机质可利用性和营养水平的限制。浊度是有机物有效性和藻类繁殖对鱼类产量影响的指标。流入大坝的营养物质滋养了藻类生物量,大坝内的鱼类未能利用藻类的高初级产量,从而对鱼类生产力造成了恶性循环。
Fish Productivity Response to Water Quality Variations: A Case Study of Nyumba ya Mungu Dam, in Pangani Water Basin, Tanzania
Fish habitat degradation, such as water pollution due to the rapid expansion of incompatible land uses, is one of the noteworthy challenges to freshwater ecosystems. Elevated contents of nutrients and contaminants in water are some of the imperative challenges. This research was conducted to investigate the link between water qualities and fish productivity in the Nyumba ya Mungu Dam, whose fishery potential had decreased by 95% between 1972 and 2018. Physicοchemical characteristics, namely, temperature, pH, dissolved oxygen (DO), turbidity, total nitrogen, total phosphorus, chlorophyll a, and the water depth of fishing net location, were assessed following standard procedure. Fish catches per unit effort representing fish biomass/productivity were monitored for twelve months from January to December 2019. Pearson’s correlation analysis indicated that fish catch per unit effort was positively and significantly correlated with turbidity (r = 0.461,
P
< 0.01) and TP (r = 0.405,
P
< 0.01). Stepwise multiple regression model results indicated that turbidity, dissolved oxygen, and the depth of the fishing net location are the statistically significant predictors of fish catch per unit effort which represented fish biomass. Findings further indicated that the model combining turbidity and dissolved oxygen predicted a 24% change in fish catch per unit effort, whereas turbidity, dissolved oxygen, and the depth of fishing net location contributed a 28.9% change in fish catch per unit effort. In conclusion, fish productivity in the NMD is limited by organic matter availability and nutrient levels that cause algae bloom occurrence. Turbidity is an indicator of organic matter availability and the effect of algae bloom on fish productivity. Inflow of nutrients to the dam nourishes the algae biomass, thus creating vicious cycles on fish productivity as fish species in the dam failed to take advantage of high primary production by algae.
期刊介绍:
The main aim of the International Journal of Ecology & Development (IJED) is to publish refereed, well-written original research articles, and studies that describe the latest research and developments in ecology and development. It also covers the many potential applications and connections to other areas of Ecological Science, economics and technology such as the use and development of mathematics/statistics in ecology or use and development of economics for ecology & development or inter-disciplinary nature of applications for Ecology & Development. International Journal of Ecology and Development is published three issues in a year in Winter, Summer and Fall.