{"title":"埃塞俄比亚齐韦湖的少营养化趋势","authors":"G. Beneberu, S. Mengistou","doi":"10.4314/SINET.V32I2.68865","DOIUrl":null,"url":null,"abstract":"Some ecological changes have been noted in Lake Ziway since the 1980s, such as lowering of the lake level, introduction and dominance of the catfish Clarias gariepinus in the fishery (53%) and establishment of cladocerans such as Daphnia barbata and Ceriodaphnia cornuta . This prompted us to study the phytoplankton biomass to see whether these changes were cascaded through the trophic food chain of Lake Ziway. The dynamics of some chemical and biological parameters were studied in two littoral and one offshore sites in the lake from November 2003 to August 2004. Nutrients showed temporal as well as spatial variations. Nitrate increased in the offshore whereas soluble reactive phosphate (SRP) was high in littoral sites (20–380 µg/L), indicating anthropogenic impacts. Mean phytoplankton biomass was high at the offshore (43.85 mg Chl a m -3 ) and almost similar at the littoral sites (Mean values 33.73 and 33.68 mg Chl a m -3 ), but much lower than values reported earlier. Hourly rate of integral photosynthesis (∑a) ranged from 57.4–726 mg O 2 m -2 h -1 at the offshore and 95–300 mg O 2 m -2 h -1 at littoral sites, respectively. Biomass-specific rate of photosynthetic production at light saturation, (photosynthetic capacity, Φmax) ranged from 5.06–28.8 mg O 2 (mg Chl a ) -1 h -1 , slightly higher than values reported in the 1980s (9.6–22.5), due to depressed algal biomass. Although nutrients have increased, phytoplankton biomass (as Chl a ) has decreased over the last two decades, possibly due to heavy grazing by zooplankton and introduced fish. If this continues for some time, Lake Ziway will head towards oligotrophication, instead of eutrophication, as speculated by previous workers.","PeriodicalId":245987,"journal":{"name":"Sinet, Ethiopian Journal of Science","volume":"1 1","pages":"0"},"PeriodicalIF":0.0000,"publicationDate":"2011-08-18","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"19","resultStr":"{\"title\":\"Oligotrophication trend of Lake Ziway, Ethiopia\",\"authors\":\"G. Beneberu, S. Mengistou\",\"doi\":\"10.4314/SINET.V32I2.68865\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Some ecological changes have been noted in Lake Ziway since the 1980s, such as lowering of the lake level, introduction and dominance of the catfish Clarias gariepinus in the fishery (53%) and establishment of cladocerans such as Daphnia barbata and Ceriodaphnia cornuta . This prompted us to study the phytoplankton biomass to see whether these changes were cascaded through the trophic food chain of Lake Ziway. The dynamics of some chemical and biological parameters were studied in two littoral and one offshore sites in the lake from November 2003 to August 2004. Nutrients showed temporal as well as spatial variations. Nitrate increased in the offshore whereas soluble reactive phosphate (SRP) was high in littoral sites (20–380 µg/L), indicating anthropogenic impacts. Mean phytoplankton biomass was high at the offshore (43.85 mg Chl a m -3 ) and almost similar at the littoral sites (Mean values 33.73 and 33.68 mg Chl a m -3 ), but much lower than values reported earlier. Hourly rate of integral photosynthesis (∑a) ranged from 57.4–726 mg O 2 m -2 h -1 at the offshore and 95–300 mg O 2 m -2 h -1 at littoral sites, respectively. Biomass-specific rate of photosynthetic production at light saturation, (photosynthetic capacity, Φmax) ranged from 5.06–28.8 mg O 2 (mg Chl a ) -1 h -1 , slightly higher than values reported in the 1980s (9.6–22.5), due to depressed algal biomass. Although nutrients have increased, phytoplankton biomass (as Chl a ) has decreased over the last two decades, possibly due to heavy grazing by zooplankton and introduced fish. 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引用次数: 19
摘要
自20世纪80年代以来,Ziway湖发生了一些生态变化,如湖水水位下降,鲶鱼Clarias gariepinus在渔业中被引入并占据优势地位(53%),barbata Daphnia和Ceriodaphnia cornuta等进化纲动物的建立。这促使我们研究浮游植物生物量,看看这些变化是否通过Ziway湖的营养食物链级联。2003年11月至2004年8月,对该湖泊的两个临海点和一个近海点进行了一些化学和生物参数的动态研究。营养成分表现出时间和空间差异。硝酸盐在近海地区增加,而可溶性活性磷酸盐(SRP)在沿海地区较高(20-380µg/L),表明人为影响。近海浮游植物的平均生物量较高(43.85 mg Chl a m -3),沿海浮游植物的平均生物量几乎相同(平均值33.73和33.68 mg Chl a m -3),但远低于之前报道的值。整体光合作用的小时速率(∑a)在近海为57.4 ~ 726 mg O 2 m -2 h -1,在沿海为95 ~ 300 mg O 2 m -2 h -1。光饱和条件下光合产量的生物量比速率(光合能力,Φmax)为5.06-28.8 mg o2 (mg Chl a) -1 h -1,略高于20世纪80年代报道的数值(9.6-22.5),这是由于藻类生物量下降造成的。虽然营养物有所增加,但浮游植物生物量(如Chl a)在过去二十年中有所减少,这可能是由于浮游动物和引入的鱼类的大量放牧。如果这种情况持续一段时间,紫卫湖将走向少营养化,而不是像之前的工作人员推测的那样走向富营养化。
Some ecological changes have been noted in Lake Ziway since the 1980s, such as lowering of the lake level, introduction and dominance of the catfish Clarias gariepinus in the fishery (53%) and establishment of cladocerans such as Daphnia barbata and Ceriodaphnia cornuta . This prompted us to study the phytoplankton biomass to see whether these changes were cascaded through the trophic food chain of Lake Ziway. The dynamics of some chemical and biological parameters were studied in two littoral and one offshore sites in the lake from November 2003 to August 2004. Nutrients showed temporal as well as spatial variations. Nitrate increased in the offshore whereas soluble reactive phosphate (SRP) was high in littoral sites (20–380 µg/L), indicating anthropogenic impacts. Mean phytoplankton biomass was high at the offshore (43.85 mg Chl a m -3 ) and almost similar at the littoral sites (Mean values 33.73 and 33.68 mg Chl a m -3 ), but much lower than values reported earlier. Hourly rate of integral photosynthesis (∑a) ranged from 57.4–726 mg O 2 m -2 h -1 at the offshore and 95–300 mg O 2 m -2 h -1 at littoral sites, respectively. Biomass-specific rate of photosynthetic production at light saturation, (photosynthetic capacity, Φmax) ranged from 5.06–28.8 mg O 2 (mg Chl a ) -1 h -1 , slightly higher than values reported in the 1980s (9.6–22.5), due to depressed algal biomass. Although nutrients have increased, phytoplankton biomass (as Chl a ) has decreased over the last two decades, possibly due to heavy grazing by zooplankton and introduced fish. If this continues for some time, Lake Ziway will head towards oligotrophication, instead of eutrophication, as speculated by previous workers.
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