鄱阳湖子湖“堑秋湖”过程中水位变化对浮游动物群落结构的影响
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摘要
"堑秋湖"是鄱阳湖区渔民根据湖泊水位季节性涨退变化,利用人工闸门控制子湖水位进行捕鱼的一种渔业方式。研究分析了"堑秋湖"过程中浮游动物群落结构的变化,探讨水位变化对浮游动物群落结构的影响及其他可能的影响因素,以期为合理管控鄱阳湖区"堑秋湖"渔业活动提供科学依据。鄱阳湖"堑秋湖"捕鱼期间(2014年11月9日至2015年1月4日),在鄱阳湖国家级自然保护区内子湖——大湖池的敞水区设置了7个采样点进行了8次浮游动物定性、定量采集和分析。研究共发现浮游动物77种,其中轮虫53种,枝角类10种,桡足类14种。在"堑秋湖"捕鱼过程中,浮游动物物种数随水位的连续下降呈现逐渐减少趋势,多样性指数也呈逐渐下降趋势,密度和生物量呈现先增加后减少的变化趋势。浮游动物优势物种的密度变化具有明显的种属差异,前节晶囊轮虫和中华窄腹剑水蚤的密度呈逐渐增加的趋势,广布多肢轮虫、广布中剑水蚤、长额象鼻溞和桡足类无节幼体的密度呈逐渐减少的趋势。冗余分析表明:水位、电导率、水温、溶氧、营养盐等环境因子均对浮游动物群落结构产生显著影响,其中溶解氧是最强的影响因子。此外,根据"堑秋湖"鱼类渔获量的变化情况推测,捕鱼活动导致的浮游食性鱼类减少也对浮游动物的密度变化产生了影响。在"堑秋湖"过程中,随着水位的持续下降水体理化因子发生了不同变化。浮游动物的种类和多样性指数逐渐降低,浮游动物的密度呈现先升高后降低的变化趋势。浮游动物的群落结构主要受溶解氧、氨氮和水位的影响。捕鱼活动导致的浮游食性鱼类减少也对浮游动物的密度变化产生了影响。
"Plate-shaped Lake Enclosed in Autumn" is a fishing method used by fishermen in the Poyang Lake.According to seasonal water level,fishermen use artificial gates to control sub-lake water level for fishing.This study analyzed the zooplankton community structure during the "Plate-shaped Lake Enclosed in Autumn" and discussed the impact of water level and other possible influencing factors on the zooplankton community structure.From 9 th November,2014 to 4 th January,2015,we conducted 8 times qualitative and quantitative zooplankton acquisitions from seven sampling sites in the open water area of Dahuchi Lake,a sub-lake located in the Poyang Lake National Nature Reserve.A total of 77 species of zooplankton were identified,which consisted of 53 species of Rotifera,10 species of Cladocera and 14 species of Copepoda.During the "Plate-shaped Lake Enclosed in Autumn" fishing process,the specie richness of zooplankton gradually decreased with the decrease of water level.The diversity index of zooplankton also showed a decreasing tendency.Zooplankton density and biomass increased first and then decreased.However,the density variation of dominant species in zooplankton has obvious species differences.The density of Asplanchna priodonta and Limnoithona sinensis gradually increased during "Plate-shaped Lake Enclosed in Autumn".The density of Polyarthra vulgaris,Mesocyclops leuckarti,Bosmina longirostris and Copepod nauplii continuously decreased.Redundancy analysis(RDA) showed that several environmental factors such as water level,conductivity,water temperature,dissolved oxygen and nutrient had significant effect on the zooplankton community structure with the strongest effect by dissolved oxygen.In addition,according to the information of fishing catch during "Plate-shaped Lake Enclosed in Autumn",we propose that the decrease in planktonic fish caused by fishing activities can impact zooplankton density.
"Plate-shaped Lake Enclosed in Autumn" is a fishing method used by fishermen in the Poyang Lake.According to seasonal water level,fishermen use artificial gates to control sub-lake water level for fishing.This study analyzed the zooplankton community structure during the "Plate-shaped Lake Enclosed in Autumn" and discussed the impact of water level and other possible influencing factors on the zooplankton community structure.From 9 th November,2014 to 4 th January,2015,we conducted 8 times qualitative and quantitative zooplankton acquisitions from seven sampling sites in the open water area of Dahuchi Lake,a sub-lake located in the Poyang Lake National Nature Reserve.A total of 77 species of zooplankton were identified,which consisted of 53 species of Rotifera,10 species of Cladocera and 14 species of Copepoda.During the "Plate-shaped Lake Enclosed in Autumn" fishing process,the specie richness of zooplankton gradually decreased with the decrease of water level.The diversity index of zooplankton also showed a decreasing tendency.Zooplankton density and biomass increased first and then decreased.However,the density variation of dominant species in zooplankton has obvious species differences.The density of Asplanchna priodonta and Limnoithona sinensis gradually increased during "Plate-shaped Lake Enclosed in Autumn".The density of Polyarthra vulgaris,Mesocyclops leuckarti,Bosmina longirostris and Copepod nauplii continuously decreased.Redundancy analysis(RDA) showed that several environmental factors such as water level,conductivity,water temperature,dissolved oxygen and nutrient had significant effect on the zooplankton community structure with the strongest effect by dissolved oxygen.In addition,according to the information of fishing catch during "Plate-shaped Lake Enclosed in Autumn",we propose that the decrease in planktonic fish caused by fishing activities can impact zooplankton density.
引文
[1]Keddy P A,Reznicek A A.Great lakes vegetation dynamics:the role of fluctuating water levels and buried seeds[J].Journal of Great Lakes Research,1986,12:26-36
[2]Stefanidis K,Papastergiadou E.Effects of a long term water level reduction on the ecology and water quality in an eastern Mediterranean lake[J].Knowledge&Management of Aquatic Ecosystems,2013,411(5):1-14
[3]Liu Y,Guo H C,Zhou F,et al.Role of water level fluctuation on aquatic vegetation in lakes[J].Acta Ecologica Sinica,2006,26(9):3117-3126[刘永,郭怀成,周丰,等.湖泊水位变动对水生植被的影响机理及其调控方法.生态学报,2006,26(9):3117-3126]
[4]Coops H,Beklioglu M,Crisman T L.The role of waterlevel fluctuations in shallow lake ecosystems-workshop conclusions[J].Hydrobiologia,2003,506(1-3):23-27
[5]Wang P,Lai G Y,Huang X L.Simulation of the impact of Lake Poyang Project on the dynamic of lake water level[J].Journal of Lake Sciences,2014,26(1):29-36[王鹏,赖格英,黄小兰.鄱阳湖水利枢纽工程对湖泊水位变化影响的模拟.湖泊科学,2014,26(1):29-36]
[6]Park K S,Shin H W.Studies on phyto-and-zooplankton composition and its relation to fish productivity in a west coast fish pond ecosystem[J].Journal of Environmental Biology,2007,28:415-422
[7]Feng S M,Wu M S,Xiong L,et al.The research of dynamic succession of zooplankton and its correlation with environmental factors in Taiping Lake[J].Acta Hydrobiologica Sinica,2017,41(3):700-711[冯世敏,吴明姝,熊莲,等.太平湖浮游动物动态演替与环境因子的相关性研究.水生生物学报,2017,41(3):700-711]
[8]Liu J K.Advanced Hydrobiology[M].Beijing:Science Press.2002,401[刘建康.高级水生生物学.北京:科学出版社.2002,401]
[9]Hessen D O,Faafeng B A,Smith V H,et al.Extrinsic and intrinsic controls of zooplankton diversity in lakes[J].Ecology,2006,87(2):433-443
[10]Claudia Q,Mariana R,María C D,et al.Influence of precipitation,landscape and hydrogeomorphic lake features on pelagic allochthonous indicators in two connected ultraoligotrophic lakes of North Patagonia[J].Science of the Total Environment,2012,s427-428(12):219-228
[11]Nathalie C S,Saskia K,Matthias L,et al.Two stressors and a community-Effects of hydrological disturbance and a toxicant on freshwater zooplankton[J].Aquatic Toxicology,2013,127:9-20
[12]Ortega-Cisneros K,Scharler U M,Whitfield A K.Inlet mouth phase influences density,variability and standing stocks of plankton assemblages in temporarily open/closed estuaries[J].Estuarine,Coastal and Shelf Science,2014,136:139-148
[13]Liu C L,Tan Y J,Lin L S,et al.The wetland water level process and habitat of migratory birds in Lake Poyang[J].Journal of Lake Sciences,2011,23(1):129-135[刘成林,谭胤静,林联盛,等.鄱阳湖水位变化对候鸟栖息地的影响.湖泊科学,2011,23(1):129-135]
[14]Zhang T,Ma X H,Wang G P,et al.Community structure and spatial distribution of plankton of plankton in the Poyang lake national nature reserve,China[J].Acta Hydrobiologica Sinica,2014,38(1):158-165[张婷,马行厚,王桂苹,等.鄱阳湖国家级自然保护区浮游生物群落结构及空间分布.水生生物学报,2014,38(1):158-165]
[15]Hu Z P,Zhang Z F,Liu Y Z,et al.The function and significance of the Shallow-Lakes in the Poyang Lake wetland ecosystem[J].Jiangxi Hydraulic Science&Technology,2015,41(5):317-323[胡振鹏,张祖芳,刘以珍,等.碟形湖在鄱阳湖湿地生态系统的作用和意义.江西水利科技,2015,41(5):317-323]
[16]Qi S H,Liu Y,Yu X B,et al.Effect of“Lake Enclosed in Autumn”on the habitat of winter bird in Poyang Lake[J].Resources and Environment in the Yangtze Basin,2011,(s1):18-21[齐述华,刘影,于秀波,等.“堑秋湖”对鄱阳湖越冬候鸟栖息地功能影响的辨析.长江流域资源与环境,2011,(s1):18-21]
[17]Guo H C,Hu B H,Li Q.Effects of autumn fishery by Enclosing Plate-Shaped Lake on the winter migratory birds and conservation strategies in Nanji Wetland National Natural Reserve of the Poyang Lake,Jiangxi[J].Resources and Environment in the Yangtze Basin,2014,23(1):46-52[郭恢财,胡斌华,李琴.堑秋湖渔业模式对鄱阳湖南矶湿地越冬候鸟种群数量的影响和保育对策.长江流域资源与环境,2014,23(1):46-52]
[18]Xiong S,Ji W T,Wu X D,et al.Analysis of effect of temperature&water level on the number variation of the over-wintering anser species in Poyang Lake-a case study in Dahuchi Lake,Changhuchi Lake and Zhushihu Lake[J].Jiangxi Forestry Science and Technology,2011,(1):1-4[熊舒,纪伟涛,伍旭东,等.气温与水位对鄱阳湖越冬雁属鸟类数量变化影响分析--以大湖池、常湖池和朱市湖为例.江西林业科技,2011,(1):1-4]
[19]Research Group of Carcinology,Institute of Zoology,Academia Sinica.Fauna Sinica:Crustacea:Freshwater Copepoda[M].Beijing:Science Press.1979,301-418[中国科学院动物研究所甲壳动物研究组.中国动物志·节肢动物门·甲壳纲·淡水桡足类.北京:科学出版社.1979,301-418]
[20]Jiang X Z,Du N S.Fauna Sinica:Crustacea:Freshwater Cladocera[M].Beijing:Science Press.1979,80-271[蒋燮治,堵南山.中国动物志·节肢动物门·甲壳纲·淡水枝角类.北京:科学出版社.1979,80-271]
[21]Wang J J.Freshwater Rotifer Fauna in China[M].Beijing:Science Press.1961,69-254[王家楫.中国淡水轮虫志.北京:科学出版社.1961,69-254]
[22]Zhou F X,Chen J H.Atlas of Microbiology in Freshwater[M].Beijing:Chemical Industry Press.2005,303-359[周凤霞,陈剑虹.淡水微型生物图谱.北京:化学工业出版社.2005,303-359]
[23]Xie Q M,Li C C.Studies on composition and seasonal variations of planktonic copepod in Poyang Lake[J].Jiangxi Science,1998,(3):180-187[谢钦铭,李长春.鄱阳湖桡足类的群落组成与现存量季节变化的初步研究.江西科学,1998,(3):180-187]
[24]Leira M,Cantonati M.Effects of water-level fluctuations on lakes:an annotated bibliography[J].Hydrobiologia,2008,613(1):171-184
[25]Wantzen K M,Rothhaupt K O,M?rtl M,et al.Ecological effects of water-level fluctuations in lakes:an urgent issue[J].Hydrobiologia,2008,613(1):1-4
[26]Chen W M,Qin B Q,Xu Q J.Simulated experimental study on succession of zooplankton caused by water flow[J].Journal of Lake Science,2002,(1):43-51[陈伟民秦伯强,许秋瑾.模拟水动力对湖泊浮游动物群落演替的实验研究.海洋科学集刊,2002,(1):43-51]
[27]Rennella A M,Quirós R.The effects of hydrology on plankton biomass in shallow lakes of the Pampa Plain[J].Hydrobiologia,2006,556:181-191
[28]Baranyi C,Hein T,Holarek C,et al.Zooplankton biomass and community structure in a Danube River floodplain system:effects of hydrology[J].Freshwater Biology,2002,47:473-482
[29]Paidere.Influence of flooding frequency on zooplankton in the floodplains of the Daugava River(Latvia)[J].Acta Zoologica Lituanica,2009,19(4):306-313
[30]Chaparro G,Fontanarrosa M S,Cataldo D,et al.Hydrology driven factors might weaken fish predation effects on zooplankton structure in a vegetated warm temperate floodplain lake[J].Hydrobiologia,2015,752(1):187-202
[31]Zhang Z S,Huang X F.Methods for Study on Freshwater Plankton[M].Beijing:Science Press.1991,358-371[章宗涉,黄祥飞.淡水浮游生物研究方法.北京:科学出版社.1991,310-371]
[32]Meng Q,Deng D G.Advances in the production and hatching of resting eggs of cladoceran[J].Chinese Journal of Zoology,2008,43(3):154-160[孟琼,邓道贵.枝角类休眠卵形成和萌发的研究进展.动物学杂志,2008,43(3):154-160]
[33]Lu Z H,Yang J X.Effects of ecological factors on the hatching rate of resting eggs of Daphnia pulex(Crustacea:Cladocera)[J].Journal of Nanjing Normal University(Natural Science),2004,27(3):78-82[陆正和,杨家新.生态因子对蚤状溞休眠卵萌发率的影响.南京师大学报(自然科学版),2004,27(3):78-82]
[34]Wang Q,Luan L L,Chen L D,et al.Advances in copepod resting egg ecology in estuarine and coastal waters[J].Chinese Journal of Applied Ecology,2015,26(7):2213-2224[王庆,栾磊磊,陈亮东,等.河口近海桡足类休眠卵生态学研究进展.应用生态学报,2015,26(7):2213-2224]
[35]Chen L D.Preliminary study on ecology of zooplankton resting eggs in typical waters of Pearl River Estuary and the eastern Guangdong Coast[D].Jinan University,2014,5-26[陈亮东.珠江口和粤东近海典型水域浮游动物休眠卵生态学初步研究.暨南大学,2014,5-26]
[36]Wen Z M,Xu J R,Lin Q Q,et al.Rotifer species diversity and community structure in the pelagic zone of the Liuxihe Reservoir[J].Acta Ecologica Sinica,2017,37(4):1328-1338[温展明,徐健荣,林秋奇,等.流溪河水库敞水区轮虫多样性与群落的动态特征.生态学报,2017,37(4):1328-1338]
[37]Zhou Y.Effect of aquatic organisms on the diurnal variation of dissolved oxygen in water[D].Shenyang Normal University,2016,2-5[周莹.水生生物对水体溶解氧日变化规律影响.沈阳师范大学,2016,2-5]
[38]Zhou L B,Chen F Z.Effect of sediment resuspension on predation of planktivorous fish on zooplankton[J].Journal of Lake Sciences,2015,27(5):911-916[周礼斌,陈非洲.沉积物再悬浮对食浮游动物鱼类捕食浮游动物的影响.湖泊科学,2015,27(5):911-916]
[39]Zhang G G,Han B P.Effects of nutrient and tilapia(Oreochromis nilotica)on zooplankton community:an enclosure experiment[J].Guangdong Chemical Industry,2014,41(8):41-42[张贵刚,韩博平.营养盐和罗非鱼对水库浮游动物群落影响的围隔实验研究.广东化工,2014,41(8):41-42]
[40]Deng C.Effect of Nutrient enrichment and fish stocking on zooplankton communities[D].Jinan University.2011,30-35[邓琛.营养盐加富和鱼类补充对浮游动物群落的影响.暨南大学.2011,30-35]
[41]Lin Q Q.Species diversity and temporal variations of pelagic metazooplankton in Liuxihe Reservoir[D].Jinan University.2007,1-7[林秋奇.流溪河水库后生浮游动物多样性与群落结构的时空异质性.暨南大学.2007,1-7]
[42]Lu H B,Chen G J,Chen X L,et al.The long-term effects of bottom-up and top-down forcing on zooplankton:An example from sedimentary bosminid records of Lake Dianchi and Lake Fuxian[J].Journal of Lake Sciences,2015,(1):67-75[卢慧斌,陈光杰,陈小林,等.上行与下行效应对浮游动物的长期影响评价--以滇池与抚仙湖沉积物象鼻溞(Bosmina)为例.湖泊科学,2015,(1):67-75]
[43]Zeng Z G,Zhang X C,Liu G H,et al.Structure and features of fishery resources of Sub-Lakes in Poyang Lake,Jiangxi,China[J].Resources and Environment in the Yangtze Basin,2015,24(6):1021-1029[曾泽国,张笑辰,刘观华,等.鄱阳湖子湖“堑秋湖”渔业资源结构特征分析.长江流域资源与环境,2015,24(6):1021-1029]
[44]Chen B,Cui P,Liu G H,et al.Relationships between changing water levels and numbers of wintering tubereating birds in Poyang Lake National Nature Reserve[J].Journal of Lake Sciences,2014,26(2):243-252[陈冰,崔鹏,刘观华,等.鄱阳湖国家级自然保护区食块茎鸟类种群数量与水位的关系.湖泊科学,2014,26(2):243-252]
[2]Stefanidis K,Papastergiadou E.Effects of a long term water level reduction on the ecology and water quality in an eastern Mediterranean lake[J].Knowledge&Management of Aquatic Ecosystems,2013,411(5):1-14
[3]Liu Y,Guo H C,Zhou F,et al.Role of water level fluctuation on aquatic vegetation in lakes[J].Acta Ecologica Sinica,2006,26(9):3117-3126[刘永,郭怀成,周丰,等.湖泊水位变动对水生植被的影响机理及其调控方法.生态学报,2006,26(9):3117-3126]
[4]Coops H,Beklioglu M,Crisman T L.The role of waterlevel fluctuations in shallow lake ecosystems-workshop conclusions[J].Hydrobiologia,2003,506(1-3):23-27
[5]Wang P,Lai G Y,Huang X L.Simulation of the impact of Lake Poyang Project on the dynamic of lake water level[J].Journal of Lake Sciences,2014,26(1):29-36[王鹏,赖格英,黄小兰.鄱阳湖水利枢纽工程对湖泊水位变化影响的模拟.湖泊科学,2014,26(1):29-36]
[6]Park K S,Shin H W.Studies on phyto-and-zooplankton composition and its relation to fish productivity in a west coast fish pond ecosystem[J].Journal of Environmental Biology,2007,28:415-422
[7]Feng S M,Wu M S,Xiong L,et al.The research of dynamic succession of zooplankton and its correlation with environmental factors in Taiping Lake[J].Acta Hydrobiologica Sinica,2017,41(3):700-711[冯世敏,吴明姝,熊莲,等.太平湖浮游动物动态演替与环境因子的相关性研究.水生生物学报,2017,41(3):700-711]
[8]Liu J K.Advanced Hydrobiology[M].Beijing:Science Press.2002,401[刘建康.高级水生生物学.北京:科学出版社.2002,401]
[9]Hessen D O,Faafeng B A,Smith V H,et al.Extrinsic and intrinsic controls of zooplankton diversity in lakes[J].Ecology,2006,87(2):433-443
[10]Claudia Q,Mariana R,María C D,et al.Influence of precipitation,landscape and hydrogeomorphic lake features on pelagic allochthonous indicators in two connected ultraoligotrophic lakes of North Patagonia[J].Science of the Total Environment,2012,s427-428(12):219-228
[11]Nathalie C S,Saskia K,Matthias L,et al.Two stressors and a community-Effects of hydrological disturbance and a toxicant on freshwater zooplankton[J].Aquatic Toxicology,2013,127:9-20
[12]Ortega-Cisneros K,Scharler U M,Whitfield A K.Inlet mouth phase influences density,variability and standing stocks of plankton assemblages in temporarily open/closed estuaries[J].Estuarine,Coastal and Shelf Science,2014,136:139-148
[13]Liu C L,Tan Y J,Lin L S,et al.The wetland water level process and habitat of migratory birds in Lake Poyang[J].Journal of Lake Sciences,2011,23(1):129-135[刘成林,谭胤静,林联盛,等.鄱阳湖水位变化对候鸟栖息地的影响.湖泊科学,2011,23(1):129-135]
[14]Zhang T,Ma X H,Wang G P,et al.Community structure and spatial distribution of plankton of plankton in the Poyang lake national nature reserve,China[J].Acta Hydrobiologica Sinica,2014,38(1):158-165[张婷,马行厚,王桂苹,等.鄱阳湖国家级自然保护区浮游生物群落结构及空间分布.水生生物学报,2014,38(1):158-165]
[15]Hu Z P,Zhang Z F,Liu Y Z,et al.The function and significance of the Shallow-Lakes in the Poyang Lake wetland ecosystem[J].Jiangxi Hydraulic Science&Technology,2015,41(5):317-323[胡振鹏,张祖芳,刘以珍,等.碟形湖在鄱阳湖湿地生态系统的作用和意义.江西水利科技,2015,41(5):317-323]
[16]Qi S H,Liu Y,Yu X B,et al.Effect of“Lake Enclosed in Autumn”on the habitat of winter bird in Poyang Lake[J].Resources and Environment in the Yangtze Basin,2011,(s1):18-21[齐述华,刘影,于秀波,等.“堑秋湖”对鄱阳湖越冬候鸟栖息地功能影响的辨析.长江流域资源与环境,2011,(s1):18-21]
[17]Guo H C,Hu B H,Li Q.Effects of autumn fishery by Enclosing Plate-Shaped Lake on the winter migratory birds and conservation strategies in Nanji Wetland National Natural Reserve of the Poyang Lake,Jiangxi[J].Resources and Environment in the Yangtze Basin,2014,23(1):46-52[郭恢财,胡斌华,李琴.堑秋湖渔业模式对鄱阳湖南矶湿地越冬候鸟种群数量的影响和保育对策.长江流域资源与环境,2014,23(1):46-52]
[18]Xiong S,Ji W T,Wu X D,et al.Analysis of effect of temperature&water level on the number variation of the over-wintering anser species in Poyang Lake-a case study in Dahuchi Lake,Changhuchi Lake and Zhushihu Lake[J].Jiangxi Forestry Science and Technology,2011,(1):1-4[熊舒,纪伟涛,伍旭东,等.气温与水位对鄱阳湖越冬雁属鸟类数量变化影响分析--以大湖池、常湖池和朱市湖为例.江西林业科技,2011,(1):1-4]
[19]Research Group of Carcinology,Institute of Zoology,Academia Sinica.Fauna Sinica:Crustacea:Freshwater Copepoda[M].Beijing:Science Press.1979,301-418[中国科学院动物研究所甲壳动物研究组.中国动物志·节肢动物门·甲壳纲·淡水桡足类.北京:科学出版社.1979,301-418]
[20]Jiang X Z,Du N S.Fauna Sinica:Crustacea:Freshwater Cladocera[M].Beijing:Science Press.1979,80-271[蒋燮治,堵南山.中国动物志·节肢动物门·甲壳纲·淡水枝角类.北京:科学出版社.1979,80-271]
[21]Wang J J.Freshwater Rotifer Fauna in China[M].Beijing:Science Press.1961,69-254[王家楫.中国淡水轮虫志.北京:科学出版社.1961,69-254]
[22]Zhou F X,Chen J H.Atlas of Microbiology in Freshwater[M].Beijing:Chemical Industry Press.2005,303-359[周凤霞,陈剑虹.淡水微型生物图谱.北京:化学工业出版社.2005,303-359]
[23]Xie Q M,Li C C.Studies on composition and seasonal variations of planktonic copepod in Poyang Lake[J].Jiangxi Science,1998,(3):180-187[谢钦铭,李长春.鄱阳湖桡足类的群落组成与现存量季节变化的初步研究.江西科学,1998,(3):180-187]
[24]Leira M,Cantonati M.Effects of water-level fluctuations on lakes:an annotated bibliography[J].Hydrobiologia,2008,613(1):171-184
[25]Wantzen K M,Rothhaupt K O,M?rtl M,et al.Ecological effects of water-level fluctuations in lakes:an urgent issue[J].Hydrobiologia,2008,613(1):1-4
[26]Chen W M,Qin B Q,Xu Q J.Simulated experimental study on succession of zooplankton caused by water flow[J].Journal of Lake Science,2002,(1):43-51[陈伟民秦伯强,许秋瑾.模拟水动力对湖泊浮游动物群落演替的实验研究.海洋科学集刊,2002,(1):43-51]
[27]Rennella A M,Quirós R.The effects of hydrology on plankton biomass in shallow lakes of the Pampa Plain[J].Hydrobiologia,2006,556:181-191
[28]Baranyi C,Hein T,Holarek C,et al.Zooplankton biomass and community structure in a Danube River floodplain system:effects of hydrology[J].Freshwater Biology,2002,47:473-482
[29]Paidere.Influence of flooding frequency on zooplankton in the floodplains of the Daugava River(Latvia)[J].Acta Zoologica Lituanica,2009,19(4):306-313
[30]Chaparro G,Fontanarrosa M S,Cataldo D,et al.Hydrology driven factors might weaken fish predation effects on zooplankton structure in a vegetated warm temperate floodplain lake[J].Hydrobiologia,2015,752(1):187-202
[31]Zhang Z S,Huang X F.Methods for Study on Freshwater Plankton[M].Beijing:Science Press.1991,358-371[章宗涉,黄祥飞.淡水浮游生物研究方法.北京:科学出版社.1991,310-371]
[32]Meng Q,Deng D G.Advances in the production and hatching of resting eggs of cladoceran[J].Chinese Journal of Zoology,2008,43(3):154-160[孟琼,邓道贵.枝角类休眠卵形成和萌发的研究进展.动物学杂志,2008,43(3):154-160]
[33]Lu Z H,Yang J X.Effects of ecological factors on the hatching rate of resting eggs of Daphnia pulex(Crustacea:Cladocera)[J].Journal of Nanjing Normal University(Natural Science),2004,27(3):78-82[陆正和,杨家新.生态因子对蚤状溞休眠卵萌发率的影响.南京师大学报(自然科学版),2004,27(3):78-82]
[34]Wang Q,Luan L L,Chen L D,et al.Advances in copepod resting egg ecology in estuarine and coastal waters[J].Chinese Journal of Applied Ecology,2015,26(7):2213-2224[王庆,栾磊磊,陈亮东,等.河口近海桡足类休眠卵生态学研究进展.应用生态学报,2015,26(7):2213-2224]
[35]Chen L D.Preliminary study on ecology of zooplankton resting eggs in typical waters of Pearl River Estuary and the eastern Guangdong Coast[D].Jinan University,2014,5-26[陈亮东.珠江口和粤东近海典型水域浮游动物休眠卵生态学初步研究.暨南大学,2014,5-26]
[36]Wen Z M,Xu J R,Lin Q Q,et al.Rotifer species diversity and community structure in the pelagic zone of the Liuxihe Reservoir[J].Acta Ecologica Sinica,2017,37(4):1328-1338[温展明,徐健荣,林秋奇,等.流溪河水库敞水区轮虫多样性与群落的动态特征.生态学报,2017,37(4):1328-1338]
[37]Zhou Y.Effect of aquatic organisms on the diurnal variation of dissolved oxygen in water[D].Shenyang Normal University,2016,2-5[周莹.水生生物对水体溶解氧日变化规律影响.沈阳师范大学,2016,2-5]
[38]Zhou L B,Chen F Z.Effect of sediment resuspension on predation of planktivorous fish on zooplankton[J].Journal of Lake Sciences,2015,27(5):911-916[周礼斌,陈非洲.沉积物再悬浮对食浮游动物鱼类捕食浮游动物的影响.湖泊科学,2015,27(5):911-916]
[39]Zhang G G,Han B P.Effects of nutrient and tilapia(Oreochromis nilotica)on zooplankton community:an enclosure experiment[J].Guangdong Chemical Industry,2014,41(8):41-42[张贵刚,韩博平.营养盐和罗非鱼对水库浮游动物群落影响的围隔实验研究.广东化工,2014,41(8):41-42]
[40]Deng C.Effect of Nutrient enrichment and fish stocking on zooplankton communities[D].Jinan University.2011,30-35[邓琛.营养盐加富和鱼类补充对浮游动物群落的影响.暨南大学.2011,30-35]
[41]Lin Q Q.Species diversity and temporal variations of pelagic metazooplankton in Liuxihe Reservoir[D].Jinan University.2007,1-7[林秋奇.流溪河水库后生浮游动物多样性与群落结构的时空异质性.暨南大学.2007,1-7]
[42]Lu H B,Chen G J,Chen X L,et al.The long-term effects of bottom-up and top-down forcing on zooplankton:An example from sedimentary bosminid records of Lake Dianchi and Lake Fuxian[J].Journal of Lake Sciences,2015,(1):67-75[卢慧斌,陈光杰,陈小林,等.上行与下行效应对浮游动物的长期影响评价--以滇池与抚仙湖沉积物象鼻溞(Bosmina)为例.湖泊科学,2015,(1):67-75]
[43]Zeng Z G,Zhang X C,Liu G H,et al.Structure and features of fishery resources of Sub-Lakes in Poyang Lake,Jiangxi,China[J].Resources and Environment in the Yangtze Basin,2015,24(6):1021-1029[曾泽国,张笑辰,刘观华,等.鄱阳湖子湖“堑秋湖”渔业资源结构特征分析.长江流域资源与环境,2015,24(6):1021-1029]
[44]Chen B,Cui P,Liu G H,et al.Relationships between changing water levels and numbers of wintering tubereating birds in Poyang Lake National Nature Reserve[J].Journal of Lake Sciences,2014,26(2):243-252[陈冰,崔鹏,刘观华,等.鄱阳湖国家级自然保护区食块茎鸟类种群数量与水位的关系.湖泊科学,2014,26(2):243-252]