Relationship between Periphyton Distribution and Water Quality of Gufu River of Three Gorges Reservoir Area

WANG Zi-Ye; GE Ji-Wen; LI Jian-Feng; CHENG La-Mei; WU Shu-Yuan; RAN Gui-Hua; MIAO Wen-Jie

doi:10.3724/SP.J.1142.2013.30219

Plant Science Journal > 2013 > 31(3): 219-227. > DOI: 10.3724/SP.J.1142.2013.30219 CSTR: 32231.14.SP.J.1142.2013.30219

WANG Zi-Ye, GE Ji-Wen, LI Jian-Feng, CHENG La-Mei, WU Shu-Yuan, RAN Gui-Hua, MIAO Wen-Jie. Relationship between Periphyton Distribution and Water Quality of Gufu River of Three Gorges Reservoir Area[J]. Plant Science Journal, 2013, 31(3): 219-227. DOI: 10.3724/SP.J.1142.2013.30219

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Relationship between Periphyton Distribution and Water Quality of Gufu River of Three Gorges Reservoir Area

1.
Hubei Key Laboratory of Wetland Evolution & Ecological Restoration, Institute of Ecology and Environmental Sciences, China University of Geosciences, Wuhan 430074, China
2. Tibet Hydropower Planning & Design Institute, Lhasa 850000, China
3. Wuhan Imagination Science and Technology Development Co., Ltd., Wuhan 430072, China

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Received Date: August 19, 2012
Revised Date: January 25, 2013
Published Date: June 29, 2013

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Abstract

Abstract

Periphyton and water samples were collected ten times from Gufu River in Xingshan County,Hubei Province,from December 2010 to December 2011.A total of twenty-eight genera were identified from the periphyton samples,and twelve water quality parameters were tested.Factor analysis was performed on the twelve water quality factors,with four major components,whose eigenvalues were greater than 1,selected.The first major component was accounted by TN and NO₃^--N,the second by pH and COD_Cr,the third by PO₄^3--P,TP and NH₄⁺-N,and the fourth by Cond and TOC.The relationships between the nine extracted dominant water quality parameters and the main genera of periphyton were analyzed by CCA.According to CCA ordination,the sequencing of the correlations between the main water quality parameters and periphyton distribution was:COD_Cr>pH>TN>NO₃^--N>TOC>TP>PO₄^3--P>Cond>NH₄⁺-N.Monte Carlo significance test showed that the distribution of the periphyton taxa was most influenced by COD_Cr and pH,and less by TN,NO₃^--N and TOC.Both pH and COD_Cr were strongly negatively correlated with each other.Most of the periphyton taxa in Gufu River were strongly correlated with COD_Cr,while only Chaetophora was fit for the low COD_Cr and slightly alkaline environment.TN and NO₃^--N were strongly correlated,but both of them were negatively correlated with TOC.These three factors roughly classified the periphyton into two ecological groups:one preferring nitrogen,and the other carbon.Though usually a limited nutrient factor for algae,TP was not a dominant influencer on the distribution of periphyton in Gufu River.
- Periphyton,
- Water quality factors,
- Canonical Correspondence Analysis (CCA),
- Gufu River,
- Three Gorges Reservoir Area

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References (40)

References

[1]	裴国凤.淡水湖泊底栖藻类的生态学研究[D].武汉:中国科学院水生生物研究所,2006.
[2]	吴乃成.应用底栖藻类群落评价小水电站对河流生态系统的影响——以香溪河为例[D].武汉:中国科学院水生生物研究所,2007.
[3]	Hauer F R,Lamberti G A.Methods in Stream Ecology[M].San Diego:Academic Press,1996:637-659.
[4]	Biggs B J F,Kilroy C.Stream Periphyton Monitoring Manual[M].Christchurch:NIWA,2000:1.
[5]	Hill B H,Herlihyb A T,Kaufmannc P R,et al. Assessment of streams of the eastern United States using a periphyton index of biotic integrity[J].Ecological Indicators,2003,2(4):325-338.
[6]	Hill B H,Willingham W T,Parrish L P,et al.Periphyton community responses to elevated metal concentrations in a Rocky Mountain stream[J].Hydrobiologia,2000,428(1):161-169.
[7]	唐涛.香溪河附石藻类特征及河流生态系统管理研究[D].武汉:中国科学院水生生物研究所,2003.
[8]	唐涛,黎道丰,潘文斌,等.香溪河河流连续统特征研究[J].应用生态学报,2004,15(1):141-144.
[9]	Euan D R,Terri M J,Ted R A,et al.Algal assemblages for large river monitoring comparison among biovolume,absolute and relative abundance metrics[J].Ecological Indicators,2010,10(2):167-177.
[10]	Karr J R,Chu E W.Sustaining living rivers[J].Hydrobiologia,2000,422/423:1-14.
[11]	Allan J D.Stream Ecology:Structure and function of running water[M].London:Chapman & Hall,1995:105-106.
[12]	Norris R H,Hawkins C P.Monitoring river health[J].Hydrobiologia,2000,435(1-3):5-17.
[13]	Fott B著.藻类学[M].罗迪安译.上海:上海科学出版社,1980.
[14]	中国科学院青藏高原综合科学考察队.西藏藻类[M].北京:科学出版社,1992.
[15]	胡鸿钧,魏印心.中国淡水藻类:系统、分类及生态[M].北京:科学出版社,2006.
[16]	李凤清,叶麟,刘瑞秋,等.香溪河流域水体环境因子研究[J].生态科学,2007,26(3):199-207.
[17]	王朝晖,胡韧,谷阳光,等.珠江广州河段着生藻类的群落结构及其与水质的关系[J].环境科学学报,2009,29(7):1510-1516.
[18]	孙春梅,范亚文.黑龙江黑河江段藻类植物群落与环境因子的典型对应分析[J].湖泊科学,2009,21(6):839-844.
[19]	雷欢,梁银铨,朱爱民,等.三峡库区童庄河浮游植物及其与水质的关系[J].湖泊科学,2010,22(2):195-200.
[20]	凌旌瑾,顾咏洁,许春梅,等.黄浦江和苏州河的着生藻类与水质因子关系的多元分析[J].环境科学研究,2008,21(5):184-189.
[21]	胡学军,江明喜.香溪河流域一条一级支流河岸林凋落物季节动态[J].武汉植物学研究,2003,21(2):124-128.
[22]	董芳芳,程凯,许敏,等.藻类对造纸废水中COD的去除效率研究[J].环境科学与技术,2010,33(1):172-175.
[23]	许海,刘兆普,袁兰,等.pH对几种淡水藻类生长的影响[J].环境科学与技术,2009,32(1):33-36.
[24]	刘春光,金相灿,孙凌,等.pH藻类生长和种类变化的影响[J].农业环境科学学报,2005,32(1):294-298.
[25]	游亮,崔莉凤,刘载文,等.藻类生长过程中DO、pH与叶绿素相关性分析[J].环境科学与技术,2007,143(9):48-50.
[26]	沈青.地表水中藻类代谢对pH和含氧量影响分析[J].环境科学与技术,2011,34(2):266-267.
[27]	苏玉,王东伟,文航,等.太子河流域本溪段水生生物的群落特征及其主要水质影响因子分析[J].生态环境学报,2010,19(8):1801-1808.
[28]	文航,蔡佳亮,苏玉,等.滇池流域入湖河流丰水期着生藻类群落特征及其与水环境因子的关系[J].湖泊科学,2011,23(1):40-48.
[29]	殷旭旺,张远,渠晓东,等.浑河水系着生藻类的群落结构与生物完整性[J].应用生态学报,2011,22(10):2732-2740.
[30]	吴乃成,唐涛,黎道丰,等.雅砻江(锦屏段)及其主要支流底栖藻类群落与环境因子的关系[J].生态学报,2009,29(4):1697-1703.
[31]	Houser Jeffrey N,Richardson William B.Nitrogen and phosphorus in the Upper Mississippi River:transport,processing,and effects on the river ecosystem[J].Hydrobiologia,2010,640(1):71-88.
[32]	Ponader K C,Charles D F,Belton T J.Diatom-based TP and TN inference models and indices for monitoring nutrient enrichment of New Jersey streams[J].Ecological Indicators,2007,7(1):79-93.
[33]	Winter J G,Duthie H.Epilithic diatoms as indicators of stream total N and total P concentration[J].J N Am Benthol Soc, 2000,19(1):32-49.
[34]	Guasch H,Ivorra N,Lehmann V,et al.Community composition and sensitivity of periphyton to atrazine in flowing waters:the role of environmental factors[J]. J Appl Phycol,1998,10(2):203-213.
[35]	Watanabe T,Asai K,Houki A,Tannaka S,et al.Saprophilous and eurysaprobic diatom taxa to organic water pollution and diatom assemblage index (DAIpo)[J].Diatom,1986,2:23-73.
[36]	Pei G F,Liu G X.Distribution patterns of benthic diatoms during summer in the Niyang River,Tibet,China[J].Chin J Oceanol Limnol,2011,29(6):1192-1198.
[37]	Wu N C,Tang T,Qu X D,et al.Spatial distribution of benthic algae in the Gangqu River,Shangrila,China[J].Aquat Ecol,2009,43(1):37-49.
[38]	Leland H V,Porter S D.Distribution of benthic algae in the upper[CX2]I[CX]llionis River basin in relation to geology and land use[J].Freshwater Biol,2000,44(2):279-301.
[39]	Molloy J M.Diatom communities along stream longitudinal gradients[J]. Freshwater Biol,1992,28(1):59-69.
[40]	Kiffney P M,Bull J P.Factors controlling periphyton accrual during summer in headwater streams of southwestern British Columbia,Canada[J].J Freshwater Ecol,2000,15(3):339-351.

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