Tracking management-related water quality alterations by phytoplankton assemblages in a tropical reservoir

详细信息    查看全文

• 作者：Ren Hu ; Qiuhua Li ; Bo-Ping Han ; Luigi Naselli-Flores ; Judit Padisak…
• 关键词：Phytoplankton ; Morpho ; functional groups ; C鈥揝鈥揜 ; model ; Generalized additive modelling ; Ecological engineering ; Reservoir
• 刊名：Hydrobiologia
• 出版年：2016
• 出版时间：January 2016
• 年：2016
• 卷：763
• 期：1
• 页码：109-124
• 全文大小：809 KB
• 参考文献：Abonyi, A., M. Leit茫o, A. Lan莽on & J. Padis谩k, 2012. Phytoplankton functional groups as indicators of human impacts along the River Loire (France). Hydrobiologia 698: 233鈥?49.CrossRef
  Abonyi, A., M. Lait茫o, I. Stankovic, G. Borics, G. V谩rb铆r贸 & J. Padis谩k, 2014. A large river (River Loire, France) survey to compare phytoplankton functional approaches: do they display river zones in similar ways? Ecological Indicators 46: 11鈥?2.CrossRef
  American Public Health Association, 2012. Standard Methods for the Examination of Water and Wastewater, 22nd edn. American Water Works Association and Water Pollution Control Federation, Washington, DC, USA: 1360 pp.
  Anderson, D. M., P. M. Glibert & J. M. Burkholder, 2002. Harmful algal blooms and eutrophication: nutrient sources, composition, and consequences. Estuaries 25: 704鈥?26.CrossRef
  Antenucci, J. A., A. N. Ghadouani, M. I. Burford & J. O. Romero, 2005. The long-term effect of artificial destratification on phytoplankton species composition in a subtropical reservoir. Freshwater Biology 50: 1081鈥?093.CrossRef
  Bonnet, M. P. & M. Poulin, 2002. Numerical modelling of the planktonic succession in a nutrient-rich reservoir: environmental and physiological factors leading to Microcystis aeruginosa dominance. Ecological Modelling 156: 93鈥?12.CrossRef
  Brookes, J. D., R. H. Regel & G. G. Ganf, 2003. Changes in the photo-chemistry of Microcystis aeruginosa in response to light and mixing. New Phytologist 158: 151鈥?64.CrossRef
  Burger, D. F., D. P. Hamilton & C. A. Pilditch, 2008. Modelling the relative importance of internal and external nutrient loads on water column nutrient concentrations and phytoplankton biomass in a shallow polymictic lake. Ecological Modelling 211: 411鈥?23.CrossRef
  Cir茅s, S., L. Wormer, R. Agha & A. Quesada, 2013. Overwintering populations of Anabaena, Aphanizomenon and Microcystis as potential inocula for summer blooms. Journal of Plankton Research 35(6): 1254鈥?266.CrossRef
  Clarke, K. R. & R. H. Green, 1988. Statistical design and analysis for a 鈥渂iological effects鈥?study. Marine Ecology 鈥?Progress Series 46: 213鈥?26.CrossRef
  Cole, G. A., 1994. Textbook of Limnology. Waveland Press, Long Grove, IL: 421.
  De Senerpont Domis, L. N., J. J. Elser, A. S. Gsell, V. L. M. Huszar, B. W. Ibelings, E. Jeppesen, S. Kosten, W. M. Mooij, F. Roland, U. Sommer, E. Van Donk, M. Winder & M. L眉rling, 2013. Plankton dynamics under different climatic conditions in space and time. Freshwater Biology 58: 463鈥?82.CrossRef
  Downing, J. A., S. B. Watson & E. McCauley, 2001. Predicting cyanobacteria dominance in lakes. Canadian Journal of Fisheries and Aquatic Sciences 58: 1905鈥?908.CrossRef
  Fee, E. J., 1976. The vertical and seasonal distribution of chlorophyll in lakes of the Experimental Lakes Area, northwestern Ontario: implications for primary production estimates. Limnology and Oceanography 21(6): 767鈥?83.CrossRef
  Geider, R. J., 1987. Light and temperature dependence of the carbon to chlorophyll a ratio in microalgae and cyanobacteria: implications for physiology and growth of phytoplankton. New Phytologist 106(1): 1鈥?4.CrossRef
  George, D. G., J. F. Talling & E. Rigg, 2000. Factors influencing the temporal coherence of five lakes in the English Lake District. Freshwater Biology 43: 449鈥?61.CrossRef
  Goldyn, R., T. Joniak, K. Kowalczewska-Madura & A. Kozak, 2003. Trophic state of a lowland reservoir during 10 years after restoration. Hydrobiologia 506鈥?09: 759鈥?65.CrossRef
  Grime, J. P., 1977. Evidence for the existence of three primary strategies in plants and its relevance to ecological and evolutionary theory. American Naturalist 111: 1169鈥?194.CrossRef
  Gross, E. M., S. Hilt, P. Lombardo & G. Mulderij, 2007. Searching for allelopathic effects of submerged macrophytes on phytoplankton 鈥?state of the art and open questions. Hydrobiologia 584: 77鈥?8.CrossRef
  Guiry, M. D. & G. M. Guiry, 2013. AlgaeBase. World-wide Electronic Publication. National University of Ireland, Galway. http://鈥媤ww.鈥媋lgaebase.鈥媜rg ; searched on 20 November 2013.
  Gulati, R. D., L. M. Dionisio Pires & E. Van Donk, 2008. Lake restoration studies: failures, bottlenecks and prospects of new ecotechnological measures. Limnologica 鈥?Ecology and Management of Inland Waters 38: 233鈥?47.CrossRef
  Hajnal, 脡. & J. Padis谩k, 2008. Analysis of long-term ecological status of Lake Balaton based on the ALMOBAL phytoplankton database. Hydrobiologia 599: 227鈥?37.CrossRef
  Havens, K. E., E. J. Phlips, M. F. Cichra & B. L. Li, 1998. Light availability as a possible regulator of cyanobacteria species composition in a shallow subtropical lake. Freshwater Biology 39: 547鈥?56.CrossRef
  Hillebrand, H., C. D. D眉rselen, D. Kirschtel, U. Pollingher & T. Zohary, 1999. Biovolume calculation for pelagic and benthic microalgae. Journal of Phycology 35: 403鈥?24.CrossRef
  Hu, R., B. Han & L. Naselli-Flores, 2013. Comparing biological classifications of freshwater phytoplankton: a case study from South China. Hydrobiologia 701: 219鈥?33.CrossRef
  Huszar, V. L. M. & N. F. Caraco, 1998. The relationship between phytoplankton composition and physical鈥揷hemical variables: a comparison of taxonomic and morphological鈥揻unctional descriptors in six temperate lakes. Freshwater Biology 40: 679鈥?96.CrossRef
  Ibelings, B. W., R. Portielje, H. E. R. R. Lammens, R. Noordhuis, M. S. van den Berg, W. Joosse & M. L. Meijer, 2007. Resilience of alternative stable states during the recovery of shallow lakes from eutrophication: Lake Veluwe as a case study. Ecosystems 10: 4鈥?6.CrossRef
  Istv谩novics, V., A. Clement, L. Somly贸dy, A. Speczi谩r, L. G. T贸th & J. Padis谩k, 2007. Updating water quality targets for shallow Lake Balaton (Hungary), recovering from eutrophication. Hydrobiologia 581: 305鈥?18.CrossRef
  Izaguirre, I., L. Allende, R. Escaray, J. Bustingorry, G. P茅rez & G. Tell, 2012. Comparison of morpho-functional phytoplankton classifications in human-impacted shallow lakes with different stable states. Hydrobiologia 698: 203鈥?16.CrossRef
  James, R. T., K. O鈥橠ell & V. H. Smith, 1994. Water quality trends in Lake Tohopekaliga, Florida, USA: responses to watershed management. Journal of the American Water Resources Association 30: 531鈥?46.CrossRef
  Jeppesen, E., P. Kristensen, J. P. Jensen, M. S酶ndergaard, E. Mortensen & T. Lauridsen, 1991. Recovery resilience following a reduction in external phosphorus loading of shallow, eutrophic Danish lakes: duration, regulating factors and methods for overcoming resilience. Memorie dell鈥?Istituto Italiano di Idrobiologia 48: 127鈥?48.
  Jeppesen, E., M. S酶ndergaard, N. Mazzeo, M. Meerhoff, C. Branco, V. Huszar & F. Scasso, 2005a. Lake restoration and biomanipulation in temperate lakes: relevance for subtropical and tropical lakes. In Reddy, M. V. (ed.), Restoration and Management of Tropical Eutrophic Lakes. CRC Press, Boca Raton: 341鈥?59.
  Jeppesen, E., M. S酶ndergaard, J. P. Jensen, K. E. Havens, O. Anneville, L. Carvalho, M. F. Coveney, R. Deneke, M. T. Dokulil, B. Foy, D. Gerdeaux, S. E. Hampton, S. Hilt, K. Kangur, J. K枚hler, E. H. H. R. Lammens, T. L. Lauridsen, M. Manca, M. R. Miracle, B. Moss, P. N玫ges, G. Persson, G. Phillips, R. Portielje, S. Romo, C. L. Schelske, D. Straile, I. Tatrai, E. Will茅n & M. Winder, 2005b. Lake responses to reduced nutrient loading 鈥?an analysis of contemporary long-term data from 35 case studies. Freshwater Biology 50: 1747鈥?771.CrossRef
  Jugnia, L. B., D. Debroas, J. C. Romagoux & J. Devaux, 2004. Initial results of remediation activities to restore hypereutrophic Villerest Reservoir (Roanne, France). Lakes and Reservoirs: Research and Management 9: 109鈥?17.CrossRef
  Kosten, S., G. Lacerot, E. Jeppesen, D. Da Motta Marques, E. H. van Nes, N. Mazzeo & M. Scheffer, 2009. Effects of submerged vegetation on water clarity across climates. Ecosystems 12: 1117鈥?129.CrossRef
  Krienitz, L., 2009. Algae. In Likens, Gene. E. (ed.), Encyclopedia of Inland Waters, Vol. 1. Academic Press, Oxford: 103鈥?13.CrossRef
  Kruskal, J. B. & M. Wish, 1978. Multidimensional Scaling. Sage Publications, Beverly Hills and London: 93.
  Lewis, W. M., 2000. Basis for the protection and management of tropical lakes. Lakes and Reservoirs: Research and Management 5: 35鈥?8.CrossRef
  Li, Q. H., 2008. The Effects of Ecotechnological Engineering on Improving Water Quality and the Dynamical Characteristics of Phytoplankton in Dajingshan Reservoir [D]. PhD thesis. Jinan University, Guangzhou: 182 pp.
  Li, Q. H. & B. P. Han, 2007. Structure and dynamics of phytoplankton community based CCA analysis in a pumped storage reservoir. Acta Ecologia Sinica 27: 2355鈥?364.
  Lin, S. J., L. J. He, P. S. Huang & B. P. Han, 2005. Comparison and improvement on the extraction method for chlorophyll a in phytoplankton. Chinese Journal of Ecologic Science 24: 9鈥?1.
  Lin, Z. W., T. Yin, Z. Tan, B. P. Han, Y. C. Feng, B. X. Tan & X. M. Zheng, 2006. Sediment deposition and its trapping nitrogen and phosphorus in Dajingshan reservoir. Journal of Anhui Agricultural Sciences 34: 3441鈥?443.
  Lorenzen, C. J., 1967. Determination of chlorophyll and pheo-pigments: spectrophotometric equations. Limnology and Oceanography 12: 343鈥?46.CrossRef
  Meerhoff, M., J. M. Clemente, F. T. De Mello, C. Iglesias, A. R. Pedersen & E. Jeppesen, 2007. Can warm climate-related structure of littoral predator assemblies weaken the clear water state in shallow lakes? Global Change Biology 13: 1888鈥?897.CrossRef
  Melack, J. M., 1979. Temporal variability of phytoplankton in tropical lakes. Oecologia 44: 1鈥?.CrossRef
  Mihaljevi膰, M., D. 艩poljari膰, F. Stevi膰 & T. 沤una Pfeiffer, 2013. Assessment of flood-induced changes of phytoplankton along a river鈥揻loodplain system using the morpho-functional approach. Environmental Monitoring and Assessment 621: 1鈥?9.
  Moss, B., E. Jeppesen, M. S酶ndergaard, T. L. Lauridsen & Z. Liu, 2013. Nitrogen, macrophytes, shallow lakes and nutrient limitation: resolution of a current controversy? Hydrobiologia 710: 3鈥?1.CrossRef
  Naselli-Flores, L., 2003. Man-made lakes in Mediterranean semi-arid climate: the strange case of Dr Deep Lake and Mr Shallow Lake. Hydrobiologia 506鈥?09: 13鈥?1.CrossRef
  Naselli-Flores, L., 2014. Morphological analysis of phytoplankton as a tool to assess ecological state of aquatic ecosystems. The case of Lake Arancio, Sicily, Italy. Inland Waters 4: 15鈥?6.CrossRef
  Naselli-Flores, L. & R. Barone, 2007. Pluriannual morphological variability of phytoplankton in a highly productive Mediterranean reservoir (Lake Arancio, Southwestern Sicily). Hydrobiologia 578: 87鈥?5.CrossRef
  Naselli-Flores, L. & R. Barone, 2011. Invited review-fight on plankton! Or, phytoplankton shape and size as adaptive tools to get ahead in the struggle for life. Cryptogamie, Algologie 32: 157鈥?04.CrossRef
  Oksanen, J., F. G. Blanchet, R. Kindt, P. Legendre, P. R. Minchin, R. B. O鈥橦ara, G. L. Simpson, P. Solymos, M. H. H. Stevens & H. Wagner, 2013. Vegan: Community Ecology Package. R Package Version 2.0-10. http://鈥媍ran.鈥媟-project.鈥媜rg/鈥媤eb/鈥媝ackages/鈥媣egan/鈥?/span> .
  Padis谩k, J., J. K枚hler & S. Hoeg, 1999. Effect of changing flushing rates on development of late summer Aphanizomenon and Microcystis populations in a shallow lake, M眉ggelsee, Berlin, Germany. In Tundisi, J. G. & M. Straskraba (eds), Theoretical Reservoir Ecology. Backhuys Publishers, Leiden: 411鈥?24.
  Padis谩k, J., L. Crossetti & L. Naselli-Flores, 2009. Use and misuse in the application of the phytoplankton functional classification: a critical review with updates. Hydrobiologia 621: 1鈥?9.CrossRef
  Paerl, H. W., R. S. Fulton, P. H. Moisander & J. Dyble, 2001. Harmful freshwater algal blooms, with an emphasis on cyanobacteria. Scientific World Journal 1: 76鈥?13.CrossRef PubMed
  Paerl, H. W., N. S. Hall & E. S. Calandrino, 2011a. Controlling harmful cyanobacterial blooms in a world experiencing anthropogenic and climatic-induced change. Science of the Total Environment 409: 1739鈥?745.CrossRef PubMed
  Paerl, H. W., H. Xu, M. J. McCarthy, G. Zhu, B. Qin, Y. Li & W. S. Gardner, 2011b. Controlling harmful cyanobacterial blooms in a hyper-eutrophic lake (Lake Taihu, China): the need for a dual nutrient (N & P) management strategy. Water Research 45: 1973鈥?983.CrossRef PubMed
  Petar, 沤., G. U. Marija, K. B. Koraljka, P. An膽elka & J. Padis谩k, 2014. Morpho-functional classifications of phytoplankton assemblages of two deep karstic lakes. Hydrobiologia 740(1): 147鈥?66.CrossRef
  R Core Team, 2013. R: A Language and Environment for Statistical Computing. R Foundation for Statistical Computing, Vienna, Austria. http://鈥媤ww.鈥婻-project.鈥媜rg/鈥?/span> .
  Reddy, M. S. & N. Char, 2006. Management of lakes in India. Lakes & Reservoirs: Research & Management 11: 227鈥?37.CrossRef
  Reynolds, C. S., 1997. Vegetation Processes in the Pelagic: A Model for Ecosystem Theory. Ecology Institute, Oldendorf/Luhe: 371.
  Reynolds, C. S. 2006. The Ecology of Phytoplankton (Ecology, Biodiversity and Conservation). Cambridge University Press, Cambridge: 535 pp.
  Reynolds, C. S., R. L. Oliver & A. E. Walsby, 1987. Cyanobacterial dominance: the role of buoyancy regulation in dynamic lake environments. New Zealand Journal of Marine and Freshwater Research 21: 379鈥?90.CrossRef
  Reynolds, C. S., V. Huszar, C. Kruk, L. Naselli-Flores & S. Melo, 2002. Towards a functional classification of the freshwater phytoplankton. Journal of Plankton Research 24: 417鈥?28.CrossRef
  Rigosi, A. & F. J. Rueda, 2012. Hydraulic control of short-term successional changes in the phytoplankton assemblage in stratified reservoirs. Ecological Engineering 44: 216鈥?26.CrossRef
  Rodr铆guez Gallego, L. R., N. Mazzeo, J. Gorga, M. Meerhoff, J. Clemente, C. Kruk, F. Scasso, G. Lacerot, J. Garc铆a & F. Quintans, 2004. The effects of an artificial wetland dominated by free-floating plants on the restoration of a subtropical, hypertrophic lake. Lakes & Reservoirs: Research & Management 9: 203鈥?15.CrossRef
  Salmaso, N., 1996. Seasonal variation in the composition and rate of change of the phytoplankton community in a deep subalpine lake (Lake Garda, Northern Italy). An application of nonmetric multidimensional scaling and cluster analysis. Hydrobiologia 337: 49鈥?8.CrossRef
  Salmaso, N. & J. Padis谩k, 2007. Morpho-Functional Groups and phytoplankton development in two deep lakes (Lake Garda, Italy and Lake Stechlin, Germany). Hydrobiologia 578: 97鈥?12.CrossRef
  Salmaso, N. & A. Zignin, 2010. At the extreme of physical gradients: phytoplankton in highly flushed, large rivers. Hydrobiologia 639: 21鈥?6.CrossRef
  Segura, A. M., C. Kruk, D. Calliari & H. Fort, 2013. Use of a morphology-based functional approach to model phytoplankton community succession in a shallow subtropical lake. Freshwater Biology 58: 504鈥?12.CrossRef
  Smith, V. H. & D. W. Schindler, 2009. Eutrophication science: where do we go from here? Trends in Ecology & Evolution 24(4): 201鈥?07.CrossRef
  Sommer, U., R. Adrian, L. De Senerpont Domis, J. J. Elser, U. Gaedke, B. Ibelings, E. Jeppesen, M. L眉rling, J. C. Molinero, W. M. Mooij, E. van Donk & M. Winder, 2012. Beyond the Plankton Ecology Group (PEG) Model: mechanisms driving plankton succession. Annual Review of Ecology, Evolution, and Systematics 43: 429鈥?48.CrossRef
  Sukenik, A., R. Eshkol, A. Livne, O. Hadas, M. Rom, D. Tchernov, A. Vardi & K. Aaron, 2002. Inhibition of growth and photosynthesis of the dinoflagellate Peridinium gatunense by Microcystis sp. (Cyanobacteria): a novel allelopathic mechanism. Limnology and Oceanography 47: 1656鈥?663.CrossRef
  Tolotti, M., A. Boscaini & N. Salmaso, 2010. Comparative analysis of phytoplankton patterns in two modified lakes with contrasting hydrological features. Aquatic Sciences 鈥?Research Across Boundaries 72: 213鈥?26.CrossRef
  Verdonschot, P., B. M. Spears, C. K. Feld, S. Brucet, H. Keizer-Vlek, A. Borja, M. Elliott, M. Kernan & R. K. Johnson, 2013. A comparative review of recovery processes in rivers, lakes, estuarine and coastal waters. Hydrobiologia 704: 453鈥?74.CrossRef
  Verspagen, J. M. H., J. Passarge, K. D. J枚hnk, P. M. Visser, L. Peperzak, P. Boers, H. J. Laanbroek & J. Huisman, 2006. Water management strategies against toxic Microcystis blooms in the Dutch Delta. Ecological Applications 16: 313鈥?27.CrossRef PubMed
  Vollenweider, R. A. & J. Kerekes, 1982. Eutrophication of Waters: Monitoring, Assessment and Control. OECD Cooperative Programme on Monitoring of Inland Waters (Eutrophication Control). Environment Directorate, OECD, Paris: 154 pp.
  Xu, F., S. E. J酶rgensen, S. Tao & B. Li, 1999. Modeling the effects of ecological engineering on ecosystem health of a shallow eutrophic Chinese lake (Lake Chao). Ecological Modelling 117: 239鈥?60.CrossRef
  Zuur, A., E. N. Ieno, N. Walker, A. A. Saveliev & G. M. Smith, 2009. Mixed Effects Models and Extensions in Ecology with R. Springer, New York.CrossRef
  
• 作者单位：Ren Hu (1)
  Qiuhua Li (2)
  Bo-Ping Han (1)
  Luigi Naselli-Flores (3)
  Judit Padisak (4) (5)
  Nico Salmaso (6)
  
  1. Institute of Hydrobiology, Jinan University, Guangzhou, 510632, People鈥檚 Republic of China
  2. Key Laboratory for Information System of Mountainous Area and Protection of Ecological Environment of Guizhou Province, Guizhou Normal University, Guiyang, 550001, People鈥檚 Republic of China
  3. Department of Biological, Chemical and Pharmaceutical Sciences and Technologies, Section of Botany and Plant Ecology, University of Palermo, Via Archirafi 38, 90123, Palermo, Italy
  4. Department of Limnology, University of Pannonia, Egyetem u. 10, Veszpr茅m, 8200, Hungary
  5. MTA-PE Limnoecology Research Group, Egyetem u. 10, Veszpr茅m, 8200, Hungary
  6. Sustainable Agro-Ecosystems and Bioresources Department, IASMA Research and Innovation Centre, Fondazione E. Mach - Istituto Agrario di S. Michele all鈥橝dige, Via E. Mach 1, 38010, San Michele all鈥橝dige, Trento, Italy
  
• 刊物类别：Biomedical and Life Sciences
• 刊物主题：Life Sciences
  Hydrobiology
  Ecology
  
• 出版者：Springer Netherlands
• ISSN：1573-5117

文摘

Water quality improvement and suppression of cyanobacterial blooms were planned in a eutrophic reservoir in southern China through ecological engineering measures from 2006 to 2011. This consisted in (i) a hydraulic resetting of inflows and outflows to increase the distance between inlet and outlet and the water residence time in the reservoir, and in (ii) the installation of floating frames hosting wetland vegetation to promote an alteration in phytoplankton composition. The environmental changes were therefore followed through the analysis of biotic responses in phytoplankton assemblages. Ecological engineering was effective in reducing phytoplankton total biomass, in re-establishing more diversified phytoplankton assemblages and in avoiding cyanobacterial blooms. These changes may be considered as an improvement of the reservoir water quality. However, trophic state parameters and the dynamics of dominant species were not sensitive enough in describing the environmental changes that had occurred when the eco-engineering measures were implemented. These were more effectively tracked by the dynamics followed by phytoplankton Morpho-Functional-Groups and by their classification based on Competitors, Stress tolerants and Ruderals strategies. Although providing immediate positive effects, the eco-engineering was temporally limited, highlighting the importance of constant management in the context of long-term oriented remediation techniques. Keywords Phytoplankton Morpho-functional groups C鈥揝鈥揜-model Generalized additive modelling Ecological engineering Reservoir