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《Quantifying the ecological niche overlap between two interacting invasive species: the zebra mussel Dreissena polymorpha and the quagga mussel Dreissena rostriformis bugensis - Quinn - 2013 - Aquatic Conservation: Marine and Freshwater Ecosystems - Wiley Online Library》

  • 来源专题:水体污染与防治领域信息门户
  • 编译者: 徐慧芳
  • 发布时间:2013-11-19
  • REFERENCES. American Association of Port Authorities .2012. http://www.aapa-ports.org [10 March 2012]. Antonov PI , GL Shkorbatov . 1990 . Ecological锟紺physiological characteristics of Dreissena of the lower reaches of the Dnieper River . In Vid i yego areale. Biologiya, ekologiya i produktivnost' vodnykh bespozvonochnykh (Species in its distribution range. Biology, ecology and production of aquatic invertebrates) . Minsk; 126 锟紺130 (in Russian).. Ara锟斤拷jo MB , Guisan A . 2006 . Five (or so) challenges for species distribution modelling . Journal of Biogeography 33 : 1677 锟紺1688 .Direct Link: Abstract. Full Article (HTML). PDF(139K). References. Web of Science? Times Cited: 383. Baker P , Baker S , Mann R . 1993 . Criteria for predicting zebra mussel invasions in the mid-Atlantic region. Virginia Sea Grant Marine Resource Advisory , Gloucester Point, Virginia .. Broennimann O , Guisan A . 2008 . Predicting current and future biological invasions: both native and invaded ranges matter . Biology Letters 4 : 585 锟紺589 .CrossRef,. PubMed,. Web of Science? Times Cited: 93. Broennimann O , Treier UA , M锟斤拷ller-Sch?rer H , Thuiller W , Peterson AT , Guisan A . 2007 . Evidence of climatic niche shift during biological invasion . Ecology Letters 10 : 701 锟紺709 .Direct Link: Abstract. Full Article (HTML). PDF(813K). References. Web of Science? Times Cited: 255. Carlton JT . 2008 . The zebra mussel Dreissena polymorpha found in North America in 1986 and 1987 . Journal of Great Lakes Research 34 : 770 锟紺773 .Web of Science? Times Cited: 17. Center for International Earth Science Information Network (CIESIN) .2005. Gridded Population of the World version 3 . http://sedac.ciesin.columbia.edu/gpw/ [10 March 2012]. Commission for the Geological Map of the world (CCGM-CCMW) .2010. http://ccgm.free.fr/ [10 March 2012]. Cornell University .2005. LSC Environmental Impact Statement . http://energyandsustainability.fs.cornell.edu/util/cooling/production/lsc/eis/default.cfm [3 January 2013]. Drake JM , Bossenbroek JM . 2004 . The potential distribution of zebra mussels ( Dreissena polymorpha ) in the United States . BioScience 54 : 931 锟紺941 .CrossRef,. Web of Science? Times Cited: 80. Elith J , Graham CH , Anderson RP , Dudik M , Ferrier S , Guisan A , Hijmans RJ , Huettmann F , Leathwick JR , Lehmann A , et al. 2006 . Novel methods improve prediction of species' distributions from occurrence data . Ecography 29 : 129 锟紺151 .Direct Link: Abstract. Full Article (HTML). PDF(685K). References. Web of Science? Times Cited: 1686. Gallardo B , Aldridge DC . 2013a . Evaluating the combined threat of climate change and biological invasions on endangered species . Biological Conservation 160 : 225 锟紺233 .CrossRef,. Web of Science? Times Cited: 1. Gallardo B , Aldridge DC . 2013b . Priority setting for invasive species management: integrated risk assessment of multiple Ponto Caspian invasive species into Great Britain . Ecological Applications 23 : 352 锟紺364 .CrossRef. Gallardo B , Aldridge DC . 2013c . The 锟斤拷dirty dozen锟斤拷: socio-economic factors amplify the invasion potential of 12 high risk aquatic invasive species in Great Britain and Ireland . Journal of Applied Ecology 50 : 757 锟紺766 .Direct Link: Abstract. Full Article (HTML). PDF(689K). References. Web of Science?. Gallardo B , Espa?ol C . 2011 . The zebra mussel ( Dreissena polymorpha , Pallas 1971) in La Rioja (NE Spain): current situation and potential evolution . Zubia 23 : 201 锟紺220 .. Gallardo B , Ermgassen PSE , Aldridge DC . 2013 . Invasion ratcheting in the zebra mussel ( Dreissena polymorpha ) and the ability of native and invaded ranges to predict its global distribution . Journal of Biogeography doi:10.1111/jbi.12170.Direct Link: Abstract. Full Article (HTML). PDF(500K). References. Geochemical Atlas of Europe .2012. http://www.gtk.fi/publ/foregsatlas/ [10 March 2012]. GBIF (Global Biodiversity Information Facility) . http://data.gbif.org [10 March 2012]. Global Water System Project: Reservoirs .2012. http://www.gwsp.org [10 March 2012]. Griebeler EM , Seitz A . 2007 . Effects of increasing temperatures on population dynamics of the zebra mussel Dreissena polymorpha : implications from an individual based model . Oecologia 151 : 530 锟紺543 .CrossRef,. PubMed,. Web of Science? Times Cited: 8. Hijmans RJ , Cameron SE , Parra JL , Jones PG , Jarvis A . 2005 . Very high resolution interpolated climate surfaces for global land areas . International Journal of Climatology 25 : 1965 锟紺1978 .Direct Link: Abstract. PDF(2285K). References. Web of Science? Times Cited: 2368. Hirzel AH , Hausser J , Chessel D , Perrin N . 2002 . Ecological-niche factor analysis: how to compute habitat-suitability maps without absence data? Ecology 83 : 2027 锟紺2036 .CrossRef,. Web of Science? Times Cited: 435. Hulme PE . 2009 . Trade, transport and trouble: managing invasive species pathways in an era of globalization . Journal of Applied Ecology 46 : 10 锟紺18 .Direct Link: Abstract. Full Article (HTML). PDF(400K). References. Web of Science? Times Cited: 158. Jim锟斤拷nez-Valverde A , Lobo JM . 2007 . Threshold criteria for conversion of probability of species presence to either锟紺or presence锟紺absence . Acta Oecologica 31 : 361 锟紺369 .CrossRef,. Web of Science? Times Cited: 147,. ADS. Karatayev AY , Burlakova LE , Padilla DK . 1998 . Physical factors that limit the distribution and abundance of Dreissena polymorpha (Pall.) . Journal of Shellfish Research 17 :1219 锟紺1235 .Web of Science? Times Cited: 62. Koutnik MA , Padilla DK . 1994 . Predicting the spatial distribution of Dreissena polymorpha (zebra mussel) among inland lakes of Wisconsin: modeling with GIS . Canadian Journal of Fisheries and Aquatic Sciences 51 : 1189 锟紺1198 .CrossRef,. Web of Science? Times Cited: 22. Maxent version 3.3.3k . http://www.cs.princeton.edu/~schapire/maxent. McCabe DJ , Beekey MA , Mazloff A , Marsden JE . 2006 . Negative effect of zebra mussels on foraging and habitat use by lake sturgeon ( Acipenser fulvescens ) . Aquatic Conservation: Marine and Freshwater Ecosystems 16 : 493 锟紺500 .Direct Link: Abstract. PDF(197K). References. Web of Science? Times Cited: 6. Mills EL , Rosenberg G , Spidle AP , Ludyanskiy M , Pligin Y , May B . 1996 . A review of the biology and ecology of the quagga mussel ( Dreissena bugensis ), a second species of freshwater dreissenid introduced to North America . American Zoologist 36 : 271 锟紺286 .Web of Science? Times Cited: 86. Mills EL , Chrisman JR , Baldwin B , Owens RW , O'Gorman R , Howell T , Roseman EF , Raths MK . 1999 . Changes in the dreissenid community in the lower Great Lakes with emphasis on southern Lake Ontario . Journal of Great Lakes Research 25 : 187 锟紺197 .CrossRef. Molloy DP , de Vaate AB , Wilke T , Giamberini L . 2007 . Discovery of Dreissena rostriformis bugensis (Andrusov 1897) in Western Europe . Biological Invasions 9 : 871 锟紺874 .CrossRef,. Web of Science? Times Cited: 13. Montgomery D , Wells S . 2010 . Pest risk assessment for zebra and quagga mussels in Oregon . Oregon Invasive Species Council, Salem, Oregon.. Morse JT . 2009 . Thermal tolerance, physiologic condition, and population genetics of dreissenid mussels ( Dreissena polymorpha and D . rostriformis bugensis ) relative to their invasion of waters in the western United States . PhD thesis, University of Texas at Arlington, USA.. Nalepa TF , Fanslow DL , Lang GA . 2009 . Transformation of the offshore benthic community in Lake Michigan: recent shift from the native amphipod Diporeia spp. to the invasive mussel Dreissena rostriformis bugensis . Freshwater Biology 54 : 466 锟紺479 .Direct Link: Abstract. Full Article (HTML). PDF(439K). References. Web of Science? Times Cited: 76. Nalepa TF , Fanslow DL , Pothoven SA . 2010 . Recent changes in density, biomass, recruitment, size structure, and nutritional state of Dreissena populations in southern Lake Michigan . Journal of Great Lakes Research 36 : 5 锟紺19 .CrossRef,. CAS,. Web of Science? Times Cited: 21. Nickus U , Bishop K , Erlandsson M , Evans CD , Forsius M , Laudon H , Livingstone DM , Monteith D , Thies H . 2010 . Direct impacts of climate change on freshwater ecosystems . In Climate Change Impacts on Freshwater Ecosystems , Kernan M , Battarbee RW , Moss B (eds). Blackwell: Oxford ; 38 锟紺64 .CrossRef. Oreska M , Aldridge DC . 2011 . Estimating the financial costs of freshwater invasive species in Great Britain: a standardized approach to invasive species costing . Biological Invasions 13 : 305 锟紺319 .CrossRef,. Web of Science? Times Cited: 9. Orlova MI , Muirhead JR , Antonov PI , Shcherbina GK , Starobogatov YI , Biochino GI , Therriault TW , MacIsaac HJ . 2005a . Range expansion of quagga mussels Dreissena rostriformis bugensis in the Volga River and Caspian Sea basin . Aquatic Ecology 38 : 561 锟紺573 .CrossRef. Orlova MI , Therriault TW , Antonov PI , Shcherbina GK . 2005b . Invasion ecology of quagga mussels ( Dreissena rostriformis bugensis ) a review of evolutionary and phylogenetic impacts . Aquatic Ecology 39 : 401 锟紺418 .CrossRef,. CAS,. Web of Science? Times Cited: 16. Peyer SM , McCarthy AJ , Lee CE . 2009 . Zebra mussels anchor byssal threads faster and tighter than quagga mussels in flow . Journal of Experimental Biology 212 : 2027 锟紺2036 .CrossRef,. PubMed,. Web of Science? Times Cited: 11. Phillips SJ , Dudik M , Schapire RE . 2004 . A maximum entropy approach to species distribution modeling . In Proceedings of the 21st International Conference on Machine Learning . ACM Press: New York ; 655 锟紺662 .Web of Science?. Phillips SJ , Dudik M , Elith J , Graham CH , Lehmann A , Leathwick J , Ferrier S . 2009 . Sample selection bias and presence-only distribution models: implications for background and pseudo-absence data . Ecological Applications 19 : 181 锟紺197 .CrossRef,. PubMed,. Web of Science? Times Cited: 210. Py?ek P , Jaro?锟斤拷k V , Hulme PE , K锟斤拷hn I , Wild J , Arianoutsou M , Bacher S , Chiron F , Did?iulis V , Essl F , et al. 2010 . Disentangling the role of environmental and human pressures on biological invasions across Europe . Proceedings of the National Academy of Sciences 107 : 12157 锟紺12162 .CrossRef,. Web of Science? Times Cited: 74,. ADS. R version 2.15.0 . http://cran.r-project.org/bin/windows/base/old/2.15.0/. Rajagopal S , Pollux BA , Peters JL , Cremers G , Moon-van der Staay SY , Van Allen T , Eygensteyn J , Van Hoek A , Palau A , bij de Vaat A . 2009 . Origin of Spanish invasion by the zebra mussel, Dreissena polymorpha (Pallas, 1771) revealed by amplified fragment length polymorphism (AFLP) fingerprinting . Biological Invasions 11 : 2147 锟紺2159 .CrossRef,. Web of Science? Times Cited: 6. Ramcharan CW , Padilla DK , Dodson SI . 1992 . Models to predict potential occurrence and density of the zebra mussel, Dreissena polymorpha . Canadian Journal of Fisheries and Aquatic Sciences 49 : 2611 锟紺2620 .CrossRef,. Web of Science? Times Cited: 97. Ricciardi A , Serrouya R , Whoriskey FG . 1995 . Aerial exposure tolerance of zebra and quagga mussels (Bivalvia: Dreissenidae): implications for overland dispersal . Canadian Journal of Fisheries and Aquatic Sciences 52 : 470 锟紺477 .CrossRef,. Web of Science? Times Cited: 44. Ricciardi AR , Neves J , Rasmussen JB . 1998 . Impending extinctions of North American freshwater mussels (Unionoida) following the zebra mussel ( Dreissena polymorpha ) invasion . Journal of Animal Ecology 67 : 613 锟紺619 .Direct Link: Abstract. PDF(228K). Web of Science? Times Cited: 159. Ricciardi A , Whoriskey FG . 2004 . Exotic species replacement: shifting dominance of dreissenid mussels in the Soulanges Canal, upper St. Lawrence River, Canada . Journal of the North American Benthological Society 23 : 507 锟紺514 .CrossRef,. Web of Science? Times Cited: 19. Shevtsova LV . 1968 . Spawning and development of Dreissena in the canal Dnieper-Krivoi Rog . Yidzobiol. Zhurual 4 : 70 锟紺72 (In Russian).. Soberon J , Peterson AT . 2005 . Interpretation of models of fundamental ecological niches and species' distribution areas . Biodiversity Informatics 2 : 1 锟紺10 .. Spidle AP , Mills EL , May B . 1995 . Limits to tolerance of temperature and salinity in the quagga mussel ( Dreissena bugensis ) and the zebra mussel ( Dreissena polymorpha ) . Canadian Journal of Fisheries and Aquatic Sciences 52 : 2108 锟紺2119 .CrossRef,. Web of Science? Times Cited: 31. Stefan HG , Preud'homme EB . 1993 . Stream temperature estimation from air temperature . Journal of the American Water Resources Association 29 : 27 锟紺45 .Direct Link: Abstract. PDF(309K). References. Strayer DL . 1991 . Projected distribution of the zebra mussel, Dreissena polymorpha , in North America . Canadian Journal of Fisheries and Aquatic Sciences 48 : 1389 锟紺1395 .CrossRef,. Web of Science? Times Cited: 115. Theissinger K , B锟斤拷lint M , Haase P , Johannesen J , Laube I , Pauls SU . 2011 . Molecular data and species distribution models reveal the Pleistocene history of the mayfly Ameletus inopinatus (Ephemeroptera: Siphlonuridae) . Freshwater Biology 56 : 2554 锟紺2566 .Direct Link: Abstract. Full Article (HTML). PDF(575K). References. Web of Science? Times Cited: 5. Thorp JH , Alexander JE , Cobbs GA . 2002 . Coping with warmer, large rivers: a field experiment on potential range expansion of northern quagga mussels ( Dreissena bugensis ) . Freshwater Biology 47 : 1779 锟紺1790 .Direct Link: Abstract. Full Article (HTML). PDF(270K). References. Web of Science? Times Cited: 12. US Army Corps of Engineers - Environmental Laboratory .2002. Economic Impacts of Zebra Mussel Infestation . http://el.erdc.usace.army.mil/zebra/zmis/zmishelp/economic_impacts_of_zebra_mussel_infestation.htm [30 July 2012]. USGS United States Geological Survey . http://www.usgs.gov [10 March2012]. Van der Velde G , Rajagopal S , Bij de Vaate A . 2010 . From zebra mussels to quagga mussels: an introduction to the Dreissenidae . In The Zebra Mussel in Europe , Van Der Velde G , Rajagopal S , Bij De Vaate A (eds). Backhuys Publishers: Leiden ; 1 锟紺10 .. Whittier TR , Ringold PL , Herlihy AT , Pearson SM . 2008 . A calcium-based invasion risk assessment for zebra and quagga mussels ( Dreissena spp) . Frontiers in Ecology and the Environment 6 : 180 锟紺184 .CrossRef,. Web of Science? Times Cited: 29. Wildlife Conservation Society (WCS) and Center for International Earth Science Information Network (CIESIN) .2005. Last of the Wild Dataset Version 2 (LWP-2): Global Human Influence Index (HII) . http://sedac.ciesin.org/wildareas [10 March 2012]. Wilson AB , Naish KA , Boulding EG . 1999 . Multiple dispersal strategies of the invasive quagga mussel ( Dreissena bugensis ) as revealed by microsatellite analysis . Canadian Journal of Fisheries and Aquatic Sciences 56 : 2248 锟紺2261 .CrossRef. Wimbush J , Frischer ME , Zarzynski JW , Nierzwicki-Bauer SA . 2009 . Eradication of colonizing populations of zebra mussels ( Dreissena polymorpha ) by early detection and SCUBA removal: Lake George, NY . Aquatic Conservation: Marine and Freshwater Ecosystems 19 : 703 锟紺713 .Direct Link: Abstract. PDF(298K). References. Wong WH , Gerstenberger SL . 2011 . Quagga mussels in the western United States: monitoring and management . Aquatic Invasions 6 : 125 锟紺129 .CrossRef,. Web of Science? Times Cited: 5. WorldClim 锟紺 Global Climate Data .2005. http://www.worldclim.org [10 March 2012].
  • 原文来源:http://onlinelibrary.wiley.com/doi/10.1002/aqc.2414/references
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  • 《Quantifying the ecological niche overlap between two interacting invasive species: the zebra mussel Dreissena polymorpha and the quagga mussel Dreissena rostriformis bugensis - Quinn - 2013 - Aquatic Conservation: Marine and Freshwater Ecosystems - Wiley Online Library》
    • 来源专题:水体污染与防治领域信息门户
    • 编译者:徐慧芳
    • 发布时间:2013-11-19
    • REFERENCES. American Association of Port Authorities .2012. http://www.aapa-ports.org [10 March 2012]. Antonov PI , GL Shkorbatov . 1990 . Ecological锟紺physiological characteristics of Dreissena of the lower reaches of the Dnieper River . In Vid i yego areale. Biologiya, ekologiya i produktivnost' vodnykh bespozvonochnykh (Species in its distribution range. Biology, ecology and production of aquatic invertebrates) . Minsk; 126 锟紺130 (in Russian).. Ara锟斤拷jo MB , Guisan A . 2006 . Five (or so) challenges for species distribution modelling . Journal of Biogeography 33 : 1677 锟紺1688 .Direct Link: Abstract. Full Article (HTML). PDF(139K). References. Web of Science? Times Cited: 383. Baker P , Baker S , Mann R . 1993 . Criteria for predicting zebra mussel invasions in the mid-Atlantic region. Virginia Sea Grant Marine Resource Advisory , Gloucester Point, Virginia .. Broennimann O , Guisan A . 2008 . Predicting current and future biological invasions: both native and invaded ranges matter . Biology Letters 4 : 585 锟紺589 .CrossRef,. PubMed,. Web of Science? Times Cited: 93. Broennimann O , Treier UA , M锟斤拷ller-Sch?rer H , Thuiller W , Peterson AT , Guisan A . 2007 . Evidence of climatic niche shift during biological invasion . Ecology Letters 10 : 701 锟紺709 .Direct Link: Abstract. Full Article (HTML). PDF(813K). References. Web of Science? Times Cited: 255. Carlton JT . 2008 . The zebra mussel Dreissena polymorpha found in North America in 1986 and 1987 . Journal of Great Lakes Research 34 : 770 锟紺773 .Web of Science? Times Cited: 17. Center for International Earth Science Information Network (CIESIN) .2005. Gridded Population of the World version 3 . http://sedac.ciesin.columbia.edu/gpw/ [10 March 2012]. Commission for the Geological Map of the world (CCGM-CCMW) .2010. http://ccgm.free.fr/ [10 March 2012]. Cornell University .2005. LSC Environmental Impact Statement . http://energyandsustainability.fs.cornell.edu/util/cooling/production/lsc/eis/default.cfm [3 January 2013]. Drake JM , Bossenbroek JM . 2004 . The potential distribution of zebra mussels ( Dreissena polymorpha ) in the United States . BioScience 54 : 931 锟紺941 .CrossRef,. Web of Science? Times Cited: 80. Elith J , Graham CH , Anderson RP , Dudik M , Ferrier S , Guisan A , Hijmans RJ , Huettmann F , Leathwick JR , Lehmann A , et al. 2006 . Novel methods improve prediction of species' distributions from occurrence data . Ecography 29 : 129 锟紺151 .Direct Link: Abstract. Full Article (HTML). PDF(685K). References. Web of Science? Times Cited: 1686. Gallardo B , Aldridge DC . 2013a . Evaluating the combined threat of climate change and biological invasions on endangered species . Biological Conservation 160 : 225 锟紺233 .CrossRef,. Web of Science? Times Cited: 1. Gallardo B , Aldridge DC . 2013b . Priority setting for invasive species management: integrated risk assessment of multiple Ponto Caspian invasive species into Great Britain . Ecological Applications 23 : 352 锟紺364 .CrossRef. Gallardo B , Aldridge DC . 2013c . The 锟斤拷dirty dozen锟斤拷: socio-economic factors amplify the invasion potential of 12 high risk aquatic invasive species in Great Britain and Ireland . Journal of Applied Ecology 50 : 757 锟紺766 .Direct Link: Abstract. Full Article (HTML). PDF(689K). References. Web of Science?. Gallardo B , Espa?ol C . 2011 . The zebra mussel ( Dreissena polymorpha , Pallas 1971) in La Rioja (NE Spain): current situation and potential evolution . Zubia 23 : 201 锟紺220 .. Gallardo B , Ermgassen PSE , Aldridge DC . 2013 . Invasion ratcheting in the zebra mussel ( Dreissena polymorpha ) and the ability of native and invaded ranges to predict its global distribution . Journal of Biogeography doi:10.1111/jbi.12170.Direct Link: Abstract. Full Article (HTML). PDF(500K). References. Geochemical Atlas of Europe .2012. http://www.gtk.fi/publ/foregsatlas/ [10 March 2012]. GBIF (Global Biodiversity Information Facility) . http://data.gbif.org [10 March 2012]. Global Water System Project: Reservoirs .2012. http://www.gwsp.org [10 March 2012]. Griebeler EM , Seitz A . 2007 . Effects of increasing temperatures on population dynamics of the zebra mussel Dreissena polymorpha : implications from an individual based model . Oecologia 151 : 530 锟紺543 .CrossRef,. PubMed,. Web of Science? Times Cited: 8. Hijmans RJ , Cameron SE , Parra JL , Jones PG , Jarvis A . 2005 . Very high resolution interpolated climate surfaces for global land areas . International Journal of Climatology 25 : 1965 锟紺1978 .Direct Link: Abstract. PDF(2285K). References. Web of Science? Times Cited: 2368. Hirzel AH , Hausser J , Chessel D , Perrin N . 2002 . Ecological-niche factor analysis: how to compute habitat-suitability maps without absence data? Ecology 83 : 2027 锟紺2036 .CrossRef,. Web of Science? Times Cited: 435. Hulme PE . 2009 . Trade, transport and trouble: managing invasive species pathways in an era of globalization . Journal of Applied Ecology 46 : 10 锟紺18 .Direct Link: Abstract. Full Article (HTML). PDF(400K). References. Web of Science? Times Cited: 158. Jim锟斤拷nez-Valverde A , Lobo JM . 2007 . Threshold criteria for conversion of probability of species presence to either锟紺or presence锟紺absence . Acta Oecologica 31 : 361 锟紺369 .CrossRef,. Web of Science? Times Cited: 147,. ADS. Karatayev AY , Burlakova LE , Padilla DK . 1998 . Physical factors that limit the distribution and abundance of Dreissena polymorpha (Pall.) . Journal of Shellfish Research 17 :1219 锟紺1235 .Web of Science? Times Cited: 62. Koutnik MA , Padilla DK . 1994 . Predicting the spatial distribution of Dreissena polymorpha (zebra mussel) among inland lakes of Wisconsin: modeling with GIS . Canadian Journal of Fisheries and Aquatic Sciences 51 : 1189 锟紺1198 .CrossRef,. Web of Science? Times Cited: 22. Maxent version 3.3.3k . http://www.cs.princeton.edu/~schapire/maxent. McCabe DJ , Beekey MA , Mazloff A , Marsden JE . 2006 . Negative effect of zebra mussels on foraging and habitat use by lake sturgeon ( Acipenser fulvescens ) . Aquatic Conservation: Marine and Freshwater Ecosystems 16 : 493 锟紺500 .Direct Link: Abstract. PDF(197K). References. Web of Science? Times Cited: 6. Mills EL , Rosenberg G , Spidle AP , Ludyanskiy M , Pligin Y , May B . 1996 . A review of the biology and ecology of the quagga mussel ( Dreissena bugensis ), a second species of freshwater dreissenid introduced to North America . American Zoologist 36 : 271 锟紺286 .Web of Science? Times Cited: 86. Mills EL , Chrisman JR , Baldwin B , Owens RW , O'Gorman R , Howell T , Roseman EF , Raths MK . 1999 . Changes in the dreissenid community in the lower Great Lakes with emphasis on southern Lake Ontario . Journal of Great Lakes Research 25 : 187 锟紺197 .CrossRef. Molloy DP , de Vaate AB , Wilke T , Giamberini L . 2007 . Discovery of Dreissena rostriformis bugensis (Andrusov 1897) in Western Europe . Biological Invasions 9 : 871 锟紺874 .CrossRef,. Web of Science? Times Cited: 13. Montgomery D , Wells S . 2010 . Pest risk assessment for zebra and quagga mussels in Oregon . Oregon Invasive Species Council, Salem, Oregon.. Morse JT . 2009 . Thermal tolerance, physiologic condition, and population genetics of dreissenid mussels ( Dreissena polymorpha and D . rostriformis bugensis ) relative to their invasion of waters in the western United States . PhD thesis, University of Texas at Arlington, USA.. Nalepa TF , Fanslow DL , Lang GA . 2009 . Transformation of the offshore benthic community in Lake Michigan: recent shift from the native amphipod Diporeia spp. to the invasive mussel Dreissena rostriformis bugensis . Freshwater Biology 54 : 466 锟紺479 .Direct Link: Abstract. Full Article (HTML). PDF(439K). References. Web of Science? Times Cited: 76. Nalepa TF , Fanslow DL , Pothoven SA . 2010 . Recent changes in density, biomass, recruitment, size structure, and nutritional state of Dreissena populations in southern Lake Michigan . Journal of Great Lakes Research 36 : 5 锟紺19 .CrossRef,. CAS,. Web of Science? Times Cited: 21. Nickus U , Bishop K , Erlandsson M , Evans CD , Forsius M , Laudon H , Livingstone DM , Monteith D , Thies H . 2010 . Direct impacts of climate change on freshwater ecosystems . In Climate Change Impacts on Freshwater Ecosystems , Kernan M , Battarbee RW , Moss B (eds). Blackwell: Oxford ; 38 锟紺64 .CrossRef. Oreska M , Aldridge DC . 2011 . Estimating the financial costs of freshwater invasive species in Great Britain: a standardized approach to invasive species costing . Biological Invasions 13 : 305 锟紺319 .CrossRef,. Web of Science? Times Cited: 9. Orlova MI , Muirhead JR , Antonov PI , Shcherbina GK , Starobogatov YI , Biochino GI , Therriault TW , MacIsaac HJ . 2005a . Range expansion of quagga mussels Dreissena rostriformis bugensis in the Volga River and Caspian Sea basin . Aquatic Ecology 38 : 561 锟紺573 .CrossRef. Orlova MI , Therriault TW , Antonov PI , Shcherbina GK . 2005b . Invasion ecology of quagga mussels ( Dreissena rostriformis bugensis ) a review of evolutionary and phylogenetic impacts . Aquatic Ecology 39 : 401 锟紺418 .CrossRef,. CAS,. Web of Science? Times Cited: 16. Peyer SM , McCarthy AJ , Lee CE . 2009 . Zebra mussels anchor byssal threads faster and tighter than quagga mussels in flow . Journal of Experimental Biology 212 : 2027 锟紺2036 .CrossRef,. PubMed,. Web of Science? Times Cited: 11. Phillips SJ , Dudik M , Schapire RE . 2004 . A maximum entropy approach to species distribution modeling . In Proceedings of the 21st International Conference on Machine Learning . ACM Press: New York ; 655 锟紺662 .Web of Science?. Phillips SJ , Dudik M , Elith J , Graham CH , Lehmann A , Leathwick J , Ferrier S . 2009 . Sample selection bias and presence-only distribution models: implications for background and pseudo-absence data . Ecological Applications 19 : 181 锟紺197 .CrossRef,. PubMed,. Web of Science? Times Cited: 210. Py?ek P , Jaro?锟斤拷k V , Hulme PE , K锟斤拷hn I , Wild J , Arianoutsou M , Bacher S , Chiron F , Did?iulis V , Essl F , et al. 2010 . Disentangling the role of environmental and human pressures on biological invasions across Europe . Proceedings of the National Academy of Sciences 107 : 12157 锟紺12162 .CrossRef,. Web of Science? Times Cited: 74,. ADS. R version 2.15.0 . http://cran.r-project.org/bin/windows/base/old/2.15.0/. Rajagopal S , Pollux BA , Peters JL , Cremers G , Moon-van der Staay SY , Van Allen T , Eygensteyn J , Van Hoek A , Palau A , bij de Vaat A . 2009 . Origin of Spanish invasion by the zebra mussel, Dreissena polymorpha (Pallas, 1771) revealed by amplified fragment length polymorphism (AFLP) fingerprinting . Biological Invasions 11 : 2147 锟紺2159 .CrossRef,. Web of Science? Times Cited: 6. Ramcharan CW , Padilla DK , Dodson SI . 1992 . Models to predict potential occurrence and density of the zebra mussel, Dreissena polymorpha . Canadian Journal of Fisheries and Aquatic Sciences 49 : 2611 锟紺2620 .CrossRef,. Web of Science? Times Cited: 97. Ricciardi A , Serrouya R , Whoriskey FG . 1995 . Aerial exposure tolerance of zebra and quagga mussels (Bivalvia: Dreissenidae): implications for overland dispersal . Canadian Journal of Fisheries and Aquatic Sciences 52 : 470 锟紺477 .CrossRef,. Web of Science? Times Cited: 44. Ricciardi AR , Neves J , Rasmussen JB . 1998 . Impending extinctions of North American freshwater mussels (Unionoida) following the zebra mussel ( Dreissena polymorpha ) invasion . Journal of Animal Ecology 67 : 613 锟紺619 .Direct Link: Abstract. PDF(228K). Web of Science? Times Cited: 159. Ricciardi A , Whoriskey FG . 2004 . 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  • 《海底视频图像分析有助于在空间尺度上监测Dreissena种群》
    • 来源专题:水环境管理与流域管理
    • 编译者:王阳
    • 发布时间:2018-06-25
    • In contrast to marine systems where remote sensing methods in studies of benthic organisms have been widely used for decades, these methods have experienced limited use in studies of freshwater benthos due to the general lack of large epifauna. The situation has changed with the introduction of dreissenid bivalves capable of creating visible aggregations on lake bottoms into North American freshwaters in the 1980s and 1990s. The need for assessment of Dreissena densities prompted exploration of videography as a potentially cost-effective tool. We developed a novel sampling method that analyzes video recorded using a GoPro camera mounted to a benthic sled to estimate Dreissena coverage, density, and biomass over relatively large areas of the lake bed in the Laurentian Great Lakes compared to traditional sampling methods. Using this method, we compared quagga mussel coverage, density, and biomass estimates based on three replicate Ponar grabs vs. 500?m-long video transects across 43 stations sampled in Lake Michigan in 2015. Our results showed that analysis of images from video transects dramatically increased the bottom area surveyed compared to Ponar grabs and increased the precision of Dreissena density and biomass estimations at monitoring stations. By substantially increasing the ability to detect relatively small (<20%) changes between years within a particular station, this method could be a useful and cost-effective addition for monitoring Dreissena populations in the Great Lakes and other freshwater systems where they occur.
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