Comparison of the functional responses of invasive and native amphipods
about
Mouthpart Morphology of Three Sympatric Native and Nonnative Gammaridean Species: Gammarus pulex, G. fossarum, and Echinogammarus berilloni (Crustacea: Amphipoda)Warming mediates the relationship between plant nutritional properties and herbivore functional responses.Parasitism may enhance rather than reduce the predatory impact of an invader.Predatory functional response and prey choice identify predation differences between native/invasive and parasitised/unparasitised crayfish.Comparative Functional Responses Predict the Invasiveness and Ecological Impacts of Alien Herbivorous SnailsLimitation and facilitation of one of the world's most invasive fish: an intercontinental comparison.Fortune favours the bold: a higher predator reduces the impact of a native but not an invasive intermediate predator.A co-invasive microsporidian parasite that reduces the predatory behaviour of its host Dikerogammarus villosus (Crustacea, Amphipoda).Predicting invasive species impacts: a community module functional response approach reveals context dependencies.Integrating comparative functional response experiments into global change research.Ecological impacts of invasive alien species along temperature gradients: testing the role of environmental matching.Synergistic impacts by an invasive amphipod and an invasive fish explain native gammarid extinctionBiological invasion and parasitism: invaders do not suffer from physiological alterations of the acanthocephalan Pomphorhynchus laevis.Predators vs. alien: differential biotic resistance to an invasive species by two resident predatorsAdvancing impact prediction and hypothesis testing in invasion ecology using a comparative functional response approachFeeding behaviour, predatory functional responses and trophic interactions of the invasive Chinese mitten crab (Eriocheir sinensis) and signal crayfish (Pacifastacus leniusculus)Non-indigenous amphipods and mysids in coastal food webs of eastern Baltic Sea estuariesSize matters: predation of fish eggs and larvae by native and invasive amphipodsFeeding choice and predation pressure of two invasive gammarids, Gammarus tigrinus and Dikerogammarus villosus, under increasing temperatureBenthic macro-invertebrate fauna associated with Dreissena mussels in the Meuse River: from incapacitating relationships to facilitationFunctional response comparisons among freshwater amphipods: ratio-dependence and higher predation for Gammarus pulex compared to the non-natives Dikerogammarus villosus and Echinogammarus berilloniDifferential ecological impacts of invader and native predatory freshwater amphipods under environmental change are revealed by comparative functional responsesPredicting the predatory impacts of the “demon shrimp” Dikerogammarus haemobaphes, on native and previously introduced speciesHabitat simplification increases the impact of a freshwater invasive fishPredicting the ecological impacts of a new freshwater invader: functional responses and prey selectivity of the ‘killer shrimp’,Dikerogammarus villosus, compared to the nativeGammarus pulexRecent invasion by a non-native cyprinid (common bream Abramis brama) is followed by major changes in the ecological quality of a shallow lake in southern EuropeThe ‘killer shrimp’Dikerogammarus villosus(Crustacea, Amphipoda) invading Alpine lakes: overland transport by recreational boats and scuba-diving gear as potential entry vectors?Prey: predator ratio dependence in the functional response of a freshwater amphipodEcological impacts of an invasive predator explained and predicted by comparative functional responsesNatural born killers: an invasive amphipod is predatory throughout its life-historyPotential effects of the invasive ‘killer shrimp’ (Dikerogammarus villosus) on macroinvertebrate assemblages and biomonitoring indicesMicrosporidian disease of the invasive amphipod Dikerogammarus villosus and the potential for its transfer to local invertebrate faunaPotential impact of invasive amphipods on leaf litter recycling in aquatic ecosystemsInterspecific differences in drift behaviour between the native Gammarus pulex and the exotic Gammarus roeseli and possible implications for the invader’s successInteractions between invasive and native crustaceans: differential functional responses of intraguild predators towards juvenile hetero-specificsA trophic interaction framework for identifying the invasive capacity of novel organismsfrair : an R package for fitting and comparing consumer functional responsesFunctional responses of a cosmopolitan invader demonstrate intraspecific variability in consumer-resource dynamicsNiche complementarity between an alien predator and native omnivorous fish in the Wilge River, South Africa
P2860
Q21285052-603DDEC1-6F7A-4899-B6D1-4B943B54D4E7Q31152042-2EF9BD86-F629-4AA8-9085-BCA438609FE2Q34113494-23BD41FF-B4CF-4D3B-944B-9BAA65EE845AQ34168646-4524DAD0-BB9B-4A75-8969-F75FB4DFE351Q34509214-57F72A43-9231-449E-9D68-45B3347C5DFBQ34732167-94FDA10B-32C7-4E03-8D75-43BFEDBBB900Q35015413-CF93A5D2-162F-4BCF-956E-2A1BE4DA534AQ35019892-ECEB58F8-C666-4189-8A22-2F8A769063F9Q35161107-A2000807-4362-4886-8949-D6E3A3CD7273Q35655852-945F7CFB-1FE7-43A5-A29B-096D9A9F0F59Q35716611-609433AF-2B4C-44FA-BC18-97083700E56CQ36078191-97FB79D0-3EB7-4806-A113-940EB8276060Q43274528-A6102A2B-1022-409D-9453-A6FEF90853AFQ51146327-45D25BCC-CFFD-493D-A91C-FD45D83E00BAQ55328193-097826B6-6E6A-4827-98C7-CF250775E3EFQ56332324-FF2FEA42-AE68-4E34-AC84-AB72D7552ABDQ56332902-ABB03F5B-30B2-45DE-9FB2-C071A88653D9Q56363687-65CE74A1-2338-4C4C-B9A3-48F9EB0EE236Q56379950-B32DC04D-3644-44BD-AA47-DAC7D5558D5DQ56417194-1AC5758B-D352-4C24-B79B-4304FAB6A16BQ56424346-CD85D4F3-2053-4CC7-A683-9B79560C6BD0Q56433689-5F7FC58E-08C9-4A20-A760-5B1B69B3E99CQ56439735-70685A8E-4233-44DF-AFF7-B005DC786021Q56441831-EC73F27F-8876-4F9A-A078-BCB76C78EC48Q56457299-9178156C-EF5C-4389-A869-30D72875F8CAQ56483369-9ED5C0CE-8C66-4538-9B10-0101147CF225Q56487400-6E0C83C2-61A6-4BA9-8BB6-3EFEADDF393AQ56510268-C4FF101B-EE48-482D-84EC-136461A9FF07Q56512797-6FA4ADB0-B108-44A4-9C55-905CFF0E51F5Q56523102-04698EC9-FB94-48B1-BA0F-01F7283CE5E4Q56526761-C5843418-4B3A-4E25-8F95-4041C9063EE8Q56549204-5A50D3A7-7C2D-4B84-AD35-9F0E209845EFQ56648601-304497F8-4847-4CC7-B8A1-642BDF3F3DDBQ56753214-EA1CA19B-B2F5-4B92-B906-24D5EF425F36Q56764000-3F51692D-0D60-4267-8186-3C363E10DB54Q56924108-E402C4C9-648A-4DA1-879F-030288290859Q56952560-7D7AB3E2-C04A-4C4E-AB62-3FC25B08D8BDQ57067556-E93EFBCA-BFFF-476C-A59E-0CABF5E1F880Q59163183-9C0A37FD-AB64-4603-A17F-867959227BF2
P2860
Comparison of the functional responses of invasive and native amphipods
description
2008 nî lūn-bûn
@nan
2008年の論文
@ja
2008年論文
@yue
2008年論文
@zh-hant
2008年論文
@zh-hk
2008年論文
@zh-mo
2008年論文
@zh-tw
2008年论文
@wuu
2008年论文
@zh
2008年论文
@zh-cn
name
Comparison of the functional responses of invasive and native amphipods
@ast
Comparison of the functional responses of invasive and native amphipods
@en
type
label
Comparison of the functional responses of invasive and native amphipods
@ast
Comparison of the functional responses of invasive and native amphipods
@en
prefLabel
Comparison of the functional responses of invasive and native amphipods
@ast
Comparison of the functional responses of invasive and native amphipods
@en
P2093
P2860
P356
P1433
P1476
Comparison of the functional responses of invasive and native amphipods
@en
P2093
Jaimie T A Dick
Keith D Farnsworth
W Ian Montgomery
P2860
P304
P356
10.1098/RSBL.2007.0554
P577
2008-04-01T00:00:00Z