scholarly article | Q13442814 |
review article | Q7318358 |
P356 | DOI | 10.1007/S10750-014-2166-0 |
P953 | full work available at URL | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7087615 |
P932 | PMC publication ID | 7087615 |
P698 | PubMed publication ID | 32214452 |
P5875 | ResearchGate publication ID | 273280360 |
P50 | author | Katya E. Kovalenko | Q59864777 |
Sidinei M. Thomaz | Q86611127 | ||
John E. Havel | Q124308903 | ||
Stefano Amalfitano | Q39633589 | ||
P2093 | author name string | Stefano Amalfitano | |
Lee B Kats | |||
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Dams and the fish fauna of the Neotropical region: impacts and management related to diversity and fisheries | Q33406331 | ||
Are non-native species more likely to become pests? Influence of biogeographic origin on the impacts of freshwater organisms3 | Q56451804 | ||
A call for an end to calls for the end of invasion biology | Q56452463 | ||
The invasive aquatic macrophyte Hydrilla verticillata facilitates the establishment of the invasive mussel Limnoperna fortunei in Neotropical reservoirs | Q56457848 | ||
A Serious New Threat to Brazilian Freshwater Ecosystems: The Naturalization of Nonnative Fish by Decree | Q56459131 | ||
Effects of natural flooding and manual trapping on the facilitation of invasive crayfish-native amphibian coexistence in a semi-arid perennial stream | Q56462535 | ||
Distribution of crustacean diapause: micro- and macroevolutionary pattern and process | Q56486120 | ||
Wind-borne short-range egg dispersal in anostracans (Crustacea: Branchiopoda) | Q56486124 | ||
Another call for the end of invasion biology | Q56488106 | ||
Food web consequences of long-term invasive crayfish control | Q56489865 | ||
Feeding ecology and ecological impact of an alien ‘warm-water’ omnivore in cold lakes | Q56501788 | ||
Biodiversity in heavily modified waterbodies: native and introduced fish in Iberian reservoirs | Q56505788 | ||
Physicochemical and morphological degradation of stream and river habitats increases invasion risk | Q56539527 | ||
The colonization success of an exotic Poaceae is related to native macrophyte richness, wind disturbance and riparian vegetation | Q56543338 | ||
REMOVAL OF AQUATIC WEEDS GREATLY ENHANCES FISH COMMUNITY RICHNESS AND DIVERSITY: AN EXAMPLE FROM THE BURDEKIN RIVER FLOODPLAIN, TROPICAL AUSTRALIA | Q56543596 | ||
Water brownification may increase the invasibility of a submerged non-native macrophyte | Q56545663 | ||
Exotic Species in the Great Lakes: A History of Biotic Crises and Anthropogenic Introductions | Q56553898 | ||
Predator-driven biotic resistance and propagule pressure regulate the invasive apple snail Pomacea canaliculata in Japan | Q56556502 | ||
A global assessment of invasive plant impacts on resident species, communities and ecosystems: the interaction of impact measures, invading species' traits and environment | Q56562425 | ||
Differential influence of a monotypic and diverse native aquatic plant bed on a macroinvertebrate assemblage; an experimental implication of exotic plant induced habitat | Q56565490 | ||
Can biotic resistance be utilized to reduce establishment rates of non-indigenous species in constructed waters? | Q56576795 | ||
Homogenization of freshwater fish faunas after the elimination of a natural barrier by a dam in Neotropics | Q56578919 | ||
Gone but Not Forgotten? Invasive Plants' Legacies on Community and Ecosystem Properties | Q56591677 | ||
An alternative hypothesis to invasional meltdown in the Laurentian Great Lakes region: General facilitation by Dreissena | Q56658785 | ||
Small-sized Fish Assemblages Do not Differ Between a Native and a Recently Established Non-indigenous Macrophyte in a Neotropical Ecosystem | Q56750196 | ||
Scale dependent effects of native prey diversity, prey biomass and natural disturbance on the invasion success of an exotic predator | Q56753175 | ||
Turning back the tide of American mink invasion at an unprecedented scale through community participation and adaptive management | Q56764895 | ||
Are tropical cyclones sources of natural selection? Observations on the abundance and behavior of frogs affected by extreme climatic events in the Baja California Peninsula, Mexico | Q56766366 | ||
Can Plant Competition and Diversity Reduce the Growth and Survival of Exotic Phragmites australis Invading a Tidal Marsh? | Q56766703 | ||
Effects of an exotic invasive macrophyte (tropical signalgrass) on native plant community composition, species richness and functional diversity | Q56767608 | ||
Invasive Species, Environmental Change and Management, and Health | Q56768912 | ||
Alien species in fresh waters: ecological effects, interactions with other stressors, and prospects for the future | Q56769206 | ||
Invaders are not a random selection of species | Q56769983 | ||
Fish fauna destruction after the introduction of a non-native predator (Cichla kelberi) in a Neotropical reservoir | Q56770261 | ||
Temporal trends and effects of diversity on occurrence of exotic macrophytes in a large reservoir | Q56770465 | ||
Convergence of fish communities from the littoral zone of reservoirs | Q56771350 | ||
Lake construction has facilitated calanoid copepod invasions in New Zealand | Q56772725 | ||
Dam invaders: impoundments facilitate biological invasions into freshwaters | Q56773785 | ||
Holocene palaeo-invasions: the link between pattern, process and scale in invasion ecology? | Q56774073 | ||
Consistent accuracy of the Australian weed risk assessment system across varied geographies | Q56775206 | ||
Habitat use of an artificial wetland by the invasive catfish Ameiurus melas | Q56779427 | ||
Dispersion and Ecological Impact of the Invasive Freshwater Bivalve Limnoperna fortunei in the Río de la Plata Watershed and Beyond | Q56780828 | ||
Patterns and Pathways in the Post-Establishment Spread of Non-Indigenous Aquatic Species: The Slowing Invasion of North American Inland Lakes by the Zebra Mussel | Q56781159 | ||
LIFE-HISTORY STRATEGIES PREDICT FISH INVASIONS AND EXTIRPATIONS IN THE COLORADO RIVER BASIN | Q56781657 | ||
Holocene turnover of the French vertebrate fauna | Q56784349 | ||
Eradications of invasive alien species in Europe: a review | Q56784359 | ||
Environmental limits to a rapidly spreading exotic cladoceran | Q56784505 | ||
FISH INVASIONS IN CALIFORNIA WATERSHEDS: TESTING HYPOTHESES USING LANDSCAPE PATTERNS | Q56785059 | ||
INVADING HERBIVORY: THE GOLDEN APPLE SNAIL ALTERS ECOSYSTEM FUNCTIONING IN ASIAN WETLANDS | Q56785509 | ||
Congruence of community thresholds in response to anthropogenic stress in Great Lakes coastal wetlands | Q56985129 | ||
Introduction pathways and establishment rates of invasive aquatic species in Europe | Q57062406 | ||
Differential infection of exotic and native freshwater amphipods by a parasitic water mold in the St. Lawrence River | Q58241087 | ||
Understanding cyanobacteria-zooplankton interactions in a more eutrophic world | Q58319537 | ||
Does size matter for dispersal distance? | Q58406554 | ||
Dispersal in Freshwater Invertebrates | Q59119363 | ||
Ostracod (Crustacea) colonization of a native and a non-native macrophyte species of Hydrocharitaceae in the Upper Paraná floodplain (Brazil): an experimental evaluation | Q60345201 | ||
Predicting invasion success in complex ecological networks | Q33447091 | ||
Bacterial diversity and biogeography in deep-sea surface sediments of the South Atlantic Ocean | Q33510545 | ||
Invisible invaders: non-pathogenic invasive microbes in aquatic and terrestrial ecosystems | Q33739858 | ||
Climate change: links to global expansion of harmful cyanobacteria | Q34011352 | ||
Extraintestinal Escherichia coli carrying virulence genes in coastal marine sediments. | Q34108828 | ||
Invasion of Nostocales (cyanobacteria) to Subtropical and Temperate Freshwater Lakes - Physiological, Regional, and Global Driving Forces | Q34191335 | ||
The natives are restless, but not often and mostly when disturbed | Q34280215 | ||
Eight questions about invasions and ecosystem functioning | Q34302882 | ||
The resilience and resistance of an ecosystem to a collapse of diversity | Q34430851 | ||
Bias and error in understanding plant invasion impacts | Q34478639 | ||
Physico-chemical variables determining the invasion risk of freshwater habitats by alien mollusks and crustaceans | Q34484030 | ||
Every coin has a back side: invasion by Limnohabitans planktonicus promotes the maintenance of species diversity in bacterial communities | Q34516922 | ||
Predation, Body Size, and Composition of Plankton | Q34582742 | ||
Native macrophyte density and richness affect the invasiveness of a tropical poaceae species | Q34639895 | ||
Ecological theory as a foundation to control pathogenic invasion in aquaculture | Q34662065 | ||
Europe's other debt crisis caused by the long legacy of future extinctions | Q34670054 | ||
Ecological roulette: the global transport of nonindigenous marine organisms | Q34671651 | ||
Species Introduction in a Tropical Lake: A newly introduced piscivore can produce population changes in a wide range of trophic levels | Q34683860 | ||
Floating plant dominance as a stable state | Q34920813 | ||
Was Lates late? A null model for the Nile perch boom in Lake Victoria | Q35034837 | ||
Self-reinforcing impacts of plant invasions change over time | Q35047659 | ||
Microbial agents associated with waterborne diseases | Q35052753 | ||
Integrated assessment of biological invasions | Q35123441 | ||
Removal of nonnative fish results in population expansion of a declining amphibian (mountain yellow-legged frog, Rana muscosa). | Q35723920 | ||
Bacterial community structure in freshwater springs infested with the invasive plant species Hydrilla verticillata | Q35869613 | ||
Cyanobacterial toxins: risk management for health protection | Q36057610 | ||
Fundamentals of microbial community resistance and resilience | Q36476972 | ||
Potential microbial bioinvasions via ships' ballast water, sediment, and biofilm | Q36704071 | ||
Integrating food web diversity, structure and stability. | Q37938189 | ||
The big unknown: plant virus biodiversity | Q37996170 | ||
Complex dynamics at the interface between wild and domestic viruses of finfish | Q37996172 | ||
Improved dissolved oxygen status following removal of exotic weed mats in important fish habitat lagoons of the tropical Burdekin River floodplain, Australia | Q39350578 | ||
A meta-analysis of trait differences between invasive and non-invasive plant species | Q39551131 | ||
How novel is too novel? Stream community thresholds at exceptionally low levels of catchment urbanization. | Q39994216 | ||
Ecological and evolutionary consequences of biotic homogenization | Q40325394 | ||
Spatially explicit conditions for waterborne pathogen invasion | Q42251593 | ||
The invasion paradox: reconciling pattern and process in species invasions. | Q42619851 | ||
The role of viruses in biological invasions: friend or foe? | Q44514321 | ||
Local and regional factors influencing bacterial community assembly | Q44553213 | ||
Hydrology and grazing jointly control a large-river food web. | Q44628715 | ||
Recovery after local extinction: factors affecting re-establishment of alpine lake zooplankton | Q45044910 | ||
High frequency of functional extinctions in ecological networks. | Q45911112 | ||
Beaver herbivory on aquatic plants. | Q45930315 | ||
Effects of fish in river food webs | Q46879709 | ||
Novelty trumps loss in global biodiversity | Q46904175 | ||
Support for major hypotheses in invasion biology is uneven and declining | Q50846953 | ||
Microbial seed banks: the ecological and evolutionary implications of dormancy. | Q51173560 | ||
Invasional meltdown 6 years later: important phenomenon, unfortunate metaphor, or both? | Q51186914 | ||
Recent mass invasion of the North American Great Lakes by Ponto-Caspian species. | Q51192788 | ||
Geographical range, heat tolerance and invasion success in aquatic species. | Q51494889 | ||
The role of environmental and spatial processes in structuring lake communities from bacteria to fish. | Q51714675 | ||
Biotic resistance on the increase: native predators structure invasive zebra mussel populations | Q54966482 | ||
Reducing redundancy in invasion ecology by integrating hypotheses into a single theoretical framework | Q55368983 | ||
Geographic spread of exotic species: Ecological lessons and opportunities from the invasion of the zebra mussel Dreissena polymorpha | Q55839705 | ||
Biological invasions of fresh water: Empirical rules and assembly theory | Q55839717 | ||
Stable isotope evidence for the food web consequences of species invasions in lakes | Q55842207 | ||
Variation in the impact of exotic grasses on native plant composition in relation to fire across an elevation gradient in Hawaii | Q55842534 | ||
Evolutionary and physiological adaptations of aquatic invasive animals: r selection versus resistance | Q55869903 | ||
Modeling ships' ballast water as invasion threats to the Great Lakes | Q55869907 | ||
Indirect facilitation of an anuran invasion by non-native fishes | Q55870181 | ||
Ecological traits of the amphipod invader Dikerogammarus villosus on a mesohabitat scale | Q55870690 | ||
Cascading Effects of the Introduced Nile Perch on the Detritivorous/Phytoplanktivorous Species in the Sublittoral Areas of Lake Victoria | Q55921556 | ||
A microbial perspective on biological invasions in aquatic ecosystems | Q56438314 | ||
An exotic macrophyte bed may facilitate the anchorage of exotic propagules during the first stage of invasion | Q56438415 | ||
Freshwater hotspots of biological invasion are a function of species–pathway interactions | Q56438512 | ||
A whole-lake experiment to control invasive rainbow smelt (Actinoperygii, Osmeridae) via overharvest and a food web manipulation | Q56438550 | ||
Resistance to desiccation in aquatic invasive snails and implications for their overland dispersal | Q56446546 | ||
Aquatic invasive species and emerging infectious disease threats: A One Health perspective | Q56448046 | ||
Invasive plants as drivers of regime shifts: identifying high-priority invaders that alter feedback relationships | Q56450763 | ||
P433 | issue | 1 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | invasive species | Q183368 |
aquatic invasion | Q110758984 | ||
P6104 | maintained by WikiProject | WikiProject Invasion Biology | Q56241615 |
P1104 | number of pages | 24 | |
P304 | page(s) | 147-170 | |
P577 | publication date | 2015-01-25 | |
P1433 | published in | Hydrobiologia | Q5954646 |
P1476 | title | Aquatic invasive species: challenges for the future | |
P478 | volume | 750 |
Q49888351 | A Probability Co-Kriging Model to Account for Reporting Bias and Recognize Areas at High Risk for Zebra Mussels and Eurasian Watermilfoil Invasions in Minnesota. |
Q46243588 | A minimalist macroparasite diversity in the round goby of the Upper Rhine reduced to an exotic acanthocephalan lineage. |
Q56381765 | Alien species in aquatic environments: a selective comparison of coastal and inland waters in tropical and temperate latitudes |
Q56333676 | Assessing vulnerability of New Zealand lakes to loss of conservation value from invasive fish impacts |
Q56418265 | Can tropical macrophytes establish in the Laurentian Great Lakes? |
Q56333620 | Description of a widely distributed but overlooked amphipod species in the European Alps |
Q98167076 | Effects of non-native fish on lacustrine food web structure and mercury biomagnification along a dissolved organic carbon gradient |
Q46287361 | Flooding Duration Affects the Structure of Terrestrial and Aquatic Microbial Eukaryotic Communities. |
Q35987808 | Freshwater ecosystems and aquatic insects: a paradox in biological invasions. |
Q56380856 | Genetic characterization of the invasive zebra mussel (Dreissena polymorpha) in the Iberian Peninsula |
Q110951295 | New records of the Paleotropical migrant Hemianax ephippiger in the Caribbean and a review of its status in the Neotropics |
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Q56371735 | Spatiotemporal trends for exotic species in French freshwater ecosystems: where are we now? |
Q55328301 | Structuring evidence for invasional meltdown: broad support but with biases and gaps |
Q112669964 | The importance of indirect effects of climate change adaptations on alpine and pre‐alpine freshwater systems |
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Q56427784 | Thermal behaviour and the prospect spread of an invasive benthic top predator onto the Euro-Arctic shelves |
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