|
| Impact ID |
Scientific Name
|
Impact Type
|
Study Type
|
Study Location
|
Impact Description
|
Geographic Location
|
Reference
|
|
2447
|
Corbicula fluminea
|
Competition
|
Experimental
|
Field
|
In experiments, Corbicula reduced seston concentration resulting in competition for food with native bivalves.
|
|
9096
|
|
2658
|
Corbicula fluminea
|
Competition
|
Observational
|
Field
|
Corbicula fluminea appears to cause localized reduction of seston concentration and may rapidly clear the sediment boundary layer of food. However, there was no detectable effect on the native bivalve population. Corbicula had only been there for 10 years though, so impacts on native mussels may not be fully realized.
|
|
9096
|
|
2664
|
Corbicula fluminea
|
Competition
|
Experimental
|
Laboratory
|
This study suggest that C. fluminea has the ability to alter nutrient cycling dynamics and the availability of materials in the water column. In addition, biodeposition of filtered materials into the sediments could cause competition among filter feeders because of reduction of materials in the water column.
|
|
28157
|
|
2676
|
Corbicula fluminea
|
Competition
|
Observational
|
Field
|
Unionid growth was adversely affected by the presence of Corbiculaas mussel growth rates decreased when numbers of Corbicula increased.
|
|
23995
|
|
2677
|
Corbicula fluminea
|
Competition
|
Observational
|
Field
|
Corbicula can uproot burrowed native unionids.
|
|
33768
|
|
2680
|
Corbicula fluminea
|
Competition
|
Experimental
|
N/A
|
Depletion of energetic reserves of native mussels to cope with increasing global temperatures could compromise the tolerance to additional stressors such as competition with invasive species such as Corbicula or food reduction.
|
|
33056
|
|
2681
|
Corbicula fluminea
|
Competition
|
Experimental
|
Laboratory
|
The results from this study indicate that native freshwater mussels might be also threatened by global warming owing to asymmetric interspecific competition with the invasive Asiatic clam, Corbicula fluminea, further compromising their long-term conservation.
|
|
33125
|
|
2682
|
Corbicula fluminea
|
Competition
|
Experimental
|
Laboratory
|
The native unionid Unio delphinus,/em> exhibited lower growth, lower physiological condition, and higher locomotor activity at higher Corbicula fluminea density, which may suggest that this unionid is negatively affected by C. fluminea and maybe displaced to less favorable habitats.
|
|
31134
|
|
5383
|
Corbicula fluminea
|
Competition
|
Experimental
|
Field
|
Native mussel abundance was also negatively impacted by the presence of Corbicula fluminea in a Kentucky river
|
Kentucky
|
38688
|
|
5384
|
Corbicula fluminea
|
Competition
|
Experimental
|
Laboratory
|
Experimental ponds infested with Hydrilla verticillata that were treated with Ctenopharyngodon idella resulted in secondary infestations of Corbicula fluminea likely due to its superior competitive abilities and the loss of habitat for native species
|
|
38689
|
|
5385
|
Corbicula fluminea
|
Competition
|
Experimental
|
Laboratory
|
The high thermal tolerance of Corbicula fluminea may allow it to benefit more than native mussels during heat wave mass mortality events due to higher reproductive potential and faster recovery
|
|
38685
|
|
5445
|
Corbicula fluminea
|
Competition
|
Observational
|
Field
|
Corbicula fluminea may filter a wider range of food sources at a faster rate than native fresh water mussels, which could decrease food availability for other benthic and pelagic species - based on stable isotope analysis.
|
Georgia
|
28157
|
|
5447
|
Corbicula fluminea
|
Competition
|
Observational
|
Field
|
Stable isotope ratios demonstrate that C. fluminea occupies a larger trophic niche space and has lower trophic fidelity than (native) E. crassidens . This leads authors to speculate that the non-native ingests some of the same materials as native species,
but has the ability to assimilate a broader range of food resources and are flexible to take advantage of available resources.
|
Georgia
|
28157
|
|
5448
|
Corbicula fluminea
|
Competition
|
Anecdotal
|
N/A
|
The author notes that Corbicula has been accused of greater impacts on the native bivalves of North America than any invader other than the zebra mussel, but their review concludes evidence is weak.
|
North America
|
13063
|
|
5450
|
Corbicula fluminea
|
Competition
|
Anecdotal
|
N/A
|
because it may deplete phytoplankton and feeds on particles in the sediments, it may also impact sphaerids and juvenile unionids that rely on these food sources
|
North America
|
13063
|
|
5454
|
Corbicula fluminea
|
Competition
|
Anecdotal
|
N/A
|
Review notes that Corbicula and native bivalves (especially unionids) have non-overlapping ranges - competition is one possible interpretation of this data
|
North America
|
13063
|
|
5455
|
Corbicula fluminea
|
Competition
|
Anecdotal
|
N/A
|
Review notes several cases of precipitous declines in sphaerids following Corbicula invasion
|
North America
|
13063
|
|
5456
|
Corbicula fluminea
|
Competition
|
Anecdotal
|
N/A
|
Dense populations of Corbicula are alble to coexist with unionids in many cases
|
North America
|
13063
|
|
5457
|
Corbicula fluminea
|
Competition
|
Anecdotal
|
N/A
|
Corbicula has a 'marked but not statistically significant' effect on growth of Elliptio in cage culture
|
North America
|
13063
|
|
5458
|
Corbicula fluminea
|
Competition
|
Anecdotal
|
N/A
|
Review notes some authors conclude Corbicula and native bivalves have different habitat requirements and interact only weakly
|
North America
|
13063
|
|
5459
|
Corbicula fluminea
|
Competition
|
Anecdotal
|
N/A
|
review notes some authors conclude Corbicula has devastating impact on unionids
|
North America
|
13063
|
|
5460
|
Corbicula fluminea
|
Competition
|
Experimental
|
Laboratory
|
Corbicula fluminea cleared test bacteria (E. coli) more rapidly than native (riverine) unionids
|
North America
|
20779
|
|
5462
|
Corbicula fluminea
|
Competition
|
Experimental
|
Laboratory
|
On a gill surface area basis, Corbicula fluminea cleared bacteria at a faster rate than Dreissena polymorpha
|
North America
|
20779
|
|
5463
|
Corbicula fluminea
|
Competition
|
Observational
|
Field
|
Corbicula fluminea became the dominant species (numeric and biomass) within 15 years of introduction. Native bivalve fauna nearly disappeared, at least on soft-bottom substrates.
|
Portugal, River Minho estuary
|
38675
|
|
5466
|
Corbicula fluminea
|
Competition
|
Anecdotal
|
N/A
|
Corbicula biomass can exceed that of all other benthic metazoans in sandy streams
|
|
33099
|
|