Impact ID |
Scientific Name
|
Impact Type
|
Study Type
|
Study Location
|
Impact Description
|
Geographic Location
|
Reference
|
3592
|
Proterorhinus semilunaris
|
Disease/Parasite/Toxicity
|
Anecdotal
|
N/A
|
Proterorhinus semilunaris has been identified as a paratenic host of Anguillicola crassus,an eel parasite with severe pathological effects with, nevertheless, a low prevalence (Koubková and Baruš, 2000).
|
Rhine River, France
|
34196
|
3593
|
Proterorhinus semilunaris
|
Disease/Parasite/Toxicity
|
Anecdotal
|
N/A
|
“We morphologically and genetically document the co-introduction of the Ponto-Caspian Gyrodactylus proterorhini Ergens, 1967, originally described on tubenose goby in southern Slovakia. Because of their direct life cycle and extraordinary reproductive capacities, gyrodactylid monogenean parasites can readily invade new areas together with the host. Moreover, G. proterorhini has a wide host range and might therefore represent a threat to other gobiid fishes.”
|
|
34199
|
3642
|
Proterorhinus semilunaris
|
Disease/Parasite/Toxicity
|
Observational
|
Field
|
Proterorhinus semilunaris had 5 species of parasites(one monogenean, one cestode, one digenean, one nematode, and one acanthocephalan).
|
Tyligul Estuary, Hryhorivsky Estuary, Gulf of Odessa, Sukhyi Estuary, and Dniester River Delta
|
34230
|
3683
|
Proterorhinus semilunaris
|
Disease/Parasite/Toxicity
|
Observational
|
Field
|
Holostephanus spp., Apatemon gracilis, Diplostomum gobiorum
and glochidia predominated in parasite fauna of tubenose goby.
Unlike the other species tested, P. semilunaris was poorly infected with
T. domerguei and G. proterorhini. Parasites commonly distributed through
native fishes in the observed area prevailed in gobies. Species rare in natives
were also numerously represented. In this way, alien fish reinforce
populations of those parasites in invaded waters.
|
|
34319
|
3695
|
Proterorhinus semilunaris
|
Disease/Parasite/Toxicity
|
Observational
|
Field
|
Parasites include Holostephanus cobitidis, Diplostomum spp., Paracoenogonimus ovatus, Apatemon gracilis, Apharhyngostrigea cornu
|
|
34333
|
3696
|
Proterorhinus semilunaris
|
Disease/Parasite/Toxicity
|
Observational
|
Field
|
Prevalence, abundance and infection intensity of ectoparasites was much higher in tubenose goby (introduced by dispersal) than by round goby (introduced by ballast), which might be the consequence of a different introduction pathway. Parasites included fungi and Gyrodactylus spp.
|
Belgium
|
34334
|
3697
|
Proterorhinus semilunaris
|
Disease/Parasite/Toxicity
|
Experimental
|
Laboratory
|
high natural infection parameters of B. polymorphus in native cyprinids and non-native gobies compared to data from the period prior to goby establishment. However, development in the definitive host of flukes recovered from gobies was reduced, showing higher mortality, delayed maturity and lower egg production, in comparison with parasites from native hosts.
|
River Morova
|
34340
|
3700
|
Proterorhinus semilunaris
|
Disease/Parasite/Toxicity
|
Observational
|
Field
|
Proterorhinus semilunaris was parasitized by 13 species, four of which were in all 4 of the examined host species. Number of parasite species corresponded with the length of time the species had been present in the system, advantage gained from parasite release is mainly in the early stages of invasion and diminishes over a relatively short period
|
River Rhine
|
34341
|
3703
|
Proterorhinus semilunaris
|
Disease/Parasite/Toxicity
|
Observational
|
Laboratory
|
Identified as a host of Loma acerinae in the Dnieper River and Black Sea.
|
Dnieper River and Black Sea
|
34344
|
3813
|
Proterorhinus semilunaris
|
Disease/Parasite/Toxicity
|
Observational
|
Field
|
cointroduction
of the Ponto-Caspian Gyrodactylus proterorhini. G. proterorhini was originally described from the tubenose
goby P. semilunaris but has since been reported on other gobiids from the Black and Azov Seas and their estuaries, demonstrating that it can easily switch hosts
|
Belgium
|
34923
|
3824
|
Proterorhinus semilunaris
|
Disease/Parasite/Toxicity
|
Observational
|
Field
|
Six parasite
species were found: Unionidae gen. sp., Paracoenogonimus ovatus, Diplostomum sp., Ichthiocotylurus platycephalus,
Posthodiplostomum cuticola, and Camallanus lacustris. Trematode metacercariae were the dominant
parasites in all the studied samples.
|
Rybinsk Reservoir
|
34929
|
3914
|
Proterorhinus semilunaris
|
Disease/Parasite/Toxicity
|
Experimental
|
Laboratory
|
the present study demonstrates that PCB elimination in round and tubenose goby exhibited broadly similar PCB toxicokinetics as has been measured in other small fish species under limited growth and constant temperature conditions, although species differences in the rate of PCB elimination was evident
|
Great Lakes - Detroit River
|
35034
|
3916
|
Proterorhinus semilunaris
|
Disease/Parasite/Toxicity
|
Observational
|
Field
|
Tubenose goby was host to several Gyrodactylus parasites, however the researchers characterized these parasites as 'relatively harmless' and mostly confined to the single host species, citing Pariselle et al 2003
|
Ionian Sea Tributaries
|
35039
|
5582
|
Proterorhinus semilunaris
|
Disease/Parasite/Toxicity
|
Observational
|
N/A
|
Tubenose goby (Proterorhinus semilunaris) identified as a paratenic host for the nematode Anguillicola crassus in the Czech Republic. Tubenose goby hosts infective larvae but prevalence, intensity, and abundance of infection is low.
|
Czech Republic
|
35736
|
9585
|
Proterorhinus semilunaris
|
Disease/Parasite/Toxicity
|
Observational
|
Field
|
Proterorhinus semilunaris are known hosts of parasitic trematodes and can promote the spread of these parasites to native organisms.
|
|
43177
|