Library books as environmental management capacity building opportunities exclude most South African languages
In: Environmental science & policy, Band 141, S. 61-68
ISSN: 1462-9011
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In: Environmental science & policy, Band 141, S. 61-68
ISSN: 1462-9011
We report digeneans (Diplostomidae, Crassiphialinae) in the endangered freshwater fishes Valencia letourneuxi and Valencia robertae, endemics of Western Greece. Digenean metacercariae occurred in two forms in the abdominal cavity, excysted and encysted, the latter attached to the gonads, liver and alimentary tract. Parasites were, using morphological and molecular techniques, identified as two representatives of Crassiphialinae, specifically part of the Posthodiplostomum-Ornithodiplostomum clade. The spatial, seasonal, and age class variation in parasite prevalence was examined. Autumn parasite prevalence varied between the six populations sampled (18.2 to 100%). Seasonal prevalence at the two sites sampled quadannually peaked in autumn and reached its lowest value in spring; prevalence increased with size to 100% in young adult fish. We did not find a correlation between prevalence and host sex. Overall parasites' weight averaged 0.64% of the host's, while parasite weight increased with host weight. A comparison of relative condition and hepatosomatic and gonadosomatic indices of infected and metacercariae-free specimens showed that infection did not have a significant effect on host body condition and reproduction. Regarding the parasite's life cycle, planorbid gastropods are proposed as potential first intermediate hosts in view of the host's diet and occurrence data of molluscs in the ecosystem. This is the first record of a diplostomid digenean in valenciid fishes and of representatives of the Posthodiplostomum-Ornithodiplostomum clade in a native Greek freshwater fish. Our findings are discussed in conjunction to fish conservation interventions, since parasites may contribute to the decline of endangered species. ; This research was conducted in the frame of a wider study on the ecology, biology, genetics, and diet of V. letourneuxi undertaken by scientists of HCMR and was partially funded by the European Union of Aquarium Curators (EUAC) in the frame of the project "Rapid Assessment of the Status of Valencia letourneuxi, the Greek Killifish" (2005-2009). This research received support from the SYNTHESYS Project (http://www.synthesys.info/) (GB-TAF-2984) which is financed by European Community Research Infrastructure Action under the FP7 Integrating Activities Programme. N.K. and M.P.M.V. are supported by the Czech Science Foundation [P505/12/G112 (ECIP)]. The authors wish to thank Andrea Waeschenbach and D. Tim J. Littlewood for the advice regarding the molecular work, Rod A. Bray for the advice regarding parasite identification, the staff of the Wolfson Wellcome Biomedical Laboratories at the Natural History Museum for their technical support, Nicholas Koutsikos for producing the map with the sampling sites' location, and Marcelo Kovacic for curatorial services. For this study, HCMR had secured all necessary permits for fish collection from the Greek Ministry of Environment, Energy and Climate Change (permit numbers 97429/4350 and 85404/130).
BASE
In: Environmental science & policy, Band 75, S. 91-102
ISSN: 1462-9011
In most tropical regions, the Nile tilapia (Oreochromis niloticus, Cichlidae) has been introduced for aquaculture purposes, making it one of the most widely-introduced species. Adversely, it has escaped aquaculture and became invasive in many places with detrimental effects on the local fauna. It is a fast grower and aggressive species that can hybridize with indigenous cichlids and indigenous cichlid species decline after introduction of Nile tilapia. However, little is known of the detrimental effects of co-introduction of parasites from Nile tilapia and possible parasite spillover and spillback to and from indigenous cichlids. Parasites can strongly influence the fitness and competitiveness of infected individuals and species. Therefore, it is important to monitor host switching between native and invasive fish species. The most prevalent gill parasites on Nile tilapia are Monogenea (Platyhelminthes). These are obligate parasites which have a direct lifecycle (no intermediate hosts), are species rich and generally host-specific. They mainly infect gills or skin of fish. These aspects make Monogenea ideal candidates for host switching, because they only require a single host species in the invasive area and are easily transferred. Also, because monogeneans are host-specific each host species hosts its own unique fauna of parasites, thus providing a distinguishable character between host species. The goal of this research is to trace co-introduction of Nile tilapia parasites and subsequent host switching to indigenous cichlids. To trace this, the pre-introduction (or native) parasite fauna is reconstructed by sampling hosts stored in museum collections (baseline data). Contemporary samples from the same localities are compared with the collected baseline data, which allows for a reliable tracing of host switching events. We present results from two ecoregions, Bas-Congo and Bangwuelu-Mweru, both within the Democratic Republic of the Congo. ; Belspo
BASE
In: Environmental science & policy, Band 104, S. 107-120
ISSN: 1462-9011