Life history ecology of the cestode Diphyllobothrium dendriticum in copepod and fish hosts

Wright, M. Elizabeth.

January 2000

Arctic charr are susceptible to cestodes like Diphyllobothrium dendriticum which are transmitted through the food web. Field studies investigating Arctic charr-Diphyllobothrium relationships often provide little data from which to fully understand Diphyllobothrium transmission or to assess their impact on copepod or fish hosts. Experimental studies may, therefore, be the only direct way to investigate these issues. The research goal of this thesis was to duplicate the D. dendriticum life cycle in the laboratory to investigate parasite development and host specificity, and to apply the experimental data to natural situations. Results indicated that at 10°C, D. dendriticum eggs develop slowly and 65 days are required for complete embryonation. In many Canadian Arctic lakes water temperatures rarely exceed 4°C, and this study has shown that at this temperature embryonation requires several months, necessitating more than one ice-free season for life cycle completion. The results also showed that embryos developed more rapidly and significantly more eggs hatched when incubated with light or aeration, results that were consistent for D. dendriticum originating from Canada and Norway. To continue the life cycle, coracidia must be consumed by suitable copepod hosts. This study showed that although D. dendriticum will infect the European copepods Cyclops scutifer and Eudiaptomus graciloides, prevalence was higher and procercoids developed more rapidly in E. graciloides. These results showed that E. graciloides is a better host for D. dendriticum than is C. scutifer, contradicting published literature. In North America, E. graciloides is not found in lakes containing D. dendriticum and no North American calanoid species have been tested to determine their host suitability to this cestode. This study identified two North American species, Diaptomus minutus and D. leptopus, which are suitable laboratory hosts. D. minutus is almost certainly a natural host for D. den

Diphyllobothrium dendriticum.

Arctic char -- Parasites.

Cyclops scutifer -- Parasites.

Diaptomus -- Parasites.

Life history ecology of the cestode Diphyllobothrium dendriticum in copepod and fish hosts

Wright, M. Elizabeth.

January 2000

No description available.

Arctic char -- Parasites.

Cyclops scutifer -- Parasites.

Diphyllobothrium dendriticum.

Diaptomus -- Parasites.

Growth, proximate composition and physiology of Arctic charr exposed to toxaphene and Diphyllobothrium dendriticum

Blanar, Christopher A.

January 2001

The Arctic charr (Salvelinus alpinus) is a top predator in northern lakes and accumulates persistent lipophilic contaminants. Toxaphene, a major organochlorine contaminant in Arctic charr, is known to be acutely toxic to fish but the effects of dietary exposure have not been examined. Furthermore, lake-resident Arctic charr are frequently infected with larvae of the cestode, Diphyllobothrium dendriticum. The objective of this study was to investigate the effects of toxaphene exposure on Arctic charr growth, nutritional quality, physiology, and susceptibility to infections of D. dendriticum. A preliminary experiment found no effect of toxaphene on charr visceral organ and fat weights, plasma Vitamin A and E and plasma cortisol, although dominance hierarchies within groups may have masked treatment effects. For the main experiment, hatchery-reared Arctic charr were subjected to one of four treatments: (i) a single oral dose of corn oil (control); (ii) a single oral dose of 10 mug/g wet weight toxaphene dissolved in corn oil; (iii) exposure to 15 larval D. dendriticum; and (iv) a combination of both. (Abstract shortened by UMI.)

Arctic char -- Growth.

Arctic char -- Parasites.

Diphyllobothrium dendriticum.

Toxaphene -- Environmental aspects.

Growth, proximate composition and physiology of Arctic charr exposed to toxaphene and Diphyllobothrium dendriticum

Blanar, Christopher A.

January 2001

No description available.

Arctic char -- Parasites.

Toxaphene -- Environmental aspects.

Diphyllobothrium dendriticum.

Arctic char -- Growth.