Global ETD Search

1	Bycatch of harbour porpoise (Phocoena phocoena L.) in the North Sea : a case study of the Grimsby gillnet fleet Metuzals, Kaija Irene January 2001 (has links) No description available. 599 Porpoise ecology
2	Study of the cranial sinus nematode, Stenurus minor (Metastrongyloidea), in the harbour porpoise, Phocoena phocoena Faulkner, Jacqueline January 1995 (has links) Seventy-eight harbour porpoises, Phocoena phocoena, (33 females, 45 males) were obtained from the summer (June-September) cod fishery incidental-by-catch in the Gulf of St. Lawrence, and examined for the presence of cranial sinus nematodes. This is the first quantitative and in-depth study of the distribution of Stenurus minor (Kuhn, 1829) Baylis and Daubney, 1925 in the cranium of by-caught harbour porpoises. Stenurus minor was present in the cranial sinuses of all adult porpoises ($>$1yr, n = 66, x = 2362, range 87-8920) and absent in all young-of-the-year ($<$1yr, n = 12). Only fifth-stage worms were observed and these were equally distributed between the right and left side ot the skull (mean intensity = 1158 and 1213 in the left and right side, respectively). Female S. minor were predominant (1:1.8 sex ratio). Mean intensity of S. minor was similar among all infected porpoises, suggesting an annual loss and recruitment of this parasite. Parasite load had no apparent effect on porpoise body condition (measured as % blubber weight of carcass). No gross lesions associated with the presence of numerous S. minor in the cranial sinuses, were observed. There was an inverse relationship between the intensity of S. minor and mean worm-length, suggestive of a "crowding effect". Mean worm-length in lightly infected porpoises was 17.8 $ pm$ 0.2 mm and 16.1 $ pm$ 0.2 mm in heavily infected animals. Possible life-cycles and modes of transmission are examined in light of our findings. The absence of S. minor in porpoises less than 1 year old suggests heteroxenous transmission of this parasite, via an intermediate host in the food chain. Transmammary and or transplacental transmission is unlikely. Lungworms. Harbor porpoise -- Parasites.
3	Study of the cranial sinus nematode, Stenurus minor (Metastrongyloidea), in the harbour porpoise, Phocoena phocoena Faulkner, Jacqueline January 1995 (has links) No description available. Lungworms. Harbor porpoise -- Parasites.
4	Distribution of Indo-Pacific humpback dolphins (Sousa chinensis) and finless porpoise (Neophocaena phocaenoides) in relation to physical and biological factors in Hong Kong Law, Man-kwan. January 2001 (has links) Thesis (M. Sc.)--University of Hong Kong, 2001. / Includes bibliographical references (leaves 61-65). Chinese white dolphin Finless porpoise
5	Incidental capture of harbour porpoise, Phocoena phocoena, in three gillnet fisheries of the northwest Atlantic : an investigation of possible factors / Hood, Catherine Catania, January 2001 (has links) Thesis (Ph.D.)--Memorial University of Newfoundland, 2001. / Bibliography: leaves 279-295.
6	Three Dimensional Mammalian Skull Morphology Krippaehne, Suzanne Louise 09 March 1992 (has links) This thesis deals with archiving morphological data utilizing a three dimensional coordinate system. Morphological reference points are archived via rectangular position coordinates, rectangular position vectors, and spherical position vectors. The concepts of translation trajectories, translation vectors, and relative position vectors are developed. Analysis of three dimensional coordinate data utilizing translation trajectories and translation vectors is described. In order to test the methodology developed, the method is applied to an analysis of harbor porpoise, Phocoena phocoena L., skull morphology. (Key words: morphology, ontogenetic trajectories, allometry, position coordinates, position vectors, translation trajectories, translation vectors, relative position vectors, and harbor porpoise). Craniometry Mammals -- Morphology Harbor porpoise -- Morphology Biology
7	No recent gene flow among three subspecies of genus Neophocaena revealed by microsatellite markers Ku, Fang-Chi 27 July 2006 (has links) Although the Neophocaena is currently thought to be monotypic (¡§Neophocaena phocaenoides¡¨) with three ¡§subspecies¡¨, the taxonomy of this genus still remains uncertainty. The finless porpoise (¡§Neophocaena phocaenoides¡¨) is one of the small cetacean species under threats from human activities. At present, finless porpoise is listed in Appendix I of Convention on International Trade in Endangered Species of Wild Flora and Fauna (CITES). For conservation issue, it is important to define appropriate and unambiguous ¡§units¡¨. In this study, I intended to settle the taxonomic status of the specimens of finless porpoise from the southern part of the East China Sea (including the Taiwan Strait) in which the status has been under debate. Results from this study, indicated that they should belong to ¡§N. p. sunameri¡¨. Comparing the genotypes of the microsatellite of additional individuals of the ¡§N. p. asiaeorientalis¡¨ belonging to the VN-type group given in Xia and coworkers report with our data, three distinguished genetic groups were revealed: (1) the group occurring in the Taiwan Strait (i.e., the W-type group, currently recognized as ¡§N. p. phocaenoides¡¨); (2) the group occurred in the Yangtze Rive (i.e., the VN-type group, currently recognized as ¡§N. p. asiaeorientalis¡¨); (3) the group occurred in the Yellow Sea and the Taiwan strait (i.e., the IN-type + UN-type group, currently recognized as ¡§N. p. sunameri¡¨). Population differentiation was absent not only within the W-type group but also within the IN-type +UN-type group. I tried to detect the taxonomy of the two parapatric groups in where the W-type and IN-type +UN-type groups are co-exit sympatrically. No specimens with intermediate character state of the width of the dorsal denticles (i. e., hybrids) were presented in Matsu Islands on the Chinese coast where the W-type and UN-type groups were sympatric. Hybrid individual exhibiting the hybrid states of the 11 microsatellite loci between these two groups was also not found. According to E.O. Wiley¡¦s criteria for recognizing species, these two groups are eligible to be considered separate species. Based on Crandall and his coworkers¡¦ criteria of evolutionarily significant unit (ESU), the three groups, the W-type, IN-type +UN-type and VN-type groups, should be treated as three distinct ESUs. Neophocaena gene flow finless porpoise microsatellite markers
8	Hong Kong's Cetaceans : the biology, socioecology and behaviour of Sousa chinensis and Neophocaena phocaenoides / Parsons, Edward Michael. January 1997 (has links) Thesis (Ph. D.)--University of Hong Kong, 1997. / Includes bibliographical references (leaf 208-255).
9	Harbour porpoise and people : strategies for bycatch reduction in the Bay of Fundy / Richter, Christoph, January 1998 (has links) Thesis (M. Sc.), Memorial University of Newfoundland, 1998. / Bibliography: leaves 93-106.
10	Variation in habitat preference and distribution of harbour porpoises west of Scotland Booth, Cormac G. January 2010 (has links) The waters off the west coast of Scotland have one of the highest densities of harbour porpoise (Phocoena phocoena) in Europe. Harbour porpoise are listed under Annex II of the EU Habitats Directive, requiring the designation of Special Areas of Conservation (SACs) for the species’ protection and conservation. The main aim of this thesis is to identify habitat preferences for harbour porpoise, and key regions that embody these preferences, which could therefore be suitable as SACs; and to determine how harbour porpoise use these regions over time and space. Designed visual and acoustic line-transect surveys were conducted between 2003 and 2008. Generalised Estimating Equations (GEEs) were used to determine relationships between the relative density of harbour porpoise and temporally and spatially variable oceanographic covariates. Predictive models showed that depth, slope, distance to land and spring tidal range were all important in explaining porpoise distribution. There were also significant temporal variations in habitat use. However, whilst some variation was observed among years and months, consistent preferences for water depths between 50 and 150 m and highly sloped regions were observed across the temporal models. Predicted surfaces revealed a consistent inshore distribution for the species throughout the west coast of Scotland. Regional models revealed similar habitat preferences to the full-extent models, and indicated that the Small Isles and Sound of Jura were the most consistently important regions for harbour porpoise, and that these regions could be suitable as SACs. The impacts of seal scarers on distribution and habitat use were also investigated, and there were indications that these devices have the potential to displace harbour porpoise. These results should be considered in the assessment of sites for SAC designation, and in implementing appropriate conservation measures for harbour porpoise. 591.7

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