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Assessing the effects of industrial activity on cetaceans in Trinity Bay, Newfoundland /Borggaard, Diane L., January 1996 (has links)
Thesis (M.Sc.)--Memorial University of Newfoundland, 1997. / Bibliography: leaves 135-147.
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The auditory system of the minke whale (Balaenoptera acutorostrata) : a potential fatty sound reception pathway in a mysticete cetacean / Potential fatty sound reception pathway in a mysticete cetaceanYamato, Maya January 2012 (has links)
Thesis (Ph. D.)--Joint Program in Oceanography/Applied Ocean Science and Engineering (Massachusetts Institute of Technology, Dept. of Biology; and the Woods Hole Oceanographic Institution), 2012. / Cataloged from PDF version of thesis. / Includes bibliographical references. / Despite widespread concerns about the effects of anthropogenic noise on baleen whales (suborder Mysticeti), we lack basic information about their auditory physiology for comprehensive risk assessments. Hearing ranges and sensitivities could be measured if customized equipment and methods were developed based on how baleen whales receive sound. However, sound reception pathways in baleen whales are currently unknown. This thesis presents an integrative approach to understanding hearing in baleen whales through dissections, biomedical imaging, biochemical analyses, and modeling sound propagation through a whale head using the Finite Element Method (FEM). We focused on the minke whale (Balaenoptera acutorostrata) because it is one of the smallest and most abundant mysticete species, reducing logistical difficulties for dissections and experiments. We discovered a large, well-formed fat body extending from the blubber region to the ears and contacting the ossicles. Although odontocetes, or toothed whales, are thought to use specialized "acoustic fats" for sound reception, no such tissues had been described for mysticetes to date. Our study indicates that the basic morphology and biochemical composition of the minke whale "ear fats" are very different from those of odontocete acoustic fats. However, the odontocete and mysticete fatty tissues share some characteristics, such as being conserved even during starvation, containing fewer dietary signals compared to blubber, and having well-defined attachments to the tympano-periotic complex, which houses the middle and inner ears. FE models of the whale head indicated that the ear fats caused a slight increase in the total pressure magnitude by the ears, and this focusing effect could be attributed to the low density and low sound speed of the ear fats in the models. Fatty tissues are known to have lower densities and sound speeds than other types of soft tissues, which may explain why they are an important component of the auditory system of odontocetes, and perhaps mysticete cetaceans as well. In an aquatic habitat where the pinna and air-filled ear canal are no longer effective at collecting and focusing so'und towards the ears, we propose that both odontocete and mysticete cetaceans have incorporated fatty tissues into their auditory systems for underwater sound reception. / by Maya Yamato. / Ph.D.
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Spatial distribution of rorqual whales in the Strait of Jacques Cartier, Gulf of St. Lawrence, Quebec, CanadaDoniol-Valcroze, Thomas. January 2001 (has links)
The spatial distribution of four species of rorqual whales was studied along the north shore of the Gulf of St. Lawrence during the months of June to October from 1989 to 2000. A research effort of 6511 hours at sea yielded 849 sightings of blue whales (Balaenoptera musculus), 5291 of finback whales (Balaenoptera physalus), 3822 of humpback whales (Megaptera novaeangliae) and 6489 of minke whales (Balaenoptera acutorostrata). Spatial and behavioural data were collected at sea using inflatable boats, and Global Positioning Systems (GPS) were used to obtain accurate positions. These data were plotted and analysed using a Geographic Information System (GIS) to test the hypotheses that patterns of distribution were not random, were associated with bathymetry and reflected specific differences in habitat use. The resulting maps illustrated the clustered distribution of rorqual whales linked to sea-bottom topography, probably associated with areas of local upwelling and increased productivity. Blue and fin whales shared almost the same distribution, humpback whales were found in slightly deeper, offshore waters whereas minke whales were more abundant in shallower waters. Little attention has been given until now to local patterns of distribution in the area and such information can be useful for practical management considerations. The results emphasise the importance of scale in ecological studies of marine mammals and the need for further research using additional oceanographic parameters, in order to better understand habitat selection.
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Abundance and Site Fidelity of Minke Whales (Balaenoptera acutorostrata) Off the Atlantic Coast of Nova Scotia, Canada Using Photo-identification MethodologyBarnacle, Gemma 05 October 2009 (has links)
Minke whales, Balaenoptera acutorostrata, are the most abundant species of mysticetes in the North Atlantic Ocean; however, little is known about their site fidelity and population size in the Northwest Atlantic Ocean. Field work was conducted off the coast of Halifax, Nova Scotia Canada, mostly during the summer months of 1997 to 2000 and 2002 to 2005 with some field seasons starting as early as April and ending as late as October. During 218 days of boat-based surveys, 614 photographs (black and white film and digital) of minke whales were collected. All photographs were assigned a qualitative quality value (Q1-Q4, best to poor, respectively), and 321 were assigned Q3 or better. A total of 111 individuals were identified, although only 80 individuals had at least one high quality photograph (Q3 and higher). While many individuals were re-identified on the same day, only five individuals were resighted on separate days. Two individuals were resighted within the same year (up to 90 days apart), and three individuals were resighted in separate years (a little over three years apart). Additional photographs collected opportunistically in 2007 yielded two additional resightings of the same individual sighted four years earlier. A discovery curve that failed to reach an asymptote indicated that new individuals continued to enter the study area, thereby classifying the study area as open. Using the POPAN module available in SOCPROG 2.3, abundance was estimated to be 454 individuals (Jackknife s.e. = 398) with an estimated mortality rate of 26% per year (Jackknife s.e. = 27%). It is likely that permanent emigration and mark-loss account for much of this estimated mortality rate. Continued long term photo-identification within the study area is required to improve the abundance estimate and properly assess the degree of site fidelity. A lack of site fidelity could signify either unreliable or low density prey distribution, a limited sample size or a much larger home range than the study area. Therefore, expansion of both the study area and field effort is recommended.
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Spatial distribution of rorqual whales in the Strait of Jacques Cartier, Gulf of St. Lawrence, Quebec, CanadaDoniol-Valcroze, Thomas January 2001 (has links)
No description available.
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