Browsing by Subject "Right whale"
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Item Open Access Insights into the migratory patterns and seasonal distribution of one of the world’s rarest whales, the North Pacific right whale(2023) Wright, Dana LouiseThe eastern North Pacific right whale (NPRW; Eubalaena japonica) is one of the world’s rarest large whales, with fewer than 35 animals remaining. Foundational data on the distribution and biology of this species is lacking, hampering effective monitoring and conservation. In this dissertation, I used disparate ecological approaches – food web modeling and stable isotope analysis– to broaden our understanding of the distribution and trophic ecology of this rare whale. The right whale’s primary forging ground on the highly productive Southeastern Bering Sea shelf is experiencing a rapid decline in seasonal sea ice extent. Annual fall surveys of zooplankton in this region provides a data-rich resource to explore relationships between shifting environmental and right whale prey – the zooplankton genera Calanus, Neocalanus, and Thysanoessa. The results of these surveys have been used extensively in prior research to study zooplankton dynamics, but few studies have incorporated species interactions. I created a discrete-time Bayesian biophysical food web model of the Bering shelf zooplankton community to jointly model relationships between environmental covariates and individual zooplankton species during a warming period on the shelf (1996-2016). This model framework allowed me to quantify the contribution of density independence and density dependence to zooplankton community dynamics. Similar to the results of prior research, I found that sea ice dynamics drove density-independent growth across zooplankton species, but species interactions contributed only minimally to community dynamics. My results suggest that the presumed preferred prey of right whales, Calanus glacialis, will shift north with the decreasing sea ice cover to stay in cold bottom water conditions. Next, I used carbon and nitrogen stable isotope values in NPRW skin and baleen to study the distribution and foraging ecology of North Pacific right whales. Whale skin provides a seasonal snapshot of the whale's ecology (weeks to months prior to sampling), whereas right whale baleen can be used to reconstruct years of ecology history. I first analyzed carbon and nitrogen isotope values in right whale skin collected on the feeding grounds in recent decades (1997-2021) and modeled these data jointly to look for trends that correlated with sea ice cover and region. As part of this, I estimated the trophic level of NPRWs and constructed a map of baseline stable isotope values in the North Pacific using zooplankton. I used these regional source values in a mixing model of NPRW skin tissue to estimate the primary regional sources in NPRW skin samples. I found that skin biopsies collected on the feeding ground primarily reflected summer feeding, but analysis of the outer skin layer hints at possible spring distribution. I also found I found evidence of shifting distribution and individual foraging strategies with oceanographic conditions. Further I found evidence of shifts in baseline nitrogen isotope values and phytoplankton bloom composition with oceanographic conditions. I used similar methods to study migratory patterns of historical North Pacific right whales using samples of baleen obtained from the commercial whaling era. I analyzed carbon and nitrogen isotope values in six baleen plates collected from 1871 to 1961 to reconstruct the migratory patterns of these specimens. My results include the first documentation of migratory patterns, overwintering areas, year-round foraging ecology, and possible life history using stable isotope ratios. Overall, my dissertation illustrates the power of bringing disparate analytical approaches to the study of an extremely rare and data-limited species of baleen whale. My dissertation provides important new baseline information on the eastern population of North Pacific right whales, which managers can use to implement targeted monitoring programs.
Item Open Access Spatial Ecology of the North Atlantic Right Whale (Eubalaena Glacialis)(2008-04-24) Good, CarolineDespite decades of protection, the endangered North Atlantic right whale (Eubalaena glacialis) has failed to recover, primarily due to interactions with fishing gear and ship strikes. Right whales range along the U.S. east coast, foraging year round in the Gulf of Maine while a subset of the population travels to the South Atlantic Bight each year to calve. The habitat requirements of the right whale are poorly understood. I investigated the relationship between the distribution of right whales and physical oceanographic conditions in an effort to create predictive models of essential right whale habitats. Additionally, the distribution of right and humpback whales (Megaptera novaeangliae) relative to fixed fishing gear was examined to assess spatio-temporal overlap. Habitat preferences were assessed using aerial survey data of whale locations and a range of topological and satellite derived physical parameters including bathymetry, sediment type, sea surface temperature, thermal gradients and surface roughness. A suite of non-parametric quantitative techniques including Mantel tests, log likelihood functions, Generalized Additive Models, Spearman Rank Correlations and the Williamson's spatial overlap index were used to assess relationships between whales and habitat variables. Our findings indicate that suitable calving habitat along the east coast may extend much farther to the north than is currently recognized. Our model correctly identified several well documented current and historic calving grounds in the eastern Atlantic but failed to fully identify a heavily used calving area off Argentina, which is characterized by lower surface water temperatures than the other calving regions. In the Gulf of Maine, right whale distribution was correlated primarily with sea surface temperature, sediment type and bathymetry. Predictive models offered insights into right whale habitat preferences for foraging but failed to wholly capture the physical factors underlying right whale distribution. I found the relative density of right and humpback whales and fixed fishing gear in the Gulf of Maine to be negatively correlated in most seasons and areas. These findings demonstrate that the regular co-occurrence of high densities of whales and gear is not a prerequisite for entanglement. Prohibiting entangling lines in areas where whales are known to forage could substantively reduce entanglement.Item Open Access Tidal influence on diel movement of North Atlantic right whales (Eubalaena glacialis) in the Bay of Fundy(2008-04-24T18:27:29Z) Pike, ElizabethThe endangered North Atlantic right whale (Eubalaena glacialis), is known to aggregate in the Bay of Fundy, between New Brunswick and Nova Scotia, Canada to feed during summer. The Bay of Fundy is famous for its extreme tidal range of up to 15 meters, but the effect of these tides on the distribution of whales has not been thoroughly investigated. I hypothesized that the distribution of movements of the whales is influenced by tidal currents, which can average from two to three knots at mid–tide. To test this hypothesis, I queried the North Atlantic Right Whale Catalog of photographically identified individuals and compiled sighting records of animals seen more than once a day in the Bay of Fundy. Paired sightings for each animal were analyzed for time, distance and tidal stage changes between each set of sightings. These results were compared to the hypothetical movement of a passive particle using Canada’s Department of Fisheries and Ocean WebDrogue model. My results indicate that right whales are displaced by the tides. The likelihood that they have remained with a discrete prey patch was correlated with the overall displacement of the whale and the amount of time elapsed. There was a significant correlation between the tidal current direction and the short–term movements of right whales in this habitat area. Understanding how right whales utilize this important habitat area will help inform more effective management decisions.