Maternal Denning Phenology and Substrate Selection of Polar Bears (Ursus Maritimus) in the Southern Beaufort and Chukchi Seas
Maternal Denning Phenology and Substrate Selection of Polar Bears (Ursus Maritimus) in the Southern Beaufort and Chukchi Seas

Author: Jay Wesley Olson

Publisher:

Published: 2015

Total Pages: 60

ISBN-13:

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Loss of sea ice due to global warming may affect the phenology and distribution of polar bear (Ursus maritimus) denning by altering access to denning habitats. We examined trends in the selection of maternal denning substrate (land versus sea-ice denning) in the southern Beaufort Sea (SB), addressing the potential influence of summer land-use and fall sea-ice conditions on substrate selection. We developed an algorithm based on statistical process control methods to remotely identify denning bears and estimate denning phenology from temperature sensor data collected on collars deployed 1985-2013 in the SB and Chukchi Sea (CS). We evaluated cub survival relative to den entrance, emergence, and duration, and examined differences in the phenology of land and sea-ice dens. Land denning in the SB was more common during years when ice retreated farther from the coast and off the continental shelf in September. All SB bears that occupied land prior to denning subsequently denned on land; however, only 29% of denning bears that summered on sea ice denned on land. Den entrance and duration in the SB and CS were similar, although CS bears emerged later. Land dens were occupied longer than those on ice. Bears later observed with cubs remained in dens 23 days longer and emerged from denning 17 days later on average than bears that denned but were subsequently observed without cubs, suggesting that den exit dates are related to cub survival. The increase in land-based denning in the SB when sea ice retreated farther from shore, along with the positive correlation between fall land-use and land denning, suggest that further sea-ice declines may result in continued increases of onshore denning. Growing numbers of denning females along the coast may increase the potential for human-bear interactions.

Bears of the World
Bears of the World

Author: Vincenzo Penteriani

Publisher: Cambridge University Press

Published: 2020-11-30

Total Pages: 500

ISBN-13: 9781108483520

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Bears have fascinated people since ancient times. The relationship between bears and humans dates back thousands of years, during which time we have also competed with bears for shelter and food. In modern times, bears have come under pressure through encroachment on their habitats, climate change, and illegal trade in their body parts, including the Asian bile bear market. The IUCN lists six bears as vulnerable or endangered, and even the least concern species, such as the brown bear, are at risk of extirpation in certain countries. The poaching and international trade of these most threatened populations are prohibited, but still ongoing. Covering all bears species worldwide, this beautifully illustrated volume brings together the contributions of 200 international bear experts on the ecology, conservation status, and management of the Ursidae family. It reveals the fascinating long history of interactions between humans and bears and the threats affecting these charismatic species.

Human-polar Bear Interactions on the Northern Coast of Alaska
Human-polar Bear Interactions on the Northern Coast of Alaska

Author: Gwendolyn Quigley

Publisher:

Published: 2022

Total Pages: 0

ISBN-13:

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Polar bears (Ursus maritimus) are sea ice-dependent marine mammals that, due to reductions in sea ice extent in the southern Beaufort Sea, are increasing their time spent on shore. Simultaneously, the anthropogenic footprint on the northern coast of Alaska is growing. As a result, human-polar bear interactions in this region are increasing. These interactions have the potential to be dangerous for humans, harmful to polar bears, and, therefore, require deliberate management. In this thesis, I examined two study systems that lacked the depth of knowledge necessary to craft defensible management plans. My research generated information regarding human-polar bear interactions that could be used to shape policy in the Arctic. In Chapter 1, I explored a dataset that documented human-polar bear interactions at a popular polar bear viewing area in Kaktovik, Alaska. My objectives were to determine what factors influence 1) polar bear displacement (temporary or permanent) from the viewing area and 2) human response (assertive or neutral) to an approaching bear. Using logistic regression, I determined that permanent polar bear displacement was more likely later in the observation season and when the bear’s initial reaction to a human approach occurred as a greater distance. I also found that humans were more likely to act assertively towards a bear when food resources (i.e., whale bone pile) in the area were depleted. These behavioral patterns indicate that human and bear tolerance change over time and in relation to resource availability. In Chapter 2, I conducted the first systematic evaluation of polar bear behavioral response to overhead aircraft traffic. I conducted field sampling in a fixed-wing aircraft and observed polar bear response at varying altitudes. My goal was to intentionally elicit a behavioral response that, under the guidelines in the Marine Mammal Protection Act, would be considered biologically significant. My objectives were then to 1) predict when a polar bear would exhibit a biologically significant behavioral response and 2) estimate the probability of an aircraft eliciting a biologically significant response at different altitudes above the animal. Using linear regression and a hierarchical Bayesian approach, I found that bears were most likely to exhibit a biologically significant response when they were active prior to sampling, located on the mainland coast, and the aircraft approach altitude was less than 457m (1500ft). Furthermore, I found that the probability of eliciting a biologically significant behavioral response at a flight altitude of 30m (100ft) was 21.31% for an inactive bear on a barrier island and 61.46% for an active bear on the mainland coast. Together, these research efforts address pressing knowledge gaps related to polar bear behavior on the northern coast of Alaska. Information generated from this project can be used to inform management and reduce disturbance for polar bears in a changing Arctic.

Polar Bears
Polar Bears

Author: IUCN Polar Bear Specialist Group. Working Meeting

Publisher: IUCN

Published: 1991

Total Pages: 118

ISBN-13: 9782831700397

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Proceedings of the tenth working meeting of the IUCN/SSC Polar Bear Specialist Group held in Sochi, USSR, October 25-29, 1988. Emphasis on polar bear conservation and management with reports from Canada, Greenland, Svalbard, Norway, Alaska and Soviet Arctic.

Human Interaction and Disturbance of Denning Polar Bears on Alaska's North Slope
Human Interaction and Disturbance of Denning Polar Bears on Alaska's North Slope

Author: Wesley G. Larson

Publisher:

Published: 2020

Total Pages: 11

ISBN-13:

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Across the central coast of Alaska’s North Slope, human-polar bear interactions concern both industry and wildlife managers alike. In response to sea ice reductions due to climate change, parturient polar bears (Ursus maritimus) in the Southern Beaufort Sea subpopulation are increasingly accessing coastal topography for suitable denning habitat. Land-denning bears are more susceptible to anthropogenic stressors, chiefly in areas with high levels of energy exploration, extraction, and production. For over 30 years, denning polar bears in the Southern Beaufort Sea subpopulation have been monitored directly or through opportunistic observations. Scientists have opportunistically recorded polar bear responses to aircraft, snow machines, track vehicles, heavy machinery, trucks, dogs, and humans afoot within the denning area. The long-term nature of this work and associated human-bear interaction observations represent a unique dataset that provides insight to wildlife managers into the way polar bears have responded to anthropogenic stimuli in active oil fields. Our objective here is to analyze the different disturbance stimuli at den sites and the associated bear responses. To do so, we subdivided potential stimuli into four groups based on the size, noise levels, and motion of each. Both field notes and video recordings of interactions were analyzed and ranked by response intensity where available. We found significant probabilities for disturbance among all stimulus classes, with aircraft showing the highest potential for initiating den abandonment. However, while all human activities elicited varying degrees of response, the overall response intensity was less than anticipated, even under high-use scenarios. Our data indicate that the current guideline of a 1.6 km (1 mile) buffer zone effectively minimizes disturbance to denning polar bears. These data will provide both wildlife managers and industry with information that can be used to promote polar bear conservation through minimizing disturbance and informing the development of alternative actions for dealing with bears denned near industrial activity.

Human-bear Interactions in the North Slope Oilfields of Alaska (USA)
Human-bear Interactions in the North Slope Oilfields of Alaska (USA)

Author: Nils J. S. Pedersen

Publisher:

Published: 2019

Total Pages: 196

ISBN-13:

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Minimizing unsafe human-bear (Ursus spp.) interactions in the North Slope oilfields of Alaska (USA) requires knowledge of where they occur and methods to prevent them. My research goals were to characterize the spatial and temporal dynamics of grizzly bear (U. arctos) sightings during the non-denning season around industrial infrastructure in the North Slope oilfields over the past 25 years (Chapter 2), and to evaluate the efficacy of forward-looking infrared (FLIR) systems to detect grizzly bears and polar bears (U. maritimus) in their winter dens (Chapter 3). I used reports (n = 2,453) of summer grizzly bear sightings collected by oilfield security officers from 1990–2014 to estimate how the spatial distribution of sightings for food-conditioned (FC) and natural food (NF) bears changed following restriction of bear access to anthropogenic food waste (to be known hereafter as “treatment”) in 2001. I found that concentrations of FC bear sightings shifted toward the landfill with medium-low effect (Hedges’ g = 0.41), one of the only remaining areas with available food waste, after the treatment. The treatment also decreased NF bear sighting distances to landfill with low effect (Hedges’ g = 0.15). My findings suggested that grizzly bear access to food waste should be prevented to minimize negative human-bear interactions and that an active bear reporting system facilitates adaptive management of human-bear interactions. During the winter, grizzly bears and pregnant female polar bears enter dens in areas that overlap anthropogenic activity. FLIR techniques have been used to locate occupied dens by detecting heat emitted from denned bears. However, the effects of environmental conditions on den detection have not been rigorously evaluated. I used a FLIR-equipped Unmanned Aircraft System (UAS) to collect images of artificial polar bear (APD) and grizzly bear (AGD) dens from horizontal and vertical perspectives from December 2016 to April 2017 to assess how odds of detection changed relative to den characteristics and environmental conditions. I used logistic regression to estimate effects of 11 weather variables on odds of detection using 291 images. I found that UAS-FLIR detected APDs two times better than AGDs, vertical perspective detected 4 times better than horizontal, and that lower air temperatures and wind speeds, and the absence of precipitation and direct solar radiation increased odds of detection for APDs. An increase of 1°C air temperature lowered the odds of detection by 12% for APD, and 8% for AGDs, but physical den characteristics such as den snow wall thickness determined detectability of AGDs. UAS-FLIR surveys should be conducted on cold, clear days, with calm winds and minimal solar radiation, early in the denning season. UAS-FLIR detectionof bear dens can be effective but should be confirmed by a secondary method.