Mapping Polar Bear Maternal Denning Habitat in the National Petroleum Reserve–Alaska with an IfSAR Digital Terrain Model

The National Petroleum Reserve–Alaska (NPR-A) in northeastern Alaska provides winter maternal denning habitat for polar bears (Ursus maritimus) and also has high potential for recoverable hydrocarbons. Denning polar bears exposed to human activities may abandon their dens before their young are able to survive the severity of Arctic winter weather. To ensure that wintertime petroleum activities do not threaten polar bears, managers need to know the distribution of landscape features in which maternal dens are likely to occur. Here, we present a map of potential denning habitat within the NPR-A. We used a fine-grain digital elevation model derived from Interferometric Synthetic Aperture Radar (IfSAR) to generate a map of putative denning habitat. We then tested the map’s ability to identify polar bear denning habitat on the landscape. Our final map correctly identified 82% of denning habitat estimated to be within the NPR-A. Mapped denning habitat comprised 19.7 km2 (0.1% of the study area) and was widely dispersed. Though mapping denning habitat with IfSAR data was as effective as mapping with the photogrammetric methods used for other regions of the Alaskan Arctic coastal plain, the use of GIS to analyze IfSAR data allowed greater objectivity and flexibility with less manual labor. Analytical advantages and performance equivalent to that of manual cartographic methods suggest that the use of IfSAR data to identify polar bear maternal denning habitat is a better management tool in the NPR-A and wherever such data may be available.La réserve pétrolière nationale–Alaska (NPR-A), située dans le nord-est de l’Alaska (NPR-A), constitue un habitat hivernal de tanières de mise bas pour l’ours polaire (Ursus maritimus) et présente de grandes possibilités du point de vue des hydrocarbures récupérables. Les ours polaires des tanières qui sont exposés aux activités de l’être humain peuvent abandonner leur tanière avant que leurs petits ne soient prêts à survivre les rigueurs de l’hiver de l’Arctique. Afin de faire en sorte que les activités d’exploitation pétrolière hivernales ne posent pas de menaces aux ours polaires, les gestionnaires doivent connaître la répartition des caractéristiques du paysage où les tanières de mise bas sont susceptibles de se trouver. Ici, nous présentons une carte sur laquelle sont indiqués des habitats de tanières possibles au sein de la NPR-A. Nous avons utilisé un système de modélisation numérique des hauteurs à haute définition dérivé du radar interférométrique à synthèse d’ouverture (IfSAR) pour produire une carte putative de l’habitat de tanières. Ensuite, nous avons mis la carte à l’épreuve pour déterminer son aptitude à repérer l’habitat de tanières de mise bas au sein du paysage. Notre carte finale a repéré avec exactitude 82 % de l’habitat de tanières qui se trouverait à l’intérieur de la NPR-A. L’habitat de tanières cartographié s’étendait sur 19,7 km2 (0,1 % de l’aire étudiée) et était largement dispersé. Même si la cartographie de l’habitat de tanières au moyen des données de l’IfSAR était aussi efficace que la cartographie des méthodes photogrammétriques employées dans d’autres régions de la plaine côtière arctique de l’Alaska, l’utilisation du SIG pour analyser les données de l’IfSAR a donné lieu à une plus grande objectivité et flexibilité, avec moins de main-d’oeuvre. Les avantages analytiques et l’exécution équivalant à celles des méthodes de carto-graphie manuelles suggèrent que le recours aux données de l’IfSAR pour repérer l’habitat de tanières de mise bas d’ours polaires constitue un outil de gestion supérieur au sein de la NPR-A et de n’importe quel autre endroit où ces données sont disponibles

Reference intervals for blood-based biochemical analytes of southern Beaufort Sea polar bears

AbstractAccurate reference intervals (RIs) for commonly measured blood-based analytes are essential for health monitoring programmes. Baseline values for a panel of analytes can be used to monitor physiologic and pathophysiologic processes such as organ function, electrolyte balance and protein catabolism. Our reference population includes 651 serum samples from polar bears (Ursus maritimus) from the southern Beaufort Sea (SB) subpopulation sampled in Alaska, USA, between 1983 and 2016. To establish RI for 13 biochemical analytes, we defined specific criteria for characterizing the reference population and relevant subgroups. To account for differences in seasonal life history characteristics, we determined separate RI for the spring and fall seasons, when prey availability and energetic requirements of bears differ. We established RI for five subgroups in spring based on sex, age class and denning status, and three subgroups in fall based on sex and age class in females only. Alkaline phosphatase activities were twice as high in subadult as in adult polar bears in spring (zmales = 4.08, Pmales &lt; 0.001, zfemales = 3.90, Pfemales &lt; 0.001) and did not differ between seasons. Denning females had significantly higher glucose concentrations than non-denning females (z = 4.94, P &lt; 0.001), possibly reflecting differences in energy expenditure during lactation. A total of 10 of the 13 analytes differed significantly between seasons in either males or females; however, the physiologic importance of these differences may be minimal. Establishing these RIs allows for temporal monitoring of polar bear health in the SB and may prove useful for assessing and monitoring additional polar bear subpopulations in a changing Arctic environment.</jats:p

Identifying reliable indicators of fitness in polar bears.

Animal structural body size and condition are often measured to evaluate individual health, identify responses to environmental change and food availability, and relate food availability to effects on reproduction and survival. A variety of condition metrics have been developed but relationships between these metrics and vital rates are rarely validated. Identifying an optimal approach to estimate the body condition of polar bears is needed to improve monitoring of their response to decline in sea ice habitat. Therefore, we examined relationships between several commonly used condition indices (CI), body mass, and size with female reproductive success and cub survival among polar bears (Ursus maritimus) measured in two subpopulations over three decades. To improve measurement and application of morphometrics and CIs, we also examined whether CIs are independent of age and structural size-an important assumption for monitoring temporal trends-and factors affecting measurement precision and accuracy. Maternal CIs and mass measured the fall prior to denning were related to cub production. Similarly, maternal CIs, mass, and length were related to the mass of cubs or yearlings that accompanied her. However, maternal body mass, but not CIs, measured in the spring was related to cub production and only maternal mass and length were related to the probability of cub survival. These results suggest that CIs may not be better indicators of fitness than body mass in part because CIs remove variation associated with body size that is important in affecting fitness. Further, CIs exhibited variable relationships with age for growing bears and were lower for longer bears despite body length being related to cub survival and female reproductive success. These results are consistent with findings from other species indicating that body mass is a useful metric to link environmental conditions and population dynamics