5 research outputs found

    Satellite traceology: experience of using in the interests of mammalogy for protection of ice-associated marine mammals

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    Advanced technology of satellite traceology is presented on the base of using the synthetic aperture radar (SAR) with high space and deep resolution installed for the first time onboard Soviet space station Almaz and now functioning successfully onboard the satellites Envisat and RADARSAT. The SAR traceology is the central issue of the satellite eco-criminology and concerns to theory of the traces formation, variability, and preservation in undamaged state. Ships coordinates, their traces and complexity of ice routing are fixed by the method of satellite charting, and their possible influence on ice-associated marine mammals is assessed. Numerous examples of SAR satellite control on navigation in stormy weather and ships’ presence in ice with different compactness, origin and age are overviewed, as well as impact of travel facilities on ice-associated animals welfare. Some incidents potentially dangerous for marine mammals are considered for the Gulf of Finland (Baltic Sea). Parameters of the ice cover, as openings, large fractures, and polynyas made by icebreakers in this area were determined on the base of the satellite SAR data, comprehensive digital ice maps with scheme of real ships’ routes in the ice were prepared, and the routes correspondence with ESIMO demands was assessed. The satellite SAR survey in the Kandalaksha Bay (White Sea) allowed to fix that winter navigation in the White Sea provoked formation of fractures and polynyas and reduced the sea ice area suitable for reproduction of greenland seals. For validation of this situation, airborne control was organized aboard the aircraft L-410 «Nord» that provided panoramic and IR images of ship channel through the rookeries of the seals in time of their reproduction. Besides, the aircraft made observations of pacific walruses behavior in the Bering Sea which were superposed with the satellite SAR and passive microwave survey in frame of the project «Pacific Walrus». Traceological control of the sea ice in the Anadyr Bay (Bering Sea) allowed to determine the size of openings in the ice and to assess the influence of tide and wind on welfare of ice-associated marine mammals. Some cases of infringement the regulation of navigation were revealed by means of the satellite SAR traceology

    Results of instrumental aerial survey of ice-associated seals on the ice in the Okhotsk Sea in May 2013

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    Populations of ice-associated seals in the Okhotsk Sea are assessed using modern instrumental aerial technique. The aerial survey was conducted over a part of the ice-covered area of the Sea on May 1-9, 2013 by means of thermal scan and visual digital photography from the aircraft-laboratory An-38 «Vostok». The ice covered area of the Okhotsk Sea in the time of survey was estimated as 242,000 km2, and 2,993 km2 of it was covered by survey transects with total length 5,617 km. The number of animals on all transects within the equipment swath was counted. Four seal species were identified: bearded, spotted, ribbon, and ringed seals, and their number and distribution were determined. The infra-red scanner recorded 5,730 seals on the ice and 4,360 these animals were photographed including 844 ringed seals, 453 bearded, 721 spotted, 1,805 ribbon, 435 pups non-identified to the species, and 102 non-identified to species adult seals. These assessments were extrapolated over the whole ice-covered area of the Okhotsk Sea using a linear model framework, and the following estimations of the species total abundance were presented (95 % confidence intervals in brackets): 88,253 (64,120-130,320) ringed seals, 39,743 (27,868-60,026) bearded seals, 181,179 (118,392-316,995) ribbon seals, and 84,356 (55,172-113,540) spotted seals. A database on all recorded seals with their «portrait-photos» and accompanying information is created on materials of the aerial survey. The developed instrumental technology can be used as a basis for wider aerial surveys of ice-associated seals in the North Pacific

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    Aerial survey estimates of polar bears and their tracks in the Chukchi Sea.

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    Polar bears are of international conservation concern due to climate change but are difficult to study because of low densities and an expansive, circumpolar distribution. In a collaborative U.S.-Russian effort in spring of 2016, we used aerial surveys to detect and estimate the abundance of polar bears on sea ice in the Chukchi Sea. Our surveys used a combination of thermal imagery, digital photography, and human observations. Using spatio-temporal statistical models that related bear and track densities to physiographic and biological covariates (e.g., sea ice extent, resource selection functions derived from satellite tags), we predicted abundance and spatial distribution throughout our study area. Estimates of 2016 abundance ([Formula: see text]) ranged from 3,435 (95% CI: 2,300-5,131) to 5,444 (95% CI: 3,636-8,152) depending on the proportion of bears assumed to be missed on the transect line during Russian surveys (g(0)). Our point estimates are larger than, but of similar magnitude to, a recent estimate for the period 2008-2016 ([Formula: see text]; 95% CI 1,522-5,944) derived from an integrated population model applied to a slightly smaller area. Although a number of factors (e.g., equipment issues, differing platforms, low sample sizes, size of the study area relative to sampling effort) required us to make a number of assumptions to generate estimates, it establishes a useful lower bound for abundance, and suggests high spring polar bear densities on sea ice in Russian waters south of Wrangell Island. With future improvements, we suggest that springtime aerial surveys may represent a plausible avenue for studying abundance and distribution of polar bears and their prey over large, remote areas
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