Under Contract with Northeast Fisheries Science Center, National Marine Fisheries Service, NOAA, Woods Hole, MA USA ; Scottish Association for Marine Science (SAMS), Scottish Marine Institute, Oban, Argyll, Scotland UK.
National Marine Mammal Laboratory, Alaska Fisheries Science Center, National Marine Fisheries Service, NOAA, Seattle, WA USA.
Mov Ecol. 2014 Nov 18;2(1):24. doi: 10.1186/s40462-014-0024-3. eCollection 2014.
Little is known about migration patterns and seasonal distribution away from coastal summer feeding habitats of many pelagic baleen whales. Recently, large-scale passive acoustic monitoring networks have become available to explore migration patterns and identify critical habitats of these species. North Atlantic minke whales (Balaenoptera acutorostrata) perform seasonal migrations between high latitude summer feeding and low latitude winter breeding grounds. While the distribution and abundance of the species has been studied across their summer range, data on migration and winter habitat are virtually missing. Acoustic recordings, from 16 different sites from across the North Atlantic, were analyzed to examine the seasonal and geographic variation in minke whale pulse train occurrence, infer information about migration routes and timing, and to identify possible winter habitats.
Acoustic detections show that minke whales leave their winter grounds south of 30° N from March through early April. On their southward migration in autumn, minke whales leave waters north of 40° N from mid-October through early November. In the western North Atlantic spring migrants appear to track the warmer waters of the Gulf Stream along the continental shelf, while whales travel farther offshore in autumn. Abundant detections were found off the southeastern US and the Caribbean during winter. Minke whale pulse trains showed evidence of geographic variation, with longer pulse trains recorded south of 40° N. Very few pulse trains were recorded during summer in any of the datasets.
This study highlights the feasibility of using acoustic monitoring networks to explore migration patterns of pelagic marine mammals. Results confirm the presence of minke whales off the southeastern US and the Caribbean during winter months. The absence of pulse train detections during summer suggests either that minke whales switch their vocal behaviour at this time of year, are absent from available recording sites or that variation in signal structure influenced automated detection. Alternatively, if pulse trains are produced in a reproductive context by males, these data may indicate their absence from the selected recording sites. Evidence of geographic variation in pulse train duration suggests different behavioural functions or use of these calls at different latitudes.
对于许多远洋须鲸类动物来说,除了沿海夏季摄食栖息地外,人们对它们的迁徙模式和季节性分布知之甚少。最近,大规模的被动声学监测网络已经可以用于探索这些物种的迁徙模式和识别关键栖息地。北大西洋小须鲸(Balaenoptera acutorostrata)在高纬度夏季摄食区和低纬度冬季繁殖地之间进行季节性迁徙。虽然该物种的分布和数量已经在其夏季活动范围内进行了研究,但关于迁徙和冬季栖息地的数据实际上是缺失的。对来自北大西洋 16 个不同地点的声学记录进行了分析,以研究小须鲸脉冲串出现的季节性和地理变化,推断有关迁徙路线和时间的信息,并识别可能的冬季栖息地。
声学检测显示,小须鲸于 3 月至 4 月初离开北纬 30°以南的冬季栖息地。在秋季向南迁徙时,小须鲸于 10 月中旬至 11 月初离开北纬 40°以北的水域。在北大西洋西部,春季洄游的小须鲸似乎沿着大陆架跟踪墨西哥湾流的温暖水域,而在秋季则航行到更远的外海。冬季在东南美国和加勒比地区发现了大量的小须鲸。在冬季,小须鲸的脉冲串记录显示出地理变异的证据,在北纬 40°以南记录到的脉冲串更长。在任何数据集的夏季,都很少记录到脉冲串。
本研究强调了使用声学监测网络探索远洋海洋哺乳动物迁徙模式的可行性。结果证实了冬季东南美国和加勒比地区存在小须鲸。在夏季任何数据集都没有记录到脉冲串,这可能表明小须鲸在每年的这个时候改变了它们的发声行为,或者缺乏可用于记录的地点,或者信号结构的变化影响了自动检测。或者,如果脉冲串是由雄性在繁殖期间产生的,这些数据可能表明它们在选定的记录地点不存在。脉冲串持续时间的地理变异证据表明,不同的行为功能或在不同纬度使用这些叫声。
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