Habitat connectivity: terrestrial and marine hotspots for seabirds, chemical biotransport, and the role of seabirds in coastal ecosystems

栖息地连通性：海鸟的陆地和海洋热点、化学生物迁移以及海鸟在沿海生态系统中的作用

基本信息

批准号：
RGPIN-2017-03842
负责人：
Mallory, Mark
金额：
$ 2.91万
依托单位：
Acadia University
依托单位国家：
加拿大
项目类别：
Discovery Grants Program - Individual
财政年份：
2020
资助国家：
加拿大
起止时间：
2020-01-01 至 2021-12-31
项目状态：
已结题

来源：
https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=710579
关键词：
Habitat connectivity terrestrial marine hotspots

项目摘要

In Arctic and Atlantic Canada, coastal regions perform important ecological functions and provide critical wildlife habitat, but they are subject to increasing and novel anthropogenic stressors such as development, contamination, marine traffic, and climate change. A key question for scientists, managers and politicians is “how can we predict the effects of anthropogenic stressors on coastal wildlife populations and their habitats in these areas when so few data are available on their ecology and habitat needs?” My research program will build on my lab's experience and success in remote field work to test the overall hypothesis that key coastal and marine habitats for migratory birds are predictable, and are connected through bird behaviour and ecology, which ultimately leads to chemical connectivity across different spatial scales. Specifically, during the next 5 years, my lab will: (1) identify spatio-temporal variability of important coastal and marine wildlife habitats in Arctic and Atlantic Canada through the use of colony-based ecological research, telemetry devices and paleoenvironmental approaches; and (2) examine migratory birds as biovectors of contaminants to terrestrial environments from marine foraging areas through ecosystem-wide chemical analyses. To achieve these objectives, we will undertake telemetry studies on 3 species that are virtually unstudied in these regions (terns, kittiwakes, guillemots) to identify species-, sex- and colony-specific seasonal and annual habitat use. Additionally, we will merge these data with our previously gathered telemetry information on other Arctic marine birds to identify multi-species hotspots, and assess environmental factors that might influence the spatio-temporal occurrence of these key locations. We will also examine the biotransport of nutrients and contaminants from ocean to land, and specifically we will test for spatial, species-specific and temporal variation in types and concentrations of contamination in environmental archives at bird colonies (collaborating with international leaders in paleoenvironmental and contaminant research). My research program will result in a significant advancement in locating and defining key habitats for wildlife in Arctic and Atlantic Canada and how those habitats have changed through time. This unique information is vital for environmental assessment, marine protected area and land use planning projects, and for predictive modeling of future environmental conditions in key coastal habitats. As well, the environmental data on contaminants will be critical for assessing stores of contaminants at various locations, determining how and when birds moved these contaminants at different colonies, and modelling releases of those pollutants with changing climate and concomitant processes of melt and erosion.

在加拿大的北极和大西洋地区，沿海地区发挥着重要的生态功能，并提供了重要的野生动物栖息地，但它们面临着不断增加的新型人为压力因素，如开发、污染、海洋交通和气候变化，这是科学家、管理者和政治家面临的一个关键问题。 “当有关这些地区的沿海野生动物种群及其栖息地的生态和栖息地需求的数据如此之少时，我们如何预测人为压力源对这些地区的影响？我的研究计划将建立在我的实验室在偏远实地工作的经验和成功的基础上？”检验关键的总体假设候鸟的沿海和海洋栖息地是可预测的，并通过鸟类行为和生态联系起来，最终导致不同空间尺度上的化学连通性。具体来说，在未来五年内，我的实验室将：（1）识别时空变异性。通过使用基于群体的生态研究、遥测设备和古环境方法，研究加拿大北极和大西洋地区重要的沿海和海洋野生动物栖息地；(2) 检查候鸟作为陆地环境污染物的生物载体；通过整个生态系统的化学分析从海洋觅食区获取。为了实现这些目标，我们将对这些地区实际上尚未研究的 3 个物种（燕鸥、三趾鸥、海鸠）进行遥测研究，以确定物种、性别和群体特定的季节性和年度栖息地使用情况。我们还将利用我们之前收集的其他北极海洋鸟类的遥测信息来识别多物种热点，并评估可能影响这些关键位置时空发生的环境因素。以及从海洋到陆地的污染物，具体来说，我们将测试鸟类栖息地环境档案中污染类型和浓度的空间、物种特异性和时间变化（与古环境和污染物研究领域的国际领导者合作）。我的研究项目将在定位和定义加拿大北极和大西洋地区野生动物的主要栖息地以及这些栖息地如何随时间变化方面取得重大进展，这些独特的信息对于环境评估、海洋保护区和土地利用规划项目至关重要。此外，污染物的环境数据对于评估不同地点的污染物储存、确定鸟类如何以及何时将这些污染物转移到不同的栖息地以及对这些污染物的释放进行建模至关重要。随着气候变化以及随之而来的融化和侵蚀过程。