Collaborative Research: Modeling organismal responses to changing ecological regimes via investigation of stress, growth and reproduction in the longest-lived mammal

合作研究：通过研究最长寿哺乳动物的压力、生长和繁殖，模拟生物体对不断变化的生态状况的反应

• 批准号: 2122889
• 负责人: Leslie New
• 金额: $ 29.48万
• 依托单位: Ursinus College
• 依托单位国家: 美国
• 项目类别: Continuing Grant
• 财政年份: 2021
• 资助国家: 美国
• 起止时间: 2021-09-01 至 2025-08-31
• 项目状态: 未结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=2122889&HistoricalAwards=false
• 关键词: Collaborative; Research; Modeling; organismal; responses

This project uses new techniques to analyze historical museum specimens of whale baleen (long vertical strips of keratin that grow slowly from a whale's upper jaw) to investigate how environmental change affects long-lived animals. Environmental change can have dramatic effects on wildlife, but these effects often unfold slowly across many years, challenging scientists' ability to gather data across sufficient stretches of time. It has recently been discovered that baleen contains hormones that are deposited as the baleen grows, such that one piece of baleen contains a detailed record of individual whales’ reproductive history, stress and general health across decades. Baleen also contains carbon and nitrogen signatures that enable reconstruction of the whale's diet as well as its migration history. This project will use these new techniques to analyze museum baleen collected from the 1800s to the 1980s from bowhead whales (Balaena mysticetus), which can live 200 years, to investigate long-term, multi-year impacts of environmental change on stress, growth and reproduction in a long-lived mammal. Statistical modeling will put results into a broader context, illuminating how whales, and by extension other long-lived mammals, respond to environmental change over time. The project will engage ~40 undergraduates in Smithsonian-based research, train a postdoc and PhD student, result in numerous public talks at participating museums, involve Native Alaskan communities whose ancestors originally collected the specimens, and distribute results at scientific conferences and in peer-reviewed publications, thus contributing to broader societal impacts.Environmental change causes physiological impacts that can last years in long-lived species, yet there is a dearth of methods for quantifying such impacts and their population effects across the necessary decadal timescales. This project employs recently developed analytic techniques for whale baleen to address this data gap, testing the hypothesis that sudden changes in marine conditions cause subsequent multi-year impacts on stress, growth and reproduction of individuals, and that this information can be used to model population-level responses to current and predicted environmental change. The project utilizes archived museum specimens of baleen from bowhead whales (Balaena mysticetus), selected due to their slow-growing baleen, exceptionally long lifespan (200 years), large range, and well-documented environmental shifts in their North Pacific winter and Arctic Ocean summer habitats. Fifty-six specimens of baleen collected from 1859-1989 will be sampled at 2-cm intervals for stable isotopes and 4-cm intervals for adrenal, thyroid and reproductive hormones, enabling reconstruction of individual histories across decades with approximately monthly resolution. Specific objectives include: (1) Determine lifetime endocrine history of juveniles before and after a well-documented 1977 North Pacific ecological regime shift, using a panel of four hormones to assess stress physiology; (2) Assess potential impacts of such stress on juvenile growth rate; (3) Expand a long-term dataset on historic patterns of stress and reproduction in adults in eras characterized by varying anthropogenic and environmental impacts; (4) Use the resulting data to model linkages between ecological change, individual physiology, and potential population impacts, using the Population Consequences of Disturbance framework.This award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.

该项目使用新技术分析历史博物馆的鲸鱼鲸须标本（从鲸鱼上颚缓慢生长的长垂直角蛋白条），以研究环境变化如何影响长寿动物。环境变化可能对野生动物产生巨大影响，但这些影响往往在多年内缓慢展开，这对科学家在足够长的时间内收集数据的能力构成了挑战。最近发现，鲸须含有激素，这些激素随着鲸须的生长而沉积，因此一块鲸须包含了几十年来个体鲸鱼生殖历史，压力和一般健康状况的详细记录。鲸须还含有碳和氮的特征，可以重建鲸鱼的饮食以及迁徙历史。该项目将使用这些新技术来分析从19世纪到20世纪80年代从北极露脊鲸（Balaena mysticetus）收集的博物馆鲸须，这些鲸可以活200年，以调查环境变化对长寿哺乳动物的压力，生长和繁殖的长期，多年影响。统计建模将把结果放在更广泛的背景下，阐明鲸鱼以及其他长寿哺乳动物如何随着时间的推移对环境变化做出反应。该项目将吸引40名本科生参与史密森尼大学的研究，培训博士后和博士生，在参与的博物馆进行大量的公开演讲，涉及祖先最初收集标本的阿拉斯加原住民社区，并在科学会议和同行评议的出版物中分发结果。从而对更广泛的社会影响做出贡献。环境变化对长寿物种造成的生理影响可能持续数年，然而，缺乏在必要的十年时间尺度上量化这些影响及其对人口的影响的方法。该项目采用最近开发的鲸鱼鲸须分析技术，以解决这一数据缺口，测试假设，海洋条件的突然变化导致随后多年的压力，个人的生长和繁殖的影响，这一信息可以用来模拟人口一级的反应，目前和预测的环境变化。该项目利用了博物馆存档的露脊鲸（Balaena mysticetus）的须鲸标本，这些标本是由于它们的须鲸生长缓慢，寿命特别长（200年），范围大，以及北太平洋冬季和北冰洋夏季栖息地的环境变化而被选中的。从1859年至1989年收集的五十六鲸须标本将以2厘米的间隔进行稳定同位素采样，以4厘米的间隔进行肾上腺、甲状腺和生殖激素采样，从而能够以大约每月一次的分辨率重建几十年来的个体历史。具体目标包括：（1）确定1977年北太平洋生态制度转变前后幼鱼的终生内分泌史，使用一组四种激素评估应激生理学;（2）评估这种应激对幼鱼生长率的潜在影响;（3）扩大关于在人为和环境影响不同的时代中成年鱼应激和生殖的历史模式的长期数据集;（4）使用由此产生的数据来模拟生态变化之间的联系，个人生理学，和潜在的人口影响，使用人口后果的干扰框架。这个奖项反映了NSF的法定使命，并已被认为是值得通过评估使用基金会的智力价值和更广泛的影响审查标准的支持。