RAPID: COLLABORATIVE RESEARCH: Ecological & genetic recovery from a massive invertebrate die-off along the central coast of California

快速：合作研究：生态

• 批准号: 1243970
• 负责人: Michael Dawson
• 金额: $ 7.7万
• 依托单位: University of California - Merced
• 依托单位国家: 美国
• 项目类别: Standard Grant
• 财政年份: 2012
• 资助国家: 美国
• 起止时间: 2012-07-15 至 2014-06-30
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=1243970&HistoricalAwards=false
• 关键词: RAPID; COLLABORATIVE; RESEARCH; Ecological; &amp

The potentially important role that larval dispersal may play in determining gene flow, distributions, and population structure of marine invertebrates remains unclear despite many hundreds of descriptive comparisons of pelagic duration and population genetic structure. This lack of clarity suggests many factors may influence population genetic structure and their interactions may be complex. Difficulties studying these factors include (under normal circumstances) distinguishing local from exogenous recruitment and therefore the true distribution of dispersal distances. For example, experiments that normally could be undertaken to explore this issue are very small scale relative to the distances that many marine taxa may disperse.In August 2011, a large-scale natural removal experiment was initiated along a 100 km stretch of the central California coast. The PIs propose to use this rare opportunity to clarify the effects of dispersal and species interactions on marine population genetic variation and community structure. They propose to study three species that suffered very high rates of mortality: an ecosystem engineer (Strongylocentrotus purpuratus, ~100% mortality), a keystone species (Pisaster ochraceus, ~10-70% mortality), and one of its competitors (Leptasterias sp., ~100% mortality). Their objectives during this first year following the natural large-scale die-off are to [1] quantify the abundance and distribution of the target species at sites across the impacted range and reference sites to the south and north, [2] develop and use genetic markers to identify the sources and dispersal distances of new recruits of P. ochraceus, Leptasterias sp., and S. purpuratus that recolonize the impacted range, and [3] describe changes in abundance of these three species and their prey and competitors at sites throughout the impacted range.

尽管对远洋生存期和种群遗传结构进行了数百次描述性比较，但幼虫扩散在决定海洋无脊椎动物基因流动、分布和种群结构方面可能发挥的潜在重要作用仍不清楚。这种缺乏明确性表明，许多因素可能影响种群遗传结构，它们之间的相互作用可能是复杂的。研究这些因素的困难包括（在正常情况下）区分本地和外源招募，因此分散距离的真实分布。例如，与许多海洋分类群可能分散的距离相比，通常为探索这一问题而进行的实验规模非常小。2011年8月，一项大规模的自然清除实验在加利福尼亚中部海岸100公里的范围内展开。pi建议利用这一难得的机会来阐明扩散和物种相互作用对海洋种群遗传变异和群落结构的影响。他们建议研究三种死亡率非常高的物种：一种生态系统工程师（Strongylocentrotus purpuratus，死亡率为100%），一种关键物种（Pisaster ochraceus，死亡率为10-70%），以及它的竞争对手之一（Leptasterias sp.，死亡率为100%）。在自然大规模死亡后的第一年，他们的目标是在受影响范围内和南北参考地点量化目标物种的丰度和分布，开发和使用遗传标记来确定新招募的P. ochraceus, Leptasterias sp.和S. purpuratus在受影响范围内重新定居的来源和扩散距离。[3]描述了这三种物种及其猎物和竞争对手在受影响范围内的丰度变化。