Collaborative Research: Decomposing the effects of diversity on the abundance of marine parasites

合作研究：分解多样性对海洋寄生虫丰度的影响

• 批准号: 1829419
• 负责人: Alison Haupt
• 金额: $ 9万
• 依托单位: University Corporation at Monterey Bay
• 依托单位国家: 美国
• 项目类别: Standard Grant
• 财政年份: 2018
• 资助国家: 美国
• 起止时间: 2018-10-01 至 2024-09-30
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=1829419&HistoricalAwards=false
• 关键词: Collaborative; Research; Decomposing; effects; diversity

Nontechnical explanation of the project?s broader significance and importanceAs Earth's ecosystems experience rapid biodiversity change, disease ecologists have turned to an urgent question: how might reductions in biodiversity affect the transmission of parasites? In other words, does biodiversity loss increase the abundance of parasites by eroding natural checks and balances on transmission? Alternatively, does it decrease parasite abundance by removing the free-living biodiversity on which parasites depend? This study will constitute the first comprehensive test of these questions in any ecosystem. It will evaluate the relationship between fish biodiversity and parasite abundance across 18 replicate coral reef ecosystems. Not only will the work explore whether reductions in fish biodiversity are associated with increases or decreases in parasite burdens, it will also assess whether parasite and host traits or geographical distance influence the direction and strength of this relationship. The theories that are tested are among the most important and controversial in the rapidly growing field of disease ecology and our work represents a novel, creative approach to a long standing, but unresolved research question. The work will yield transformative insights into the nature of parasite transmission in a changing world. Furthermore, the project will intimately intermingle education with research by launching the Research Internship in Molecular Ecology at California State Monterey Bay, which will place a group of underrepresented undergraduates in a central research role, and by developing and disseminating quality educational tools for teaching about parasite biodiversity through collaboration with the Network of Conservation Educators and Practitioners at the American Museum of Natural History. Parasites are often hidden and can be easy to overlook, but they are ecologically important and affect every population of marine animals. Technical description of the projectThe field of disease ecology is plagued by uncertainty and disagreement over whether biodiversity loss exacerbates parasite transmission, because it lacks the comprehensive, multi-host, multi-parasite, broad-spatial-scale dataset needed to formulate a convincing empirical test.This project will answer this recalcitrant question, using a dataset of unprecedented replication and taxonomic and spatial resolution, by exploiting the advantages of a marine model system. The project is centered on a natural experiment in which the abundance of parasites across a highly resolved gradient of host biodiversity, for more than 77 parasite species and 18 replicate coral reef ecosystems will be quantified. Dataset will critically test hypotheses for the biodiversity-parasite abundance relationship, revealing how the direction, shape, and scale-dependence of this relationship vary across a diverse array of parasite taxa, and resolving questions of burning interest in the disease ecology literature - and of vital importance to marine conservation. This project will address the following questions: (Q1) For each parasite species detected, what is the direction and shape of the relationship between biodiversity and parasite abundance? (Q2) What factors (e.g., parasite traits like transmission strategy and host specificity, host traits like body size) determine the direction and shape of the relationship between biodiversity and parasite abundance? (Q3) How does spatial scale interact with parasite dispersal capacity to moderate the effects of biodiversity on parasite abundance? The work will integrate an existing dataset on fish biodiversity and abundance of coral reef fish parasites from six equatorial Pacific islands (the Northern Line Islands) with new sampling from 12 additional islands (the Southern Line Islands and French Polynesia). The resulting dataset will reflect the burden of 77 metazoan parasite taxa for seven species of coral reef fishes across18 islands. The work will provide the world's first data on the direction, magnitude, and shape of the biodiversity-disease relationship across a diversity of parasite taxa, host taxa, and spatial scales, and will comprehensively identify conditions under which biodiversity is likely to be important in determining the abundance of parasites - a fundamental contribution to ecology and to biological oceanography. The project will intimately integrate education with research by placing a group of underrepresented minority undergraduates in a central research role: performing the molecular analyses required to estimate parasite dispersal distance. A summer Research Internship in Molecular Ecology will be established at California State University Monterey Bay, a Hispanic-Serving Institution. The project will also underwrite the development of a peer-reviewed learning module on parasite biodiversity, to be developed and disseminated in collaboration with the American Museum of Natural History, and will support the training of two graduate students, one postdoctoral scholar, and several undergraduates.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.

项目的非技术性解释？随着地球生态系统的生物多样性迅速变化，疾病生态学家转向了一个紧迫的问题：生物多样性的减少如何影响寄生虫的传播？换句话说，生物多样性的丧失是否会通过侵蚀对传播的自然制衡来增加寄生虫的丰度？或者，它是否通过消除寄生虫所依赖的自由生活的生物多样性来减少寄生虫的丰度？这项研究将构成对任何生态系统中这些问题的第一次全面测试。它将评估18个复制珊瑚礁生态系统中鱼类生物多样性和寄生虫丰度之间的关系。这项工作不仅将探索鱼类生物多样性的减少是否与寄生虫负担的增加或减少有关，还将评估寄生虫和宿主特征或地理距离是否影响这种关系的方向和强度。所测试的理论是疾病生态学快速发展领域中最重要和最有争议的理论之一，我们的工作代表了一种新颖的，创造性的方法来解决一个长期存在但尚未解决的研究问题。 这项工作将对不断变化的世界中寄生虫传播的性质产生变革性的见解。此外，该项目将通过在加州州蒙特雷湾启动分子生态学研究实习，将教育与研究紧密结合，这将使一群代表性不足的本科生发挥中心研究作用，通过与美国自然博物馆的保护教育者和实践者网络合作，开发和传播关于寄生虫生物多样性的优质教育工具，历史寄生虫通常是隐藏的，很容易被忽视，但它们在生态上很重要，影响着每一个海洋动物种群。疾病生态学领域一直被生物多样性丧失是否会加剧寄生虫传播的不确定性和分歧所困扰，因为它缺乏制定令人信服的经验测试所需的全面的、多宿主、多寄生虫、大空间尺度的数据集。该项目将回答这个令人困惑的问题，使用前所未有的复制和分类和空间分辨率的数据集，利用海洋模型系统的优势。该项目以一项自然实验为中心，在该实验中，将对超过77种寄生虫物种和18种复制珊瑚礁生态系统的宿主生物多样性的高分辨率梯度中的寄生虫丰度进行量化。数据集将严格检验生物多样性-寄生虫丰度关系的假设，揭示这种关系的方向、形状和规模依赖性如何在各种寄生虫类群中变化，并解决疾病生态学文献中的热点问题，这对海洋保护至关重要。本项目将解决以下问题：（Q1）对于检测到的每种寄生虫，生物多样性和寄生虫丰度之间的关系的方向和形状是什么？(Q2)哪些因素（例如，寄生虫的特征如传播策略和宿主特异性，宿主特征如体型）决定了生物多样性和寄生虫丰度之间关系的方向和形式？(Q3)空间尺度如何与寄生虫扩散能力相互作用，以缓和生物多样性对寄生虫丰度的影响？这项工作将把关于赤道太平洋六个岛屿（北方群岛）的鱼类生物多样性和珊瑚礁鱼类寄生虫丰度的现有数据集与另外12个岛屿（南线群岛和法属波利尼西亚）的新取样相结合。由此产生的数据集将反映跨越18个岛屿的7种珊瑚礁鱼类的77种后生动物寄生虫类群的负担。 这项工作将提供世界上第一个关于寄生虫分类群，宿主分类群和空间尺度多样性的生物多样性-疾病关系的方向，幅度和形状的数据，并将全面确定生物多样性在确定寄生虫丰度方面可能很重要的条件-对生态学和生物海洋学的基本贡献。 该项目将把教育与研究紧密结合起来，将一组代表性不足的少数民族大学生置于中心研究角色：进行估计寄生虫传播距离所需的分子分析。在分子生态学的夏季研究实习将建立在加州州立大学蒙特利湾，西班牙裔服务机构。该项目还将与美国自然历史博物馆合作，资助开发一个关于寄生虫生物多样性的同行审查学习模块，并将支持培训两名研究生、一名博士后学者、该奖项反映了NSF的法定使命，并被认为是值得通过使用基金会的智力价值和更广泛的影响审查标准。