EID: Collaborative Research - Linking Marine Pathogens to Molluscan Shellfish; The Ecological Role of Marine Aggregates

EID：合作研究 - 将海洋病原体与软体动物贝类联系起来；

• 批准号: 0429018
• 负责人: Roxanna Smolowitz
• 金额: $ 20.04万
• 依托单位: Marine Biological Laboratory
• 依托单位国家: 美国
• 项目类别: Standard Grant
• 财政年份: 2004
• 资助国家: 美国
• 起止时间: 2004-09-01 至 2008-08-31
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=0429018&HistoricalAwards=false
• 关键词: EID; Collaborative; Research; Linking; Marine

Pathogens cause many diseases of marine plants and animals, including those of molluscan shellfish (e.g., clams, oysters, scallops). Some of these diseases have resulted in catastrophic declines in shellfish populations leading to the erosion of ecological function and damage to fishery-based economies. Despite these impacts, little is known about the ecology of many marine pathogens, including the natural factors that facilitate their spread. Marine aggregates (also known as marine snow or flocs) are ubiquitous in the marine environment and range in size from microscopic to a few inches. Aggregates form by natural processes, are enriched with many types of microorganisms and tend to sink rapidly to the bottom. Consequently, bottom-dwelling shellfish are exposed to a steady supply of marine aggregates and the various microorganisms contained within. In this research, marine scientists from three institutions will combine field sampling, molecular biology, and transmission experiments to construct a model of the ecological role of aggregates in harboring and spreading shellfish pathogens. Molluscan shellfish are both ecologically and economically important, and play key roles in ecosystem processes. This research will shed light on how pathogens encounter and invade shellfish by describing and modeling a potentially important and largely unknown path by which water-born pathogens could be transmitted. This work will lead to a better understanding of how marine diseases spread, and the potential impacts on important populations. The collaborative effort will unite the expertise of specialists in shellfish physiology and pathology, and ecological modeling to carry-out novel research, public outreach and multidisciplinary training of students in the identification and ecology of marine infectious diseases.

病原体引起许多海洋动植物的疾病，包括软体贝类（如蛤蜊、牡蛎、扇贝）的疾病。其中一些疾病导致贝类种群灾难性减少，导致生态功能受到侵蚀，并对以渔业为基础的经济造成损害。尽管有这些影响，但人们对许多海洋病原体的生态知之甚少，包括促进其传播的自然因素。海洋聚集体（也被称为海洋雪或絮凝体）在海洋环境中无处不在，大小从微观到几英寸不等。聚集体由自然过程形成，富含多种微生物，并倾向于迅速沉入海底。因此，生活在海底的贝类接触到稳定供应的海洋聚集体和其中所含的各种微生物。在本研究中，来自三个机构的海洋科学家将结合实地采样、分子生物学和传播实验，构建聚集体在贝类病原体的庇护和传播中的生态作用模型。软体贝类具有重要的生态和经济意义，在生态系统过程中起着关键作用。这项研究将通过描述和建模水生病原体可能传播的潜在重要且很大程度上未知的途径，阐明病原体如何遇到和入侵贝类。这项工作将有助于更好地了解海洋疾病是如何传播的，以及对重要种群的潜在影响。这项合作努力将联合贝类生理学和病理学专家以及生态建模专家的专业知识，开展海洋传染病鉴定和生态学方面的新研究、公众宣传和多学科培训。