Collaborative Research: The Estuarine Chlorophyll a Maximum as an Ecosystem Integrator and Indicator of Contemporaneous Nutrient and Climatic Perturbations

合作研究：河口叶绿素最大作为生态系统整合者和同期营养物和气候扰动的指标

• 批准号: 0951411
• 负责人: Hans Paerl
• 金额: $ 5万
• 依托单位: University of North Carolina at Chapel Hill
• 依托单位国家: 美国
• 项目类别: Standard Grant
• 财政年份: 2010
• 资助国家: 美国
• 起止时间: 2010-09-01 至 2013-08-31
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=0951411&HistoricalAwards=false
• 关键词: Collaborative; Research; Estuarine; Chlorophyll; Maximum

Phytoplankton primary production in estuarine ecosystems is often concentrated in distinct zones where high nutrient loads coincide with optimal conditions for phytoplankton growth. These zones are called chlorophyll maxima and produce a disproportionate amount of carbon for estuarine food webs. These areas are zones of high ecological importance because they can be used as indicators of estuarine condition and function. The focus of our study, the Neuse River Estuary (NRE), has a well defined chlorophyll maxima during the spring-fall. The NRE is highly affected by human activities, in particular excess nutrient input from agricultural and urban areas. The results of this research will provide baseline information about how these areas behave under future nutrient management, hydrologic (e.g., droughts, storms) and altered food web scenarios.Estuaries are among the most productive, yet highly impacted ecosystems on Earth. The chlorophyll maxima is an important location in many temperate estuaries worldwide, thus our result will be applicable beyond our study system, the Neuse River estuary. Further knowledge of the behavior of this important feature will enhance our ability to better manage highly impacted estuarine ecosystems. This project will provide diverse educational opportunities for graduate students who will develop independent research projects. The NSF-supported Summer Pre-graduate Research Experience Program (SPGRE) at UNC-CH and regional universities educating under-represented groups will provide students for summer internships. Finally, high school students and teachers will be employed as interns during the summer field season, giving them a range of newfound experiences and knowledge to bring back to the classroom.

河口生态系统的浮游植物初级生产力通常集中在不同的区域，在这些区域，高营养负荷与浮游植物生长的最佳条件相吻合。这些区域被称为叶绿素最大值，为河口的食物网产生不成比例的碳。这些地区具有很高的生态重要性，因为它们可以作为河口状况和功能的指示器。我们研究的重点是纽瑟河河口(NRE)，它在春秋季节有一个明确的叶绿素峰值。NRE受到人类活动的高度影响，特别是来自农业和城市地区的过量养分输入。这项研究的结果将提供有关这些地区在未来营养管理、水文(例如干旱、风暴)和改变食物网情景下表现如何的基线信息。河口是地球上生产力最高、但受影响最大的生态系统之一。叶绿素最大值是世界上许多温带河口的重要位置，因此我们的结果将适用于我们的研究系统--纽兹河河口。进一步了解这一重要特征的行为将提高我们更好地管理受高度影响的河口生态系统的能力。该项目将为将开展独立研究项目的研究生提供多样化的教育机会。北卡罗来纳大学和地区大学的NSF支持的暑期研究生前研究体验计划(SPGRE)将为学生提供暑期实习机会。最后，高中生和教师将在暑期实习期间受聘为实习生，让他们获得一系列新的经验和知识，带回课堂。