COLLABORATIVE RESEARCH: Processes and patterns in back arc basin hydrothermal vent communities

合作研究：弧后盆地热液喷口群落的过程和模式

• 批准号: 0732439
• 负责人: George Luther
• 金额: $ 34.49万
• 依托单位: University of Delaware
• 依托单位国家: 美国
• 项目类别: Standard Grant
• 财政年份: 2008
• 资助国家: 美国
• 起止时间: 2008-01-01 至 2011-12-31
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=0732439&HistoricalAwards=false
• 关键词: COLLABORATIVE; RESEARCH; Processes; patterns; back

A primary goal of this project is to understand species distributions in the types of communities found at the hydrothermal vents of the East Lau Spreading Center. A species? fundamental ecological niche is defined by its tolerance to abiotic conditions, with the realized niche constrained by negative inter-specific interactions, but also expanded by positive inter-specific interactions. In hydrothermal vent ecosystems the ultimate source of energy and food for the metazoans is the vent fluid, which is emitted from spatially limited areas on the sea floor. As an ecosystem, vents are somewhat atypical in that gradients of primary productivity are positively correlated with gradients of ecological stressors that include toxic chemistry and high temperatures. The resultant strong bottom up controls on species distribution at vents interact with a variety of positive and negative biological interactions to constrain the realized niche of each species. To meet the goal of this research, the collaborating investigators will use a combination of laboratory studies, analyses of in situ observations and measurements, and manipulative experiments. To define the potential (fundamental) niches of the key, symbiont-containing fauna, they will conduct shipboard experiments in pressurized respirometers and determine their thermal tolerances and preferences, tolerances to high sulfide and low oxygen levels, and determine which sulfur species are used and released by each. In order to define the realized niches of the major fauna they will analyze spatially correlated in situ biological community and hydrothermal fluid physiochemical data. In order to understand the mechanisms that drive the differences between the fundamental and realized niches of the key fauna, they will conduct a series of in situ manipulative experiments to characterize both positive and negative interactions among the foundation species. This proposal will continue a macrobiological component of the Integrated Studies at the Ridge 2000 Lau Basin study site. In addition to maintaining the high level of public and secondary school outreach activity typical of these scientists, this project will be integrated into the Ridge 2000 GLOBE education program: ?From Local to Extreme Environments (FLEXE).? These scientists will host a member of the FLEXE team on each research cruise and support a graduate student to work with the educator team on the interpretation of the environmental data and imagery collected for development of new GLOBE protocols. This project will also support inter-disciplinary training of at least 5 graduate students, through summer cross-training among labs, and provide research opportunities for 6-10 undergraduate students.

该项目的一个主要目标是了解在东劳扩散中心热液喷口发现的各类群落的物种分布情况。一个物种？基本生态位的定义是其对非生物条件的耐受性，实现的生态位受到种间负相互作用的限制，但也受到种间正相互作用的扩大。在热液喷口生态系统中，后生动物的能量和食物的最终来源是喷口流体，这些流体是从海底有限的空间区域排放出来的。作为一种生态系统，喷口在某种程度上是非典型的，因为初级生产力的梯度与包括有毒化学物质和高温在内的生态压力因素的梯度呈正相关。由此产生的对喷口物种分布的强有力的自下而上的控制与各种积极和消极的生物相互作用相互作用，以限制每个物种的实际生态位。为了实现本研究的目标，合作研究人员将结合使用实验室研究、现场观察和测量分析以及操作实验。为了确定潜在的（基本的）生态位的关键，共生体包含动物，他们将进行船上实验加压呼吸计，并确定他们的热耐受性和偏好，耐受高硫化物和低氧水平，并确定哪些硫物种被使用和释放。为了确定主要动物群的实际生态位，他们将分析空间相关的原地生物群落和热液流体物理化学数据。为了了解驱动关键动物群的基本和实现生态位之间差异的机制，他们将进行一系列原位操作实验，以表征基础物种之间的积极和消极相互作用。该建议将继续在Ridge 2000 Lau盆地研究地点进行综合研究的宏观生物组成部分。除了保持高水平的公共和中学推广活动的典型这些科学家，这个项目将被纳入岭2000年地球仪教育计划：？从局部到极端环境（FLEXE）这些科学家将在每次研究航行中接待一名FLEXE小组成员，并支持一名研究生与教育工作者小组合作，解释为制定新的地球仪协议而收集的环境数据和图像。该项目还将通过实验室之间的夏季交叉培训，支持至少5名研究生的跨学科培训，并为6-10名本科生提供研究机会。