Collaborative Research: Whole Ecosystem Test of Restoring Resilience in Lakes

合作研究：恢复湖泊恢复能力的全生态系统测试

• 批准号: 2318568
• 负责人: Michael Pace
• 金额: $ 39.91万
• 依托单位: University of Virginia Main Campus
• 依托单位国家: 美国
• 项目类别: Standard Grant
• 财政年份: 2023
• 资助国家: 美国
• 起止时间: 2023-09-01 至 2026-08-31
• 项目状态: 未结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=2318568&HistoricalAwards=false
• 关键词: Collaborative; Research; Whole; Ecosystem; Test

Ecosystems are at widespread risk of losing resilience due to environmental changes from climate and other human actions. Resilience is the ability of an ecosystem to maintain its current state in the face of variability. The loss of resilience harms human well-being because it can lead to the loss of land and water resources. Being able to measure and manage resilience is essential for adapting to these large changes. The researchers will perform an ecosystem experiment aimed at increasing resilience to algal blooms in lakes. Algal blooms threaten drinking water, reduce tourism, and harm wildlife. The primary goal of the experiment is to test if resilience can be enhanced and assess the performance of three resilience metrics. This experiment will advance our understanding of ecosystem resilience, evaluate methods for tracking environmental change critical for policymaking, and provide management insight. The results and the evaluation of the resilience metrics will be shared with lake managers through workshops hosted by the research team. The research is not only applicable to lakes but could be applied to manage other ecosystems such as grasslands and forests.To test if light availability changes resilience to nutrient loading, the researchers will experimentally add nitrogen and phosphorus to two lakes to encourage an algal bloom. One of the lakes is highly stained and therefore has low light availability. The other is relatively clear with higher light availability. A third lake that will not receive nutrient additions will serve as a reference ecosystem. The researchers will measure algal pigments, dissolved oxygen, and pH at a high frequency to monitor algal blooms. Resilience will be evaluated with ecosystem models, dynamic statistical indicators, and mean exit time. These three methods for quantifying resilience provide a new approach to evaluating ecosystem change. The expectation is that resilience of algal blooms to nutrient additions will be higher in the stained lake compared to the clear lake due to lower light availability. To test this hypothesis, in the second year of the experiment the researchers will add a commercial dye to the clear lake, designed to absorb light. The expectation is that this will make the clear lake more resilient algal blooms from nutrient additions, similar to the stained lake. The results of this experiment and the evaluation of the resilience metrics will be shared with lake managers through workshops hosted by the research team.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.

由于气候变化和其他人类活动造成的环境变化，生态系统普遍面临丧失复原力的风险。复原力是生态系统在面对可变性时保持其当前状态的能力。复原力的丧失损害人类福祉，因为它可能导致土地和水资源的丧失。能够衡量和管理复原力对于适应这些巨大变化至关重要。研究人员将进行一项生态系统实验，旨在提高湖泊对藻类水华的适应能力。藻类大量繁殖威胁饮用水，减少旅游业，并危害野生动物。实验的主要目标是测试弹性是否可以增强，并评估三个弹性指标的性能。这项实验将促进我们对生态系统恢复力的理解，评估跟踪对决策至关重要的环境变化的方法，并提供管理见解。复原力指标的结果和评估将通过研究小组主办的研讨会与湖泊管理者分享。这项研究不仅适用于湖泊，还可以应用于管理其他生态系统，如草地和森林。为了测试光照是否会改变对营养负荷的适应能力，研究人员将在两个湖泊中实验性地添加氮和磷，以促进藻类大量繁殖。其中一个湖是高度染色，因此具有低光可用性。另一种是相对清晰的，具有较高的光可用性。第三个湖泊将不接受营养添加物，作为参考生态系统。研究人员将以高频率测量藻类色素、溶解氧和pH值，以监测藻类水华。复原力将通过生态系统模型、动态统计指标和平均退出时间进行评估。这三种量化恢复力的方法为评估生态系统变化提供了一种新的方法。预计藻类水华对营养物质添加的恢复力在染色的湖泊中比在清澈的湖水中更高，这是由于光的可用性较低。为了验证这一假设，在实验的第二年，研究人员将在清澈的湖水中加入一种商业染料，旨在吸收光线。预计这将使清澈的湖水更有弹性的藻类水华从营养添加，类似于染色的湖泊。这项实验的结果和对恢复力指标的评估将通过研究团队主办的研讨会与湖泊管理者分享。该奖项反映了NSF的法定使命，并被认为值得通过使用基金会的知识价值和更广泛的影响审查标准进行评估来支持。