A background review and ecological risk assessment of the tactical basin plan for the Otter Creek Basin watershed ecosystem restoration project in central Vermont, USA

James D. Snook
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Abstract

Extreme climate events, such as hurricanes and tropical storms, can cause acute instability of the hydrologic cycle, thereby threatening the sustainability and resiliency of an authentic watershed ecosystem’s services. A 2011 extreme climate event, known as Hurricane/Tropical Storm Irene (Irene), imposed an acute effect on the quality of the ecosystem services in Vermont. This risk assessment of the Otter Creek Basin (the Basin) watershed restoration in central Vermont included an analysis of the conceptual site model, key elements of the strategic plan, and potential ecological outcomes. The outcome of the ecological restoration of the Basin is dependent upon an adaptive management strategy, which is implemented through various regulatory policies. Thereby, a systematic literature review (SLR) of regulatory milestone documents released between 1998 and 2019 was completed to characterize and assess the Basin’s strategic planning efforts and forecasts. To operationalize this study, a replicable methodology was utilized by using a conceptual site model to assess and forecast data trends. Analysis of the data trends resulted in an ecological risk assessment of the 2019 tactical basin plan (TBP) that forecasted 2021–2025 restoration activities. Currently in a transition phase as a hybrid ecosystem while undergoing restoration activities, the Basin’s restoration strategy could result in the re-establishment of the watershed as an authentic ecosystem, which can self-regulate with appropriate biodiversity and ecosystem function based on past history. However, without restoration and resiliency, a poorly managed strategy could result in a decreased classification toward a novel, no-analogue ecosystem, where keystone species are lost and ecosystem functions are highly altered. Therefore, a successful restoration is essential to elevate the Basin from a hybrid ecosystem by restoring its authentic characteristics and regaining its self-regulated natural ecosystem services.

美国佛蒙特州中部水獭溪流域生态系统恢复项目战术流域计划的背景审查与生态风险评估
极端气候事件,如飓风和热带风暴,可能造成水文循环的严重不稳定,从而威胁到真正的流域生态系统服务的可持续性和弹性。2011年的一次极端气候事件,被称为飓风/热带风暴艾琳(Irene),对佛蒙特州的生态系统服务质量造成了严重影响。对佛蒙特州中部水獭溪流域恢复的风险评估包括对概念性场地模型、战略计划的关键要素和潜在生态结果的分析。流域生态恢复的结果取决于通过各种监管政策实施的适应性管理策略。因此,完成了1998年至2019年发布的监管里程碑文件的系统文献综述(SLR),以描述和评估盆地的战略规划工作和预测。为了实施这项研究,采用了一种可复制的方法,使用概念站点模型来评估和预测数据趋势。通过对数据趋势的分析,对2019年战术流域计划(TBP)进行了生态风险评估,预测了2021-2025年的恢复活动。目前,该流域正处于混合生态系统的过渡阶段,同时正在进行恢复活动,该流域的恢复战略可以使流域重新成为一个真正的生态系统,该生态系统可以根据过去的历史进行自我调节,具有适当的生物多样性和生态系统功能。然而,如果没有恢复和弹性,管理不善的策略可能导致分类下降,走向一个新的、没有类似物的生态系统,在那里,关键物种丢失,生态系统功能高度改变。因此,成功的恢复是将盆地从混合生态系统中提升出来的关键,通过恢复其真实特征和恢复其自我调节的自然生态系统服务。
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