An Assessment of Conservation Opportunities Within Sagebrush Ecosystems of US National Parks and Wildlife Refuges

IF 2.4 3区环境科学与生态学 Q2 ECOLOGY Rangeland Ecology & Management Pub Date : 2024-10-15 DOI:10.1016/j.rama.2024.09.005

Bill D. Sparklin , Kevin E. Doherty , Thomas J. Rodhouse , Jeffrey J. Lonneker , Jordan Spaak , Todd B. Cross , Jeffrey M. Warren

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Abstract

Strategic plans for landscape-scale conservation are preferable to ad-hoc decisions that lack evidence and cohesion. The Sagebrush Conservation Design (SCD) is a biome-wide geospatial decision-support framework for a “Defend the Core, Grow the Core” strategy. We mapped US National Parks and Refuges across the SCD to guide “defend and grow” investments. We summarized amounts of sagebrush “Core Sagebrush Areas” (CSAs) and “Growth Opportunity Areas” (GOAs) areas within Parks and Refuges and asked: 1) Where are the Parks and Refuges that contain substantial sagebrush resources and that are likely to retain these resources under future climate conditions? 2) What is the trend of loss across CSAs and GOAs within Parks and Refuges? 3) Do trends immediately surrounding Parks and Refuges correlate with those within? 4) Which Parks and Refuges contain the most CSAs and GOAs? 5) What will it cost to defend and grow CSAs in these places?

Approximately 127 000 ha (313 824 ac) or 75% of CSAs was lost from Parks and 87 000 ha (214 982 ac) or 25% was lost from Refuges since 1998. Climate change is likely to reduce CSAs and GOAs in the northeastern and southwestern biome periphery and at low elevations. Similar trends of loss were observed surrounding Parks and Refuges. This underscores the ‘outside-in’ nature of changes occurring in the biome as fires, conifer encroachment, and invasive grasses move rapidly through permeable landscapes. Ten Parks and 10 Refuges contain >95% of CSAs and GOAs and exhibit climate durability under our examined future scenario, revealing how investments can be prioritized. Within this list, however, estimated costs of recommended actions (e.g., annual grass suppression) greatly exceeds plausible available amounts, emphasizing the need to use strategic prioritization within high-priority units. We examined application of the SCD for guiding “open” and “defined” investment decisions for Park and Refuge case studies.

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对美国国家公园和野生动物保护区内灌木丛生态系统保护机会的评估

景观尺度保护的战略计划优于缺乏证据和凝聚力的临时决定。萨格布鲁什保护设计（Sagebrush Conservation Design，SCD）是一个全生物群地理空间决策支持框架，用于 "捍卫核心，发展核心 "战略。我们绘制了整个 SCD 的美国国家公园和保护区地图，以指导 "保护和发展 "投资。我们总结了公园和保护区内的鼠尾草 "核心鼠尾草区"（CSA）和 "增长机会区"（GOAs）的数量，并提出了以下问题：1）包含大量鼠尾草资源且在未来气候条件下有可能保留这些资源的公园和保护区在哪里？2) 公园和保护区内各 CSAs 和 GOAs 的损失趋势如何？3) 公园和保护区周边的趋势与保护区内部的趋势是否相关？4) 哪些公园和保护区包含最多的生态系统服务区和全球海洋观测系统？自 1998 年以来，约有 127 000 公顷（313 824 英亩）或 75% 的陆地生态系统服务区从公园消失，87 000 公顷（214 982 英亩）或 25% 的陆地生态系统服务区从保护区消失。气候变化可能会减少东北部和西南部生物群落外围以及低海拔地区的陆地生态系统服务区和全球海洋观测系统。在公园和保护区周围也观察到类似的损失趋势。这凸显了生物群落变化的 "由外而内 "性质，因为火灾、针叶林侵占和入侵草类在渗透性景观中快速移动。10 个公园和 10 个保护区包含了 95% 的 "全面保护区 "和 "全球海洋观测系统"，并在我们研究的未来情景下表现出气候耐久性，揭示了如何确定投资的优先次序。然而，在这份清单中，建议行动的估计成本（如每年的牧草抑制）大大超出了合理的可用金额，这强调了在高优先级单位中使用战略优先级的必要性。我们对公园和保护区案例研究中指导 "开放 "和 "确定 "投资决策的 SCD 应用情况进行了检查。

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来源期刊

Rangeland Ecology & Management 农林科学-环境科学

CiteScore

4.60

自引率

13.00%

发文量

审稿时长

12-24 weeks

期刊介绍： Rangeland Ecology & Management publishes all topics-including ecology, management, socioeconomic and policy-pertaining to global rangelands. The journal''s mission is to inform academics, ecosystem managers and policy makers of science-based information to promote sound rangeland stewardship. Author submissions are published in five manuscript categories: original research papers, high-profile forum topics, concept syntheses, as well as research and technical notes. Rangelands represent approximately 50% of the Earth''s land area and provision multiple ecosystem services for large human populations. This expansive and diverse land area functions as coupled human-ecological systems. Knowledge of both social and biophysical system components and their interactions represent the foundation for informed rangeland stewardship. Rangeland Ecology & Management uniquely integrates information from multiple system components to address current and pending challenges confronting global rangelands.