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An evidence-based approach for integrating ecological, hydrological and consumptive models to optimize flow management: a proof of concept

机译:整合生态,水文和消费模型以优化流量管理的基于证据的方法:概念验证

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摘要

Implementing policies to return water to the environment is challenging. We developed an approach to integrate ecological responses with river management models to provide a link between flow and ecology. This paper aims to summarize the findings of a multifaceted project bringing together multiple lines of evidence to achieve a proof-of-concept approach for optimizing water use to support water policy and management decisions. We developed an eco-hydrology model that represents rivers, water storages, operational constraints, flow management, an ecological response and consumptive irrigation demands, which is linked to climate. To demonstrate the proof of concept, we describe a case study where modelling optimization seeks solutions to minimize terrestrial vegetation encroachment (an ecological response) and maximize irrigation net value through flow management. The solutions provide a range of alternative optimal' management options to consider. Ultimately, hydrological modelling that integrates both consumptive use and ecological response simultaneously is important to enhance stakeholder understanding of the complexities and trade-offs involved in implementing different decisions. Although proof of concept at this stage, the approaches offer potential for integration of river management models and quantitative ecological response models (derived by considering available evidence from many sources) to support water policy and management decisions.
机译:实施将水返回环境的政策具有挑战性。我们开发了一种将生态响应与河流管理模型相集成的方法,以提供流量与生态之间的联系。本文旨在总结一个多方面项目的发现,这些项目汇集了多条证据,以实现一种概念验证方法,以优化用水以支持水政策和管理决策。我们开发了一种生态水文学模型,该模型代表了与气候相关的河流,蓄水,运营限制,流量管理,生态响应和消耗性灌溉需求。为了证明概念验证,我们描述了一个案例研究,其中建模优化寻求解决方案,以通过流量管理最小化陆地植被入侵(生态响应)并最大化灌溉净值。这些解决方案提供了一系列可供选择的最佳管理选项。最终,将消费和生态响应同时整合的水文模型对于增强利益相关者对执行不同决策所涉及的复杂性和权衡的理解非常重要。尽管在此阶段已证明了这一概念,但这些方法为整合河流管理模型和定量生态响应模型(通过考虑来自许多来源的现有证据而得出)提供了潜力,以支持水政策和管理决策。

著录项

  • 来源
    《Policy Studies》 |2017年第5期|432-446|共15页
  • 作者

    Nichols Susan J.; Powell Sue J.; Peat Michael; Johnson William;

  • 作者单位

    Univ Canberra, MDBfutures Collaborat Res Network, Canberra, ACT, Australia|Univ Canberra, Inst Appl Ecol, Canberra, ACT, Australia;

    Univ Canberra, MDBfutures Collaborat Res Network, Canberra, ACT, Australia|Univ Canberra, Inst Appl Ecol, Canberra, ACT, Australia;

    Univ Canberra, MDBfutures Collaborat Res Network, Canberra, ACT, Australia|Univ Canberra, Inst Appl Ecol, Canberra, ACT, Australia;

    Murray Darling Basin Author, Environm Management Div, Environm Watering Plan Implementat, Canberra, ACT, Australia;

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  • 正文语种 eng
  • 中图分类
  • 关键词

    Ecological response; eco-hydrology; modelling; optimization; flows releases; evidence-based decisions;

    机译:生态响应;生态水文学;建模;优化;流量释放;循证决策;

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