基于气候和土地利用信息的洪水调节生态系统服务动态建模

Q2 Environmental Science

Landscape Online Pub Date : 2021-02-06 DOI:10.3097/LO.202188

Thea Wübbelmann, Steffen Bender, Benjamin Burkhard

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引用次数: 3

摘要

生态系统服务的概念确定了人们从生态系统中获得的利益与对人类福祉的贡献。外部压力下的一个重要ES是“洪水调节”，它描述了生态系统减少洪水危害的能力。一些相关研究估计了当前的洪水调节ES。然而，区域气候预测表明降水模式发生了变化。因此，气候和土地利用的变化使得有必要评估未来的供应，以测试功能和适应措施。本研究侧重于地表滞留ES。我们使用了两种方法来显示不同景观场景和气候信息对洪水调节ES供应的相关性：1）HEC-RAS模型的水力模拟2）德国MAES工作组建议的洪水滞留能力指标。我们模拟了两个事件：2013年的历史性洪水和未来假设高出10%的水位。此外，还评估了三种土地利用变化情景。模型结果表明植被具有一定的蓄水能力。未来气候情景的水位升高会导致洪水泛滥地区的增加和水量的增加。为了评估洪水调节能力，仅基于2D滞留面积的方法（如MAES指标）是不够的。建模方法为未来的情景模拟提供了机会。

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Modelling flood regulation ecosystem services dynamics based on climate and land use information

The concept of ecosystem service (ES) identifies benefits that people obtain from ecosystems with contributions to human well-being. One important ES under external pressure is “flood regulation” that describes an ecosystem’s capacity to reduce flood hazards. Several related studies estimate current flood regulation ES. However, regional climate projections indicate a shift in precipitation patterns. Therefore, Climate and land use changes make it necessary to assess future supply in order to test functionality and adaptation measures. This study focuses on surface retention ES. We used two methods to show the relevance of different landscape scenarios and climate information for flood regulation ES supply: 1) hydraulic simulations with the model HEC-RAS 2) the flood retention capacity indicator suggested by the German MAES-Working group. We simulated two events: the historic flood of 2013 and future hypothetically 10% higher water levels. Furthermore, three land use change scenarios were evaluated. The model results indicate water accumulation by vegetation. Higher water levels of future climate scenarios lead to an increase in flooded areas and higher water volumes. To evaluate flood regulation capacities, an approach solely based on 2D retention areas, such as the MAES-indicator, is not sufficient. Modelling approaches deliver the opportunity for future scenario simulations.

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来源期刊

Landscape Online Environmental Science-Nature and Landscape Conservation

CiteScore

2.60

自引率

0.00%

发文量

审稿时长

20 weeks

期刊介绍： Landscape Online focuses on studies dealing with landscape research. The subject matter deals with any scientific, educational or applied aspect of processes, dynamics, indicators, controllers and visions related to landscapes. Furthermore, Landscape Online emphasizes the coupling of societal and natural systems, not only the involvement of human impact on landscape systems but also human perception of the landscape, its values and the evaluation of landscapes. Moreover, articles are appropriate that deal with landscape theory, system approaches and conceptual models of landscape, both their improvement and their discussion. Papers may be undisciplinary or multidisciplinary but have interdisciplinary or transdisciplinary appeal. All kinds of articles or parts of it must not be published beforehand in another journal