Effects of climate and land use change on runoff of the second Songhua River Basin guided by SWAT model

Water Supply Pub Date : 2024-02-27 DOI:10.2166/ws.2024.037

Hongxue Liu, Jifa Liu, Wanqiu Chen

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Abstract

The driving effect of global climate change on the ecohydrological process was quantitatively evaluated. Based on Geographic Information System technology, a Soil and Water Assessment Tool model suitable for watershed hydrological simulation was constructed to study the impact of climate and land-use change on runoff in the Second Songhua River (SSR) basin. Within the base period (1965–2010), the annual average temperature (AAT) of the SSR basin is 4.2 °C. Under the CC scenario representing concentration pathway (RCP) 4.5, the AAT of the watershed increased to 5.4 °C between 2020 and 2049. Under the CC scenarios of RCP 8.5 and RCP 4.5, the temperature in the watershed increased by 1.1 and 0.2 °C in June, respectively. The research results indicate that (1) there is a positive correlation between runoff and precipitation in the SSR watershed, and a negative correlation with temperature; (2) when the precipitation remains unchanged, the temperature increases by 1 °C and the runoff decreases by 7.2%; and (3) when the temperature remains constant, for every 10% increase in precipitation, the runoff increases by 30.5%. This study provides the scientific basis for water resource planning and sustainable development in the Northeast region and has important practical significance.

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SWAT 模型指导下的气候和土地利用变化对第二松花江流域径流的影响

定量评估了全球气候变化对生态水文过程的驱动效应。基于地理信息系统技术，构建了适用于流域水文模拟的水土评估工具模型，以研究气候和土地利用变化对第二松花江流域径流的影响。在基期（1965-2010 年）内，松花江流域的年平均气温为 4.2 ℃。在代表浓度途径（RCP）4.5 的 CC 情景下，2020 年至 2049 年流域的年平均气温上升至 5.4 ℃。在 RCP 8.5 和 RCP 4.5 的 CC 情景下，流域 6 月份的气温分别上升了 1.1 ℃ 和 0.2 ℃。研究结果表明：(1) SSR 流域径流量与降水量呈正相关，与温度呈负相关；(2) 当降水量不变时，温度上升 1 ℃，径流量减少 7.2%；(3) 当温度不变时，降水量每增加 10%，径流量增加 30.5%。该研究为东北地区水资源规划和可持续发展提供了科学依据，具有重要的现实意义。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Water Supply

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