曾思栋, 夏军, 杜鸿, 张利平, 陈向东, 王任超, ADITYA Sood. 气候变化、土地利用/覆被变化及CO2浓度升高对滦河流域径流的影响[J]. 水科学进展, 2014, 25(1): 10-20.
引用本文: 曾思栋, 夏军, 杜鸿, 张利平, 陈向东, 王任超, ADITYA Sood. 气候变化、土地利用/覆被变化及CO2浓度升高对滦河流域径流的影响[J]. 水科学进展, 2014, 25(1): 10-20.
ZENG Sidong, XIA Jun, DU Hong, ZHANG Liping, CHEN Xiangdong, WANG Renchao, ADITYA Sood. Effects of climate change, land use and cover change and CO2 enrichment on runoff: A case study of the Luanhe River basin[J]. Advances in Water Science, 2014, 25(1): 10-20.
Citation: ZENG Sidong, XIA Jun, DU Hong, ZHANG Liping, CHEN Xiangdong, WANG Renchao, ADITYA Sood. Effects of climate change, land use and cover change and CO2 enrichment on runoff: A case study of the Luanhe River basin[J]. Advances in Water Science, 2014, 25(1): 10-20.

气候变化、土地利用/覆被变化及CO2浓度升高对滦河流域径流的影响

Effects of climate change, land use and cover change and CO2 enrichment on runoff: A case study of the Luanhe River basin

  • 摘要: 在构建分布式水文模型与生物地球化学模型的耦合模型(DTVGM-CASACNP)及应用元胞自动机-马尔科夫(CA-Markov)土地利用预测模型基础上,以滦河流域为例分析气候变化、土地利用/覆被变化(LUCC)及CO2浓度升高对径流的影响。研究结果表明: DTVGM-CASACNP耦合模型以及CA-Markov模型在滦河流域均具有较好的适用性;气候变化与土地利用/植被覆盖变化对滦河流域径流的影响较CO2浓度升高的影响程度大;未来不同情景下滦河流域2020—2049年径流呈减小趋势,大部分情景下年径流较基准年减少,与非汛期相比,滦河流域未来汛期径流对不同情景更敏感,总体上在汛期径流相对基准年减少,而在非汛期径流相对基准年增加。

     

    Abstract: Investigating the effects of climate change, land use and cover change (LUCC) and increased CO2 concentration on catchment runoff is important for acquiring an understanding of ecohydrological processes under changing environment at a basin scale. To analyze these effects, a model is developed through coupling a hydrological model (Distributed Time Variant Gain Model; DTVGM), a global terrestrial biogeochemical model for carbon, nitrogen and phosphorus (CASACNP) and a land use Cellular Automata -Markov (CA-Markov) model. The coupled model is then applied to the Luanhe River basin of Northern China. The model performs well during both model calibration and validation processes. The calibrated model is then used to study the effects of climate change, LUCC and CO2 enrichment on runoff over the basin. Results show the effects of climate change and LUCC on runoff are stronger than that of increased CO2 concentration. The annual runoff exhibits a decreasing trend for the period 2020—2049, and shows a reduced runoff as compared to the base year for most of the scenarios. The intra-annual analysis shows a decrease in runoff during wetter months and an increase during drier months. The monthly runoff during flood seasons would be more sensitive in the future as compared to non-flooding seasons.

     

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