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报告题目:High resolution modeling of physical and ecological processes in diverse landscapes
报 告 人:James M. Byrne, Ph.D., Professor and Chair of Geography
University of Lethbridge, Alberta, Canada
时 间:5月31日上午10点
地 点:清华大学泥沙馆A200会议室
内容简介:The GENESYS (GENerate Earth SYstems Science input) hydrometeorological model was originally developed to simulate detailed terrain and landscape dependent micrometeorology needed for modeling daily snowpack processes in diverse terrain. GENESYS high resolution micro meteorology output has further applications in hydrology and ecology. We have developed routines to model spatial and temporal accumulation and ablation of alpine snowpack and soil water processes including runoff. Ongoing developments include: biometeorology driven species functions and processes; soil water associated drought and fire risk indices; glacial mass balance and glacial melt runoff routines; surface and groundwater interactive runoff module; and a daily streamchannel water temperature variation. Further plans include characterizing resident terrestrial and aquatic species response(s) to climate change. The stream temperature model is the focus of a PhD thesis that incorporates atmospheric and hydrologic controls to estimate stream temperatures, with an end objective to assess the impacts of environmental change on the habitat and survival of aquatic species. The temperature model has potential to help predict changes in chemical mobility within watersheds.Archiver|手机版|科学网 ( 京ICP备07017567号-12 )
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