喀斯特地形促进源流热弹性

Karmann G. Kessler, Karli M. Rogers, C. Marsh, N. Hitt
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摘要

河流生态系统对气候变化的反应将部分取决于地下水过程,而地下水过程降低了河流对大气条件的敏感性。我们研究了北美东部波托马克河(Potomac River)流域上游由喀斯特地形(碳酸盐母质)定义的地下水输入梯度的河流的热敏性。我们收集了30个站点的河流温度数据,并根据日平均水和空气温度的关系量化了热敏性。我们的分析表明,喀斯特地形的河流的热敏性比其他地方低,喀斯特地形的影响比高程或流域大小的影响更重要。我们的研究表明岩溶地下水对河流热弹性的重要性,并表明河岸植被对其他地方维持河流温度的重要性。我们的研究还为气候变化研究提供了一种简单而快速的方法,可以与流域组织和公民科学网络一起实施。
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Karst Terrain Promotes Thermal Resiliency in Headwater Streams
The response of stream ecosystems to climate change will depend in part on groundwater processes that reduce the sensitivity of streams to atmospheric conditions.  We investigated the thermal sensitivity of streams across a gradient of groundwater inputs defined by karst terrain (carbonate parent materials) in the headwaters of the Potomac River basin in eastern North America.  We collected stream temperature data and quantified thermal sensitivity for 30 sites from the relationship between daily mean water and air temperatures.  Our analysis demonstrates that thermal sensitivity is lower for streams in karst terrain than elsewhere, and that the effect of karst terrain is more important than effects of elevation or basin size in this regard.  Our study indicates the importance of karstic groundwater for stream thermal resiliency and suggests the importance of riparian vegetation for maintaining stream temperatures elsewhere. Our study also provides a simple and rapid method for climate change research that can be implemented in conjunction with watershed organizations and citizen science networks.
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