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Significant stream chemistry response to temperature variations in a high-elevation mountain watershed

Wei Zhi, Kenneth H. Williams, Rosemary Carroll, W.S. Brown, Wenming Dong, Devon Kerins, Li Li

2020Communications Earth & Environment36 citationsDOIOpen Access PDF

Abstract

Abstract High-elevation mountain regions, central to global freshwater supply, are experiencing more rapid warming than low-elevation locations. High-elevation streams are therefore potentially critical indicators for earth system and water chemistry response to warming. Here we present concerted hydroclimatic and biogeochemical data from Coal Creek, Colorado in the central Rocky Mountains at elevations of 2700 to 3700 m, where air temperatures have increased by about 2 °C since 1980. We analyzed water chemistry every other day from 2016 to 2019. Water chemistry data indicate distinct responses of different solutes to inter-annual hydroclimatic variations. Specifically, the concentrations of solutes from rock weathering are stable inter-annually. Solutes that are active in soils, including dissolved organic carbon, vary dramatically, with double to triple peak concentrations occurring during snowmelt and in warm years. We advocate for consistent and persistent monitoring of high elevation streams to record early glimpse of earth surface response to warming.

Topics & Concepts

SnowmeltElevation (ballistics)Biogeochemical cycleSTREAMSEnvironmental scienceWatershedGlobal warmingClimate changeHydrology (agriculture)BiogeochemistrySoil waterWeatheringWater chemistryEarth scienceGeologyEnvironmental chemistrySnowChemistryOceanographyGeochemistryGeomorphologySoil scienceComputer scienceMathematicsMachine learningEnvironmental engineeringGeotechnical engineeringComputer networkGeometryCryospheric studies and observationsHydrology and Watershed Management StudiesClimate change and permafrost
Significant stream chemistry response to temperature variations in a high-elevation mountain watershed | Litcius