Climatic Controls on Future Hydrologic Changes in a Subarctic River Basin in Canada

Autor:	Markus A. Schnorbus, Alex J. Cannon, Hunter Alford, Rajesh R. Shrestha
Rok vydání:	2019
Předmět:	Hydrology Atmospheric Science geography geography.geographical_feature_category 010504 meteorology & atmospheric sciences Moisture Hydrological modelling 0207 environmental engineering Drainage basin 02 engineering and technology 01 natural sciences Subarctic climate Arctic Environmental science Water cycle 020701 environmental engineering 0105 earth and related environmental sciences
Zdroj:	Journal of Hydrometeorology. 20:1757-1778
ISSN:	1525-7541 1525-755X
DOI:	10.1175/jhm-d-18-0262.1
Popis:	We describe a state-of-the-art framework for projecting hydrologic impacts due to enhanced warming and amplified moisture fluxes in the subarctic environment under anthropogenic climate change. We projected future hydrologic changes based on phase 5 of the Coupled Model Intercomparison Project global climate model simulations using the Variable Infiltration Capacity hydrologic model and a multivariate bias correction/downscaling method for the Liard basin in subarctic northwestern Canada. Subsequently, the variable importance of key climatic controls on a set of hydrologic indicators was analyzed using the random forests statistical model. Results indicate that enhanced warming and wetness by the end of century would lead to pronounced declines in annual and monthly snow water equivalent (SWE) and earlier maximum SWE. Prominent changes in the streamflow regime include increased annual mean and minimum flows, earlier maximum flows, and either increased or decreased maximum flows depending on interactions between temperature, precipitation, and snow. Using the variable importance analysis, we find that precipitation exerts the primary control on maximum SWE and annual mean and maximum flows, and temperature has the main influence on timings of maximum SWE and flow, and minimum flow. Given these climatic controls, the changes in the hydrologic indicators become progressively larger under the scenarios of 1.5°, 2.0°, and 3.0°C global mean temperature increases above the preindustrial period. Hence, the framework presented in this study provides a detailed diagnosis of the hydrologic changes as well as controls and interactions of the climatic variables, which could be generalized for understanding regional scale changes in subarctic/nival basins.
Databáze:	OpenAIRE
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