Slope and Aspect Controls on Soil Climate: Field Documentation and Implications for Large-Scale Simulation of Critical Zone Processes: Field documentation and implications for large-scale simulation of critical zone processes

Mark Seyfried, Gerald Flerchinger, Sage Bryden, Tim Link, Danny Marks, Jim McNamara

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Abstract

Soil climate, as quantified by soil temperature ( T S ) and water content (θ), exerts important controls on critical zone processes. It may be sensitive to variations in local slope and aspect (SA), but this attribute remains poorly quantified at the local scale and unresolved in large-scale models. Estimation of SA effects on soil climate across multiple scales may facilitated using topographically modified, incoming clear-sky solar radiation ( S R,CS,T ). We established six paired automated soil climate monitoring stations on opposing north-facing (NF) and south-facing (SF) slopes (4 yr) and collected spatial T S and θ data within the hectare surrounding four stations (2 yr) to measure SA effects on soil climate. Results were compared with physically based simulations and evaluated in the context of S R,CS,T . Spatial θ data were more variable than T s, and both were consistent with values from continuous monitoring stations. On average, the SF T S was much greater (4.7 °C) and the annual summer drought longer (36 d) than on the adjacent NF aspect. Seasonal variations of T S and θ were different from each other and also different from S R,CS,T . Local conditions, including snow cover, precipitation patterns, and soil properties, largely controlled seasonal variations of T S and θ, which cannot be predicted from S R,CS,T . This indicates that realistic simulation of many critical zone processes requires high-resolution inputs. Simulations captured first-order SA effects and could be useful for estimating SA effects in lieu of field monitoring.

Original languageAmerican English
Article numbere20158
JournalGeosciences Faculty Publications and Presentations
Volume20
Issue number6
DOIs
StatePublished - 1 Nov 2021

EGS Disciplines

  • Earth Sciences
  • Geophysics and Seismology

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