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Monitoring water content dynamics of biological soil crusts

July 1, 2017

Biological soil crusts (hereafter, “biocrusts”) dominate soil surfaces in nearly all dryland environments. To better understand the influence of water content on carbon (C) exchange, we assessed the ability of dual-probe heat-pulse (DPHP) sensors, installed vertically and angled, to measure changes in near-surface water content. Four DPHP sensors were installed in each of two research plots (eight sensors total) that differed by temperature treatment (control and heated). Responses were compared to horizontally installed water content measurements made with three frequency-domain reflectometry (FDR) sensors in each plot at 5-cm depth. The study was conducted near Moab, Utah, from April through September 2009. Results showed significant differences between sensor technologies: peak water content differences from the DPHP sensors were approximately three times higher than those from the FDR sensors; some of the differences can be explained by the targeted monitoring of biocrust material in the shorter DPHP sensor and by potential signal loss from horizontally installed FDR sensors, or by an oversampling of deeper soil. C-exchange estimates using the DPHP sensors showed a net C loss of 69 and 76 g C m−2 in control and heated plots, respectively. The study illustrates the potential for using the more sensitive data from shallow installations for estimating C exchange in biocrusts.

Publication Year 2017
Title Monitoring water content dynamics of biological soil crusts
DOI 10.1016/j.jaridenv.2017.03.004
Authors Michael H. Young, Lynn F. Fenstermaker, Jayne Belnap
Publication Type Article
Publication Subtype Journal Article
Series Title Journal of Arid Environments
Index ID 70189131
Record Source USGS Publications Warehouse
USGS Organization Southwest Biological Science Center
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