Soil moisture as an indicator of growing-season herbaceous fuel moisture and curing rate in grasslands

Sharma, Sonisa; Carlson, J. D.; Krueger, Erik S.; Engle, David M.; Fuhlendorf, Samuel D.; Patrignani, Andres; Feng, Li; Ochsner, Tyson

doi:10.1071/wf19193

Cited by 24 publications

(29 citation statements)

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“…Using a subset of the current dataset, Sharma et al. (2020) also reported a negative partial slope, but Caldwell et al. (2018) and Kargas and Soulis (2019) reported positive slopes for some soils, The interpretation of this parameter is complicated by the fact that the permittivity values reported by the CS655 are internally adjusted in an attempt to account for the effects of EC b .…”

Section: Resultsmentioning

confidence: 88%

“…The latest family of improved soil water reflectometers based on transmission line oscillators is represented by the CS65x series consisting of the CS650 (30‐cm rods), CS655 (12‐cm rods), CS658 (20‐cm rods, hand‐held use), and CS659 (12‐cm rods, hand‐held use) sensors. In recent years, soil water reflectometers from the CS65x series have been adopted in core calibration–validation sites of the NASA Soil Moisture Active Passive satellite mission (Caldwell et al., 2018), in core calibration–validation sites of a new near‐surface soil moisture product for northern boreal forests developed by the European Space Agency's (ESA) Climate Change Initiative (Ikonen et al., 2018), in small catchment‐scale networks aimed at better understanding the role of soil moisture in herbaceous fuel moisture and curing rates in a tallgrass prairie in the U.S. Great Plains (Sharma et al., 2020), and have been adopted for long‐term monitoring of rootzone soil water storage by mesoscale environmental monitoring networks like the Kansas Mesonet (Patrignani et al., 2020). Similarly, portable soil water reflectometers have been used to delineate soil moisture‐based field management zones in agricultural fields (Rossini et al., 2021), explore the hydrologic connection between snowmelt runoff and streamflow (Kampf et al., 2015), and to calibrate and validate proximal soil moisture sensors like impulse radar sensors (Tan et al., 2014) and cosmic‐ray neutron detectors (Patrignani et al., 2021; Vather et al., 2019).…”

Section: Introductionmentioning

confidence: 99%

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Calibration and validation of soil water reflectometers

Patrignani

Ochsner

Feng

et al. 2022

Vadose Zone Journal

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In this study, we tested soil water reflectometers represented by the CS65x series soil water reflectometers. The objectives were to (a) quantify the sensing volume of the CS65x sensors, (b) evaluate common univariate and multivariate calibration models, and (c) assess the implications of using uncalibrated sensors. The support volume was determined by analyzing the response of the bulk dielectric permittivity to a changing amount of surrounding media in the radial and axial directions of the sensor. Calibration models were tested using a dataset of ∼300 soil samples spanning nine soil textural classes. A time series of rootzone soil water storage recorded in two contrasting soils and two intensive (n ∼300) spatial surveys of near-surface soil moisture were used to quantify the implications of using uncalibrated sensors. The electromagnetic signal of CS655 was concentrated within a ∼3.5-cm radius around the center of the sensor rods. Univariate and multivariate calibration equations reduced the mean absolute error (MAE) in soil moisture observations by ∼40% compared with factory default equations. Uncalibrated sensors did not change the pattern of soil moisture temporal dynamics but resulted in a strong bias in soil water storage in a silty clay loam soil and altered the soil moisture spatial patterns obtained in moderate to wet field conditions in a silty clay soil. The CS655 sensor with the Kargas and Soulis calibration equation (MAE = 0.026 cm 3 cm −3 ) appears to be an acceptable candidate for deployment in soil moisture monitoring networks seeking to avoid site-specific sensor calibrations.

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Section: Resultsmentioning

confidence: 88%

Section: Introductionmentioning

confidence: 99%

Calibration and validation of soil water reflectometers

Patrignani

Ochsner

Feng

et al. 2022

Vadose Zone Journal

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“…Pixels were masked when the DL was less than 0 • C, suggesting snow coverage or frozen soil at that time and location. Strong positive relationships between RSM and the vegetation index (e.g., NDVI) were found for Australia [92], tallgrass prairies in the USA [93,94], croplands in North China [95], and East Africa [96]. Surface reflectance products (including seven bands) were chosen to calculate the five vegetation indices: EVI, DVI, RVI, NDVI, EVI2, and MSAVI [34].…”

Section: Modis Datamentioning

confidence: 99%

Modeling Soil Moisture from Multisource Data by Stepwise Multilinear Regression: An Application to the Chinese Loess Plateau

Yuan

Zhang

et al. 2021

IJGI

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This study aims to integrate multisource data to model the relative soil moisture (RSM) over the Chinese Loess Plateau in 2017 by stepwise multilinear regression (SMLR) in order to improve the spatial coverage of our previously published RSM. First, 34 candidate variables (12 quantitative and 22 dummy variables) from the Moderate Resolution Imaging Spectroradiometer (MODIS) and topographic, soil properties, and meteorological data were preprocessed. Then, SMLR was applied to variables without multicollinearity to select statistically significant (p-value < 0.05) variables. After the accuracy assessment, monthly, seasonal, and annual spatial patterns of RSM were mapped at 500 m resolution and evaluated. The results indicate that there was a high potential of SMLR to model RSM with the desired accuracy (best fit of the model with Pearson’s r = 0.969, root mean square error = 0.761%, and mean absolute error = 0.576%) over the Chinese Loess Plateau. The variables of elevation (0–500 m and 2000–2500 m), precipitation, soil texture of loam, and nighttime land surface temperature can continuously be used in the regression models for all seasons. Including dummy variables improved the model fit both in calibration and validation. Moreover, the SMLR-modeled RSM achieved better spatial coverage than that of the reference RSM for almost all periods. This is a significant finding as the SMLR method supports the use of multisource data to complement and/or replace coarse resolution satellite imagery in the estimation of RSM.

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“…We now know that in situ soil moisture relates differently to wildfire probability during the growing season than during the dormant season (Krueger et al., 2016) and that in situ soil moisture measurements can better predict large growing‐season wildfires than the Keetch–Byram Drought Index (Krueger et al., 2017). We also learned how soil moisture observations can provide an effective indicator of fuel moisture content and curing rate for grassland vegetation (Sharma et al., 2020) and dead fuel moisture content in Sierra Nevada forests (Rakhmatulina et al., 2021). In situ soil moisture measurements have also proven valuable for improving predictions of grassland fuel loads (Krueger et al., 2021), which is significant given the fact that grasslands account for a large portion of the area burned worldwide each year.…”

Section: Looking Deeper At Soil Moisture—wildfire Relationshipsmentioning

confidence: 99%

Using Soil Moisture Information to Better Understand and Predict Wildfire Danger

Ochsner

Levi

Skumanich³

et al. 2021

CSA News

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ildfires have significant impacts on communities and ecosystems around the world, and over the past decade (2011)(2012)(2013)(2014)(2015)(2016)(2017)(2018)(2019)(2020), more than 1.5 million hectares of land has burned in the U.S. on average each year (National Interagency Fire Center, 2021). Meanwhile, federal fire suppression costs have increased dramatically, topping US$3 billion in 2018. Additional costs are borne by the affected communities in the form of lives lost, structures destroyed, decreased business and tax revenues, increased respiratory illnesses, and increased water pollution (Roman et al., 2020). These costly effects of

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Soil moisture as an indicator of growing-season herbaceous fuel moisture and curing rate in grasslands

Cited by 24 publications

References 50 publications

Calibration and validation of soil water reflectometers

Calibration and validation of soil water reflectometers

Modeling Soil Moisture from Multisource Data by Stepwise Multilinear Regression: An Application to the Chinese Loess Plateau

Using Soil Moisture Information to Better Understand and Predict Wildfire Danger

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