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RESEARCH ARTICLE
Contents Vol 13(3)

Measuring duff moisture content in the field using a portable meter sensitive to dielectric permittivity*

P. R. Robichaud A G , D. S. Gasvoda B , R. D. Hungerford C , J. Bilskie D , L. E. Ashmun E and J. Reardon F
+ Author Affiliations
- Author Affiliations

A Rocky Mountain Research Station, Forestry Sciences Laboratory, U.S. Department of Agriculture Forest Service, 1221 South Main St, Moscow, ID 83843, USA.

B Retired, Missoula Technology and Development Center, U.S. Department of Agriculture Forest Service, Missoula, MT 59808, USA.

C Retired, Rocky Mountain Research Station, Fire Sciences Laboratory, U.S. Department of Agriculture Forest Service, Missoula, MT 59807, USA.

D Campbell Scientific, Inc., Logan, UT 84321, USA.

E Rocky Mountain Research Station, Forestry Sciences Laboratory, U.S. Department of Agriculture Forest Service, Moscow, ID 83843, USA.

F Rocky Mountain Research Station, Fire Sciences Laboratory, U.S. Department of Agriculture Forest Service, Missoula, MT 59807, USA.

G Corresponding author. Telephone: +1 208 883 2349; fax: +1 208 883 2318; email: probichaud@fs.fed.us

International Journal of Wildland Fire 13(3) 343-353 https://doi.org/10.1071/WF03072
Submitted: 13 October 2003  Accepted: 2 March 2004   Published: 16 November 2004

Abstract

Duff water content is an important consideration for fire managers when determining favourable timing for prescribed fire ignition. The duff consumption during burning depends largely on the duff water content at the time of ignition. A portable duff moisture meter was developed for real-time water content measurements of non-homogenous material such as forest duff. Using circuitry developed from time and frequency domain reflectometry (TDR and FDR) technologies, this sensor measures a change in frequency that is responsive to the dielectric permittivity of the duff material placed in a sample chamber and compressed. Duff samples from four forest cover types—Douglas fir, larch, lodgepole pine and spruce/alpine fir—were used to calibrate the frequency output to volumetric water content. A second-order polynomial (R2 = 0.97) provides the best fit of the data to volumetric water content. The accuracy of the duff moisture meter is ±1.5% at 30% volumetric water content and ±4% at 60% volumetric water content. The volumetric water content can readily be converted to gravimetric water content, which is used more frequently by fire managers and as an input to predictive models of duff consumption.

Additional keywords: duff moisture meter; forest floor; frequency domain reflectometry (FDR); prescribed fire; time domain reflectometry (TDR).


References


Baker MB, Jr (1990) Hydrologic and water quality effects of fire. In ‘Proceedings: effects of fire management of Southwestern natural resources’. (Tech. Ed. JS Krammes) USDA Forest Service, Rocky Mountain Research Station General Technical Report RM-191. (Ft Collins, CO)

Bilskie J (1997) Using dielectric properties to measure soil water content. Sensors  14, 26–34.
Dalton FN (1992) Development of time-domain reflectometry for measuring soil water content and bulk soil electrical conductivity. In ‘Advances in measurement of soil physical properties: bringing theory into practice’. (Eds GC Topp, WD Reynolds) pp. 143–167. Special Publication No. 30. (Soil Science Society of America: Madison, WI)

DeBano LF,  Neary DG,  Ffolliott PF (1998) ‘Fire’s effects on ecosystems.’ (John Wiley & Sons: New York)  

Ferguson SA, Ruthford JE, McKay SJ, Wright D, Wright C , Ottmar R (2002) Measuring moisture dynamics to predict fire severity in longleaf pine forests. International Journal of Wildland Fire  11, 267–279.
Crossref | GoogleScholarGoogle Scholar | Fosberg MA (1977) ‘Heat and water transport properties in conifer duff and humus.’ USDA Forest Service, Rocky Mountain Forest and Range Experiment Station Research Paper RM-195. (Ft Collins, CO)

Frandsen WH (1997) Ignition probability of organic soils. Canadian Journal of Forest Resources  27, 1471–1477.
Crossref | GoogleScholarGoogle Scholar | Reinhardt ED, Keane RE (2002) ‘FOFEM Version 5.0. First Order Fire Effects Model.’ USDA Forest Service, Intermountain Fire Sciences Laboratory, Rocky Mountain Research Station. (Missoula, MT) Available at http://fire.org [Verified 13 September 2004]

Reinhardt EG, Brown JK, Filcher WA , Graham RT (1991) ‘Woody fuel and duff consumption by prescribed fire in the northern Idaho mixed conifer logging slash. ’ USDA Forest Service, Intermountain Research Station Research Paper INT-443. (Ogden, UT)

Reinhardt EG, Keane RE , Brown JK (1997) ‘First order fire effects model: FOFEM 4.0, user’s guide.’ USDA Forest Service, Intermountain Research Station General Technical Report INT-GTR-344. (Ogden, UT)

Robichaud PR (2000) Fire effects on infiltration rates after prescribed fire in northern Rocky Mountain forests, USA. Journal of Hydrology  231–232, 220–229.
Crossref | GoogleScholarGoogle Scholar | Robichaud PR, Hungerford RD, Gasvoda DS (Inventors), The United States of America as represented by the Secretary of Agriculture, assignee (1999) Apparatus and Method for the Measurement of Forest Duff Moisture Content. U.S. patent 5,920,195. July 6. pp. 11 Int. Cl6G01R 27/26.

Robichaud PR, Hungerford RD, Gasvoda DS (Inventors), The United States of America as represented by the Secretary of Agriculture, assignee (2000) Method for the Measurement of Forest Duff Moisture Content. U.S. patent 6,078,181. June 20. pp. 10 Int. Cl7G01R 27/26.

Ryan KC (2002) Dynamic interactions between forest structure and fire behavior in boreal ecosystems. Silva Fennica  36, 13–39.


Sakai T, Suihara K , Adachi T (1998) Application of time domain reflectometry to the determination of volumetric water content in rock. Water Resources Research  34, 2623–2631.
Crossref | GoogleScholarGoogle Scholar |

Schaap MG, de Lange L , Heimovaara TJ (1997) TDR calibration of organic forest floor media. Soil Technology  11, 205–217.
Crossref | GoogleScholarGoogle Scholar |

Selker JS, Graff L , Steenhuis T (1993) Noninvasive time domain reflectometry moisture measurement probe. Soil Science Society of America Journal  57, 934–936.


Soto B, Basanta R, Benito E, Perez R , Diaz-Fierros F (1994) Runoff and erosion from burnt soils in northwest Spain. ‘Proceedings: Soil erosion and degradation as a consequence of forest fires. 1991’.

Stein J , Kane DL (1983) Monitoring the unfrozen water content of soil and snow using time domain reflectometry. Water Resources Research  19, 1573–1584.


Tolkka MV , Hallikainen M (1989) A practical electric instrument for in situ measurement of peat properties. ‘Proceedings of the 11th international congress on agricultural engineering’. (Dublin ICAE: Rotterdam)

Topp GC, Davis JL , Annan AP (1980) Electromagnetic determination of soil water content: measurements in coaxial transmission lines. Water Resources Research  16, 574–582.


Topp GC, Davis JL , Annan AP (1982a) Electromagnetic determination of soil water content using TDR: I. Applications to wetting fronts and steep gradients. Soil Science Society of America Journal  46, 672–678.


Topp GC, Davis JL , Annan AP (1982b) Electromagnetic determination of soil water content using TDR: II. Evaluation of installation and configuration of parallel transmission lines. Soil Science Society of America Journal  46, 678–684.


Walstad JD ,  Seidel KW (1990) Use and benefits of prescribed fire in reforestation. In ‘Natural and prescribed fire in Pacific Northwest forest’. (Eds  JD Walstad, SR Radosevich ,  DV Sandberg )  pp. 67–79. (Oregon State University Press: Corvallis)

Wells CG, Campbell RE, DeBano LF, Lewis CE, Fredriksen RL, Franklin ED, Froelich RC , Dunn PH (1979) ‘Effects of fire on soil: a state-of-knowledge review.’ USDA Forest Service, General Technical Report WO-7. (Washington, DC)


* This manuscript was written and prepared by U.S. Government employees on official time and therefore is in the public domain and not subject to copyright.

The use of trade or firm names in this publication is for reader information and does not imply endorsement by the U.S. Department of Agriculture of any product or service.