Spectral detection of near-surface moisture content and water-table position in northern peatland ecosystems

Wildland fire occurrence has been increasing in peatland ecosystems during recent decades. As such, there is a need for broadly applicable tools to detect and monitor controls on combustion such as surface peat moisture and water-table position. A field portable spectroradiometer was used to measure...

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Bibliographic Details
Published in:Remote sensing of environment 2014-09, Vol.152, p.536-546
Main Authors: Meingast, Karl M., Falkowski, Michael J., Kane, Evan S., Potvin, Lynette R., Benscoter, Brian W., Smith, Alistair M.S., Bourgeau-Chavez, Laura L., Miller, Mary Ellen
Format: Article
Language:English
Subjects:
Animal, plant and microbial ecology
Applied geophysics
Biological and medical sciences
Earth sciences
Earth, ocean, space
Ecosystems
Exact sciences and technology
Fire
Fundamental and applied biological sciences. Psychology
General aspects. Techniques
Hyperspectral
Internal geophysics
Moisture
Moisture content
Monitors
Peatland
Peatlands
Reflectance
Sensors
Spectra
Spectral
Sphagnum
Teledetection and vegetation maps
Vegetation
Water table
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Summary:Wildland fire occurrence has been increasing in peatland ecosystems during recent decades. As such, there is a need for broadly applicable tools to detect and monitor controls on combustion such as surface peat moisture and water-table position. A field portable spectroradiometer was used to measure surface reflectance of two Sphagnum moss-dominated peatland experiments, one being an experimental study utilizing a factorial experiment of vegetation and water-table manipulations and the other being a field site located in the Upper Peninsula of Michigan that is broadly representative of northern peatland ecosystems. Relationships were developed correlating spectral indices to surface moisture as well as water-table position using the surface reflectance data. Spectral convolutions, or integrations of the hyperspectral data with the relative spectral response curves of multispectral sensors, were also applied to represent spectral sensitivity of commonly used Earth observing sensors. Band ratios previously used to monitor surface moisture with these sensors were assessed. Strong relationships with surface moisture and water-table position are evident for both the narrow-band indices as well as broad-band indices. This study also revealed a dependence of spectral relationships on changes in vegetation cover, particularly ericoid shrubs, within the vegetation manipulation experiment. •Spectral reflectance measurements of Sphagnum dominated peatlands were acquired.•Measurements were taken under an extreme range of moisture availability.•NIR spectral indices related best to water table position and moisture content.•Sensor specific spectral broadening did not greatly reduce these relationships.•Indices were altered by vegetation manipulations present in a mesocosm experiment.
ISSN:0034-4257
1879-0704
DOI:10.1016/j.rse.2014.07.014