2011
DOI: 10.1002/hyp.8368
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Contributions of imaging spectroscopy to improve estimates of evapotranspiration

Abstract: Abstract:Improved estimates of evapotranspiration (ET) are needed for water resource management and irrigation scheduling. We review the use of imaging spectroscopy to capture estimates of water vapour flux and biophysical components of ET. Remote sensing has long attempted to quantify and predict ET, with most applications relying only on green vegetation indexes from multispectral imagers combined with thermal radiance and weather data. In contrast, imaging spectrometry is an advanced remote sensing technolo… Show more

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Cited by 12 publications
(8 citation statements)
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References 139 publications
(223 reference statements)
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“…The first region, ranging from 410 to 650 nm, is mostly related to the Fe oxides [19,25], with the 560 nm waveband related to OM [24,65]. The second region ranges from 850 to 1075 nm; of this, the 850-930 nm range is related to hydroxyl in Fe oxides [19,25], the 970 nm waveband is related to the soil water absorption waveband [66], the 1010 nm waveband is a hydrate-related absorption feature [67], and the 1025-1075 nm range is mostly related to the electronic transition bands of Fe 2+ or Fe 3+ [19]. The third region, ranging from 1530 to 1770 nm, is almost entirely related to soil organics [19,25].…”
Section: Soil Properties and Spectral Responsementioning
confidence: 99%
“…The first region, ranging from 410 to 650 nm, is mostly related to the Fe oxides [19,25], with the 560 nm waveband related to OM [24,65]. The second region ranges from 850 to 1075 nm; of this, the 850-930 nm range is related to hydroxyl in Fe oxides [19,25], the 970 nm waveband is related to the soil water absorption waveband [66], the 1010 nm waveband is a hydrate-related absorption feature [67], and the 1025-1075 nm range is mostly related to the electronic transition bands of Fe 2+ or Fe 3+ [19]. The third region, ranging from 1530 to 1770 nm, is almost entirely related to soil organics [19,25].…”
Section: Soil Properties and Spectral Responsementioning
confidence: 99%
“…Infrared thermography (IRT) emerged as a technology in the 1960s developed by the United States military initially for nighttime surveillance and heat signature detection (Rogalski, 2012). With expansion of access to non-military, scientists, and civilians, it is now used extensively in numerous fields, including law enforcement, engineering, building assessment, medical imaging, as well as in biological (Berz and Sauer, 2007;Kouba, 2005;McCafferty, 2007) and ecological applications (Boonstra et al, 1994;Rodriguez et al, 2011). More recent advances in thermal imaging have capitalized on the sensitivity of this technique for assessing relative miniscule changes in temperature that underlie changes in peripheral blood flow, which has led to repeated suggestions that thermal imaging would be a viable diagnostic tool in veterinary and human medicine (Jones, 1998;Turner, 2001), sports medicine (Al-Nakhli et al, 2012;Hildebrandt et al, 2010), and breast cancer detection (Kerr, 2004), to name a few.…”
Section: Introductionmentioning
confidence: 99%
“…For example, the Normalized Differential Water Index (NDWI) is sensitive to water content at leaf level and only partially correlates to the same status when acquired at a distance from the plant due to severe dependency on leaf area index and crop geometry [13]. Hyperspectral reflectance spectroscopy expands the multispectral analysis, as it acquires hundreds of bands at a higher spectral resolution in a single acquisition and may better capture the physiological attenuations embedded within the spectrum [14].…”
Section: Introductionmentioning
confidence: 99%