Advances in estimation methods of vegetation water content based on optical remote sensing techniques

Zhang, Jiahua; Xu, Yan; Yao, Fengmei; Wang, Peijuan; Guo, Wenjuan; Li, Li; Yang, Limin

doi:10.1007/s11431-010-0131-3

Cited by 56 publications

(37 citation statements)

References 47 publications

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“…The sensitivity of the short wave infrared (SWIR) region to changes in vegetation moisture has been widely documented (Ceccato et al, 2001;Gao, 1996;Zhang et al, 2010) and has been implemented in the form of a number of spectral indices. The most well known moisture related vegetation indices are computed as normalized differences between the near-infrared (NIR) reflectance and the SWIR and are commonly referred to in literature as Normalized Difference Water Index (NDWI).…”

Section: Spaceborne Datamentioning

confidence: 99%

Remotely sensed vegetation moisture as explanatory variable of Lyme borreliosis incidence

Barrios

Verstraeten

Maes

et al. 2012

International Journal of Applied Earth Observation and Geoinfor

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Section: Spaceborne Datamentioning

confidence: 99%

Remotely sensed vegetation moisture as explanatory variable of Lyme borreliosis incidence

Barrios

Verstraeten

Maes

et al. 2012

International Journal of Applied Earth Observation and Geoinfor

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“…To estimate leaf EWT, stepwise regression and leaf reflectance model inversion can also be used ( Jacquemoud et al 2000). Many indexes have been introduced and most of them are empirical (Ceccato et al 2002), mostly in the form of the ratio of two reflectance values or a combination of two or more reflectance values (Zhang et al 2010). Zhang et al (2010) have reported five absorption bands for water in 400-2,500 nm spectral region: 970; 1,200; 1,450; 1,930 and 2,500 nm.…”

Section: Research Articlementioning

confidence: 99%

“…Many indexes have been introduced and most of them are empirical (Ceccato et al 2002), mostly in the form of the ratio of two reflectance values or a combination of two or more reflectance values (Zhang et al 2010). Zhang et al (2010) have reported five absorption bands for water in 400-2,500 nm spectral region: 970; 1,200; 1,450; 1,930 and 2,500 nm. Riaño et al (2005b) specified that 1,400-2,500 nm range provides the highest correlation with EWT.…”

Section: Research Articlementioning

confidence: 99%

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Leaf Equivalent Water Thickness assessment using reflectance at optimum wavelengths

Mobasheri¹,

Fatemi²

2013

Theor. Exp. Plant Physiol.

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Leaf water content is an important parameter in environmental monitoring. The present study investigated the relation between leaf Equivalent Water Thickness (EWT) as a parameter to estimate the leaf water content and the reflectance in 400-2,500 nm spectral range. The data used were the well-known Leaf Optical Properties Experiment 93 (LOPEX93) field collected data. Four hundred leaf samples were used, 320 of which for modelling and the remaining 80 for testing the model. Four different approaches were investigated in this study: 1) linear regression between reflectance in individual wavelength and EWT; 2) the difference of reflectance in two wavelengths and EWT; 3) ratio of reflectance in two wavelengths and EWT; and finally 4) the normalized difference of reflectance in two different wavelengths and EWT. The results showed that the band combinations such as ratio and normalized difference had higher regressions with leaf water content. In addition, the findings of this study showed that some parts of the near infrared (NIR) and short wave infrared (SWIR) of the spectrum provided higher accuracies in EWT assessment, and correlations of more than 90% were achieved. Finally, this investigation showed that a wide range of wavelengths could be used for EWT assessment task. Despite the general belief in using water absorption bands for leaf water content assessment, this study shows that water absorption bands are not necessarily productive as other wavelengths have the potential to generate better results.

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“…Wang and Qu (2009) comprehensively reviewed progress in soil moisture monitoring using optical, thermal, passive microwave, and active microwave remote sensing techniques. Zhang et al (2010) also reviewed advances in research of vegetation water content retrieval using optical remote sensing, including various vegetation moisture indices and the radiative transfer model (RTM) methods.…”

Section: Introductionmentioning

confidence: 99%

Evaluation of the visible and shortwave infrared drought index in China

Zhang

Hong

Qin

et al. 2013

Int J Disaster Risk Sci

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In this article, the performance of the Visible and Shortwave infrared Drought Index (VSDI), a drought index recently developed and validated in Oklahoma, United States, is further explored and validated in China. The in-situ measured soil moisture from 585 weather stations across China are used as ground-truth data, and five commonly used drought indices are compared with VSDI for surface drought monitoring. The results reveal that VSDI is robust and reliable in the estimation of surface dryness-it has the highest correlation with soil moisture among the six indices when computed using both the original and cloud removed data. All six indices show the highest correlation with soil moisture at the 10 cm layer and the averaged 10-50 cm layer. The spatiotemporal patterns of surface moisture indicated by the MODIS-based VSDI are further compared with the precipitation-based drought maps and the Global Land Data Assimilation System (GLDAS) simulated surface soil moisture maps over five provinces located in the Middle-Lower Yangtze Plain of China. The results indicate that despite the difference between the spatial and temporal resolutions of the three products, the VSDI maps still show good agreement with the other two drought products through the rapidly alternating drought and flood events in 2011 in this region. Therefore, VSDI can be used as an effective surface wetness indicator at both the provincial and the national scales in China.

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Advances in estimation methods of vegetation water content based on optical remote sensing techniques

Cited by 56 publications

References 47 publications

Remotely sensed vegetation moisture as explanatory variable of Lyme borreliosis incidence

Remotely sensed vegetation moisture as explanatory variable of Lyme borreliosis incidence

Leaf Equivalent Water Thickness assessment using reflectance at optimum wavelengths

Evaluation of the visible and shortwave infrared drought index in China

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