Vegetation water content during SMEX04 from ground data and Landsat 5 Thematic Mapper imagery

Yılmaz, M. Tuğrul; Hunt, E. Raymond; Goins, Lyssa D.; Ustin, Susan L.; Vanderbilt, V. C.; Jackson, Thomas J.

doi:10.1016/j.rse.2007.03.029

Cited by 90 publications

(46 citation statements)

References 44 publications

(62 reference statements)

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“…At this point, there is a significant change in the rice morphological structure due to the panicle emergence, leading to an increasing variability of the estimates. Error, Bias, and correlation between instruments are small and do agree with previous studies in different crops [23,53] in which strong correlations (R 2 = 0.96 and R 2 = 0.94), small bias (ME ≈ 0.2) and accuracy (RMSE ≈ 0.5) were found. These in situ PAI e f f measurements allowed the creation of a transfer function, which was used to derive PAI e f f maps.…”

Section: On the Pai E F F Measuring Instruments And Maps Comparisonsupporting

confidence: 91%

Multitemporal Monitoring of Plant Area Index in the Valencia Rice District with PocketLAI

et al. 2016

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Leaf area index (LAI) is a key biophysical parameter used to determine foliage cover and crop growth in environmental studies in order to assess crop yield. Frequently, plant canopy analyzers (LAI-2000) and digital cameras for hemispherical photography (DHP) are used for indirect effective plant area index (PAI e f f ) estimates. Nevertheless, these instruments are expensive and have the disadvantages of low portability and maintenance. Recently, a smartphone app called PocketLAI was presented and tested for acquiring PAI e f f measurements. It was used during an entire rice season for indirect PAI e f f estimations and for deriving reference high-resolution PAI e f f maps. Ground PAI e f f values acquired with PocketLAI, LAI-2000, and DHP were well correlated (R 2 = 0.95, RMSE = 0.21 m 2 /m 2 for Licor-2000, and R 2 = 0.94, RMSE = 0.6 m 2 /m 2 for DHP). Complementary data such as phenology and leaf chlorophyll content were acquired to complement seasonal rice plant information provided by PAI e f f . High-resolution PAI e f f maps, which can be used for the validation of remote sensing products, have been derived using a global transfer function (TF) made of several measuring dates and their associated satellite radiances.

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Section: On the Pai E F F Measuring Instruments And Maps Comparisonsupporting

confidence: 91%

Multitemporal Monitoring of Plant Area Index in the Valencia Rice District with PocketLAI

et al. 2016

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“…Generally, canopy water content (CWC) and the mean leaf equivalent water thickness at the canopy level ( ̅̅̅̅̅̅̅ ) are widely used for describing the vegetation water status [6,7]. Since many biogeochemical processes including photosynthesis, evapotranspiration and net primary production are closely related to vegetation CWC and ̅̅̅̅̅̅̅ [8][9][10], therefore, gaining a thorough and better understanding of vegetation CWC and ̅̅̅̅̅̅̅ will play an important role in mapping and monitoring the conditions of terrestrial ecosystems such as environmental stress [11], wildfire potential [12] or soil moisture retrieval [13].…”

Section: Introductionmentioning

confidence: 99%

Estimation of Canopy Water Content by Means of Hyperspectral Indices Based on Drought Stress Gradient Experiments of Maize in the North Plain China

Zhang

Zhou

2015

Remote Sensing

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Here, we conducted drought stress gradient experiments of maize, and used ten water content related vegetation indices (VIs) to estimate widely variable canopy water content (CWC) and mean leaf equivalent water thickness at canopy level ( ̅̅̅̅̅̅̅ ) based on in situ measurements of Lambertian equivalent reflectance and important biological and environmental factors during the 2013−2014 growing seasons in the North China Plain. Among ten VIs, the performances of green chlorophyll index (CIgreen), red edge chlorophyll index (CIred edge), and the red edge normalized ratio (NRred edge) were most sensitive to the variations of CWC and ̅̅̅̅̅̅̅ . Simulated drought in two differently managed irrigation years did not affect the sensitivities of VIs to the variations in CWC and ̅̅̅̅̅̅̅ . However, the relationships between CWC and VIs were more noticeable in 2014 than in 2013. In contrast, ̅̅̅̅̅̅̅ and VIs were more closely related in 2013 than in 2014. CWC and relative soil water content (RSWC) obviously exhibited a two-dimensional trapezoid space, which illustrated that CWC was determined not only by soil water status but also by crop growth and stage of development. This study demonstrated that nearly half of the variation in CWC explained by spectral information was derived from the variation in leaf area index (LAI).

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“…35,36 In addition to this, the correction for vegetation effects requires the single-scattering albedo to describe the scattering effects caused by the vegetation. These vegetation parameters are all assigned to land cover types as prepared in ancillary datasets.…”

Section: Soil Moisture Algorithmmentioning

confidence: 99%

Potential soil moisture product from the Chinese HY-2 scanning microwave radiometer and its initial assessment

Zhao

Shi

Lin

et al. 2014

J. Appl. Remote Sens

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Abstract. The Chinese HY-2, a satellite designed for ocean dynamic environment monitoring, was launched on August 16, 2011. The onboard scanning microwave radiometer (RM) is primarily designed for sea surface temperature and wind speed mapping. However, our objective of this investigation is to exploit the large amount of land observations of RM and to extend the mission scope to the retrieval of surface soil moisture, which is also an essential boundary condition for coupling with atmospheric dynamics. The single-channel algorithm (SCA) was implemented using only the RM observed brightness temperature to estimate the surface soil moisture. Ancillary data of a normalized difference vegetation index were processed and used as inputs for the SCA to calculate the vegetation water content, which is a required parameter for estimating the vegetation optical depth. The retrieved soil moisture results agree with the global climate pattern of wet and dry regions. Initial assessments were performed using soil moisture measurements by in situ underground sensors over two selected networks: REMEDHUS in Spain and CTP-SMTMN network over the Tibetan Plateau. Results showed a good performance of soil moisture estimation for these land surface conditions for the year 2012, with the lowest root mean square error of 0.047 m 3 ∕m 3 . This product will contribute to continuous soil moisture information on a global scale for global change studies. © The Authors. Published by SPIE under a Creative Commons Attribution 3.0 Unported License. Distribution or reproduction of this work in whole or in part requires full attribution of the original publication, including its DOI.

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Vegetation water content during SMEX04 from ground data and Landsat 5 Thematic Mapper imagery

Cited by 90 publications

References 44 publications

Multitemporal Monitoring of Plant Area Index in the Valencia Rice District with PocketLAI

Multitemporal Monitoring of Plant Area Index in the Valencia Rice District with PocketLAI

Estimation of Canopy Water Content by Means of Hyperspectral Indices Based on Drought Stress Gradient Experiments of Maize in the North Plain China

Potential soil moisture product from the Chinese HY-2 scanning microwave radiometer and its initial assessment

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