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Mapping the spatial distribution of botanical composition and herbage mass in pastures using hyperspectral imaging
Author(s) -
Suzuki Yumiko,
Okamoto Hiroshi,
Takahashi Makoto,
Kataoka Takashi,
Shibata Youichi
Publication year - 2012
Publication title -
grassland science
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.388
H-Index - 19
eISSN - 1744-697X
pISSN - 1744-6961
DOI - 10.1111/j.1744-697x.2011.00239.x
Subject(s) - hyperspectral imaging , perennial plant , vegetation (pathology) , pasture , grazing , linear discriminant analysis , multispectral image , spatial distribution , plant community , grassland , normalized difference vegetation index , lolium perenne , environmental science , agronomy , remote sensing , botany , mathematics , biology , geography , leaf area index , statistics , ecological succession , medicine , pathology
Abstract Quantifying the vegetation heterogeneity in pastures is important to understand the behavior and performance of grazing animals. In this study, we developed a technique for mapping spatial distribution of botanical composition (perennial ryegrass, white clover and other plants) and herbage mass of perennial ryegrass in a grazed pasture using a hyperspectral imaging system, which can glean more detailed spectral information than conventional multispectral imaging that uses standard band frequencies. Plant portions were extracted from hyperspectral image using normalized difference vegetation index threshold and classified into the three plant species or species groups using linear discriminant analysis models. The overall success rate of plant extraction and discrimination between plant species or species groups was 91.6 and 80.3%, respectively. Herbage mass of perennial ryegrass was estimated using partial least squares regression analysis, where the estimated values showed a coefficient of determination of 0.60 against the observed values. In consequence of the models, our results suggested that the difference of leaf cell structure and photosynthesis pigments influenced discrimination between plant species or species group and estimation of the herbage mass. The results demonstrate the potential of the hyperspectral imaging system for creating high spatial resolution maps of vegetation characteristics in pastures.

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