Abstract
In livestock grazing environments, the knowledge of C3/C4 species composition of a pasture field is invaluable, since such information assists graziers in making decisions around fertilizer application and stocking rates. The general aim of this research was to explore the potential of multi-temporal Sentinel-1 (S1) Synthetic Aperture Radar (SAR) to discriminate between C3, C4, and mixed-C3/C4 compositions. In this study, three Random Forest (RF) classification models were created using features derived from polarimetric SAR (polSAR) and grey-level co-occurrence textural metrics (glcmTEX). The first RF model involved only polSAR features and produced a prediction accuracy of 68% with a Kappa coefficient of 0.49. The second RF model used glcmTEX features and produced prediction accuracies of 76%, 62%, and 75% for C3, C4, and mixed C3/C4 grasses, respectively. The glcmTEX model achieved an overall prediction accuracy of 73% with a Kappa coefficient of 0.57. The polSAR and glcmTEX features were then combined (COMB model) to improve upon their individual classification performances. The COMB model produced prediction accuracies of 89%, 81%, and 84% for C3, C4, and mixed C3/C4 pasture grasses, and an overall prediction accuracy of 86% with a Kappa coefficient of 0.77. The contribution of the various model features could be attributed to the changes in dominant species between sampling sites through time, not only because of climatic variability but also because of preferential grazing.
Highlights
In pasture grass fields, the botanical composition is often C3 and C4 plants
Similar distribution was observed for January 2018 since the dominance of mixed C3/C4 (MX) was observed in 12 different sites while C4 dominated five sites and C3 species accounted for only two sites
Sentinel-1 C-band synthetic aperture radar data has proven capable of discriminating C3, C4, and mixed C3/C4 fields under livestock preferential grazing
Summary
The botanical composition is often C3 and C4 plants. C3 and C4 pasture grasses are different both physiologically and morphologically [1]. Grazing often enhances the physiological and morphological differences between C3 and C4 grasses by modifying species composition and competition among the species. Due to the higher nutrient content and palatability of C3 grass plants [5], the potential effects of preferential grazing cannot be underestimated. Preferential grazing of C3 plants tends to skew species composition of fields in favour of C4 plants [6,7]. Un-grazed C4 plants tend to reach a reproductive stage with distinctive inflorescence (size and shape of spikelets)
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