Detection of calcium, magnesium, and chlorophyll variations of wheat genotypes on sodic soils using hyperspectral red edge parameters
Article
Article Title | Detection of calcium, magnesium, and chlorophyll variations of wheat genotypes on sodic soils using hyperspectral red edge parameters |
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ERA Journal ID | 210427 |
Article Category | Article |
Authors | Choudhury, Malini Roy (Author), Christopher, Jack (Author), Das, Sumanta (Author), Apan, Armando (Author), Menzies, Neal W. (Author), Chapman, Scott (Author), Mellor, Vincent (Author) and Dang, Yash P. (Author) |
Journal Title | Environmental Technology and Innovation |
Journal Citation | 27, pp. 1-14 |
Article Number | 102469 |
Number of Pages | 14 |
Year | 2022 |
Publisher | Elsevier |
Place of Publication | Netherlands |
ISSN | 2352-1864 |
Digital Object Identifier (DOI) | https://doi.org/10.1016/j.eti.2022.102469 |
Web Address (URL) | https://www.sciencedirect.com/science/article/pii/S235218642200102X |
Abstract | Plants grown on sodic soils can suffer from macronutrient deficiencies, such as calcium (Ca), magnesium (Mg), and potassium (K), reducing health and growth. Nutrient concentrations in plant tissue could potentially provide a signal to identify cultivars tolerant to sodic conditions. However, conventional approaches to diagnosing crop nutrient and chlorophyll status involve determining total elemental content in plant tissues. These methods are time-consuming, tedious, and expensive, requiring destructive sampling of plant parts and complex laboratory analyses. Here, we propose a novel approach using hyperspectral sensing to determine macronutrient and chlorophyll variations/deficiencies of 18 different wheat genotypes grown in moderately sodic (MS) and highly sodic (HS) soil conditions in north-eastern Australia. Canopy reflectance was measured using a handheld spectroradiometer close to flowering to compute red edge spectral indices, such as normalized difference red edge index (NDRE), red edge inflection point (REIP), and red edge chlorophyll index (Cl rededge). Plant Ca, Mg, and K concentrations were also measured by destructive sampling of young mature leaves followed by laboratory analysis. The maximum first derivative of reflectance spectra for 18 wheat genotypes were observed at 722–728 nm and 719–725 nm for the MS and HS site, respectively and was used to determine REIP for the genotypes using a four-point linear interpolation method. Ca and Mg had a significant positive association with both REIP and NDRE, with Ca more closely correlated than either Mg or K. REIP was more closely associated with Ca (R2 = 0.72; RMSE=0.02 for the MS site and R2 = 0.57; RMSE=0.02 for the HS site) than NDRE. This suggests that REIP has a great potential to detect structural variations of wheat genotypes in sodic soil environment. Furthermore, Ca was also significantly (p<0.0001) and positively correlated with Cl rededge at both sites with R2 = 0.53 and 0.51 for the MS and HS site. This suggests that plant structural variations in sodic soil can regulate leaf chlorophyll concentration and, in turn, photosynthetic activities. Overall, results demonstrate that hyperspectral sensing can be efficiently used to detect plant Ca, Mg, and chlorophyll concentrations. The study improves understanding of genotypic nutrient variation for tolerance to different levels of sodic soil conditions using optical properties of plant structure and can be beneficial to the plant science community for developing new approaches to study plant physiology. |
Keywords | Calcium; Chlorophyll; Hyperspectral sensing; Magnesium; Red edge position; Sodic soils |
ANZSRC Field of Research 2020 | 401304. Photogrammetry and remote sensing |
300206. Agricultural spatial analysis and modelling | |
401302. Geospatial information systems and geospatial data modelling | |
Byline Affiliations | University of Queensland |
University of Southern Queensland | |
Institution of Origin | University of Southern Queensland |
https://research.usq.edu.au/item/q78w6/detection-of-calcium-magnesium-and-chlorophyll-variations-of-wheat-genotypes-on-sodic-soils-using-hyperspectral-red-edge-parameters
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