SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4310135829> ?p ?o ?g. }

Showing items 1 to 100 of ±154 with 100 items per page.

W4310135829 endingPage "113384" @default.
W4310135829 startingPage "113384" @default.
W4310135829 abstract "Rice blast (RB, caused by the fungus Magnaporthe oryzae) is the most devastating disease in global rice production, and can cause significant yield losses and increasingly threaten global food security. Accurate detection of RB occurrence with a universal metric is crucial to facilitate early disease prevention and curtailing the disease expansion but has not been addressed to date. This study aimed to design a rice blast index (RIBI) for quantifying the disease index (DI) and tracking the smallholder rice blast dispersal over multiple spatial scales. To achieve this goal, a large dataset including leaf- and canopy-scale reflectance spectra and satellite imagery was acquired within the framework of seven independent campaigns over four years (2018–2021). Specifically, an extensive collection of Magnaporthe oryzae infected samples were analyzed to examine the specific spectral response to pathogen infection in paddy rice from leaf to near-ground canopy scales. Two variants of the RIBI were developed, which were RIBInir = (R753-R1102)/(R665 + R1102) and RIBIred = (R753-R1102)/(R665 + R1102) based on the single-band separability and exhaustive search of band combinations. They were subsequently evaluated for quantifying the RB occurrence from ground to space. Spatial cluster analysis was then integrated with the superior RIBI adjusted for Sentinel-2 imagery to explore the spatio-temporal dynamics of pathogen infection, and to reveal the within-field hotspots of potential rice blast dispersal in smallholder farms. The results demonstrated that both RIBInir and RIBIred exhibited high overall accuracies for the classification of infected and healthy samples at the leaf scale under greenhouse in 2018 (RIBInir: 81.41%; RIBIred: 84.62%) and 2019 (RIBInir: 81.30%; RIBIred: 90.37%) and field conditions in 2020 (RIBInir: 86.36%; RIBIred: 89.39%). Compared with traditional VIs (Near-ground: R2 < 0.47, satellite: R2 < 0.54), the RIBInir yielded improved R2 in quantifying the DI from in situ spectra to satellite imagery (Near-ground: R2 = 0.73, satellite: R2 = 0.78). The strongest DI-RIBInir relationship was attributed to the use of two near-infrared (NIR) bands that helped enhance the unique spectral responses in the NIR region induced by pathogen infection, in contrast to the extensively studied visible region. Multi-temporal analysis of Sentinel-2A derived RIBInir successfully captured the temporal dynamics of RB infection and recovery and yielded compelling maps showing the spatial propagation and attenuation of disease over time. This research opens new opportunities towards quantifying field disease occurrence and detecting the within-field hotspots of potential disease dispersal in a timely manner from publicly available satellite imagery." @default.
W4310135829 created "2022-11-30" @default.
W4310135829 creator A5000071336 @default.
W4310135829 creator A5006852120 @default.
W4310135829 creator A5017022122 @default.
W4310135829 creator A5042921461 @default.
W4310135829 creator A5056036725 @default.
W4310135829 creator A5071894027 @default.
W4310135829 creator A5076637933 @default.
W4310135829 creator A5081337604 @default.
W4310135829 creator A5081529546 @default.
W4310135829 date "2023-02-01" @default.
W4310135829 modified "2023-09-24" @default.
W4310135829 title "A disease-specific spectral index tracks Magnaporthe oryzae infection in paddy rice from ground to space" @default.
W4310135829 cites W1598575158 @default.
W4310135829 cites W1898091954 @default.
W4310135829 cites W1942796923 @default.
W4310135829 cites W1967137980 @default.
W4310135829 cites W1977077800 @default.
W4310135829 cites W1991400963 @default.
W4310135829 cites W1998671658 @default.
W4310135829 cites W2001462218 @default.
W4310135829 cites W2001619934 @default.
W4310135829 cites W2003724897 @default.
W4310135829 cites W2014408679 @default.
W4310135829 cites W2017517919 @default.
W4310135829 cites W2026184927 @default.
W4310135829 cites W2032989493 @default.
W4310135829 cites W2038370512 @default.
W4310135829 cites W2063623478 @default.
W4310135829 cites W2066612219 @default.
W4310135829 cites W2067957242 @default.
W4310135829 cites W2068778426 @default.
W4310135829 cites W2073600426 @default.
W4310135829 cites W2077653178 @default.
W4310135829 cites W2086598913 @default.
W4310135829 cites W2091913822 @default.
W4310135829 cites W2099206930 @default.
W4310135829 cites W2100204705 @default.
W4310135829 cites W2103959917 @default.
W4310135829 cites W2121025745 @default.
W4310135829 cites W2137037625 @default.
W4310135829 cites W2145887856 @default.
W4310135829 cites W2150853404 @default.
W4310135829 cites W2152039022 @default.
W4310135829 cites W2154516913 @default.
W4310135829 cites W2166326933 @default.
W4310135829 cites W2243012910 @default.
W4310135829 cites W2466788515 @default.
W4310135829 cites W2537558114 @default.
W4310135829 cites W2596051487 @default.
W4310135829 cites W2725897987 @default.
W4310135829 cites W2742879363 @default.
W4310135829 cites W2758810255 @default.
W4310135829 cites W2775006744 @default.
W4310135829 cites W2803966119 @default.
W4310135829 cites W2808245019 @default.
W4310135829 cites W2809262461 @default.
W4310135829 cites W2888218114 @default.
W4310135829 cites W2889400155 @default.
W4310135829 cites W2896943478 @default.
W4310135829 cites W2906082851 @default.
W4310135829 cites W2916786190 @default.
W4310135829 cites W2945511169 @default.
W4310135829 cites W2946139905 @default.
W4310135829 cites W2950359183 @default.
W4310135829 cites W2954472586 @default.
W4310135829 cites W2965748829 @default.
W4310135829 cites W2966664137 @default.
W4310135829 cites W2968666161 @default.
W4310135829 cites W2989315263 @default.
W4310135829 cites W2991003369 @default.
W4310135829 cites W2995099525 @default.
W4310135829 cites W2999820247 @default.
W4310135829 cites W3006993985 @default.
W4310135829 cites W3012550271 @default.
W4310135829 cites W3032830899 @default.
W4310135829 cites W3087443968 @default.
W4310135829 cites W3092616522 @default.
W4310135829 cites W3094481912 @default.
W4310135829 cites W3112367974 @default.
W4310135829 cites W3123838756 @default.
W4310135829 cites W3129936141 @default.
W4310135829 cites W3130461578 @default.
W4310135829 cites W3133307794 @default.
W4310135829 cites W3157629239 @default.
W4310135829 cites W3159057270 @default.
W4310135829 cites W3163531312 @default.
W4310135829 cites W3174654135 @default.
W4310135829 cites W3176879029 @default.
W4310135829 cites W3182308498 @default.
W4310135829 cites W3188753215 @default.
W4310135829 cites W4205525564 @default.
W4310135829 cites W4221107392 @default.
W4310135829 doi "https://doi.org/10.1016/j.rse.2022.113384" @default.
W4310135829 hasPublicationYear "2023" @default.
W4310135829 type Work @default.
W4310135829 citedByCount "3" @default.