Development of a rapid methodology for biological efficacy assessment in banana plantations: application to reduced dosages of contact fungicide for Black Leaf Streak Disease (BLSD) control

Bakache, Adel; Douzals, Jean‐Paul; Bonicelli, Bernard; Cotteux, Éric; Bellaire, Luc De Lapeyre de; Sinfort, Carole

doi:10.1002/ps.5219

Cited by 4 publications

(2 citation statements)

References 29 publications

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“…However, banana production is severely affected by black leaf streak disease (BLSD, also known as black Sigatoka disease), which is caused by the fungal pathogen Pseudocercospora fijiensis . BLSD is considered the most widespread and damaging disease affecting bananas worldwide, causing plant necrosis in six symptomatic stages (Bakache et al, 2019).…”

Section: Stage Symptomsmentioning

confidence: 99%

Early detection of black Sigatoka in banana leaves using hyperspectral images

et al. 2020

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Premise Black Sigatoka is one of the most severe banana (Musa spp.) diseases worldwide, but no methods for the rapid early detection of this disease have been reported. This paper assesses the use of hyperspectral images for the development of a partial‐least‐squares penalized‐logistic‐regression (PLS–PLR) model and a hyperspectral biplot (HS biplot) as a visual tool for detecting the early stages of black Sigatoka disease. Methods Young (three‐month‐old) banana plants were inoculated with a conidia suspension of the black Sigatoka fungus (Pseudocercospora fijiensis). Selected infected and control plants were evaluated using a hyperspectral imaging system at wavelengths in the range of 386–1019 nm. PLS–PLR models were run on the hyperspectral data set. The prediction power was assessed using leave‐one‐out cross‐validation as well as external validation. Results The PLS–PLR model was able to predict the presence of the disease with a 98% accuracy. The wavelengths with the highest contribution to the classification ranged from 577 to 651 nm and from 700 to 1019 nm. Discussion PLS–PLR and HS biplot effectively estimated the presence of black Sigatoka disease at the early stages and can be used to graphically represent the relationship between groups of leaves and both visible and near‐infrared wavelengths.

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