Hyperspectral Reflectance and Machine Learning Approaches for the Detection of Drought and Root–Knot Nematode Infestation in Cotton

Ramamoorthy, P.; Samiappan, Sathishkumar; Wubben, Martin J.; Brooks, John P.; Shrestha, Amrit; Panda, Rutuparna; Reddy, K. Raja; Bheemanahalli, Raju

doi:10.3390/rs14164021

Cited by 8 publications

(2 citation statements)

References 48 publications

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“…Recently, a non-destructive method such as hyperspectral imaging (HSI) has been widely used to evaluate various factors related to plant physiology and stress conditions in multiple horticultural crops ( Behmann et al., 2014 ; Liu et al., 2015 ; Lowe et al., 2017 ; Veys et al., 2019 ; Ramamoorthy et al., 2022 ; Wieme et al., 2022 ). HSI uses a hyperspectral camera to capture images of plants in a wide range of light wavelengths ( Lowe et al., 2017 ; Lay et al., 2023 ).…”

Section: Introductionmentioning

confidence: 99%

Development of a longevity prediction model for cut roses using hyperspectral imaging and a convolutional neural network

Kim,

Ha,

2024

Front. Plant Sci.

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IntroductionHyperspectral imaging (HSI) and deep learning techniques have been widely applied to predict postharvest quality and shelf life in multiple horticultural crops such as vegetables, mushrooms, and fruits; however, few studies show the application of these techniques to evaluate the quality issues of cut flowers. Therefore, in this study, we developed a non-contact and rapid detection technique for the emergence of gray mold disease (GMD) and the potential longevity of cut roses using deep learning techniques based on HSI data.MethodsCut flowers of two rose cultivars (‘All For Love’ and ‘White Beauty’) underwent either dry transport (thus impaired cut flower hydration), ethylene exposure, or Botrytis cinerea inoculation, in order to identify the characteristic light wavelengths that are closely correlated with plant physiological states based on HSI. The flower bud of cut roses was selected for HSI measurement and the development of a vase life prediction model utilizing YOLOv5.Results and discussionThe HSI results revealed that spectral reflectance between 470 to 680 nm was strongly correlated with gray mold disease (GMD), whereas those between 700 to 900 nm were strongly correlated with flower wilting or vase life. To develop a YOLOv5 prediction model that can be used to anticipate flower longevity, the vase life of cut roses was classed into two categories as over 5 d (+5D) and under 5 d (-5D), based on scoring a grading standard on the flower quality. A total of 3000 images from HSI were forwarded to the YOLOv5 model for training and prediction of GMD and vase life of cut flowers. Validation of the prediction model using independent data confirmed its high predictive accuracy in evaluating the vase life of both ‘All For Love’ (r2 = 0.86) and ‘White Beauty’ (r2 = 0.83) cut flowers. The YOLOv5 model also accurately detected and classified GMD in the cut rose flowers based on the image data. Our results demonstrate that the combination of HSI and deep learning is a reliable method for detecting early GMD infection and evaluating the longevity of cut roses.

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Section: Introductionmentioning

confidence: 99%

Development of a longevity prediction model for cut roses using hyperspectral imaging and a convolutional neural network

Kim,

Ha,

2024

Front. Plant Sci.

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“…In the context of non-destructive phenotyping, leaf reflectance properties either multispectral or hyperspectral reflectance has been used to monitor changes in crop response to stresses 32 – 34 . To overcome the challenges associated with traditional phenotyping, vegetation indices (VIs) associated with leaf pigments and physiological parameters are commonly used to study crop responses to stresses 35 , 36 .…”

Section: Introductionmentioning

confidence: 99%

Resilience of soybean cultivars to drought stress during flowering and early-seed setting stages

Poudel

Vennam

Shrestha

et al. 2023

Sci Rep

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Drought stress during the reproductive stage and declining soybean yield potential raise concerns about yield loss and economic return. In this study, ten cultivars were characterized for 20 traits to identify reproductive stage (R1–R6) drought-tolerant soybean. Drought stress resulted in a marked reduction (17%) in pollen germination. The reduced stomatal conductance coupled with high canopy temperature resulted in reduced seed number (45%) and seed weight (35%). Drought stress followed by rehydration increased the hundred seed weight at the compensation of seed number. Further, soybean oil decreased, protein increased, and cultivars responded differently under drought compared to control. In general, cultivars with high tolerance scores for yield displayed lower tolerance scores for quality content and vice versa. Among ten cultivars, LS5009XS and G4620RX showed maximum stress tolerance scores for seed number and seed weight. The observed variability in leaf reflectance properties and their relationship with physiological or yield components suggested that leaf-level sensing information can be used for differentiating drought-sensitive soybean cultivars from tolerant ones. The study led to the identification of drought-resilient cultivars/promising traits which can be exploited in breeding to develop multi-stress tolerant cultivars.

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Decoding plant defense: accelerating insect pest resistance with omics and high-throughput phenotyping

Gothe,

Karrem,

Gowda

et al. 2024

Plant Physiol. Rep.

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Hyperspectral Reflectance and Machine Learning Approaches for the Detection of Drought and Root–Knot Nematode Infestation in Cotton

Cited by 8 publications

References 48 publications

Development of a longevity prediction model for cut roses using hyperspectral imaging and a convolutional neural network

Development of a longevity prediction model for cut roses using hyperspectral imaging and a convolutional neural network

Resilience of soybean cultivars to drought stress during flowering and early-seed setting stages

Decoding plant defense: accelerating insect pest resistance with omics and high-throughput phenotyping

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