Proximal Remote Sensing of Herbicide and Drought Stress in Field Grown Colocasia and Sweet Potato Plants by Sunlight-Ind

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RESEARCH ARTICLE

Proximal Remote Sensing of Herbicide and Drought Stress in Field Grown Colocasia and Sweet Potato Plants by Sunlight-Induced Chlorophyll Fluorescence Imaging Sadasivan Nair Raji1 • Geetha Nair Aparna1 • Changatharayil N. Mohanan1 Narayanan Subhash1,2

•

Received: 8 December 2015 / Accepted: 28 June 2016 Ó Indian Society of Remote Sensing 2016

Abstract Chlorophyll fluorescence is an indicator of plant photosynthetic activity and has been used to monitor the health status of vegetation. Several studies have exploited the application of red/far-red chlorophyll fluorescence ratio in detecting the impact of various types of stresses in plants. Recently, sunlight-induced chlorophyll fluorescence imaging has been used to detect and discriminate different stages of mosaic virus infection in potted cassava plants with a multi-spectral imaging system (MSIS). In this study, the MSIS is used to investigate the impact of drought and herbicide stress in field grown crop plants. Towards this control and treatment groups of colocasia and sweet potato plants were grown in laterite soil beds and the reflectance images of these crop plants were recorded up to 14-days of treatment at the Fraunhofer lines of O2 B at 687 nm and O2 A at 759.5 nm and the off-lines at 684 and 757.5 nm. The recorded images were analyzed using the Fraunhofer Line Discrimination technique to extract the sunlight-induced chlorophyll fluorescence component from the reflectance images of the plant leaves. As compared to the control group, the chlorophyll fluorescence image ratio (F687/F760) in the treatment groups of both the plant varieties shows an increasing trend with increase in the extent of stress. Further, the F687/F760 ratio was found to correlate with the net photosynthetic rate (Pn) and stomatal conductance (gs) of leaves. The correlation coefficient (R2) for the relationship

& Narayanan Subhash [email protected] 1

National Center for Earth Science Studies, Akkulam, Thiruvananthapuram, Kerala 695031, India

2

Sascan Meditech Pvt. Ltd, CIME, Department of Medical Electronics, BMS College of Engineering, Bull Temple Road, Basavanagudi, Bangalore, Karnataka 560019, India

of F687/F760 ratio with Pn were found to be 0.78, 0.79 and 0.78, respectively for the control, herbicide treated and drought treated colocasia plants, while these were 0.77, 0.86 and 0.88, respectively for sweet potato plants. The results presented show the potential of proximal remote sensing and the application F687/F760 fluorescence image ratio for effective monitoring of stress-induced changes in field grown plants. Keywords Chlorophyll fluorescence imaging Drought stress FLD Herbicide stress Proximal remote sensing Red/far-red fluorescence image ratio (F687/F760) Sunlight-induced fluorescence imaging

Introduction Plants are adversely affected by several biotic (bacteria, virus etc.) and abiotic stresses (water stress, nutrient deficiency, chemicals etc.), which in turn affects the plant growth and yield. Under normal conditions, most of

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Proximal Remote Sensing of Herbicide and Drought Stress in Field Grown Colocasia and Sweet Potato Plants by Sunlight-Ind

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