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Phenotyping of productivity and resilience in sweetpotato under water stress through UAV‐based multispectral and thermal imagery in Mozambique

David A. Ramírez, Wolfgang J. Grüneberg, Maria Andrade, Bert De Boeck, Hildo Loayza, Godwill Makunde, Johan Ninanya, Javier Rinza, Simon Heck, Hugo Campos

2021Journal of Agronomy and Crop Science25 citationsDOIOpen Access PDF

Abstract

Abstract Sweetpotato is a crucial crop to guarantee food security in sub‐Saharan Africa, and drought events are considered one of the most critical factors affecting sweetpotato productivity in this region. In this study, airborne imagery based on reflectance (NDVI, CI red‐edge ) and canopy temperature minus air temperature (dT) indices was used to characterize sweetpotato genotypes under drought treatments in Mozambique. Two field experiments established in rainy/hot (Trial A) and dry/cool (Trial B) seasons were assessed. In Trial A, 24 genotypes were subjected to early‐ (ESD), mid‐ (MSD) and late‐season (LSD) drought stress treatments and compared against a control. In Trial B, 120 genotypes were subjected to LSD only. The percentage of reduction in vine weight (PR VW ) under drought was related primarily to temporal variation of NDVI and CI, regardless of drought treatment and seasons. dT in relation to control (dT Amp ) was associated with PR VW in ESD‐Trial A and LSD‐Trial B, whereas under LSD‐Trial A, dT Amp was related to total fresh storage root weight (TRW). During the rainy/hot season, higher TRW reduction was promoted under ESD; however, under LSD, it was possible to identify productive genotypes able to withstand drought stress, highlighting their relevance for drought‐tolerance selection purposes.

Topics & Concepts

Drought stressWet seasonDry seasonField trialProductivityCanopyMultispectral imageBiologyCropAgronomyNormalized Difference Vegetation IndexGrowing seasonHorticultureEnvironmental scienceGeographyBotanyEcologyMacroeconomicsRemote sensingLeaf area indexEconomicsRemote Sensing in AgricultureLeaf Properties and Growth MeasurementGreenhouse Technology and Climate Control
Phenotyping of productivity and resilience in sweetpotato under water stress through UAV‐based multispectral and thermal imagery in Mozambique | Litcius