PeerJ (Feb 2024)

Non-invasive measurements to identify mungbean genotypes for waterlogging tolerance

  • PS Basavaraj,
  • Krishna Kumar Jangid,
  • Rohit Babar,
  • Jagadish Rane,
  • KM Boraiah,
  • CB Harisha,
  • Hanamanth Halli,
  • Aliza Pradhan,
  • Kuldeep Tripathi,
  • K Sammi Reddy,
  • M Prabhakar

DOI
https://doi.org/10.7717/peerj.16872
Journal volume & issue
Vol. 12
p. e16872

Abstract

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As the best-fit leguminous crop for intercropping across time and space, mungbean promises to sustain soil health, carbon sequestration, and nutritional security across the globe. However, it is susceptible to waterlogging, a significant constraint that persists during heavy rains. Since the predicted climate change scenario features fewer but more intense rainy days. Hence, waterlogging tolerance in mungbean has been one of the major breeding objectives. The present experiment aimed to employ non-destructive tools to phenotype stress tolerance traits in mungbean genotypes exposed to waterlogging and estimate the association among the traits. A total of 12 mungbean genotypes were used in the present study to assess waterlogging tolerance at the seedling stage. Plant responses to stress were determined non-destructively using normalized difference vegetation index (NDVI) and chlorophyll fluorescence parameters at different time intervals. NDVI and grain yield were positively associated with control (r = 0.64) and stress (r = 0.59). Similarly, chlorophyll fluorescence (quantum yield of PS-II) also had a significant positive association with grain yield under both control (r = 0.52) and stress (r = 0.66) conditions. Hence, it is suggested that NDVI and chlorophyll fluorescence promise to serve as traits for non-destructive phenotyping waterlogging tolerance in mungbean genotypes. With the methods proposed in our study, it is possible to phenotype hundreds of plants for waterlogging tolerance efficiently.

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