Photosynthetica (Oct 2023)

Morphophysiological responses of Theobroma cacao L. rootstocks to flooding and post-flooding conditions

  • M.L.P.B. PINTO,
  • J. CRASQUE,
  • B. CERRI NETO,
  • T.R. FERREIRA,
  • C.A.S. SOUZA,
  • A.R. FALQUETO,
  • T.C. DE SOUZA,
  • J.A. MACHADO FILHO,
  • L.O. ARANTES,
  • S. DOUSSEAU-ARANTES

DOI
https://doi.org/10.32615/ps.2023.031
Journal volume & issue
Vol. 61, no. 3
pp. 377 – 389

Abstract

Read online

This study investigates how cocoa rootstocks respond to flooding and post-flooding conditions, offering insights for cocoa plantation sustainability in flood-prone areas due to climate change. We studied Theobroma cacao L. rootstocks for 60 d of flooding and 30 d post-flooding, grafting PS-1319 scions onto five rootstocks (TSH-1188, Cepec-2002, Pará, Esfip-02, SJ-02). Photochemical performance remained stable across rootstocks, while flooding progressively reduced electron transport efficiency. Photochemical damage emerged after 7 d, worsening occurred at 19 d. Although post-flooding efficiency improved, recovery time was insufficient for full restoration. Stem diameter increased less in Esfip-02. TSH-1188 had the highest stem dry mass during flooding and the most root and total dry mass during post-flooding. SJ-02 had the lowest stem dry mass and post-flooding total dry mass. Principal component analysis revealed stem and root development as a key for recovery. SJ-02 and Esfip-02 showed lower flooding tolerance and recovery, while TSH-1188 and Pará exhibited higher resilience.

Keywords