5-CQA and Mangiferin, Two Leaf Biomarkers of Adaptation to Full Sun or Shade Conditions in <i>Coffea arabica</i> L.
2020
Teerarat Duangsodsri | Luc Villain | Ialy Rojo Vestalys | Serge Michalet | Cécile Abdallah | Jean-Christophe Breitler | Mélanie Bordeaux | Andres Mauricio Villegas | Marson Raherimandimby | Laurent Legendre | Hervé Etienne | Benoît Bertrand | Claudine Campa
Phenolic compounds are involved in plant response to environmental conditions and are highly present in leaves of <i>Coffea arabica</i> L., originally an understory shrub. To increase knowledge of <i>C. arabica</i> leaf phenolic compounds and their patterns in adaptation to light intensity, mature leaves of Ethiopian wild accessions, American pure lines and their relative F1 hybrids were sampled in full sun or under 50% shade field plots in Mexico and at two contrasting elevations in Nicaragua and Colombia. Twenty-one phenolic compounds were identified by LC-DAD-MS<sup>2</sup> and sixteen were quantified by HPLC-DAD. Four of them appeared to be involved in <i>C. arabica</i> response to light intensity. They were consistently more accumulated in full sun, presenting a stable ratio of leaf content in the sun vs. shade for all the studied genotypes: 1.6 for 5-CQA, F-dihex and mangiferin and 2.8 for rutin. Moreover, 5-CQA and mangiferin contents, in full sun and shade, allowed for differentiating the two genetic groups of Ethiopian wild accessions (higher contents) vs. cultivated American pure lines. They appear, therefore, to be potential biomarkers of adaptation of <i>C. arabica</i> to light intensity for breeding programs. We hypothesize that low 5-CQA and mangiferin leaf contents should be searched for adaptation to full-sun cropping systems and high contents used for agroforestry systems.
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