Acta Hortic. 1281. ISHS 2020. DOI 10.17660/ActaHortic.2020.1281.79 XXX IHC – Proceedings International on Symposium Understanding Fruit Tree Behaviour in Dynamic Environments Eds.: E. Costes et al. 601 Assessing the role of ageing and light availability in leaf mortality in the mango tree F. Boudon 1,2 , S. Persello 1,2,3 , I. Grechi 2,3 , A. Marquier 4 , C. Soria 2,3 , C. Fournier 2,5 , M. Léchaudel 2,6 and F. Normand 2,3 1 CIRAD, UMR AGAP, F-34398 Montpellier, France; 2 Univ. Montpellier, France; 3 CIRAD, UPR HortSys, F-97455 Saint- Pierre, La Réunion, France; 4 NRA, UMR PIAF, Clermont-Ferrand, France; 5 INRA, UMR LEPSE, Montpellier, France; 6 CIRAD, UMR QualiSud, F-97130 Capesterre-Belle-Eau, Guadeloupe, France. Abstract Mango is a tropical crop characterized by the heterogeneity in size and quality of its fruits at harvest. Source-sink relationships have been identified as a key factor on these traits. Consequently, it is of main importance to characterize foliage distribution of the mango tree over time to assess its ability to produce fruits. Mango tree is an evergreen tree and its leaves last for several years. While leaf appearance has been well characterized, leaf mortality has been poorly studied for now. The goal of this work was to characterize leaf mortality in the mango tree, and in particular the influence of age and light availability on this phenomenon. We digitized the 3D architecture of a 13- year-old mango tree with foliage information. Using this 3D mockup, we characterized the number of leaves per growth units at different depths in the structure and related growth units depth with their age. Using a model of light interception, we then estimated the amount of light intercepted by the different growth units of the tree and tested its influence on their number of leaves. Leaves were present up to the fifth growth unit from the axis end. Leaf mortality drastically increased with growth unit depth. For each level of depth, light environment had a significant influence on the number of leaves remaining on the growth unit. Leaves in unfavourable light conditions had a 2-time higher probability to fall compared to the leaves in the most favourable light conditions. The resulting leaf mortality probability will be included into a functional-structural plant model (FSPM) to simulate faithfully foliage distribution within the tree. Using this FSPM that simulates fruit growth, it will be possible to study the impact of the foliage distribution on the heterogeneity of fruit production and quality. Keywords: Mangifera indica L., foliage distribution, 3D digitizing, light interception, tree architecture INTRODUCTION Mango production plays an important economical role since it ranks 5 th in worldwide fruit production. It is cultivated in tropical and subtropical regions. However, its yield raises a number of issues. In particular mango production is irregular from one year to the next one. Phenological asynchronisms, which maintain long periods of critical phenological stage sensitive to pests and diseases, can be observed. Finally, fruits at harvest are heterogeneous in maturity and quality, which raises marketing issues. Carbon budget plays an important role in fruit growth and quality development (Fischer et al., 2012). Carbon source-sink balance can be characterized with the ratio between the number of leaves and the number of fruits on a fruiting branch. The importance of this ratio on fruit growth was reported on several fruit species including mango (Chacko et al., 1982; Simmons et al., 1998; Léchaudel et al., 2002; Grechi and Normand, 2019), and is for instance a key parameter for mango fruit growth modeling (Léchaudel et al., 2005). As a result, characterizing the architecture of mango trees and in particular their foliage distribution over time is important to study fruit production. However, while leaves and growth units appearance have been well characterized (Goguey- Muethon, 1995; Normand et al., 2009; Boudon et al., 2017), leaf mortality was poorly studied. This limits the simulation of mango tree architecture only to young trees. The topic of this