ABSys, Univ Montpellier, CIHEAM-IAMM, CIRAD, INRAE, Institut Agro, Montpellier, France.
Eco&Sols, Univ Montpellier, CIRAD, INRAE, Institut Agro, IRD, Montpellier, France.
Am J Bot. 2021 May;108(5):732-743. doi: 10.1002/ajb2.1652. Epub 2021 May 2.
The expression of shade adaptation traits is expected to be stronger in low light and can be detrimental to flowering and yield. Our study focused on the expression of shade adaptation traits of apple trees (Malus domestica Borkh. 'Dalinette') in an agroforestry system.
The architecture of 45 apple trees in their third and fourth year was extensively described and analyzed at the tree scale and compared depending on the light quantity received during the growing season. Flower cluster phenology and the relation between leaf area and floral initiation were also investigated.
The number of growing shoots and the leaf area were reduced by shade even if specific leaf area increased with increasing shade. Shade did not modify primary growth but did decrease secondary growth, so that apple tree shoots in shade were slender, with a lower taper and reduced number and proportion of flower clusters. The correlation between floral initiation and leaf area was high both in full and moderate light but not for apple trees in low light. Shade did not impact the date of bud burst and the early phenological stages of flower clusters, but it reduced the number of days at full bloom.
Our results suggest that while the architecture of apple trees is modified by a reduction in light intensity, it is not until a reduction of 65% that the capability to produce fruit is impeded. These results could help optimize the design of apple-tree-based agroforestry systems.
遮荫适应性状的表达预计在低光照下更强,并可能对开花和产量有害。我们的研究集中在苹果(Malus domestica Borkh. 'Dalinette')在农林复合系统中遮荫适应性状的表达。
在第三和第四年,对 45 棵苹果树的结构进行了广泛的描述和分析,根据生长季节接收的光量进行了比较。还研究了花簇物候和叶面积与花原基形成的关系。
即使比叶面积随遮荫而增加,遮荫也会减少生长枝的数量和叶面积。遮荫不会改变初生生长,但会减少次生生长,因此遮荫下的苹果树嫩枝细长,锥度较低,花簇数量和比例减少。在全光照和中等光照下,花原基形成与叶面积之间的相关性均较高,但在低光照下则不然。遮荫不会影响芽萌发的日期和花簇的早期物候阶段,但会减少盛开的天数。
我们的结果表明,虽然苹果树的结构会因光照强度的降低而改变,但只有当光照强度降低 65%时,其产果能力才会受到阻碍。这些结果可以帮助优化基于苹果的农林复合系统的设计。
