Strategies of air space acquisition in Neotropical savanna trees differing in leaf habit

IF 0.9 4区 生物学 Q4 PLANT SCIENCES
Nayara Magry Jesus Melo, Carlos Henrique Britto de Assis Prado, Denilson Rodrigo Vieira Branco, João Paulo Souza
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引用次数: 0

Abstract

Context

The Cerrado stricto sensu is a physiognomy under a seasonal climate of Cerrado vegetation, a Neotropical savanna, showing insignificant light restriction for adult tree species with branches above the herbaceous stratum.

Aims

We capture shoot and foliage production in 15 Cerrado tree species with distinct leaf phenology, following marked buds to investigate the strategies of air space acquisition and the influence of monthly air temperature and rainfall over a growing season.

Methods

Five buds were marked in every five individuals per species during the 2016 dry season in deciduous, semideciduous, and evergreen trees, encompassing five species per leaf habit.

Key results

Deciduous trees had plagiotropic shoots with 35° of inclination, whereas semideciduous and evergreen species had orthotropic (60°) shoots. Evergreen Miconia albicans was the single study species with a second-order shoot, and apical meristem death occurred only in deciduous trees. Two deciduous trees (Caryocar brasiliense and Diospyros hispida) and semideciduous Eriotheca gracilipes increased leaf number per shoot with monthly total precipitation. D. hispida and E. gracilipes also showed a positive correlation among shoot length, monthly air temperature, and monthly precipitation.

Conclusions

Only 3 of the 15 studied species showed a correlation between shoot or foliage production and monthly climate variables during the wet growing season. Deciduous trees avoid foliage self-shading, producing slanting short shoots with leaf flush preceding heavy rains, facilitating rapid branch and foliage formation to offset the leaf-free period quickly. Conversely, evergreen trees, characterised by orthotropic long shoots and slower vegetative growth, rely on foliage self-shading to sustain leaf persistence during seasonal drought. Semideciduous species commonly exhibited shoot- and leaf-trait variables such as those observed, on average, in deciduous or evergreen trees, resulting in a continuous spectrum of trait variations among the leaf phenological groups.

Implications

Each growth strategy in every leaf habit showed a particular air space acquisition across seasons, usually keeping shoot and foliage production independent of monthly climate variability in the wet growing season. These findings emphasised the significance of characterising the leaf phenological assemblages of the vast Cerrado woody flora as inherent functional groups in a continuum of crown trait variation, enabling the identification of strategies to capture, use, and store resources in each tree group.

叶片习性不同的新热带稀树草原树木获取空气空间的策略
背景严格意义上的Cerrado是Cerrado植被(一种新热带稀树草原)季节性气候下的一种植物形态,对于枝条高于草本层的成年树种来说,光照限制并不明显。目的我们捕捉了叶片物候特征明显的 15 种 Cerrado 树种的嫩枝和叶片生产情况,通过标记芽来研究空气空间获取策略以及生长季节中月度气温和降雨量的影响。方法在2016年旱季期间,在落叶树、半落叶树和常绿树中,每个物种每5个个体中标记5个芽,每个叶型包括5个物种。主要结果落叶乔木的芽呈35°倾斜的plagiotropic状,而半落叶和常绿树种的芽呈60°倾斜的orthotropic状。常绿树种Miconia albicans是唯一具有二阶芽的研究树种,只有落叶树才会发生顶端分生组织死亡。两种落叶树(Caryocar brasiliense 和 Diospyros hispida)和半落叶树 Eriotheca gracilipes 的每枝叶片数随月总降水量的增加而增加。D. hispida 和 E. gracilipes 的嫩枝长度、月气温和月降水量之间也呈正相关。结论在所研究的 15 个物种中,只有 3 个物种的嫩枝或叶片产量与湿生季节的月气候变量之间存在相关性。落叶树可避免叶片自我遮蔽,在暴雨来临前产生斜短枝,叶片潮红,有利于快速形成枝叶,迅速抵消无叶期。与此相反,常绿树种的特点是正长枝和植被生长较慢,在季节性干旱期间依靠叶片自我遮荫来维持叶片的持续生长。半落叶树种通常表现出芽和叶的性状变异,如在落叶树或常绿树中观察到的平均性状变异,从而导致叶片物候群之间的连续性性状变异。意义每种叶片习性的每种生长策略在不同季节都会获得特定的空气空间,通常使嫩枝和叶片的生产不受湿生季节每月气候多变性的影响。这些发现强调了将广大塞拉多木本植物群的叶片物候组合描述为树冠性状连续变异中的固有功能群的重要性,从而能够确定每个树群捕获、利用和储存资源的策略。
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来源期刊
Australian Journal of Botany
Australian Journal of Botany 生物-植物科学
CiteScore
2.30
自引率
18.20%
发文量
26
审稿时长
6-12 weeks
期刊介绍: Australian Journal of Botany is an international journal for publication of original research in plant science. We seek papers of broad interest with relevance to Southern Hemisphere ecosystems. Our scope encompasses all approaches to understanding plant biology. Australian Journal of Botany is published with the endorsement of the Commonwealth Scientific and Industrial Research Organisation (CSIRO) and the Australian Academy of Science.
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