Morpho-physiological and anatomical responses to shade avoidance are exhibited in Surinam cherry seedlings

B. V. Gil, A. P. C. Moura, A. T. Perboni, Rooslany Queiroz Barreira, Paula Andrea Bermeo Fúquene, B. F. Sant’Anna-Santos, M. A. Danner
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Abstract

We aimed to evaluate the acclimation of Eugenia uniflora seedlings in response to irradiance gradient employing several morphological and photosynthetic traits. Seedlings were grown for 21 months under full sunlight (S0) and three artificial shade levels: 30% (S30), 50% (S50), and 80% (S80). Growth, biochemistry( pigments), photosynthetic, and anatomic parameters were assessed. Seedlings under S0 and S30 displayed the most significant growth, biomass accumulation, photosynthetic rate, and increased leaf thickness. S0 seedlings also had leaf anatomical traits associated with protection against total sunlight conditions, confirming irradiance tolerance. Nonetheless, the main attributes of shade acclimation in E. uniflora were revealed in S50 seedlings, where the increase in leaf area and the maintenance of gas exchange in this treatment achieved similar levels to seedlings under S0 and S30. Under S80, photosynthetic capacity, growth, and biomass accumulation were critically reduced. The plasticity index portrayed growth and photosynthetic traits as the most important variables that aid the adaptation of E. uniflora under different irradiance intensities. Conditions under S0 and S30 optimize the growth of Surinam cherry seedlings. Therefore, these conditions suit cultivating E. uniflora seedlings in nurseries and orchards. This study represents the first experimental approach to determining the optimal light intensity in E. uniflora seedlings.
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苏里南樱桃树苗对避阴的形态生理和解剖反应
我们的目的是利用几种形态和光合性状来评估单叶酢浆草幼苗对辐照度梯度的适应性。幼苗在全日照(S0)和30%(S30)、50%(S50)和80%(S80)三个人工遮荫水平下生长了21个月。对生长、生物化学(色素)、光合作用和解剖参数进行了评估。在 S0 和 S30 条件下,幼苗的生长、生物量积累、光合速率和叶片厚度增加最为显著。S0 苗木的叶片解剖学特征也与抵御全日照条件有关,这证实了辐照耐受性。然而,S50幼苗显示出了单花酢浆草适应遮荫的主要特征,其叶面积的增加和气体交换的维持达到了与 S0 和 S30 幼苗相似的水平。在 S80 条件下,光合作用能力、生长和生物量积累严重下降。可塑性指数表明,在不同辐照强度下,生长和光合性状是帮助一枝黄花适应环境的最重要变量。S0 和 S30 条件可优化苏里南樱桃幼苗的生长。因此,这些条件适合在苗圃和果园中培育单瓣樱花幼苗。这项研究是确定单瓣樱花幼苗最佳光照强度的首个实验方法。
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