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两种近缘冷杉(西班牙冷杉和欧洲冷杉)光合作用的光驯化:叶片解剖结构和叶肉细胞对二氧化碳传导率的作用

Light acclimation of photosynthesis in two closely related firs (Abies pinsapo Boiss. and Abies alba Mill.): the role of leaf anatomy and mesophyll conductance to CO2.

作者信息

Peguero-Pina José Javier, Sancho-Knapik Domingo, Flexas Jaume, Galmés Jeroni, Niinemets Ülo, Gil-Pelegrín Eustaquio

机构信息

Unidad de Recursos Forestales, Centro de Investigación y Tecnología Agroalimentaria, Gobierno de Aragón, Avenida Montañana 930, 50059 Zaragoza, Spain.

Research Group on Plant Biology under Mediterranean Conditions, Departament de Biologia, Universitat de les Illes Balears, Carretera de Valldemossa, 07071 Palma de Mallorca, Spain.

出版信息

Tree Physiol. 2016 Mar;36(3):300-10. doi: 10.1093/treephys/tpv114. Epub 2015 Nov 4.

DOI:10.1093/treephys/tpv114
PMID:26543153
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4885940/
Abstract

Leaves growing in the forest understory usually present a decreased mesophyll conductance (gm) and photosynthetic capacity. The role of leaf anatomy in determining the variability in gm among species is known, but there is a lack of information on how the acclimation of gm to shade conditions is driven by changes in leaf anatomy. Within this context, we demonstrated that Abies pinsapo Boiss. experienced profound modifications in needle anatomy to drastic changes in light availability that ultimately led to differential photosynthetic performance between trees grown in the open field and in the forest understory. In contrast to A. pinsapo, its congeneric Abies alba Mill. did not show differences either in needle anatomy or in photosynthetic parameters between trees grown in the open field and in the forest understory. The increased gm values found in trees of A. pinsapo grown in the open field can be explained by occurrence of stomata at both needle sides (amphistomatous needles), increased chloroplast surface area exposed to intercellular airspace, decreased cell wall thickness and, especially, decreased chloroplast thickness. To the best of our knowledge, the role of such drastic changes in ultrastructural needle anatomy in explaining the response of gm to the light environment has not been demonstrated in field conditions.

摘要

生长在森林林下的叶片通常表现出叶肉导度(gm)和光合能力降低。叶片解剖结构在决定物种间gm变异性方面的作用是已知的,但关于叶解剖结构的变化如何驱动gm对遮荫条件的适应性,目前还缺乏相关信息。在此背景下,我们证明了西班牙冷杉(Abies pinsapo Boiss.)的针叶解剖结构因光照可用性的剧烈变化而发生了深刻改变,最终导致在开阔地和森林林下生长的树木之间光合性能存在差异。与西班牙冷杉不同,其同属的欧洲冷杉(Abies alba Mill.)在开阔地和森林林下生长的树木之间,针叶解剖结构和光合参数均未表现出差异。在开阔地生长的西班牙冷杉树木中发现的gm值增加,可以通过针叶两侧均有气孔(双面气孔针叶)、暴露于细胞间隙的叶绿体表面积增加、细胞壁厚度降低,尤其是叶绿体厚度降低来解释。据我们所知,在野外条件下,这种针叶超微结构解剖结构的剧烈变化在解释gm对光照环境的响应方面的作用尚未得到证实。

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