不同光照条件下,子叶储存碳在孪叶豆幼苗建立过程中的作用。
The role of the storage carbon of cotyledons in the establishment of seedlings of Hymenaea courbaril under different light conditions.
作者信息
Santos Henrique P, Buckeridge Marcos S
机构信息
EMBRAPA Uva e Vinho. Rua Livramento, 515, Caixa Postal 130, CEP 95700-000, Bento Gonçalves, RS, Brazil.
出版信息
Ann Bot. 2004 Dec;94(6):819-30. doi: 10.1093/aob/mch209. Epub 2004 Oct 28.
BACKGROUND AND AIMS
Hymenaea courbaril (Leguminosae-Caesalpinioideae) is a tree species with wide distribution through all of the Neotropics. It has large seeds (approx. 5 g) with non-photosynthetic storage cotyledons rich (40 %) in a cell wall polysaccharide (xyloglucan) as a carbon reserve. Because it is found in the understorey of tropical forests, it has been considered as a shade-tolerant, late-secondary species. However, the physiological mechanisms involved in seedling establishment, especially regarding the interplay between storage and light intensity, are not understood. In this work, the ecophysiological role of this carbon cotyledon reserve (xyloglucan) is characterized, emphasizing its effects on seedling growth and development during the transition from heterotrophy to autotrophy under different light conditions.
METHODS
Seedlings of H. courbaril were grown in environments with different light intensities, and with or without cotyledons detached before xyloglucan mobilization. Development, growth, photosynthesis and carbon partitioning (dry mass and [14C]sucrose) were analysed in each treatment.
KEY RESULTS
The detachment of cotyledons was not important for seedling survival, but resulted in a strong restriction (50 % less) of shoot growth, which was the main sink for the cotyledon carbon reserves. Carbon restriction promoted an early maturation of the photosynthetic apparatus without changes in the net CO2 fixation per unit area. The reduced surface area of the first leaves in seedlings without cotyledons was evidence of limited growth and development of seedlings in low light conditions (22 micromol m(-2) s(-1) photon flux).
CONCLUSIONS
There is an increase in the importance of storage xyloglucan in cotyledons for H. courbaril seedling development as light intensity decreases, confirming that this polymer plays a key role in the adaptation of this species to establish successfully in the shadowed understorey of the forest.
背景与目的
孪叶豆(豆科 - 云实亚科)是一种广泛分布于新热带界的树种。它有大种子(约5克),其非光合储存子叶富含(40%)一种细胞壁多糖(木葡聚糖)作为碳储备。由于它生长在热带森林的下层,一直被视为耐荫的次生后期树种。然而,参与幼苗建立的生理机制,特别是关于储存与光照强度之间的相互作用,尚不清楚。在这项研究中,对这种碳子叶储备(木葡聚糖)的生态生理作用进行了表征,强调其在不同光照条件下从异养向自养转变过程中对幼苗生长发育的影响。
方法
将孪叶豆幼苗种植在不同光照强度的环境中,在木葡聚糖动员之前,有的幼苗子叶未摘除,有的则摘除了子叶。对每种处理的发育、生长、光合作用和碳分配(干质量和[¹⁴C]蔗糖)进行了分析。
主要结果
子叶的摘除对幼苗存活并不重要,但导致地上部分生长受到强烈限制(减少50%),地上部分是子叶碳储备的主要储存部位。碳限制促进了光合器官的早期成熟,而单位面积净二氧化碳固定量没有变化。没有子叶的幼苗第一片叶子表面积减小,这证明在低光照条件(22微摩尔·米⁻²·秒⁻¹光子通量)下幼苗的生长和发育受到限制。
结论
随着光照强度降低,子叶中储存的木葡聚糖对孪叶豆幼苗发育的重要性增加,这证实了这种聚合物在该物种成功适应在森林阴暗下层中生长方面起着关键作用。
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