阿拉伯咖啡豆的干旱反应受基因型和物候期的影响。二-叶片和植株尺度上的光合作用

IF 1.6 4区 农林科学 Q1 Agricultural and Biological Sciences
Miroslava Rakocevic, Evelyne Costes, Eliemar Campostrini, José Cochicho Ramalho, Rafael Vasconcelos Ribeiro
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引用次数: 0

摘要

摘要 本研究的目的是比较在灌溉和雨养条件下栽培的两个埃塞俄比亚品种('E083'和'E027')和两个阿拉伯咖啡(Coffea arabica L.)培育品种(Iapar 59 和 Catuaí 99)从叶片到整个植株的气体交换情况。我们评估了四个物候期(叶片膨大期--BE1 和 BE2,浆果收获期--BH1 和 BH2)的气体交换变化,涵盖了咖啡生命周期的头两年。我们探讨了以下问题叶片和/或植株尺度上的气体交换是否受水分供应的影响?培育的栽培品种和野生品种对水分供应和物候期的生理反应是否不同?光合作用(A)、气孔导度(gs)和蒸腾作用(E)是在树冠上层最近完全展开的叶片上测量的。基于 VPlants 建模平台构建的三维虚拟树,利用植物功能结构建模(FSPM)整合了整个植物光合作用的 A 值(A "p)。尽管'E083'整体表型的 A 值较高,但在雨水灌溉条件下,由于植株叶面积低于灌溉条件,A "p 出现了明显下降。考虑到叶片和植株的光合作用,Catuaí 99 和'E083'比 Iapar 59 和'E027'对干旱更敏感。在最后一个 BH2 阶段,所有基因型的 A、gs、E 和羧化效率在灌溉和雨养条件下都相似,这表明叶片气体交换对环境有一定的适应性。然而,随着植株叶面积的增加,A "p 在所有物候期都能从水分管理中受益。这些发现揭示了在植物尺度上开发结构和功能分析方法的必要性,这是使植物和果园对周围环境做出真实反应的重要一步。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Drought responses in Coffea arabica as affected by genotype and phenophase. II – photosynthesis at leaf and plant scales
Summary The aim of this work was to compare gas exchanges from leaf to whole plant scales, in two Ethiopian accessions (‘E083’ and ‘E027’), and two bred cultivars (Iapar 59 and Catuaí 99) of Arabica coffee (Coffea arabica L.) cultivated under irrigated and rainfed conditions. Variations in gas exchanges were evaluated over four phenophases (leaf expansion – BE1 and BE2, and berry harvesting – BH1 and BH2), covering the first two production years in the coffee life cycle. We addressed the following questions: Are gas exchanges modified by water availability at leaf and/or plant scales? Do bred cultivars and wild accessions differ in their physiological responses to water availability and phenophases? Photosynthesis (A), stomatal conductance (gs), and transpiration (E) were measured on the recently fully expanded leaves at the upper canopy stratum. The functional-structural plant modelling (FSPM) was used to integrate A at whole plant photosynthesis (Ap), based on 3D virtual trees constructed under VPlants modelling platform. Despite high A values of ‘E083’ overall phenophases, a strong decline in Ap under rainfed condition was observed due to lower plant leaf area as compared to irrigated condition. Catuaí 99 and ‘E083’ were more sensitive to drought than Iapar 59 and ‘E027’, considering photosynthesis at leaf and plant scales. At the last BH2 phenophase, A, gs, E, and carboxylation efficiency were similar between irrigated and rainfed conditions for all genotypes, suggesting some acclimation of leaf gas exchange to the environment. However, Ap benefited by water management in all phenophases as plant leaf area increased. These findings revealed the need to develop methodologies for structural and functional analyses at plant scale, an important step towards the realistic responses of plants and orchards to the surrounding environment.
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来源期刊
Experimental Agriculture
Experimental Agriculture 农林科学-农艺学
CiteScore
2.50
自引率
6.20%
发文量
29
审稿时长
24 months
期刊介绍: With a focus on the tropical and sub-tropical regions of the world, Experimental Agriculture publishes the results of original research on field, plantation and herbage crops grown for food or feed, or for industrial purposes, and on farming systems, including livestock and people. It reports experimental work designed to explain how crops respond to the environment in biological and physical terms, and on the social and economic issues that may influence the uptake of the results of research by policy makers and farmers, including the role of institutions and partnerships in delivering impact. The journal also publishes accounts and critical discussions of new quantitative and qualitative methods in agricultural and ecosystems research, and of contemporary issues arising in countries where agricultural production needs to develop rapidly. There is a regular book review section and occasional, often invited, reviews of research.
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