Carbon balance in grapevines (Vitis vinifera L.): effect of environment, cultivar and phenology on carbon gain, losses and allocation

IF 2.5 3区农林科学 Q3 FOOD SCIENCE & TECHNOLOGY Australian Journal of Grape and Wine Research Pub Date : 2022-04-06 DOI:10.1111/ajgw.12557

E. Hernández-Montes, J.M. Escalona, M. Tomás, S. Martorell, J. Bota, I. Tortosa, H. Medrano

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引用次数: 2

Abstract

Background and Aims

Measuring the carbon assimilation and respiration during vine phenology can provide an understanding of the dynamics of carbon fluxes from different organs and their relationship. Most field studies to date do not consider the respiratory losses of different plant organs and their variability under environmental, genetic and phenological changes. The aim of this study was to investigate the effect of genotype and water regime on carbon assimilation, respiration and allocation during vine phenology.

Methods and Results

Field trials were carried out during 2013 and 2014 to study the effect of genotype and water status on carbon assimilation, respiratory losses from leaves, shoots, fruits and roots during the vine phenological cycle, and on biomass production. Carbon respiration varied during plant phenology and represented a significant proportion of the total vine carbon assimilation. The integrated carbon respiratory loss in leaves, fruits and roots was greater in irrigated vines than in non-irrigated vines. Tempranillo recorded the highest carbon assimilation, leaf and stem respiration, as well as the highest above-ground biomass. Garnacha showed a higher root respiration loss and allocated more biomass to the permanent organs. Accumulation of above-ground biomass was influenced by plant carbon budgets during the growing season.

Conclusions

Vine phenology, cultivar and plant water status affected carbon assimilation, carbon loss and carbon allocation. Non-irrigated vines had a higher respiratory carbon loss in respect to the total carbon assimilation by photosynthesis. Above- and below-ground carbon fluxes were coupled during vine phenology.

Significance of the Study

The present work illustrates the importance of respiratory processes on the carbon balance and the relationship among different carbon balance components during vine phenology.

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葡萄（Vitis vinifera L.）的碳平衡：环境、品种和表型对碳增、失和分配的影响

背景与目的测定葡萄物候期的碳同化和呼吸，有助于了解不同器官的碳通量动态及其相互关系。迄今为止，大多数实地研究都没有考虑到不同植物器官的呼吸损失及其在环境、遗传和物候变化下的可变性。本研究的目的是研究基因型和水分状况对葡萄物候期间碳吸收、呼吸和分配的影响。方法与结果在2013年和2014年进行了田间试验，研究了基因型和水分状况对葡萄物候周期中叶、芽、果和根的碳同化、呼吸损失以及生物量产量的影响。碳呼吸在植物物候过程中发生变化，在藤本植物碳吸收总量中占很大比例。灌溉葡萄植株叶片、果实和根系的综合碳呼吸损失大于未灌溉葡萄植株。丹草的碳同化、叶呼吸和茎呼吸最高，地上生物量最高。甘薯表现出较高的根系呼吸损失，并将更多的生物量分配给永久器官。地上生物量的积累受生长季植物碳收支的影响。结论葡萄物候、品种和植株水分状况影响着碳同化、碳损失和碳分配。在光合作用的总碳吸收方面，未灌水的葡萄有较高的呼吸碳损失。在葡萄物候期间，地上和地下碳通量是耦合的。本研究阐明了呼吸过程对碳平衡的重要性以及葡萄物候过程中不同碳平衡组分之间的关系。

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来源期刊

Australian Journal of Grape and Wine Research 工程技术-食品科技

CiteScore

5.30

自引率

7.10%

发文量

审稿时长

3 months

期刊介绍： The Australian Journal of Grape and Wine Research provides a forum for the exchange of information about new and significant research in viticulture, oenology and related fields, and aims to promote these disciplines throughout the world. The Journal publishes results from original research in all areas of viticulture and oenology. This includes issues relating to wine, table and drying grape production; grapevine and rootstock biology, genetics, diseases and improvement; viticultural practices; juice and wine production technologies; vine and wine microbiology; quality effects of processing, packaging and inputs; wine chemistry; sensory science and consumer preferences; and environmental impacts of grape and wine production. Research related to other fermented or distilled beverages may also be considered. In addition to full-length research papers and review articles, short research or technical papers presenting new and highly topical information derived from a complete study (i.e. not preliminary data) may also be published. Special features and supplementary issues comprising the proceedings of workshops and conferences will appear periodically.