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大气 CO 浓度影响早熟食用豆类品种的生命周期、产量和果实品质。

Atmospheric CO concentration affects the life cycle, yield, and fruit quality of early maturing edible legume cultivars.

机构信息

Department of Environment and Earth Sciences, University of Alicante, Alicante, Spain.

Department of Environmental Biology, Plant Stress Physiology Group, Associated to CSIC (EEAD, Zaragoza), University of Navarra, Pamplona, Spain.

出版信息

J Sci Food Agric. 2022 Aug 15;102(10):3964-3971. doi: 10.1002/jsfa.11743. Epub 2022 Jan 6.

Abstract

BACKGROUND

Elevated CO usually reduces levels of proteins and essential micronutrients in crops. The adoption of early maturing varieties may minimize the deleterious effect of climate change on farming activities. Legumes stand out for their high nutritional quality, so the objective was to study whether the atmospheric CO concentration affected the growth, yield, and food quality of early maturing cultivars of peas, snap beans, and faba beans. Plants grew in greenhouses either at ambient (ACO , 392 μmol mol ) or under elevated (ECO , 700 μmol mol ) CO levels. Minerals, proteins, sugars, and phenolic compounds were measured in grains of peas and faba beans, and in pods of snap beans.

RESULTS

The effect of ECO depended on legume species, being more evident for food quality than for vegetative growth and yield. The ECO increased Fe and P in faba bean grains, and Ca in snap bean pods. Under ECO , grains of pea and faba bean increased levels of proteins and phenolics, respectively, and the sugars-to-protein ratio decreased in pods of snap beans.

CONCLUSION

Early maturing varieties of legumes appear to be an interesting tool to cope with the negative effects that a long exposure to rising CO can exert on food quality. © 2021 The Authors. Journal of The Science of Food and Agriculture published by John Wiley & Sons Ltd on behalf of Society of Chemical Industry.

摘要

背景

大气 CO 浓度升高通常会降低作物中蛋白质和必需微量营养素的水平。采用早熟品种可能会将气候变化对农业活动的有害影响降到最低。豆类以其高营养价值而著称,因此本研究旨在探讨大气 CO 浓度是否会影响豌豆、青豆和蚕豆早熟品种的生长、产量和食品质量。植物在温室中要么生长在大气 CO 浓度(ACO ,392 μmol/mol)下,要么生长在升高的 CO 浓度(ECO ,700 μmol/mol)下。在豌豆和蚕豆的籽粒以及青豆的豆荚中测量了矿物质、蛋白质、糖和酚类化合物。

结果

ECO 的影响取决于豆科植物的种类,对食品质量的影响比营养生长和产量的影响更为明显。ECO 增加了蚕豆籽粒中的铁和磷,以及青豆荚中的钙。在 ECO 下,豌豆和蚕豆的籽粒分别增加了蛋白质和酚类物质的水平,而青豆荚中的糖/蛋白质比值降低。

结论

早熟豆类品种似乎是应对长期暴露于升高的 CO 可能对食品质量产生的负面影响的一种有效工具。© 2021 作者。John Wiley & Sons Ltd 代表化学工业协会出版的《食品科学杂志》。

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