葡萄产量差距:法国南部朗格多克-鲁西永地区土壤和气候分区对环境限制的识别

IF 2.2 3区 农林科学 Q3 FOOD SCIENCE & TECHNOLOGY
Hugo Fernandez-Mena, N. Guilpart, P. Lagacherie, Renan Le Roux, Mayeul Plaige, M. Dumont, Marine Gautier, N. Graveline, J. Touzard, H. Hannin, C. Gary
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引用次数: 0

摘要

许多葡萄园和酒窖往往无法实现理论生产潜力,也无法获得葡萄酒质量标签设定的最大产量,因此需要解决所谓的葡萄产量差距问题,以确保其耐用性。这些产量差距尤其发生在地中海葡萄酒产区,那里的极端事件因气候变化而加剧。使用大数据集对可耕地作物的区域水平产量差距进行了广泛研究,但对葡萄等多年生作物的研究要少得多。了解与产量差距有关的环境因素,例如与气候和土壤有关的因素,是葡萄产量差距分析的第一步。在区域范围内,有许多关于“风土”的研究与葡萄酒的典型性和质量有关;然而,没有人根据与葡萄产量有关的环境因素对空间区域进行分类。在本研究中,我们将2010年至2018年间从法国南部朗格多克-鲁西永葡萄酒产区市级生产商处获得的信息汇总为一个大数据集。我们使用线性混合效应模型的后向逐步模型选择过程来区分和选择能够估计市级葡萄产量的具有统计学意义的指标。然后,我们通过使用选定的指标来确定空间区域,以创建具有相似土壤和气候特征的城市集群。最后,我们分析了每个区域与葡萄产量差距相关的指标,以及区域内葡萄品种之间的差异。我们的选择过程证明了6个因素可以解释葡萄年产量(R2=0.112)和整个时期的平均产量(R2=0.0546):土壤有效水容量(SAWC)、土壤pH、Huglin指数、气候干燥指数、酷热天数和霜冻天数。聚类结果显示,七个不同的地区有两个显著的产量差距水平,尽管所有地区都有没有产量差距或产量差距很大的市镇。在每个地区,葡萄产量都是由气候和土壤因素共同驱动的,而不是由单一的环境因素驱动的。白葡萄酒品种的产量差距大于红葡萄酒和桃红葡萄酒品种。这种规模的环境因素在很大程度上解释了各个城市的产量变化,但就年产量预测而言,这些因素并不有效。需要进一步研究环境变量与植物材料和耕作实践之间的相互作用,以及葡萄园战略,这也在葡萄园和区域规模的葡萄产量差距中发挥着重要作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Grapevine yield gap: identification of environmental limitations by soil and climate zoning in the region of Languedoc-Roussillon (South of France)
Often unable to fulfill theoretical production potentials and to obtain the maximum yields set by wine quality labels, many vineyards and cellars need to solve the issue of so-called grapevine yield gaps in order to assure their durability. These yield gaps particularly occur in Mediterranean wine regions, where extreme events have intensified because of climate change. Yield gaps at the regional level have been widely studied in arable crops using big datasets, but much less so in perennial crops, such as grapevine. Understanding the environmental factors involved in yield gaps, such as those linked to climate and soil, is the first step in grapevine yield gap analysis. At a regional scale, there are numerous studies on ‘terroir’ linked to wine typicity and quality; however, none have classified spatial zones based on environmental factors identified as being involved in grapevine yield. In the present study, we aggregated into one big dataset information obtained from producers at the municipality level in the wine region Languedoc-Roussillon (South of France) between 2010 and 2018. We used a backward stepwise model selection process using linear mixed-effect models to discriminate and select the statistically significant indicators capable of estimating grapevine yield at the municipality level. We then determined spatial zones by using the selected indicators to create clusters of municipalities with similar soil and climate characteristics. Finally, we analysed the indicators of each zone related to the grapevine yield gap, as well as the variations among the grapevine varieties in the zones. Our selection process evidenced 6 factors that could explain annual grapevine yield annually (R2 = 0.112) and average yield for the whole period (R2 = 0.546): Soil Available Water Capacity (SAWC), soil pH, Huglin Index, the Climate Dryness Index, the number of Very Hot Days and Days of Frost. The clustering results show seven different zones with two marked yield gap levels, although all the zones had municipalities with no or high yield gaps. On each zone, grapevine yield was found to be driven by a combination of climate and soil factors, rather than by a single environmental factor. The white wine varieties showed larger yield gaps than the red and rosé wine varieties. Environmental factors at this scale largely explained yield variability across the municipalities, but they were not performant in terms of annual yield prediction. Further research is required on the interactions between environmental variables and plant material and farming practices, as well as on vineyard strategies, which also play an important role in grapevine yield gaps at vineyard and regional scale.
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来源期刊
OENO One
OENO One Agricultural and Biological Sciences-Food Science
CiteScore
4.40
自引率
13.80%
发文量
85
审稿时长
13 weeks
期刊介绍: OENO One is a peer-reviewed journal that publishes original research, reviews, mini-reviews, short communications, perspectives and spotlights in the areas of viticulture, grapevine physiology, genomics and genetics, oenology, winemaking technology and processes, wine chemistry and quality, analytical chemistry, microbiology, sensory and consumer sciences, safety and health. OENO One belongs to the International Viticulture and Enology Society - IVES, an academic association dedicated to viticulture and enology.
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