terclim by ICS banner
IVES 9 IVES Conference Series 9 OIV 9 OIV 2024 9 Short communications - Economy and law 9 La producción vitivinícola como fuente de impactos positivos en el medio seminatural

La producción vitivinícola como fuente de impactos positivos en el medio seminatural

Resumen

El sector del vino está abordando el camino hacia la sostenibilidad, mitigando el cambio climático, adaptándose a él, implantando la economía circular, etc. El proyecto europeo LIFE CLIMAWIN se propone colaborar en este proceso, mostrando técnicas novedosas para convertir el conjunto de viñedo y bodega en un modelo de sostenibilidad. Se ha elegido como demostración un caso de estudio muy significativo situado en la región vinícola de Ribera del Duero (España). El proyecto incluye varias acciones técnicas. Una de ellas relativa al uso y gestión del suelo, incluyendo la producción y uso de biochar, reduciendo las emisiones de N2O y CH4. Otra de las acciones técnicas aborda la captura y uso del CO2 liberado durante la fermentación alcohólica, desplazando la compra de CO2 y reduciendo el uso de HFC. El agua extraída de un acuífero subterráneo se utiliza para mejorar la eficiencia de la bomba de calor del sistema de refrigeración y climatización, reduciendo la demanda de energía eléctrica. Para evitar los impactos de construir una línea eléctrica en el paraje natural, se ha incorporado una microrred aislada inteligente, basada en generación renovable. Finalmente, se evalúan los impactos sobre el medio ambiente y sobre el empleo y la economía locales.

Wine production as a source of positive impacts on the semi-natural environment

The wine sector is tackling the path towards sustainability, mitigating climate change, adapting to it, implementing circular economy practices, etc. The European LIFE CLIMAWIN project aims to collaborate in this process by demonstrating innovative techniques to turn the vineyard and winery into a model of sustainability. A very significant case study located in the Ribera del Duero wine region (Spain) has been chosen as a demonstration hub. The project includes several technical actions. One of them concerns soil use and management, including the production and use of biochar, reducing N2O and CH4 emissions. Another technical action addresses the capture and use of CO2 released during alcoholic fermentation, displacing the purchase of CO2 and reducing the use of HFCs. Water extracted from an underground aquifer is used to improve the efficiency of the heat pump of the cooling and air-conditioning system, reducing the demand for electricity. To avoid the impacts of building a power line in the natural site, a smart stand-alone microgrid based on renewable generation has been incorporated. Finally, the impacts on the environment and on local employment and the local economy are assessed.

Le secteur vitivinicole s’engage sur la voie de la durabilité, de l’atténuation du changement climatique, de l’adaptation à ce dernier, de la mise en œuvre de pratiques d’économie circulaire, etc. Le projet européen LIFE CLIMAWIN vise à collaborer à ce processus en démontrant des techniques innovantes pour transformer le vignoble et la cave en un modèle de durabilité. Une étude de cas très significative située dans la région viticole de Ribera del Duero (Espagne) a été choisie comme centre de démonstration. Le projet comprend plusieurs actions techniques. L’une d’entre elles concerne l’utilisation et la gestion des sols, y compris la production et l’utilisation de biochar, réduisant ainsi les émissions de N2O et de CH4. Une autre action technique porte sur la capture et l’utilisation du CO2 libéré lors de la fermentation alcoolique, ce qui permet de remplacer l’achat de CO2 et de réduire l’utilisation de HFC. L’eau extraite d’un aquifère souterrain est utilisée pour améliorer l’efficacité de la pompe à chaleur du système de refroidissement et de climatisation, réduisant ainsi la demande d’électricité. Pour éviter l’impact de la construction d’une ligne électrique sur le site naturel, un micro-réseau autonome intelligent basé sur la production d’énergie renouvelable a été incorporé. Enfin, les impacts sur l’environnement, l’emploi local et l’économie locale sont évalués.

DOI:

Publication date: November 18, 2024

Issue: OIV 2024

Type: Article

Authors

Javier Carroquino1,2, Cristina Escriche1, Nieves García-Casarejos3, Pilar Gargallo3 , Andrea Casquete4, Mario de la Fuente4,5

1 Intergia Energía Sostenible, Zaragoza, Spain
2 Universidad San Jorge, Zaragoza, Spain
3 Facultad de economía y Empresa, Universidad de Zaragoza, Spain
4 Spanish Wine Technology Platform, Madrid, Spain
5 CEIGRAM- Universidad Politécnica de Madrid, Spain

Contact the author*

Tags

Full papers OIV 2024 | IVES Conference Series | OIV | OIV 2024

Citation

Related articles…

Contrast of unfair trade practices in business-to-business relationships in the agricultural and food supply chain: An overview from the vitivinicultural perspective

According to the Directive EU 2019/633, European Union settled a minimum harmonised framework of rules to ensure the prohibitions of unfair commercial practices in business to business relationship of agrifood sector.

Le réseau français des partenaires de la sélection vigne : un dispositif unique au monde au service de la sauvegarde du patrimoine variétal

The French vine selection partners network is currently made up of 40 regional partners, grouped around IFV (French Institute for Vine and Wine) and INRAE (national research institute for agriculture and environment), whose missions are preservation, selection, and innovation of our varietal diversity. The originality of this device is based on a 3-level organisation: – varietal diversity preservation, with the world reference: the INRAE’s vine genetics resources centre of Vassal-Montpellier (Marseillan, France), the world’s largest ampelographic collection, which includes nearly 6 000 accessions of cultivated Vitis vinifera from 54 countries, as well as rootstocks, interspecific hybrids, wild vines (lambrusques) and wild American and Asian species.

Multi-mineral wine profiling and Artificial Intelligence: Implementing the signatures of each wine to train algorithms to meet the new challenges facing the wine industry

Multi-mineral wine profiling and artificial intelligence: implementing the signatures of each wine to train algorithms to meet the new challenges facing the wine industry. Although their quantity is minimal, minerals are essential elements in the composition of every wine. Their presence is the result of complex interactions between factors such as soil, vines, climate, topography, and viticultural practices, all influenced by the terroir. Each stage of the winemaking process also contributes to shaping the unique mineral and taste profile of each wine, giving each cuvée its distinctive characteristics.

Overcoming habit formation in the production of wine

Evidence indicates that climate change affects the environment, human health, and well-being via drought, increasing greenhouse effect, and climatic catastrophes. As the wine sector is also negatively affected by climate change, the role of climate change mitigation and adaptation policies is important in wine production. One example of an adaptation policy is the implementation of grapevine genetics (duchene, 2016), while organic farming may be used as an approach to mitigate the consequences of climate change (vinci et al., 2022). To this end, the european commission’s objective is to reach the european green deal target of at least 25% of the european union’s agricultural land under organic farming by 2030.

Challenges and opportunities for increasing organic carbon in vineyard soils: perspectives of extension specialists

Context description and research question: an increasing number of farmers are considering the impact of conservation practices on soil health to guide sustainable management of vineyards. Understanding impacts of soil management on soil organic carbon (SOC) is one lever for adoption of agroecological practice with potential to help maintain or improve soil health while building SOC stocks to mitigate climate change (Amelung et al., 2020).