TIMES 土地-WEF 模型:对巴西利卡塔大区(意大利南部)农业系统的综合分析

IF 8 Q1 ENERGY & FUELS Energy nexus Pub Date : 2024-07-02 DOI:10.1016/j.nexus.2024.100315
Senatro Di Leo , Maria Maddalena Tortorella , Patricia Fortes , Mauro Viccaro , Mario Cozzi , Severino Romano , Carmelina Cosmi
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引用次数: 0

摘要

不可持续地使用自然资源,特别是土壤退化和污染,是造成气候和生物多样性危机的主要因素之一。欧盟提出了一项新的 "欧洲绿色协议",其目标包括提高农业食品链在环境可持续性方面的整体质量,重点是减少杀虫剂的使用和提高有机食品在整个生产中的比例。该模型是一个自下而上的优化能源技术模型,用于研究水、能源、粮食和土地之间的相互作用和相互关系。这种建模方法的新颖之处在于选择土地利用作为优化过程的指导参数。从农场到餐桌战略 "的主要目标被模拟为系统约束条件,通过情景分析可以确定这些约束条件对农业系统在所考察时间内的演变所产生的影响。结果表明,减少农药的约束条件导致有机作物的土地使用率从 24.6% 增加到 2060 年的 32.4%。这主要是由于谷物、饲料、橄榄种植作物、永久草地和牧场的使用量增加,导致灌溉用水量减少 46%。另一方面,无机肥料的减少并没有带来有机作物的显著增加,反而导致谷物作物的减少。
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The TIMES Land-WEF model: An integrated analysis of the agricultural system of the Basilicata Region (Southern Italy)

The unsustainable use of natural resources, in particular soil degradation and pollution, is one of the main factors contributing to the climate and biodiversity crisis. The European Union has outlined a new European Green Deal, whose objectives include increasing the overall quality of the agri-food chain in relation to environmental sustainability, focusing on reducing the use of pesticides and increasing the share of organic in overall production. A Nexus thinking perspective is applied to analyse this topic over a 50-year time horizon (2010–2060) for the agricultural system of the Basilicata Region (Southern Italy), represented by the TIMES Land-WEF, an optimizing, bottom-up energy-technology model, built to investigate the interactions and interrelations between water, energy food and land. The novelty of this modelling approach is the choice of land use as the guiding parameter of the optimization process. The main objectives of the Farm to Fork Strategy are modelled as system constraints and the scenario analysis allows to characterise their effects on the evolution of the agricultural system over the examined time. The results show that the pesticide reduction constraint leads to an increase in land use by organic crops from 24.6 % to 32.4 % in 2060. In particular, this is due to the increased contribution of cereal, forage, olive growing crops, permanent meadows and pastures, which lead to a 46 % reduction in irrigation water consumption. On the other hand, the reduction in inorganic fertilizers is not accompanied by a significant increase in organic crops, but resulted in the reduction of cereal crops.

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来源期刊
Energy nexus
Energy nexus Energy (General), Ecological Modelling, Renewable Energy, Sustainability and the Environment, Water Science and Technology, Agricultural and Biological Sciences (General)
CiteScore
7.70
自引率
0.00%
发文量
0
审稿时长
109 days
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