Traditional olive orchards account for a large share of the area under olives in the EU, particularly in marginal areas. Traditional olive growing can survive only by improving olive farmer incomes and recognizing its multifunctional role. Italy is the second largest olive oil producer of the European Union, and Umbria can be considered as one of the most interesting regions because of the high quality production of extra virgin olive oil and a close connection with traditional knowledge and the local environment. The regional olive oil chain involves about 30,000 farms growing olive trees covering about 27,000 ha and including 270 oil mills. The olive oil production phase comprises the extraction of the oil and additional by-products (water, pomace and husk). By-product management is very important; the olive oil mill wastes have a great impact on soil and water environments because of high phyto-toxicity (phenol, lipid and organic acids). On the other hand, such wastes may be potentially valuable.
Agroforestry systems are traditional land use practices widely evident in different agro-ecological environments. In Mediterranean areas they comprised the most important cultural models until the introduction of modern industrialised agriculture. Further, the Common Agricultural Policy (CAP) of the EU has dramatically promoted agricultural monocultures, with detrimental effects on agroforestry systems. Consequently, both tree presence across agricultural lands and the associated biological diversity have been progressively reduced. Recent research activities have highlighted interesting potentialities of modern agroforestry systems (silvo-arable systems) based on the intercropping of high quality timber species with arable crops. At present, CAP recognises agroforestry as sustainable land use practice and the current Rural Development Plans (RDP) are promoting novel agroforestry systems at farm level through the measure 2.2.2. The overall aim of the paper was to assess the potential interest in establishing and adopting silvoarable agroforestry systems at farm level. In order to reach this aim, the paper combined two different surveys: i) an on-farm survey was utilised to investigate farmers' point of view concerning the adoption of silvo-arable systems in their farmlands in Central and Northern Italy; ii) an e-mail survey addressed to professional technicians, working as consultants in two Italian Regions (Umbria and Veneto), was utilised to evaluate their professional experience dealing with agroforestry and their attitude to promote agroforestry systems according to the measure 2.2.2 of the RDP. The results highlight the potential interest of farmers in establishing silvo-arable systems, although management constraints and economic uncertainty may strongly limit their effective adoption. From the point of view of the professionals, a lack of extension and training activities concerning agroforestry practices inhibits farmers' participation in the measure 2.2.2. Finally, the contrast between measure 2.2.2 and ...
Given the environmental footprints of the conventional agriculture, it is imperative to test and validate alternative production systems, with lower environmental impacts to mitigate and adapt our production systems. In this study, we identified six production systems, four in Italy and two in Denmark, to assess the environmental footprint for comparison among the production systems and additionally with conventional production systems. SimaPro 8.4 software was used to carry out the life cycle impact assessment. Among other indicators, three significantly important indicators, namely global warming potential, acidification, and eutrophication, were used as the proxy for life cycle impact assessment. In Italy, the production systems compared were silvopastoral, organic, traditional, and conventional olive production systems, whereas in Denmark, combined food and energy production system was compared with the conventional wheat production system. Among the six production systems, conventional wheat production system in Denmark accounted for highest global warming potential, acidification, and eutrophication. In Italy, global warming potential was highest in traditional agroforestry and lowest in the silvopastoral system whereas acidification and eutrophication were lowest in the traditional production system with high acidification effects from the silvopastoral system. In Italy, machinery use contributed the highest greenhouse gas emissions in silvopastoral and organic production systems, while the large contribution to greenhouse gas emissions from fertilizer was recorded in the traditional and conventional production systems. In Denmark, the combined food and energy system had lower environmental impacts compared to the conventional wheat production system according to the three indicators. For both systems in Denmark, the main contribution to greenhouse gas emission was due to fertilizer and manure application. The study showed that integrated food and non-food systems are more environmentally friendly and less polluting compared to the conventional wheat production system in Denmark with use of chemical fertilizers and irrigation. The study can contribute to informed decision making by the land managers and policy makers for promotion of environmentally friendly food and non-food production practices, to meet the European Union targets of providing biomass-based materials and energy to contribute to the bio-based economy in Europe and beyond.
I sistemi agroforestali tradizionali sono in declino in Europa, probabilmente a causa dei processi di industrializzazione e la meccanizzazione dell'agricoltura. Tuttavia negli ultimi dieci anni la ricerca ha dimostrato l'efficienza ambientale ed economica dei sistemi agroforestali innovativi, specialmente quelli che mirano ad una maggiore produzione di legname e di biomasse per l'energia. Sembra necessaria un'appropriata politica a supporto dell'agroforestry come perfetto sistema di uso del suolo in vaste aree rurali. - The paper reports on the decline of traditional agroforestry systems in Europe, mainly because of the industrialization process and the mechanization of agriculture. Nevertheless, since the last decade, research has proved ecological and economic efficiency of innovative agroforestry systems, especially those aimed to produce high timber production and biomass for energy. It appears necessary a proper political and institutional recognition and support of agroforestry as suitable land use systems in wide rural areas.
In: Lehmann , L M , Borzęcka , M , Żyłowska , K , Pisanelli , A , Russo , G & Ghaley , B B 2020 , ' Environmental impact assessments of integrated food and non-food production systems in Italy and Denmark ' , Energies , vol. 13 , no. 4 , 849 . https://doi.org/10.3390/en13040849
Given the environmental footprints of the conventional agriculture, it is imperative to test and validate alternative production systems, with lower environmental impacts to mitigate and adapt our production systems. In this study, we identified six production systems, four in Italy and two in Denmark, to assess the environmental footprint for comparison among the production systems and additionally with conventional production systems. SimaPro 8.4 software was used to carry out the life cycle impact assessment. Among other indicators, three significantly important indicators, namely global warming potential, acidification, and eutrophication, were used as the proxy for life cycle impact assessment. In Italy, the production systems compared were silvopastoral, organic, traditional, and conventional olive production systems, whereas in Denmark, combined food and energy production system was compared with the conventional wheat production system. Among the six production systems, conventional wheat production system in Denmark accounted for highest global warming potential, acidification, and eutrophication. In Italy, global warming potential was highest in traditional agroforestry and lowest in the silvopastoral system whereas acidification and eutrophication were lowest in the traditional production system with high acidification effects from the silvopastoral system. In Italy, machinery use contributed the highest greenhouse gas emissions in silvopastoral and organic production systems, while the large contribution to greenhouse gas emissions from fertilizer was recorded in the traditional and conventional production systems. In Denmark, the combined food and energy system had lower environmental impacts compared to the conventional wheat production system according to the three indicators. For both systems in Denmark, the main contribution to greenhouse gas emission was due to fertilizer and manure application. The study showed that integrated food and non-food systems are more environmentally friendly and less polluting compared to the conventional wheat production system in Denmark with use of chemical fertilizers and irrigation. The study can contribute to informed decision making by the land managers and policy makers for promotion of environmentally friendly food and non-food production practices, to meet the European Union targets of providing biomass-based materials and energy to contribute to the bio-based economy in Europe and beyond.
This paper reports the results of a study conducted in Italy, within the AGFORWARD (2014–2017) project, aimed at promoting innovative agroforestry practices in Europe. Agroforestry offers a means for maintaining food production whilst addressing some of the negative environmental effects of intensive agriculture. This study aims to elicit the positive and negative points of view and perceptions of local stakeholders in Italy in relation to three types of agroforestry systems. The Participatory Research and Network Development was implemented in three workshops conducted in Sardinia, Umbria, and Veneto regions, and applied adopting a common methodological protocol. Qualitative data were obtained using open discussions with stakeholders on key issues, challenges and innovations. Quantitative data were obtained from stakeholders completing questionnaires during the workshops. A statistical analysis was applied to elicit the differences in stakeholders' positive and negative perceptions in relation to production, management, environment and socio-economy aspects. Although the participants in the study came from different geographical and socioeconomic contexts with varied educational and cultural backgrounds, the different professional groups (farmers, policy-makers and researchers) and the three workshops generally shared similar perceptions of the benefits and constraints. The effects of agroforestry on production and the environment were generally perceived as positive, whilst those related to management were generally negative. The process of bringing the groups together seemed to be an effective means for identifying the key research gaps that need to be addressed in order to promote the uptake and maintenance of agroforestry.
The successful promotion of agroforestry in Italy depends on both a recognition of tradition and the opportunities for innovation. In Italy, agroforestry has traditionally been a key component of landscape management. Complex systems, based on the integration among crops–livestock–fruit/forest trees, provided a wide variety of products (e.g. food, feed, fibers, fuelwood and timber) and other ecosystem services (e.g. soil erosion control and biodiversity preservation). Silvopastoral systems have been used for centuries and are still managed in marginal areas. The integration of fruits trees (in primis olive trees) with crops and grazing was widely practiced and is still profitable. Coltura promiscua was historically developed integrating fruit and forest trees and particularly multifunctional trees (e.g. Juglans regia L. and Prunus avium L.) to support vines and intercrops. Building on recent research, projects have also focused on innovation in agroforestry. The adoption of shade tolerant forage species and crops has been studied in silvopastoral and olive systems. Silvopastoral systems can significantly offset the greenhouse gas emissions produced by livestock and shield grazing animals from "heat waves". Integration of fast growing timber trees (like Populus) in arable systems can help reverse the decline in plantation forestry in Italy. Finally, the constraints imposed by the EU agricultural policy, especially the prevalent provisions for monocrops severely limiting the introduction of innovative agroforestry approaches, are discussed. New political measures and certification actions are strongly required.