Your search keyword '"Pulighe, Giuseppe"' showing total 3 results

1. A methodological approach for assessing the impact of urban agriculture on water resources: a case study for community gardens in Rome (Italy).

Author

Dalla Marta, Anna, Baldi, Ada, Lenzi, Anna, Lupia, Flavio, Pulighe, Giuseppe, Santini, Emanuele, Orlandini, Simone, and Altobelli, Filiberto

Subjects

AGRICULTURAL water supply, URBAN agriculture, COMMUNITY gardens, GEODATABASES

Abstract

The paper proposes a methodology to assess water consumption in urban agriculture. Green and blue water footprints were calculated for five selected community gardens (CGs) in Rome (Italy) based on weather, crops, and yields. Then, the water requirement for all the CGs of the city, identified by means of a geodatabase, was estimated. For a cultivated area of 4.06 ha, an overall water requirement of 22,036 m3 (13,596 m3 green and 8,440 m3 blue) resulted from the assessment. Considering also the efficiency of the irrigation system, blue water consumption would reach 20,000 m3 in the worst scenario (furrow irrigation). [ABSTRACT FROM AUTHOR]

Published

2019

2. Viability and Sustainability Assessment of Bioenergy Value Chains on Underutilised Lands in the EU and Ukraine.

Author

Khawaja, Cosette, Janssen, Rainer, Mergner, Rita, Rutz, Dominik, Colangeli, Marco, Traverso, Lorenzo, Morese, Maria Michela, Hirschmugl, Manuela, Sobe, Carina, Calera, Alfonso, Cifuentes, David, Fabiani, Stefano, Pulighe, Giuseppe, Pirelli, Tiziana, Bonati, Guido, Tryboi, Oleksandra, Haidai, Olha, Köhler, Raul, Knoche, Dirk, and Schlepphorst, Rainer

Subjects

VALUE chains, SUSTAINABILITY, SUSTAINABLE development, BIOGAS production, ENERGY crops

Abstract

Bioenergy represents the highest share of renewable energies consumed in the European Union and is still expected to grow. This could be possible by exploring bioenergy production on Marginal, Underutilised, and Contaminated lands (MUC) that are not used for agricultural purposes and therefore, present no competition with food/feed production. In this paper, the viability and sustainability of bioenergy value chains on these lands is investigated and measures for market uptake were developed. Using three case study areas in Italy, Ukraine, and Germany, a screening of MUC lands was conducted, then an agronomic assessment was performed to determine the most promising crops. Then, techno-economic assessments followed by sustainability assessments were performed on selected value chains. This concept was then automated and expanded through the development of a webGIS tool. The tool is an online platform that allows users to locate MUC lands in Europe, to define a value chain through the selection of bioenergy crops and pathways, and to conduct sustainability assessments measuring a set of environmental, social, and economic sustainability indicators. The findings showed positive results in terms of profitability and greenhouse gas emissions for bioethanol production from willow in Ukraine, heat and power production from miscanthus, and biogas and chemicals production from grass in Germany. The webGIS tool is considered an important decision-making tool for stakeholders, which gives first insights on the viability and sustainability of bioenergy value chains. [ABSTRACT FROM AUTHOR]

Published

2021

3. Environmental sustainability of the biogas pathway in Italy through the methodology of the Global Bioenergy Partnership.

Author

Pirelli, Tiziana, Chiumenti, Alessandro, Morese, Maria Michela, Bonati, Guido, Fabiani, Stefano, and Pulighe, Giuseppe

Subjects

*ENERGY crops, *BIOGAS, *BIOGAS production, *GREENHOUSE gases, *SUSTAINABILITY, *WATER shortages, *VALUE chains

Abstract

Biogas production and use can represent a win-win strategy providing multiple opportunities to mitigate the emission of greenhouse gases responsible for climate change, while offering a range of important social, environmental and economic benefits. Nevertheless, as for other bioenergy pathways, biogas sustainability needs to be carefully assessed and continuously monitored in light of the specific geographic and temporal context in which it performs. This paper aims to provide a comprehensive review on the sustainability assessment of domestic production and use of biogas in Italy, with a focus on the environmental dimension of the sustainability. Furthermore, it elaborates the results of the review to perform an ex-novo sustainability assessment of biogas pathway at national level, through the methodology developed by the Global Bioenergy Partnership. The biogas value chain in Italy can play a positive role to foster the transition towards an ecological and circular economy. This paper highlights both weaknesses and strengths of the biogas value chain in Italy and points out existing differences, in relation to the sustainability of the value chain, between various geographical areas of the country. The outcomes of this study could inform, both at national and international scale, the drawing of tailor-made policies and measures to reduce biogas-related potential risks of environmental impacts, as well as to support the replication and scaling up of successful management practices. Furthermore, they could serve as a baseline for the future monitoring of the sector. Ultimately, the paper reports the key difficulties encountered in the implementation of the GBEP methodology and the solutions adopted to overcome them. [Display omitted] • Three-quarters (75.4%) of the Italian biogas production takes place in the Po river valley, one-third comes from Lombardy. • Maize silage and livestock manure are the most common feedstocks in Italian biogas plants. • Roughly 80 k tons of nitrogen contained in livestock manure were treated by biogas plant in Italy in 2016. • The main source of GHG emissions along the biogas pathway in Italy lies in the cultivation of dedicated bioenergy crops. • Water shortage hampers the development of the biogas sector in southern Italy, restricting the cultivation of energy crops. [ABSTRACT FROM AUTHOR]

Published

2021