Keresési lehetőségek
Kezdőlap Média Kisokos Kutatás és publikációk Statisztika Monetáris politika Az €uro Fizetésforgalom és piacok Karrier
Javaslatok
Rendezési szempont
Magyar nyelven nem elérhető

Francesco Piras

7 October 2020
WORKING PAPER SERIES - No. 2478
Details
Abstract
Throughout the covid‐19 emergency, health authorities have presented contagion data divided by administrative regions with no reference to the type of landscape, environment or development model. This study has been conducted to understand whether there is a correlation between the number of infections and the different rural landscapes of the country. Italy’s rural landscape can be classified in four types, according to the intensity of energy inputs used in the agricultural process, socioeconomic and environmental features. Type A includes areas of periurban agriculture surrounding the metropolitan cities, type B areas of intensive agriculture with high concentration of agroindustry, type C hilly areas with highly diversified agriculture and valuable landscape, and type D high hills and mountains with forests and protected areas. Areas A and B are located in the plains, covering 21% of the territory and accounting for 57% of the population. They produce most of the added value, consume high levels of energy and represent the main source of pollution. Areas C and D cover 79% of the territory and 43% of the population. We find that provinces with 10% more type C and D areas exhibit on average 10% fewer cases of contagion. The result is statistically significant, after controlling for demographic, economic and environmental characteristics of the provinces. The pollution produced in more energy‐intensive landscape has triggered an intense debate of how to ensure the economic competitiveness of Italian agriculture, without compromising environmental integrity or public health. Our findings speak to this debate, by suggesting that planning for more rural territory with lower energy inputs may come with the added benefit of new development opportunities and decreasing the exposure of the population to covid‐19. . Cost benefit‐analyses should take into account that policies aimed at repopulating more rural areas may reduce the economic impact of covid‐19 and of potential future pandemics.
JEL Code
Q1 : Agricultural and Natural Resource Economics, Environmental and Ecological Economics→Agriculture
Q15 : Agricultural and Natural Resource Economics, Environmental and Ecological Economics→Agriculture→Land Ownership and Tenure, Land Reform, Land Use, Irrigation, Agriculture and Environment
O13 : Economic Development, Technological Change, and Growth→Economic Development→Agriculture, Natural Resources, Energy, Environment, Other Primary Products