Please use this identifier to cite or link to this item: https://hdl.handle.net/10419/178867 
Year of Publication: 
2014
Citation: 
[Journal:] Economic and Environmental Studies (E&ES) [ISSN:] 2081-8319 [Volume:] 14 [Issue:] 4 [Publisher:] Opole University, Faculty of Economics [Place:] Opole [Year:] 2014 [Pages:] 389-412
Publisher: 
Opole University, Faculty of Economics, Opole
Abstract: 
There are many reasons that the losses caused by extreme weather events are escalating year by year in Hungary. They include Hungary's geographical characteristics, climate change, river regulation and the expansion of cultivated land. Changes in land use have hugely damaged natural capital, primarily decreasing the area of wetland. Wetlands are multiple-value resources and just one of their functions in the ecosystem is flood regulation. This type of habitat is able to store excess water which can be used in times of drought. At the same time, appropriate land-use (such as increasing the area of wetlands) can help address extreme weather events and increase the amount of natural capital. During the research this paper describes, the social impacts of different kinds of land-use were examined using cost-benefit analysis, contingent valuation and the benefit transfer method. These methods are able to assist with environmentally sustainable decision making as they can be used to show the social preferences for different types of habitats.
Subjects: 
land-use change
cost-benefit analysis
ecosystem services of wetlands
contingent valuation
benefit transfer
Document Type: 
Article

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