Assessing the societal benefits of river restoration using the ecosystem services approach

Vermaat, Jan E.; Wagtendonk, Alfred J.; Brouwer, Roy; Sheremet, Oleg; Ansink, Erik; Brockhoff, Tim; Plug, Maarten; Hellsten, Seppo; Aroviita, Jukka; Tylec, Luiza; Gielczewski, Marek; Kohut, Lukas; Brabec, Karel; Haverkamp, Jantine; Poppe, Michaela; Boeck, Kerstin; Coerssen, Matthijs; Segersten, Joel; Hering, Daniel

doi:10.1007/s10750-015-2482-z

Research article2016Peer reviewedOpen access

Assessing the societal benefits of river restoration using the ecosystem services approach

Vermaat, Jan E.; Wagtendonk, Alfred J.; Brouwer, Roy; Sheremet, Oleg; Ansink, Erik; Brockhoff, Tim; Plug, Maarten; Hellsten, Seppo; Aroviita, Jukka; Tylec, Luiza; Gielczewski, Marek; Kohut, Lukas; Brabec, Karel; Haverkamp, Jantine; Poppe, Michaela; Boeck, Kerstin; Coerssen, Matthijs; Segersten, Joel; Hering, Daniel

Abstract

The success of river restoration was estimated using the ecosystem services approach. In eight pairs of restored-unrestored reaches and floodplains across Europe, we quantified provisioning (agricultural products, wood, reed for thatching, infiltrated drinking water), regulating (flooding and drainage, nutrient retention, carbon sequestration) and cultural (recreational hunting and fishing, kayaking, biodiversity conservation, appreciation of scenic landscapes) services for separate habitats within each reach, and summed these to annual economic value normalized per reach area. We used locally available data and literature, did surveys among inhabitants and visitors, and used a range of economic methods (market value, shadow price, replacement cost, avoided damage, willingness-to-pay survey, choice experiment) to provide final monetary service estimates. Total ecosystem service value was significantly increased in the restored reaches (difference 1400 +/- A 600 a,not signA ha(-1) year(-1); 2500 - 1100, p = 0.03, paired t test). Removal of one extreme case did not affect this outcome. We analysed the relation between services delivered and with floodplain and catchment characteristics after reducing these 23 variables to four principal components explaining 80% of the variance. Cultural and regulating services correlated positively with human population density, cattle density and agricultural N surplus in the catchment, but not with the fraction of arable land or forest, floodplain slope, mean river discharge or GDP. Our interpretation is that landscape appreciation and flood risk alleviation are a function of human population density, but not wealth, in areas where dairy farming is the prime form of agriculture.

Keywords

Nutrient retention; River corridor; Wetlands; Flood control; Biodiversity; Economic valuation

Published in

Hydrobiologia
2016, Volume: 769, number: 1, pages: 121-135
Publisher: SPRINGER

SLU Authors

Segersten, Joel
- Department of Aquatic Sciences and Assessment, Swedish University of Agricultural Sciences

Sustainable Development Goals

Ensure availability and sustainable management of water and sanitation for all
Protect, restore and promote sustainable use of terrestrial ecosystems, sustainably manage forests, combat desertification, and halt and reverse land degradation and halt biodiversity loss

UKÄ Subject classification

Ecology

Publication identifier

DOI: https://doi.org/10.1007/s10750-015-2482-z

Permanent link to this page (URI)

https://res.slu.se/id/publ/83152