Abstract
There is great need for accurate and practical methods to assess the conditions of ecosystems, and the possible results of their interaction with social systems. The generation and interpretation of quantitative data for ecosystem service analysis is still not well established. Ecosystem service analyses demand an interdisciplinary approach that integrates knowledge with a high variety, and manifold verifications, of models and data. Maps seem to be the most preferable tool for the visualisation of results, being a comprehensive and intuitive tool for communication between decision makers and the general public. The following chapter presents an application and the verification of an approach for the quantification of flood regulating ecosystem services by using results from the watershed hydrological model KINEROS and the AGWA tool (Nedkov and Burkhard 2012). It is applied in six watersheds - three in Bulgaria and three in Arizona, USA, in order to check its reliability in case studies with differing geographic characteristics. The model results are used to define the capacities of the land cover classes in the different watersheds and to prepare flood regulating supply capacity maps. Capacities for flood regulation differ within the case studies and their land cover classes. Forests still show generally high capacities in both Bulgaria and Arizona, while grasslands and pastures in Bulgaria show higher capacities for flood regulation than in Arizona. The maps can provide valuable information for sustainable environmental management.
Keywords
- European Union
- Land Cover
- Ecosystem Service
- Land Cover Type
- Land Cover Class
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.
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References
Biao Z, Wenhua L, Gaodi X, Yu X (2010) Water conservation of forest ecosystem in Beijing and its value. Ecological Economics 69: 1416-1426
Biao Z, Wenhua L, Gaodi X, Yu X (2010) Water conservation of forest ecosystem in Beijing and its value. Ecological Economics 69: 1416-1426
Bradshaw CJA, Sodhi NS, Peh KSH, Brook BW (2007) Global evidence that deforestation amplifies flood risk and severity in the developing world. Global Change Biology 13(11): 2379-2395; doi: 10.1111/j.1365-2486.2007.01446.x
Burkhard B, de Groot R, Costanza R, Seppelt R, Jørgensen SE, Potschin M (2012a) Solutions for sustaining natural capital and ecosystem services. Ecological Indicators 21: 1-6
Burkhard B, Kroll F, Nedkov S, Müller F (2012b) Mapping ecosystem service supply, demand and budgets. Ecological Indicators 21: 17-29
Burkhard B, Kroll F, Müller F, Windhorst W (2009) Landscapes capacities to provide ecosystem services–a concept for land-cover based assessments. Landscape Online 15: 1-22
Crossman ND, Burkhard B, Nedkov S, Willemen L, Petz K, Palomo I, Drakou EG, Martin-Lopez B, McPhearson T, Boyanova K, Alkemade R, Egoh B, Dunbar MB, Maes J (2013) A blueprint for mapping and modeling ecosystem services. Ecosystem Services 4: 4-14
de Groot RS, Alkemade R, Braat L, Hein L, Willemen L (2010) Challenges in integrating the concept of ecosystem services and values in landscape planning, management and decision making. Ecological Complexity 7: 260-272
Guo Z, Gan Y (2002) Ecosystem function for water retention and forest ecosystem conservation in a watershed of the Yangtze River. Biodiversity and Conservation 11: 599-614
Kandziora M, Burkhard B, Müller F (2013a) Interaction of ecosystem properties, ecosystem integrity and ecosystem service indicators – A theoretical matrix exercise. Ecological Indicators 38: 54-78
Kandziora M, Burkhard B, Müller F (2013b) Mapping provisioning ecosystem services at the local scale using data of varying spatial and temporal resolution. Ecosystem Services 4: 47-59.
Laurance WF (2007) Environmental science: Forests and floods. Nature 449: 409-410; doi:10.1038/449409a.
Martinez-Harms MJ, Balvanera P (2012) Methods for mapping ecosystem service supply: a review. International Journal of Biodiversity Science, Ecosystem Services and Management 8: 17-25
Nedkov S, Nikolova M (2006) Modeling floods hazard in Yantra river basin. In: Proceedings from Balwois Conference, Ohrid, 23-26 May 2006.
Nedkov S, Burkhard B (2012) Flood regulating ecosystem services – mapping supply and demand, in the Etropole municipality, Bulgaria. Ecological Indicators 21:67-79
Nikolova M, Nedkov S, Semmens D, Iankov S (2007) Environmental quality and landscape risk assessment in Yantra River Basin. In: Petrosillo I, Müller F, Jones KB, Zurlini G, Krauze K, Victorov S, Li BL, Kepner WG (eds) Use of Landscape Sciences for the Assessment of Environmental Security. Springer, the Netherlands, p 202
Nikolova M, Nedkov S, Nikolov V (2008) Modeling local dimensions of the climate change in Etropolska Stara Planina. In: Papers from the International conference Global Environmental Change: Challenges to Science and Society in the South Eastern Europe, Sofia, 19-21 May 2008
Scott SN (2005) Implementing best management practices in hydrologic modeling using KINEROS and the Automated Geospatial Watershed Assessment (AGWA) Tool. Master’s Thesis, School of Natural Resources, University of Arizona. 204p
Acknowledgments
The work for this study has been supported by the EU 7th Framework Program project SWAN (Sustainable Water Action; Grant agreement no: 294 947) and by the “National, European, and Civilizational Dimensions of the Culture – Language – Media Dialogue” Programme of the “Alma Mater” University Complex for the Humanities at Sofia University “Saint Kliment Ohridski”, funded by the Bulgarian Ministry of Education, Youth, and Science Scientific Research Fund.
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Boyanova, K., Nedkov, S., Burkhard, B. (2014). Quantification and Mapping of Flood Regulating Ecosystem Services in Different Watersheds – Case Studies in Bulgaria and Arizona, USA. In: Bandrova, T., Konecny, M., Zlatanova, S. (eds) Thematic Cartography for the Society. Lecture Notes in Geoinformation and Cartography. Springer, Cham. https://doi.org/10.1007/978-3-319-08180-9_18
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