1. bookVolume 10 (2022): Edizione 3 (September 2022)
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Prima pubblicazione
15 Apr 2013
Frequenza di pubblicazione
4 volte all'anno
Accesso libero

The value of air purification and carbon storage ecosystem services of park trees in Warsaw, Poland

Pubblicato online: 27 Sep 2022
Volume & Edizione: Volume 10 (2022) - Edizione 3 (September 2022)
Pagine: 1 - 11
Ricevuto: 01 May 2022
Accettato: 19 Aug 2022
Dettagli della rivista
Prima pubblicazione
15 Apr 2013
Frequenza di pubblicazione
4 volte all'anno

Anderson L.M., Cordell H.K. 1988. Influence of trees on residential property values in Athens. Gerogia (U.S.A.): a survey based on actual sales prices. Landscape and Urban Planning, 15: 153–164. Search in Google Scholar

Baldocchi D.D., Hicks B.B., Camara P. 1987. A canopy stomatal resistance model for gaseous deposition to vegetated surfaces. Atmospheric Environment, 21: 91–101. Search in Google Scholar

Bauer J., Pérez M.E., Olivero S. 2016. i-Tree urban forest assessment in Santo Domingo’s Colonial City. Technical Report. Santo Domingo. Search in Google Scholar

Bautista D., Peña-Guzmán C. 2019. Simulating the hydrological impact of green roof use and an increase in green areas in an urban catchment with i-tree: A case study with the town of Fontibón in Bogotá. Colombia Resources, 8: 68.10.3390/resources8020068 Search in Google Scholar

Berland A., Shiflett S., Shuster W., Garmestani A., Goddard H., Herrmann D., Hopton M. 2017. The role of trees in urban stormwater managemant. Landscape and Urban Planning, 162: 167–177. Search in Google Scholar

Bertram C., Meyerhoff J., Rehdanz K., Wüstemann H. 2017. Differences in the recreational value of urban parks between weekdays and weekends: A discrete choice analysis. Landscape and Urban Planning, 159: 5–14. Search in Google Scholar

Blair J., Roldan C., Ghosh S., Yung S.H. 2017. Greening Rail Infrastructure for Carbon Benefits. Procedia Engineering, 180: 1716–1724. Search in Google Scholar

Borkowska M., Rozwadowska M., Śleszyński J., Żylicz T. 2001. Environmental Amenities on Housing Market in Warsaw: Hedonic Price Method Research. Ekonomia 3: 70–82. Search in Google Scholar

Bowler D., Buyung-Ali L., Knight T., Pullin A. 2010. Urban greening to cool towns and cities: a systematic review of the empirical evidence. Landscape and Urban Planning, 97: 147–155. Search in Google Scholar

Chaparro L., Terradas J. 2009. Ecological services of urban forest in Barcelona. Technical Report. Ballaterra. Search in Google Scholar

Chiesura A. 2004. The role of urban parks for the sustainable city. Landscape and Urban Planning, 68: 129–138. Search in Google Scholar

CICES (Common International Classification of Ecosystem Services). 2013. Towards a common classification of ecosystem services. Search in Google Scholar

Costanza R., D’Arge R., Groot R.D., Faber S., Grasso M., Hannon B., Limburg K., Naeem S., O’Neill RV., Paruelo J., Raskin RG., Sutton P., Van den Belt M. 1997. The value of the world’s ecosystem services and natural capital. Nature, 387: 253–260. Search in Google Scholar

Costanza R., Groot R.D., Braat L., Kubiszewski I., Fioramonti L., Sutton P., Farber S., Grasso M. 2017. Twenty years of ecosystem services: How far have we come and how far do we still need to go? Ecosystem Services, 28: 1–16.10.1016/j.ecoser.2017.09.008 Search in Google Scholar

Costanza R., Groot R.D., Sutton P., Ploeg S., Anderson S.J., Kubiszewski I., Farber S., Turner R.K. 2014. Changes in the global value of ecosystem services. Global Environmental Change, 26: 152–158. Search in Google Scholar

Czembrowski P., Kronenberg J., Czepkiewicz M. 2016. Integrating non-monetary and monetary valuation methods - SoftGIS and hedonic pricing. Ecological Economics, 130: 166–175. Search in Google Scholar

De la Concha H. 2017. Inventario del Arbolado Urbano de la ciudad de Mérida. Technical Report. Mérida. Search in Google Scholar

Dewalle D., Heisler G. 1988. Use of Windbreaks for Home Energy Conservation. Agriculture Ecosystems and Environment, 22: 243–260. Search in Google Scholar

Dimke K.C., Sydnor T.D., Gardner D.S. 2013. The effect of landscape trees on residential property values of six communities in Cincinnati. Ohio. Arboriculture and Urban Forestry, 39: 49–55. Search in Google Scholar

Doick K., Handley P., Ashwood F., Vaz Monteiro M., Frediani K., Rogers K. 2017. Valuing Edinburgh’s Urban Trees. An update to the 2017 i-Tree Eco survey – a report of Edinburgh City Council and Forestry Commission Scotland. Technical Report. Farnham. Search in Google Scholar

Donovan G.H., Butry D.T. 2010. Trees in the city: valuing street trees in Portland. Oregon. Landscape Urban Planning, 94: 77–83. Search in Google Scholar

ExternE (External Costs of Energy). 2005. ExternE - Externalities of Energy Methodology. Available at http://www.externe.info/externe_d7/ Search in Google Scholar

Gardner J., McDuie M., Boyle E. 2017. Valuing the Waite Arboretum. South Australia. Technical Report. Adelaide. Search in Google Scholar

Giergiczny M., Kronenberg J. 2012. Jak wycenić wartość przyrody w mieście? Wycena drzew przyulicznych w centrum Łodzi. [in:] T. Bergier. J. Kronenberg (ed.) Przyroda w mieście. Usługi ekosystemów - niewykorzystany potencjał miast. Polish TEEB guide for cities. Sendzimir Foundation. Cracow. Search in Google Scholar

Graça M.S., Gonçalves J.F., Alves P.J.M., Nowak D.J., Hoehn R., Ellis A., Farinha-Marques P., Cunha M. 2017. Assessing mismatches in ecosystem services proficiency across the urban fabric of Porto (Portugal): The influence of structural and socioeconomic variables. Ecosystem Services, 23: 82–93.10.1016/j.ecoser.2016.11.015 Search in Google Scholar

Heisler O.M. 1986. Effects of individual trees on the solar radiation climate of small buildings. Urban Ecology, 9: 337–359. Search in Google Scholar

Hutchings T., Lawrence V., Brunt A. 2012. Estimating the Ecosystem Services Value of Edinburgh’s Trees. Technical Report. Farnham Search in Google Scholar

IWG (Interagency Working Group). 2021. Technical Support Document: Social Cost of Carbon. Methane. and Nitrous Oxide Interim Estimates under Executive Order 13990. United States Government. Available at https://www.whitehouse.gov/wp-content/uploads/2021/02/TechnicalSupportDocument_SocialCostofCarbonMethaneNitrousOxide.pdf Search in Google Scholar

Kiss M., Takács Á., Pogácsás R., Gulyás Á. 2015. The role of ecosystem services in climate and air quality in urban areas: Evaluating carbon sequestration and air pollution removal by street and park trees in Szeged (Hungary). Moravian Geographical Reports, 23: 36–46.10.1515/mgr-2015-0016 Search in Google Scholar

Lefrançois C.B. 2015. Designing effective stormwater management policies : The role of the urban forest and impervious cover in Vancouver (B.C. Master Thesis). The UBC School of Community and Regional Planning. Vancouver. Search in Google Scholar

MEA (Millennium Ecosystem Assessment). 2005. Ecosystems and Human Wellbeing: Synthesis. Island Press. Search in Google Scholar

Medrano O.A. 2019. Measuring the benefits of urban nature-based solutions through quantitative assessment tools (Master Thesis). Universiteit Utrecht, Utrecht. Search in Google Scholar

Meléndez-Ackerman E., Trujillo A., Nytch C., Ramse M., Branoff B., Olivero-Lora S. 2018. Ecological vulnerability of urban green infrastructure to Hurricanes Irma and Maria in Puerto Rico. Technical Report. Puerto Rico. Search in Google Scholar

Moffat A.J., Doick K.J., Handley P. 2017. Petersfield’s trees - their importance and value. Results of the i-Tree Eco survey. Technical Report. Report to East Hampshire District Council. South Downs National Park Authority and Petersfield Town Council. The Petersfield Society. Petersfield. Search in Google Scholar

Moulton R., Richards K. 1990. Costs of Sequestering Carbon through Tree Planting and Forest Management in the United States. General Technical Report WO-58. U.S. Department of Agriculture. Washington. D.C.10.5962/bhl.title.94273 Search in Google Scholar

Na H.R., Heisler G.M., Nowak D.J., Grant R.H. 2014. Modeling of urban trees’ effects on reducing human exposure to UV radiation in Seoul. Korea. Urban Forestry and Urban Greening, 13, 4: 785–792. Search in Google Scholar

Nowak D., Hoehn R., Crane D., Stevens J., Walton J. 2007. Philadelphia’s Urban Forest. Assessing Urban Forest Effects and Values. Technical Report. USDA Forest Service. Northern Research Station. Philadelphia.10.2737/NRS-RB-7 Search in Google Scholar

Nowak D.J. 1994. Atmospheric carbon dioxide reduction by Chicago’s urban forest. [in:] E.G. McPherson, D.J Nowak; R.A. Rowntree (eds.) Chicago’s urban forest ecosystem: results of the Chicago Urban Forest Climate Project. General Technical Report. NE-186. Radnor. PA: U.S. Department of Agriculture. Forest Service. Northeastern Forest Experiment Station: 83–94. Search in Google Scholar

Nowak D.J. 1996. Estimating leaf area and leaf biomass of open-grown deciduous urban trees. Forest Science, 42, 4: 504–507. Search in Google Scholar

Nowak D.J. 2018. Améliorer les forêts citadines à travers l’évaluation. la modélisation et le suivi. Unasylva, 69: 30–36. Search in Google Scholar

Nowak D.J., McHale P.J., Ibarra M., Crane D., Stevens J., Luley C. 1998. Modeling the effects of urban vegetation on air pollution. [in:] S.E. Gryning, N. Chaumerliac (ed.) Air pollution modeling and its application. Plenum Press. New York.10.1007/978-1-4757-9128-0_41 Search in Google Scholar

Pauleit S., Duhme F. 2000. Assessing the Environmental Performance of Land Cover Types for Urban Planning. Landscape and Urban Planning, 52, 1: 1–20. Search in Google Scholar

Peper P.J., McPherson E.G., Simpson J.R., Gardner S.L., Vargsas K.E., Xiao Q. 2007. Municipal Forest Resource Analysis. Technical Report. USDA Forest Service. Pacific Southwest Research Station, New York City. Search in Google Scholar

Raum S., Hand K., Hall C., Edwards D., O’Brien L., Doick K. 2019. Achieving impact from ecosystem assessment and valuation of urban greenspace: The case of i-Tree Eco in Great Britain. Landscape and Urban Planning, 190: 1–17. Search in Google Scholar

Rogers K., Sacre K., Goodenough J., Doick K. 2015. Valuing London’s Urban Forest - Results of the London i-Tree Eco Project. Technical Report. Treeconomics, London. Search in Google Scholar

Roush W. 1997. Putting a price tag on nature’s bounty. Science, 276(5315): 1029.10.1126/science.276.5315.1029 Search in Google Scholar

Scholz T., Hof A., Schmitt T. 2018. Cooling effects and regulating ecosystem services provided by urban trees - Novel analysis approaches using urban tree cadastre data. Sustainability, 10: 712. Search in Google Scholar

Shashua-Bar L., Erell E., Pearlmutter D. 2009. The cooling efficiency of urban landscape strategies in a hot dry climate. Landscape and Urban Planning, 92: 179–186. Search in Google Scholar

Summit J., Sommer R. 1999. Further studiem of preferred tree shapes. Environmental Behavior, 31: 550–576. Search in Google Scholar

Szkop Z. 2016. An evaluation of the ecosystem services provided by urban trees: The role of Krasiński Gardens in air quality and human health in Warsaw (Poland). Environmental and Socio-economic Studies, 4, 4: 41–50. Search in Google Scholar

Szkop Z. 2019. Wycena usług ekosystemowych świadczonych przez wybrane drzewa miejskie w Rzeszowie. Technical report prepared for the “EKOSKOP” association for the needs of an educational campaign carried out by the Marshal’s Office of the Podkarpackie Voivodeship, Rzeszów. Search in Google Scholar

Szkop Z. 2020a. Evaluating the sensitivity of the i-Tree Eco pollution model to different pollution data inputs: a case study from Warsaw. Poland. Urban Forestry & Urban Greening, 55: 126859. Search in Google Scholar

Szkop Z. 2020b. Wartość ekonomiczna usług świadczonych przez drzewa miejskie. Problem optymalnego zarządzania zielenią miejską (PhD thesis). Faculty of Economic Sciences of the University of Warsaw, Warsaw. Search in Google Scholar

Szkop Z. 2021a. Ocena i wycena usług ekosystemowych w wybranym obszarze miasta stołecznego Warszawy na podstawie danych dostarczonych przez zleceniodawcę. Technical Report prepared by dr. Zbigniew Szkop at the request of the Warsaw University of Life Sciences, Warsaw. Search in Google Scholar

Szkop Z. 2021b. The problem of suboptimal composition of urban trees in Warsaw. Urban Forestry & Urban Greening, 62: 127127. Search in Google Scholar

Tamura A. 1997. Effects of landscaping on the feeling of annoyance of a space. [in:] A. Schick, M. Klatte (eds.) Contributions to psychological acoustics: Results of the seventh Oldenburg symposium on psychological acoustics. Universität Oldenbulg, Oldenbulg. Search in Google Scholar

TEEB (Economics of Ecosystems and Biodiversity). 2010. Mainstreaming the Economics of Nature: A Synthesis of the Approach. Conclusions and Recommendations of TEEB. Search in Google Scholar

Tsiros I. 2010. Assessment and energy implications of street air temperature cooling by shade trees in Athens (Greece) under extremely hot weather conditions. Renuable Energy, 35, 8: 1866–1869. Search in Google Scholar

Velazquez-Marti B., Sajdak M., Lopez-Cortes I. 2013. Available residual biomass obtained from pruning Morus alba L. trees cultivated in urban forest. Renuable Energy, 60: 27–33. Search in Google Scholar

Von Hoffen L.P., Samuel I. 2014. Orchards for edible cities: cadmium and lead content in nuts. berries. pome and stone fruits harvested within the inner city neighbourhoods in Berlin. Germany. Ecotoxicology and Environmental Safety, 101: 233–239. Search in Google Scholar

Wu. J., Wang Y., Qiu S., Peng J. 2019. Using the modified i-Tree Eco model to quantify air pollution removal by urban vegetation. Science of the Total Environment, 688: 673–683. Search in Google Scholar

Xiao. Q., McPherson E.G., Simpson J.R., Ustin S.L. 1998. Rainfall interception by Sacramento’s urban forest. Journal of Arboriculture, 24, 4: 235–244. Search in Google Scholar

Zawojska E., Szkop Z., Czajkowski. M., Żylicz. T. 2016. Economic valuation of ecosystem services provided by the Palace Park in Wilanow. A benefit transfer study. Economics and Environment, 59: 143–153. Search in Google Scholar

Żylicz T. 2017. Wycena drzew miejskich. Aura, 11: 16–17. Search in Google Scholar

Żylicz T. 2018. Czy ekosystemy świadczą usługi. Aura, 1:19–20. Search in Google Scholar

ZZW (Zarząd Zieleni Warszawy). 2021. Data provided by the Warsaw City Hall – Urban Greenery Office. Warsaw. Search in Google Scholar

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