Literaturverzeichnis zur Veröffentlichung: SPEAK

(1)

www.nul-online.de 1

Literaturverzeichnis zur Veröffentlichung:

S

PEAK

, A., Z

ERBE

, S. (2020): Zum Einfluss von Bäumen und Oberflächenbelag auf das Mikroklima innerstädtischer Freiflächen. Das Beispiel der Stadt Meran, Bozen (Südtirol, Italien). Naturschutz und Landschaftsplanung 52 (8),

378-384.

A^RMSON,D.,R^AHMAN,M.A.,E^NNOS,A.R.(2013):A comparison of the shading effectiveness of five different street tree species in Manchester, UK. Arboricult. Urban For. 39, 157- 164.

Autonome Provinz Südtirol (Hrsg.) (2012): Climareport 196, 1-4.

BARUTI,M.M.,JOHANSSON,E.,ÅSTRAND,J.(2019):Review of studies on outdoor thermal comfort in warm humid climates: challenges of informal urban fabric. Int. J.

Biometeorol.63,1449-1462.

CÂMPBELL,G.S.,J.M.NÔRMAN (1988): The description and measurement of plant canopy structure. In: RÛSSELL,G.,B.MÂRSHALL,P.G.JÂRVIS (Hrsg.): Plant Canopies: Their Growth, Form and Function. Society for Experimental Biology, Seminar Series 29, Cambridge University Press, Cambridge, England: 1-19.

CHIESURA,A.,MIRABILE,M. (2012): Il verde urbano. In: ISPRA (Hrsg.): Qualità dell’ambiente urbano. Roma, 346-349.

DE ABREU-HARBICH,L.V.,LABAKI,L.C.,MATZARAKIS,A. (2015): Effect of tree planting design and tree species on human thermal comfort in the tropics. Landsc. Urban Plan. 138, 99- 109.

FAN,C.,MYINT,S.W.,ZHENG,B. (2015): Measuring the spatial arrangement of urban

vegetation and its impacts on seasonal surface temperatures. Progress Phys. Geogr. 39 (2), 199-219.

FEHR,R.,HORNBERG,C. (Hrsg.) (2019): Stadt der Zukunft – Gesund und nachhaltig.

Brückenbau zwischen Disziplinen und Sektoren. Oekom, München.

FLIR(2009): FLIRTools. https://www.flir.com/products/flir-tools/.

FOKAIDES,P.A.,KYLILI,A.,NICOLAOU,L.,IOANNOU, B. (2016): The effect of soil sealing on the urban heat island phenomenon. Indoor Built Environm. 25, 1136-1147.

HOELSCHER,M.-T.,NEHLS,T.,JÄNICKE,B.,WESSOLEK, G. (2016):Quantifying cooling effects of facade greening: Shading, transpiration and insulation. Energy and Buildings 114, 283- 290.

i-Tree ECO (2017): Field Manual.

http://www.itreetools.org/resources/manuals/Ecov6ManualsGuides/Ecov6FieldManu al.pdf.

KONIJNENDIJK,C.C.,RICARD,R.M.,KENNEY,W.A.,RANDRUP,T.B. (2006): Defining urban forestry – a comparative perspective of North America and Europe. Urban For. Urban Green 4, 93-103.

KOWARIK,I.,BARTZ,R.,BRENCK,M. (Hrsg.) (2016): Ökosystemleistungen in der Stadt.

Naturkapital Deutschland, Berlin.

KUTTLER,W. (1998): Stadtklima. In: SUKOPP H.,WITTIG R. (Hrsg.): Stadtökologie. 2. Aufl.

Fischer, Stuttgart, 125-167.

LEUZINGER,S.,VOGT,R.,KÖRNER,C.(2010): Tree surface temperature in an urban environment. Agricult. Forest Meterol. 150 (1), 56-62.

LIN,B.S.,LIN,Y.J. (2010): Cooling effect of shade trees with different characteristics in a subtropical urban park. HortScience 45 (1), 83-86.

(2)

www.nul-online.de 2 LINDBERG,F.,GRIMMOND,C.S.B. (2011): Nature of vegetation and building morphology

characteristics across a city: influence on shadow patterns and mean radiant temperatures in London. Urban Ecosyst. 14 (4), 617-634.

LIVESLEY,S.J.,MCPHERSON,E.G.,CALFAPIETRA,C. (2016): The urban forest and ecosystem services: Impacts on urban water, heat, and pollution cycles at the tree, street, and city scale. J. Environm. Qual.45, 119-124.

MATZARAKIS,A.,RUTZ,F.,MAYER,H. (2007): Modelling radiation fluxes in simple and complex environments – application of the RayMan model. Internat. J. Biometeorology 51 (4), 323-334.

M^CP^HERSON,E.G. (1984): Solar control planting design. In: M^CP^HERSON,E.G. (Hrsg.): Energy- conserving site design. American Society of Landscape Architects, Washington, D.C, 141-164.

–,D^OUGHERTY,E. (1989): Selecting trees for shade in the southwest. J. Arboriculture 15 (2), 35-43.

–,XIAO,Q., VAN DOORN,N.S.,JOHNSON,N.,ALBERS,S.,PEPER,P.J. (2018): Shade factors for 149 taxa of in-leaf urban trees in the USA. Urban Forestry & Urban Greening 31, 204-211 O^KE, T.R. (1982): The energetic basis of the urban heat island. Quarterly J. Royal Meteorol.

Soc. 108 (455), 1-24.

–,M^ILLS,G.,C^HRISTEN,A.,V^OOGT,J.A. (2017): Urban climates. Cambridge University Press, UK.

PEER,T. (1995): Die natürliche Pflanzendecke Südtirols. Begleittext zur Karte der natürlichen Vegetation 1:200.000. Autonome Provinz Bozen-Südtirol, Abteilung Landschafts- und Naturschutz (Hrsg.).

PRICE,A.,JONES,E.,JEFFERSON,F. (2015): Vertical greenery systems as a strategy in urban heat island mitigation. Water, Air, Soil Poll. 226 (10), 1007/s11270-015-2464-9.

R Core Team (2018): R: A language and environment for statistical computing. R Foundation for Statistical Computing, Vienna, Austria.

RUSSO,A.,ESCOBEDO,F.,TIMILSINA,N.,SCHMITT,A.O.,VARELA,S.,ZERBE, S. (2013): Assessing urban tree carbon storage and sequestration in Bolzano, Italy. J. Biodiv. Sci., Ecosys.

Serv. & Manage. 10 (1), 54-70.

–,ESCOBEDO,F.J.,ZERBE,S.(2016):Quantifying the local-scale ecosystem services provided by urban treed streetscapes in Bolzano, Italy. Environmental Science 3 (1), 58-76.

SANTAMOURIS,M.,KOLOKOTSA,D.(Hrsg.) (2016): Urban climate mitigation techniques.

Routledge.

SEN,S.,ROESLER,J. (2016): Aging albedo model for asphalt pavement surfaces. J. Clean.

Prod. 117, 169-175.

SKELHORN,C.,LINDLEY,S.,LEVERMORE,G. (2014): The impact of vegetation types on air and surface temperatures in a temperate city: A fine scale assessment in Manchester, UK.

Landsc. Urban Plan. 121, 129-140.

SMID,M.,RUSSO,S.,COSTA,A.C.,GRANELL,C.,PEBESMA,E.(2019):Ranking European capitals by exposure to heat waves and cold waves. Urban Climate 27, 388-402.

SPEAK,A.F.,MONTAGNANI,L.,WELLSTEIN,C.,ZERBE,S.(2020):The influence of tree traits on urban ground surface shade cooling. Landscape and Urban Planning 197, 103748.

–,ZERBE,S. (2019): Städtische Baumpflanzungen auf dem Prüfstand – was leisten sie, wie können sie schaden? Das Beispiel der Stadt Meran in Südtirol (Norditalien). Natursch.

Landschaftspl. 51 (8), 366-373.

TAHA, H. (1997): Urban climates and heat islands: Albedo, evapotranspiration, and anthropogenic heat. Energy and Buildings 25 (2), 99-103.

(3)

www.nul-online.de 3 – (2004). Heat islands and energy. In: CLEVELAND, C.J. (Hrsg.): Encyclopedia of Energy.

Elsevier Inc., New York.

UN (2018): Revision of world urbanization prospects. United Nations, Department for Economic and Social Affairs.

VAZ MONTEIRO,M.,HANDLEY,P.,MORISON,J.I.L.,DOICK,K.J. (2019): The role of urban trees and greenspaces in reducing urban air temperatures. For. Comm. Res. Note 37, 1-12.

VOGT,J.,GILLNER,S.,HOFFMAN,M.,THARANG,A.,DETTMANN,S.,GERSTENBERG,T.,SCHMIDT,C., GEBAUER,H.,VAN DE RIET,K.,BERGER,U.,ROLOFF,A. (2017): Citree: A database supporting tree selection for urban areas in temperate climate. Landsc. Urban Plan. 157, 14-25.

WÂNG,X.,C^HENG,H.,XÎ,J.,YÂNG,G.,Z^HAO,Y(2018):Relationship between park composition, vegetation characteristics and cool island effect. Sustainability10,

doi:10.3390/su10030587.

WÊNG,Q.,LÎU,H.,LÛ,D.(2007):Assessing the effects of land use and land cover patterns on thermal conditions using landscape metrics in city of Indianapolis, United States.

Urban Ecosyst. 10,203-219.

ZERBE, S. (2019): Renaturierung von Ökosystemen im Spannungsfeld von Mensch und Umwelt. Ein interdisziplinäres Fachbuch. Springer Spektrum.

Z^HAO,Q.,YÂNG,J.,WÂNG,Z.-H.,WÊNTZ,E.A. (2018): Assessing the cooling benefits of tree shade by an outdoor urban physical scale model at Tempe, AZ. Urban Sci. 2 (1), 4.