Abstract
Over the last few decades, there has been widespread awareness that global warming is linked to the introduction of CO2 into the atmosphere from the use of fossil fuels. Urban areas play a very important role in CO2 emissions. Cork, a natural and renewable material (which in itself is the result of a storage of C) can effectively contribute to improving the quality and the insulation of buildings, reducing energy waste, preserving environment, saving landscape [20, 21], the design of the post-carbon city [12,13,14,15,16,17, 25]. The increase in the area occupied by the cork oak forests would increase the storage of carbon in a permanent way, as the use of cork does not compromise the forest resource and does not involve the introduction into the atmosphere of CO2: indeed its use in thermal insulation of buildings reduces CO2 emissions for domestic heating and cooling. Cork oak forests take on a multi-functionality that includes economic, environmental and landscape values. Their protection requires the adoption of a territorial governance that takes into account the commitment to lower down climate change.
Attributions: G. Spampinato auth. Sects. 1, 2, 4., D.E. Massimo auth. Sects. 6, 7., C.M. Musarella auth. Sect. 3., P. De Paola auth. Sect. 9., A. Malerba auth. Sect. 5., M. Musolino auth. Sect. 8.
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References
IPCC: Climate change 2013. Contribution of Working Group I to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change. Cambridge University Press, Cambridge and New York, NY, USA (2013). (Editors: Stocker, T.F., Qin, D., Plattner, G.K., Tignor, M., Allen, S.K., Boschung, J., Nauels, A., Xia, Y., Bex, V., Midgley, P.M.)
Vessella, F., Schirone, B.: Predicting potential distribution of Quercus suber in Italy based on ecological niche models. For. Ecol. Manag. 304, 150–161 (2013)
Batjes, N.H., Sombroek, W.G.: Possibilities for carbon sequestration in tropical and subtropical soils. Glob. Change Biol. 3, 161–173 (1997)
Henderson, G.S.: Soil organic matter: a link between forest management and productivity. In: McFee, W.W., Kelly, J.M. (eds.) Carbon Forms and Functions in Forest Soils, pp. 419–435. Soils Science Society of America Inc., Madison (1995)
Chiesi, M., et al.: Application of BIOME-BGC to simulate Mediterranean forest processes. Ecol. Model. 206(1–2), 179–190 (2007)
FAO: Global Forest Resources Assessment. Progress towards sustainable forest management. FAO Forestry Paper 147, FAO, Rome, Italy. http://www.fao.org/forestry/fra/fra2005/fr. Accessed 06 Dec 2017
Palma, J.H.N., Paulo, J.A., Tomé, M.: Carbon sequestration of modern Quercus suber L. silvo arable agroforestry systems in Portugal: a YieldSAFE-based estimation. Agrofor. Syst. 88(5), 791–801 (2014)
Gil, L.: Cork composites: a review. Materials 2, 776 (2009)
Spampinato, G., Crisarà, R., Cameriere, P.G., Musarella, C.M.: Phytotoponyms a tool to forest landscape analysis and its transformations. The case study of Calabria (Southern Italy). In: Chiatante, D., et al. (eds.) Sustainable Restoration of Mediterranean Forests-Fl. Medit, vol. 27, pp. 5–76 (2017)
Spampinato, G., Crisarà, R., Cannavò, S., Musarella, C.M.: I fitotoponimi della Calabria meridionale: uno strumento per l’analisi del paesaggio e delle sue trasformazioni. Atti Soc. Tosc. Sci. Nat., Mem., Series B 124 (2017)
Mercurio, R., Spampinato, G.: Primo contributo alla definizione tipologica delle sugherete della Calabria. S.I.S.E.F., Atti 3, pp. 483–490 (2003)
Massimo, D.E., Del Giudice, V., De Paola, P., Forte, F., Musolino, M., Malerba, A.: Geographically weighted regression for the post carbon city and real estate market analysis: a case study. In: Calabrò, F., Della Spina, L., Bevilacqua, C. (eds.) Local Knowledge and Innovation Dynamics Towards Territory Attractiveness Through the Implementation of Horizon/E2020/Agenda2030. Springer, Berlin (2018)
Del Giudice, V., Massimo, D.E., De Paola, P., Forte, F., Musolino, M., Malerba, A.: Post carbon city and real estate market: testing the dataset of reggio calabria market using spline smoothing semiparametric method. In: Calabrò, F., Della Spina, L., Bevilacqua, C. (eds.) Local Knowledge and Innovation Dynamics Towards Territory Attractiveness Through the Implementation of Horizon/E2020/Agenda2030. Springer, Berlin (2018)
De Paola, P., Del Giudice, V., Massimo, D.E., Forte, F., Musolino, M., Malerba, A.: Isovalore maps for the spatial analysis of real estate market: a case study for a central urban area of reggio calabria, Italy. In: Calabrò, F., Della Spina, L., Bevilacqua, C. (eds.) Local Knowledge and Innovation Dynamics Towards Territory Attractiveness Through the Implementation of Horizon/E2020/Agenda2030. Springer, Berlin (2018)
Malerba, A., Massimo, D.E., Musolino, M., De Paola, P., Nicoletti, F.: Post carbon city: building valuation and energy performance simulation programs. In: Calabrò, F., Della Spina, L., Bevilacqua, C. (eds.) Local Knowledge and Innovation Dynamics Towards Territory Attractiveness Through the Implementation of Horizon/E2020/Agenda2030. Springer, Berlin (2018)
Massimo, D.E., Malerba, A., Musolino, M.: Green district to save the planet. In: Oppio, A., et al. (eds.) Integrated Evaluation for the Management of Contemporary Cities. Springer, Berlin (2017)
Massimo, D.E., Malerba, A., Musolino, M.: Valuating historic centers to save planet soil. Oppio, A., et al. (eds.) Integrated Evaluation for the Management of Contemporary Cities. Springer, Berlin (2017)
Massimo, D.E., Fragomeni, C., Malerba, A., Musolino, M.: Valuation supports green university: case action at Mediterranea campus in Reggio Calabria. Soc. Behav. Sci. 223, 17–24 (2016)
Massimo, D.E.: Green building: characteristics, energy implications and environmental impacts. Case study in Reggio Calabria, Italy. In: Coleman-Sanders, Mildred, Green Building and Phase Change Materials: Characteristics, Energy Implications and Environmental Impacts, pp. 71–101. Nova Science Publishers (2015)
Massimo, D.E., Musolino, M., Barbalace, A., Fragomeni, C.: Landscape and comparative valuation of its elements. In: Agribusiness, Paesaggio & Ambiente, vol. 17. Special Edition 1, pp. 53–60 (2014)
Massimo, D.E., Musolino, M., Barbalace, A., Fragomeni, C.: Landscape quality valuation for its preservation and treasuring. In: Advanced Engineering Forum. TTP Publications, USA (2014)
Massimo, D.E.: Emerging issues in real estate appraisal: market premium for building sustainability. Aestimum, 653–673 (2013)
Massimo, D.E.: Stima del green premium per la sostenibilità architettonica mediante Market Comparison Approach. Valori e Valutazioni (2011)
Massimo, D.E.: Valuation of urban sustainability and building energy efficiency. A case study. Int. J. Sustain. Dev. 12(2–4), 223–247 (2009)
Musolino, M., Massimo, D.E.: Mediterranean urban landscape. integrated strategies for sustainable retrofitting of consolidated city. In: Sabiedriba, integracija, izglitiba, vol. 3, pp. 49–60 (2013)
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Spampinato, G., Massimo, D.E., Musarella, C.M., De Paola, P., Malerba, A., Musolino, M. (2019). Carbon Sequestration by Cork Oak Forests and Raw Material to Built up Post Carbon City. In: Calabrò, F., Della Spina, L., Bevilacqua, C. (eds) New Metropolitan Perspectives. ISHT 2018. Smart Innovation, Systems and Technologies, vol 101. Springer, Cham. https://doi.org/10.1007/978-3-319-92102-0_72
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