Читать книгу Planificación regional: paisaje y patrimonio - José Castro Serrano - Страница 43
VII. Bibliografía
ОглавлениеAyuga, F. (1991). Evolución de la edificación agraria en España y su influencia en el paisaje rural. Informes de la construcción, 43 (416), pp. 39-52.
Bell, S. (1995). Elements of visual design in the landscape. Londres: Ed. E & FN Spon.
Bishop, I. D. y Hull, R.B. (1991). Integrating Technologies for Visual Resource Management. Journal Environmental Management 32, 295-312.
Bishop, I.D. y Leahy, P.N.A. (1989). Assessing the visual impact of development proposals: the validity of computer simulations. Landscape Journal, 8 (2), pp. 92-100.
Bishop, I.D., 2002. Determination of thresholds of visual impact: the case of wind turbines. Environment and Planning B: Planning and Design (29), p. 707-718.
Bishop, I.D., Lange, E., Mahbubul M.A. (2004). Estimation of the influence of view componets on high-rise apartament pricing using a public survey and GIS modeling. Environment and Planning B: Planning and Design (31), pp. 439-452.
Brunson, M. y Reiter, D. (1996). Effects of Ecological Information on Judgments about Scenic Impacts of Timber Harvest. J. Environ Manag 46, 31-41.
Cañas, I. (1992). Integración de las construcciones agrarias en el paisaje: el color. Tesis doctoral. Madrid: Universidad Politécnica de Madrid.
Cañas, I., Ayuga, F., Ortiz, J. (1996). Visual Impact Assessment for Farm Building Projects. Proceedings of the International Conference on Agricultural Engineering. AgEng’96.
Danahy, J. W., Wright, R. (1988). Exploring Design through 3-Dimensional Simulations. Land Arch 78 (5), 64-71.
Daniel, T.C. y Vining, J. (1983). Methodological issues in the assessment of landscape quality. Behaviour and the natural environment. New York: I. Altman.
Di Facio, J. (1989). Designing Agricultural Buildings in relation to the landscape. International congress on Agricultural Engineering. Balkema, 2, pp. 1191-1198.
Díaz de Rada, V. (2002). Técnicas de análisis multivariante para investigación social y comercial. Ejemplos prácticos utilizando SPSS versión 11. Madrid: Ed. Ra-Ma, pp. 362.
East Lindsey District Council. (1979). Farm Buildings in the Countryside. London: East Lindsey District Council. UK.
Escribano, M. M. (1987). El Paisaje. Madrid: Universidad Politécnica de Madrid. Cátedra de Planificación y Proyectos, ETSI Montes.
Español, I. (1995). Impacto ambiental. Madrid: Universidad Politécnica de Madrid. E.T.S.I. Caminos, Canales y Puertos.
García L., Hernández, J. y Ayuga, F. (2003). Analysis of the exterior colour of agroindustrial buildings: a computer aided approach to landscape integration. Journal of Environmental Management, 69 (1), pp. 94-103.
– (2006). Analysis of the materials and exterior texture of agro-industrial buildings: a photo-analytical approach to landscape integration. Landscape and Urban Planning, 74 (2), pp 110-124.
García, L. (1998). Criterios de diseño para la integración de las construcciones rurales en el paisaje. Tesis doctoral. Universidad Politécnica de Madrid. Madrid.
García, L. y Hernández, J. (2010). Integración de las construcciones en el paisaje rural: Guía práctica. Madrid: Editorial Agrícola Española.
García-Moruno, L., Montero-Parejo, M.J., Hernández-Blanco, J. y López-Casares, S. (2010). Analysis of lines and forms in buildings to rural landscape integration. Spanish Journal of Agricultural Research 8 (3), pp. 833-847.
García-Moruno, L. y Jeong, J.S. (2016). The study of building integration into the surrounding rural landscape: Focus on implementation of a Web-based MC-SDSS and its validation by two-way participation. Land Use Policy, 57 pp. 719-729.
Garrido, J., Montero, M.J., Hernández, J. y García, L. (2017). Use of video and 3D scenario visualisation to rate vegetation screens for integrating buildings into the landscape. Sustainability, 9, 1102.
– (2018). Visual analysis of the height ratio between building and background vegetation. Two rural cases of study: Spain and Sweden. Sustainability, 10, 2593.
– (2019). Using native vegetation screens to lessen the visual impact of rural buildings in the Sierras de Béjar and Francia Biosphere Reserve: case studies and public survey. Sustainability, 11 (9), 2595.
Grossberg, S. y Pessoa, L. (1998). Texture segregation, surface representation and figure-ground separation. Vision Research 38, 2657-2684.
Growe, S. (1975). Tomorrow´s landscape. Londres: The Architectural Press.
Habron, D. (1998). Visual perception of wild land in Scotland. Landscape and Urban Planning (42), p. 45-56.
Hernández, J., García, L. y Ayuga, F. (2004a). Assessment of the visual impact made on the landscape by new buildings: a methodology for site selection. Landscape and Urban Planning, 68 (1), pp. 15-28.
– (2004b). Integration Methodologies for Visual Impact Assessment of Rural Buildings by Geographic Information Systems. Biosyst Eng 88 (2), 255-263.
Ikemi, M. (2005). The effects of mystery on preference for residential facades. Journal of Environmental Psychology 25, 167-173.
Jeong, J.S., García-Moruno, L., Hernández-Blanco, J. y Jaráiz-Cabanillas, F.J. (2014). An operational method to supporting siting decisions for sustainable rural second home planning in ecoturism sites. Land Use Policy, 41 pp. 550-560.
Kaplan, R., Kaplan, S. (1989). The Visual Environment: Public participation in design and planning. J. Soc. Issues 45 (1), 59-86.
Kaplan, S. (1975). An informal model for the prediction of the preference. Landscape assessment: values, perceptions and resources. Pensilvania, Stroudsburg: Dowden, Hutchinson and Ross.
Kaplan, S. y Herbert, E.J. (1987). Cultural and subcultural comparisons in preferences for natural settings. Landscape and Urban Planning, 14 (1), pp. 281-293.
Karjalainen, E., Komulainen, M. (1999). The visual effect of felling on small- and medium-scale landscapes in north-eastern Finland. Journal of Environmental Management (55), 167-181.
Kuller, R. (1991). Simulated studies of colour, arousal and comfort. Estocolmo; Lund, Tekniska Högskolan i Lund.
Langer, S. (1953). The Dynamic Image. London: Architectural Press.
Montero, M.J., López, S., Hernández, J. y García, L. (2016). Visual impact assessment of colour and scale of buildings on the rural landscape. Environmental Engineering and Management Journal, 15 (7), pp. 1537-1550. Rumanía.
Montero, M.J., López-Casares, S., García-Moruno, L. y Hernández-Blanco, J. (2005). Visual Impact On Wetlands: Consequence of Building Sprawl in Rural Areas Of The West Of Spain. In Zerger, A. and Argent, R.M. (eds) MODSIM 2005 International Congress on Modelling and Simulation. Modelling and Simulation Society of Australia and New Zealand, December 2005, pp. 170-176.
Montero-Parejo, M.J., García-Moruno, L., Hernández-Blanco, J. y Casares-López, S. (2008). Analysis of lines and forms of agroindustrial buildings: a photo-analytical approach to landscape integration. EurAgEng eds. Proceedings of International Conference in Agricultural Engineering. Agricultrual & Boisystems Engineering for a sustainable world. Crete (Greece).
Moore, D.S. (1995). Estadística aplicada básica. Barcelona: Ed: Antoni Bosh.
Neufert, E. (1982). Arte de proyectar en arquitectura. Barcelona: Gustavo Gili Ediciones, 672 pp.
Neuman, H., Yazdanbakhsh, A. y Mingolla, E. (2007). Seeing surfaces: the brain’s vision of the world. Physics of Life Reviews 4, 189-222.
O’Farrell, F. (1987). Farm buildings and the environment. Dublin: Ed. An Foras Taluntais.
Orland, B. y Radja, P. (1996). View: Image processing for natural color data files. Illinois: University of Illinois at Urbana-Champaign. Imaging System Laboratory, Dept. of Landscape architecture.
Orland, B., Radja, P., Larsen, L. y Weidemann, E. (1994). The effects of visual variety on perceived human preference. Fort Collins, CO: Society and Resource Management.
Penfold, H.G. (1979). Landscape and farm buildings. Londres: Agricultural Development and Advisory Service Quarterly Review (UK), 230 pp.
Ribe, R.G. (2005). Aesthetic perceptions of green-tree retention harvests in vista views: The interaction of cut level, retention pattern and harvest shape. Landscape and Urban Planning (73), p. 277-293.
Scottish Environment Department (1993). Farm and Forestry Buildings. Planning Advice note 39. Glasgow: Scottish Environment Department. UK.
Shafer, E.L. (1969). Perception of natural Environment. Environtmental Behaviour 1, 71-82.
Smardon, R.C. (1979). The interface of legal and aesthetic considerations. Proceedings of Our National Landscape. A conference on Applied Techniques for Analysis and Management of the visual resource. April 23-25. Incline Village, Nevada. USDA For. Ser., PSFRES. Berkeley, California, p. 676-685.
Smardon, R.C., 1988. Perception and Aesthetics of the Urban Environment: Review of the Role of Vegetation. Landscape and Urban Planning 15, 85-106.
Stamps III A.E y Nasar J.L., 1997. Design review and public preferences: effects of geographical location, public consensus, sensation seeking, and architectural styles. Journal of Environmental Psychology (17), p. 11-32.
Tandy, C. (1979). Industria y paisaje. Madrid. Ed Leonard Hill Books.
Tilt, J.H., Kearney A.R. y Bradley, G. (2007). Understanding rural character: Cognitive and visual perceptions. Landscape and Urban Planning (81), pp. 14-26.
Tveit, M., Ode, A. y Fry, G. (2006). Key concepts in a framework for analysing visual landscape character. Landscape Research 31 (3), 229-255.
USDA Forest Service, (1974). National Forest Landscape Management, Vol. 2. Washington: United States Department of Agriculture, Agriculture Handbook 462. U.S. Government Printing Office, USA. 47 pp.
Zube, E.H. (1982). Landscape perception: research, application and theory. Landscape Planning, 9 (1), pp. 1-33.
