Quantificação dos benefícios derivados das Soluções baseadas na Natureza no contexto muito árido e densificado da metrópoles de Lima

Ahmadi Venhari, A., Tenpierik, M., & Taleghani, M. (2019). The role of sky view factor and urban street greenery in human thermal comfort and heat stress in a desert climate. Journal of Arid Environments, 166, 68-76. Recuperado de https://doi.org/10.1016/j.jaridenv.2019.04.009

Alcamo et al. (2003). Millennium Ecosystem Assessment Ecosystems and Human Well-being A Framework for Assessment. Millennium Ecosystem Assessment. Recuperado de https://www.millenniumassessment.org/en/Framework.html

ARUP (2018). Rethinking Cities in Arid Environments. Dubai, United Arab Emirates: ARUP. Recuperado de https://www.arup.com/perspectives/publications/research/section/cities-alive-cities-in-aridenvironments

Azunre, G. A., Amponsah, O., Peprah, C., Takyi, S. A., & Braimah, I. (2019). A review of the role of urban agriculture in the sustainable city discourse. Cities, 93, 104-119. Recuperado de https://doi.org/10.1016/j.cities.2019.04.006

Barton, M. (2016). Nature-Based Solutions in Urban Contexts. A Case Study of Malmö, Sweden. Recuperado de https://lup.lub.lu.se/luur/download?func=downloadFile&recordOId=8890909&fileOId=8890910

Bazán, J., Rieradevall, J., Gabarrell, X., & Vázquez-Rowe, I. (2018). Low-carbon electricity production through the implementation of photovoltaic panels in rooftops in urban environments: A case study for three cities in Peru. The Science of the Total Environment, 622-623, 1448-1462. Recuperado de https://doi.org/10.1016/j.scitotenv.2017.12.003

Beatley, T. (2016). Handbook of Biophilic City Planning & Design. Island Press.

Becker Giseke Mohren Richard, & Landschaft Planen und Bauen. (1990). The Biotope Area Factor as an Ecological Parameter - Principles for Its Determination and Identification of the Target. Berlin, Germany: Landschaft Planen und Bauen, Becker Giseke Mohren Richard, and Arbietsgemeinschaft Umweltplanung AGU for Senatsverwaltung für Stadtentwicklung und Umweltschutz, Abt. III. Recuperado de https://www.berlin.de/sen/uvk/en/nature-and-green/landscapeplanning/baf-biotope-area-factor/

Benedict, M. A., & McMahon, E. T. (2002). Green Infrastructure: Smart conservation for the 21st Century. Renewable Resources Journal, 20(3), 12-17. Recuperado de https://www.researchgate.net/publication/273127683_Green_Infrastructure_Smart_Conservation_for_the_21st_Century

Boano, F., Caruso, A., Costamagna, E., Ridolfi, L., Fiore, S., Demichelis, F., Galvão, A., Pisoeiro, J., Rizzo, A., & Masi, F. (2020). A review of nature-based solutions for greywater treatment: Applications, hydraulic design, and environmental benefits. Science of the Total Environment, 711, 134731. Recuperado de https://doi.org/10.1016/j.scitotenv.2019.134731

BRE Global (2017). BREEAM Communities. Technical Manual. BRE Global. Recuperado de https://www.breeam.com/communitiesmanual/content/resources/otherformats/output/10_pdf/20_a4_pdf_screen/sd202_breeam_communities_1.2_screen.pdf

Brescia de Fort, R., Dibós de Boza, R., Gervasi de Custer, M., Vidales de Jgurinovic, P., & Rosingana Puccio, M. (2010). Paisajes verdes con poca agua. Jardines para Lima y ciudades de regiones secas (2ª ed.). Lima, Perú: Wust Ediciones.

Ccora Tuya, O. (Jan, 2015). (Jan, 2015). Radiación ultravioleta - B, vulnerabilidad y riesgos en el verano. (9) 97. doi:10.19052/sv.1520 Recuperado de https://www.openaire.eu/search/publication?articleId=od______3056::a9708ddbb5ec7270eed70a5e3228f79e

Chepkemoi, J. (2017). What Is The Difference Between A Biotope And A Habitat? WorldAtlas. Recuperado de https://www.worldatlas.com/articles/what-is-the-difference-between-a-biotope-and-a-habitat.html

City of Helsinki Environment Centre (2016). Developing the City of Helsinki Green Factor Method. Report summary. Helsinki, Finland: City of Helsinki Environment Centre. Recuperado de https://www.integratedstormwater.eu/sites/www.integratedstormwater.eu/files/report_summary_developing_a_green_factor_tool_for_the_city_of_helsinki.pdf

City Population (2020). City Population. City Population. Recuperado de https://www.citypopulation.de/

Community Forest Northwest (2020). Green Infrastructure to combat climate change Part of the North West Climate Change Action Plan. Community Forest Northwest. Recuperado de http://www.greeninfrastructurenw.co.uk/climatechange/

Ley n. 30102, de 6 de noviembre del 2013 (2013, 6 de noviembre). Ley que dispone medidas preventivas contra los efectos nocivos para la salud por la exposición prolongada a la radiación solar. Recuperado de https://leyes.congreso.gob.pe/Documentos/Leyes/30102.pdf

Department of Energy and Environment (2017). GREEN AREA RATIO GUIDEBOOK. Washington DC, United States: Department of Energy and Environment, Natural Resources Administration, Regulatory Review Division. Recuperado de https://doee.dc.gov/sites/default/files/dc/sites/ddoe/service_content/attachments/GARGuidebook_FINAL_November2017_0.pdf

Doherty, G. (2017). Paradoxes of green: landscapes of a city-state. University of California Press.

Duarte, D. H. S. (2016). Vegetation and climate-sensitive public spaces. In R. Emmanuel (Ed.), Urban Climate Challenges in the Tropics (pp. 111-162). Imperial College Press.

Eisenberg, B., Nemcova, E., Poblet, R., & Stokman, A. (2014). Lima Ecological Infrastructure Strategy - Integrated urban planning and design tools for a water-scarce city. ILPÖ - Institute of Landscape Planning and Ecology.

Erell, E., Pearlmutter, D., & Williamson, T. (2011). Urban Microclimate – Designing the Spaces between Buildings. In M. Hebbert, V. Janković & B. Webb (Eds.), City Weathers: Meteorology and Urban Design, 1950-2010 (pp. 127-132). Manchester Architecture Research Centre, University of Manchester. Recuperado de https://www.researchgate.net/publication/255989068_Urban_Microclimate__Designing_the_Spaces_Between_Buildings

Espinoza, R., Muñoz-Cerón, E., Aguilera, J., & de la Casa, J. (2019). Feasibility evaluation of residential photovoltaic self-consumption projects in Peru. Renewable Energy, 136, 414-427. Recuperado de https://doi.org/10.1016/j.renene.2019.01.003

Evokari, V. (2018). Green Factor Tool for climate smart and diverse city blocks. iWater. Recuperado de https://resilientcities2018.iclei.org/wpcontent/uploads/B1_Presentation_Evokari.pdf

Fansa, N. (2019). Densi-Greenation. Exploring the integration of nature and built environment. (Tesis de Maestría). Department of Architecture and Civil Engineering. Chalmers University of Technology, Gothenburg. Recuperado de https://odr.chalmers.se/bitstream/20.500.12380/300541/1/Master%27s%20Thesis%20in%20Architecture%20by%20Nour%20Fansa%202019.pdf

Ferrer, P. et al. (2014). Hacia una Lógica de Espacios Públicos Vegetados para Lima. Borde Costero y Paisaje, Pensamiento Pasajero y Pontificia Universidad Católica del Perú. Recuperado de https://issuu.com/paulineferrersologuren/docs/hacia_una_lo__gica_de_espacios_pu__

Fondo MIVIVIENDA S.A. (2020). Programa MIVIVIENDA VERDE. MIVIVIENDA. Recuperado de https://www.mivivienda.com.pe/portalweb/promotores-constructores/pagina.aspx?idpage=122

Gadea Lara, T. (2021). La OMS nunca recomendó cuántos espacios verdes debe tener una ciudad, cuánto importa la cantidad y calidad de estos en Buenos Aires. Recuperado de https://chequeado.com/el-explicador/la-oms-nunca-recomendo-cuantos-espacios-verdes-debe-tener-una-ciudad-cuanto-importa-la-cantidad-y-calidad-de-estos-en-buenos-aires/

García, S., & Sevilla, O. (2021, 3 de julio). En Perú, solo Lima, Arequipa y Tacna superan los 3m² de área verde/hab [Blog]. Recuperado de https://imappin.medium.com/en-per%C3%BA-solo-lima-arequipa-y-tacna-superan-los-3m2-de-%C3%A1rea-verde-hab-86906aaae723

Gehl, J. (2006). Life between Buildings: Using Public Space. Island Press.

Gómez-Baggethun, E., & Barton, D. N. (2013). Classifying and valuing ecosystem services for urban planning. Ecological Economics, 86, 235-245. Recuperado de https://doi.org/10.1016/j.ecolecon.2012.08.019

Grant, G. (2017). Urban Greening Factor for London. Research Report. London, United Kingdom: Greater London Authority. Recuperado de https://www.london.gov.uk/sites/default/files/urban_greening_factor_for_london_final_report.pdf

Greater London Authority (2019). Using Green Infrastructure to protect people from air pollution. London, United Kingdom. Recuperado de https://www.london.gov.uk/what-we-do/planning/londonplan/new-london-plan/draft-new-london-plan/chapter-8-green-infrastructure-and-naturalenvironment/policy-g5.

Hagen, B., Pijawka, D., Prakash, M., & Sharma, S. (2017). Longitudinal analysis of ecosystem services’ socioeconomic benefits: Wastewater treatment projects in a desert city. Ecosystem Services, 23, 209-217. Recuperado de https://doi.org/10.1016/j.ecoser.2016.12.014

Hauer, R. J., Koeser, A. K., Parbs, S., Kringer, J., Krouse, R., Ottman, K., Miller, R. W., Sivyer, D., Timilsina, N., & Werner, L. P. (2020). Long-term effects and development of a tree preservation program on tree condition, survival, and growth. Landscape and Urban Planning, 193, 103670. Recuperado de https://doi.org/10.1016/j.landurbplan.2019.103670

Hemeier, M. (2005). Besonders geschützte Biotope in Berlin. Berlin, Germany: Senate Department for Urban Development and Housing. Recuperado de https://www.berlin.de/senuvk/natur_gruen/naturschutz/biotopschutz/downloadbiotopkartierung/geschuetzte_biotope.pdf

Hirst, J., Morley, J., & Bang, K. (2008). Functional Landscapes: Assessing Elements of Seattle Green Factor. Seattle, United States: The Berger Partnership PS.

ICLEI (2021). How cities are using nature-based solutions for sustainable urban development. Recuperado de https://cbc.iclei.org/cities-using-nature-based-solutions-sustainable-urban-development/

IEA - International Energy Agency (2020). Key energy statistics, 2018. International Energy Agency. Recuperado de https://www.iea.org/countries/peru

IFC (2018). EDGE User Guide Version 2.1. International Finance Corporation. Recuperado de https://edgebuildings.com/wp-content/uploads/2019/10/190515-EDGE-UG-Spanish.pdf?lang=es

Romero, J., Martínez, J., & Valdivia Sisniegas, R. (Producers), & Inversiones Tarpuy, S.A.C. (Director). (2014, 30 Jul). Residencial Kallpa - La Campiña Chorrillos. [Video] YouTube. Recuperado de https://www.youtube.com/channel/UClR-YP4fRcOf7wTGVPpETNg

IQ Air (2018). 2018 World Air Quality Report. Region & City PM2.5 Ranking. (IQAir AirVisual app and website Report). Recuperado de https://www.iqair.com/world-most-polluted-cities/world-air-quality-report-2018-en.pdf

IUCN French Committee (2019). Nature-based Solutions for climate change adaptation and disaster risk reduction. Paris, France. Recuperado de https://uicn.fr/wp-content/uploads/2019/07/uicn-g20-light.pdf

Ivanir, A. N., Lissovsky, N., & Orenstein, D. E. (Sep, 2015). “Desert gardens” vs “ Gardens in Deserts” – Contrasting approaches to arid landscape design. Paper presented at the ECLAS Conference. Recuperado de https://www.researchgate.net/publication/283422059_Desert_gardens_vs_Gardens_in_Deserts_-_Contrasting_approaches_to_arid_landscape_design.

James, P., Hart, J. E., Banay, R. F., & Laden, F. (2016). Exposure to Greenness and Mortality in a Nationwide Prospective Cohort Study of Women. Environmental Health Perspectives, 124(9), 1344-1352. Recuperado de https://doi.org/10.1289/ehp.1510363

Jennings, V., & Bamkole, O. (2019). The Relationship between Social Cohesion and Urban Green Space: An Avenue for Health Promotion. International Journal of Environmental Research and Public Health, 16(3), 452. Recuperado de 1

Jönsson, A. (2016, May 22,). What is Green about Green Spaces in the Desert? Recuperado de http://www.governingdubai.com

Juhola, S. (2018). Planning for a green city: The Green Factor tool. Urban Forestry & Urban Greening, 34, 254-258. Recuperado de https://doi.org/10.1016/j.ufug.2018.07.019

Keeley, M. (2011). The Green Area Ratio: an urban site sustainability metric. Journal of Environmental Planning and Management, 54(7), 937-958. Recuperado de https://doi.org/10.1080/09640568.2010.547681

Kellert, S. R., & Calabrese, E. F. (2015). The Practice of Biophilic Design. Recuperado de https://doi.org/10.1016/j.ufug.2018.07.019

Kottek, M., Grieser, J., Beck, C., Rudolf, B., & Rubel, F. (2006). World Map of the Köppen-Geiger climate classification updated. Meteorologische Zeitschrift, 15(3), 259-263. Recuperado de https://doi.org/10.1127/0941-2948/2006/0130

Kruuse, A. (2011). GRaBS Expert Paper 6. The green space factor and the green points system. London, United Kingdom: Town and Country Planning Association. Recuperado de https://www.redfrogforum.org/wp-content/uploads/2020/04/125-GRaBS-Expert-Paper-6-the-green-space-factor-and-the-green-points-system.pdf

MINAGRI & ANA (2018). Estado situacional de los recursos hídricos en las cuencas Chillón, Rímac y Lurín 2016/2017. Lima, Perú: Ministerio de Desarrollo Agrario y Riego y Autoridad Nacional del Agua. Recuperado de http://repositorio.ana.gob.pe/handle/20.500.12543/2902

MINAM (2020). Dirección General de Cambio Climático y Desertificación. Ministerio del Ambiente. Recuperado de http://www.minam.gob.pe/cambioclimatico/por-que-el-peru-es-el-tercer-pais-mas-vulnerable-al-cambio-climatico/

MINEDU (2008). Guía de Aplicación de Arquitectura Bioclimática en Locales Educativos. Ministerio de Educación. Recuperado de http://www2.congreso.gob.pe/sicr/cendocbib/con4_uibd.nsf/9A45F1BED1AB7C6705257CCA00550ABD/$FILE/GuiaBioclim%C3%A1tica2008.pdf

Miranda, L., Neira, E., Torres, R., & Valdivia, R. (2015). Perú: Hacia la construcción sostenible en escenarios de cambio climático (1st ed.). Universidad Ricardo Palma - Editorial Universitaria. Recuperado de http://www2.congreso.gob.pe/sicr/cendocbib/con4_uibd.nsf/9A45F1BED1AB7C6705257CCA00550ABD/$FILE/GuiaBioclim%C3%A1tica2008.pdf

Ordenanza n. 437-MSI (2015). Modifican la Ordenanza Nº 412-MSI, que establece disposiciones para incentivar la inversión y la mejora de la competitividad en el distrito. Recuperado de https://www.sni.org.pe/modifican-laordenanza-no-412-msi-que-establece-disposiciones-para-incentivar-la-inversion-y-lamejora-de-la-competitividad-en-el-distrito/

Ordenanza n. 474-MSI (2019). Aprueban el Reglamento Integrado Normativo - RIN del distrito. Recuperado de https://www.ipdu.pe/legislacion/ordenanza/sanisidro/474-MSI.pdf

Ordenanza n. 539-MM (2020). Ordenanza que modifica la ordenanza N° 510/MM, que establece, regula y promueve condiciones para edificaciones sostenibles en el distrito de Miraflores. Recuperado de https://busquedas.elperuano.pe/download/url/modifican-la-ordenanza-n-510mm-queestablece-regula-y-pr-ordenanza-n-539mm-1865762-1

Ordenanza n. 623-MSB (2019). Modificación de la Ordenanza Nº 610-MSB Ordenanza de edificaciones sostenibles en áreas residenciales en el distrito de San Borja. Recuperado de http://paginaant.msb.gob.pe/index.php/normas/cat_view/21-normas/14-ordenanzas-municipales/732-ordenanzas-2019.html?limit=5&limitstart=0&order=name&dir=DESC

Municipalidad Metropolitana de Lima, MML. (2013). Guía virtual - Árboles en Lima 2013. Municipalidad Metropolitana de Lima MML. Recuperado de https://es.scribd.com/document/245927959/216776733-Guia-virtual-Arboles-en-Lima-pdf

Decreto Supremo n. 011-2006-VIVIENDA (2006). Reglamento Nacional de Edificaciones (RNE). Recuperado de https://www.gob.pe/institucion/sencico/informes-publicaciones/887225-normas-delreglamento-nacional-de-edificaciones-rne

Decreto Supremo n. 0004-2011-VIVIENDA (2011). Reglamento de Acondicionamiento Territorial y Desarrollo Urbano (RATyDU). Recuperado de http://www2.congreso.gob.pe/sicr/cendocbib/con5_uibd.nsf/26331FD5373CD250052583E5005DD9E7/$FILE/Reglamento_de_Acondicionamiento_Territorial.pdf

Decreto Supremo n. 022-2016-VIVIENDA (2016). Reglamento de Acondicionamiento Territorial y Desarrollo Urbano Sostenible (RATyDUS). Recuperado de https://busquedas.elperuano.pe/normaslegales/decreto-supremo-que-aprueba-elreglamento-de-acondicionamien-decreto-supremo-n-022-2016-vivienda-1466636-3/

MVCS (Feb 8, 2017). MRSE: Mecanismo por Retribución de Servicios Ecosistémicos. Infraestructura Verde e Infraestructura Gris. Paper presented at the Taller: Formulación Del Plan Maestro De Infraestructura Verde (PM IV) De SEDAPAL. Recuperado de https://www.sunass.gob.pe/Evento7_8feb2017/8f_mvcs_mrse.pdf

Nouri, H., Chavoshi Borujeni, S., & Hoekstra, A. Y. (2019). The blue water footprint of urban green spaces: An example for Adelaide, Australia. Recuperado de https://doi.org/10.1016/j.landurbplan.2019.103613

Paul Osmond, & Ehsan Sharifi. (2017). Guide to urban cooling strategies. CRC for Low Carbon Living. Recuperado de http://www.lowcarbonlivingcrc.com.au/sites/all/files/publications_file_attachments/rp2024_guide_to_urban_cooling_strategies_2017_web.pdf

Pauleit, S., Zölch, T., Hansen, R., B. Randrup, T., & Konijnendijk van den Bosh, Cecil. (2017). Nature-Based Solutions and Climate Change – Four Shades of Green in N. Kabish, H. Korn, J. Stadler & A. Bonn (Eds.), Nature-based Solutions to Climate Change Adaptation in Urban Areas - Linkages between Science, Policies and Practices (pp. 29-49). Springer Open. Recuperado de https://link.springer.com/book/10.1007/978-3-319-56091-5

Portugal del Pino, D. (Feb 24, 2020). Marco teórico sobre Soluciones basadas en la Naturaleza de la IUCN. Paper presented at the Soluciones Basadas En La Naturaleza En Perú. Recuperado de https://doi.org/ 10.1007/978-3-030-32811-5_120-1

Prieto Sánchez, R. (no date). Código Técnico de Construcción Sostenible. Lima, Perú: Dirección de Construcción. Recuperado de http://www3.vivienda.gob.pe/dnc/archivos/SeminarioN/5.%20C%C3%B3digo%20T%C3%A9cnico%20de%20Construcci%C3%B3n%20Sostenible.pdf

PROACC (2018). Ficha Técnica N°1 General Ficha Medidas de Adaptación. Lima, Perú: Proyecto Adaptación de la Gestión de los recursos Hídricos en Zonas Urbanas al Cambio Climático con la Participación del Sector Privado (PROACC).

SENAMHI (2009). Escenarios Climáticos en el Perú. Resumen Técnico Segunda Comunicación Nacional de Cambio Climático para el año 2030. Servicio Nacional de Meteorología e Hidrología del Perú. Recuperado de http://idesep.senamhi.gob.pe/portalidesep/files/tematica/cambio_climatico/Escenarios_climaticos_en_el_Peru_para_el_ano_2030.pdf

SENAMHI (2020). Tiempo / Pronóstico del Tiempo. Servicio Nacional de Meteorología e Hidrología del Perú. Recuperado de https://www.senamhi.gob.pe/main.php?p=pronostico-detalle&dp=lima&localidad=0001

Siña, M., Wood, R. C., Saldarriaga, E., Lawler, J., Zunt, J., García, P., & Cárcamo, C. (2016). Understanding Perceptions of Climate Change, Priorities, and Decision-Making among Municipalities in Lima, Peru to Better Inform Adaptation and Mitigation Planning. PLoS ONE 11, 11(1). Recuperado de https://doi.org/10.1371/journal.pone.0147201

Southampton City Council (2015). Southampton City Council Green Space Factor Guidance Notes. Southampton, United Kingdom: Southampton City Council. Recuperado de https://www.southampton.gov.uk/planning/planning-permission/sustainabilitychecklist.aspx

Stockholms stad (2015). GYF - grönytefaktor för kvartersmark. Stockholm, Sweden: Stockholms stad. Recuperado de https://vaxer.stockholm/globalassets/omraden/-stadsutvecklingsomraden/fokus-hagsatraragsved/direktanvisning/gyf---gronytefaktor-for-kvartersmark.pdf

Sukopp, H., & Weiler, S. (1988). Biotope mapping and nature conservation strategies in urban areas of the Federal Republic of Germany. Landscape Urban Planning, 15, 39-58. Recuperado de https://doi.org/10.1016/0169-2046(88)90015-1.

Teo, V. (2017, 21 de agosto). I see many studies citing WHO for their international minimum standard for green space (9m2 per capita). But where is the actual study? [Foro de discusión en línea] Recuperado de https://www.researchgate.net/post/I-see-many-studies-citing-WHO-for-their-international-minimum-standard-for-green-space-9m2-per-capita-But-where-is-the-actual-study

Teruya Revilla, S. N. (2016). Análisis de la relación de la isla de calor urbano con factores demográficos espaciales y ambientales de Lima metropolitana usando sensores remotos. (Tesis de Pregrado). Facultad de Ciencias. Universidad Agraria La Molina, Lima. Recuperado de http://repositorio.lamolina.edu.pe/handle/UNALM/3107

The Morton Arboretum (2020). Preventing construction damage to trees and shrubs. The Morton Arboretum. Recuperado de https://www.mortonarb.org/trees-plants/tree-and-plant-advice/horticulture-care/preventing-construction-damage-trees-and-shrubs

Tolderlund, L. (2010). Design guidelines and maintenance manual for green roofs in the semi-arid and arid west. Colorado, United States: University of Colorado Denver. Recuperado de https://www.epa.gov/sites/production/files/documents/GreenRoofsSemiAridAridWest.pdf

Tsoka, S., Tsikaloudaki, A., & Theodosiou, T. (2018). Analyzing the ENVI-met microclimate model’s performance and assessing cool materials and urban vegetation applications–A review. Sustainable Cities and Society, 43, 55-76. Recuperado de https://doi.org/10.1016/j.scs.2018.08.009

USGBC United States Green Building Council (2019). LEED v4 for Building Design and Construction. United States Green Building Council.

Vargas Moya, M. (Feb, 2020). Tratamiento de Aguas Grises. Paper presented at Nuevas Consideraciones Técnicas Para Una Arquitectura Sostenible, 1-51.

Vartholomaios, A., Kalogirou, N., Athanassiou, E., & Papadopoulou, M. (July, 2013). The green space factor as a tool for regulating the urban microclimate in vegetation-deprived greek cities. Paper presented at the International Conference on “Changing Cities”: Spatial, Morphological, Formal; Socio-Economic Dimensions. Recuperado de https://doi.org/10.13140/2.1.1598.8484

Vogt, J., Gillner, S., Hofmann, 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. Landscape and Urban Planning, 157, 14-25. Recuperado de https://doi.org/10.1016/j.landurbplan.2016.06.005

Weather Atlas (2020). Weather Atlas. Weather Atlas. http://www.weather-atlas.com

Wilson, S., Baffoe-Bonnie, B., Prescott, C., Tarbet, N., Brindle, F., & Shaffer, P. (2008). Understanding permeable and impermeable surfaces. Technical report on surfacing options and cost benefit analysis. London, United Kingdom. Recuperado de http://data.parliament.uk/DepositedPapers/Files/DEP2010-0563/DEP2010-0563.pdf

World Bank (2013). Urban Agriculture: Findings from Four City Case Studies. (No. 18). Washington, DC. Recuperado de http://hdl.handle.net/10986/16273

Yang, J., & Wang, Z. (2017). Planning for a sustainable desert city: The potential water buffering capacity of urban green infrastructure. Landscape and Urban Planning, 167, 339-347. Recuperado de https://doi.org/10.1016/j.landurbplan.2017.07.014