Abstract
The aim of the present work has been to identify the influence of topography on local atmospheric features at multiple temporal scales in a peri-urban area of Bahía Blanca (Argentina). Records were collected at two weather stations with a 35 m difference in elevation. As the area has been authorised for residential occupancy, knowing its hygrothermal distribution is considered essential for bioclimatic design. Topographical characteristics have an impact on local atmospheric features. In the lower areas of the valley records have shown lower temperature and higher humidity percentages than in the high areas. This difference increased during night hours and winter months. With clear skies, the thermal difference between both locations reached 4 °C in the hours before dawn in a winter’s day. The occurrence, intensity and duration of frosts were higher in the lower areas of the valley.
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References
Acevedo OC, Fitzjarrald DR (2001) The early evening surface-layer transition: temporal and spatial variability. J Atmos Sci 58:2650–2667
Acevedo OC, Fitzjarrald DR (2003) In the core of the night-effects of intermittent mixing on a horizontally heterogeneous surface. Boundary-Layer Meteorol 106:1–33. https://doi.org/10.1023/A:1020824109575
Amaro Hernández de la Luz G, Castro Cárdenas ME, García Peña JP, Jiménez Villaseñor IZ (2015) El estudio de condiciones y requerimientos para regular edificaciones con criterios bioclimáticos en la ciudad de León. Instituto Municipal de Planeación, México
Aylett A (2014) Progress and challenges in the urban governance of climate change. Results of a global survey. MIT, Cambridge
Badescu V (2002) A new kind of cloudy sky model to compute instantaneous values of diffuse and global solar irradiance. Theor Appl Clim 72:127–136
Battisti A, Acevedo OC, Costa FD, Puhales FS, Anabor V, Degrazia GA (2017) Evaluation of nocturnal temperature forecasts provided by the weather research and forecast model for different stability regimes and terrain characteristics. Boundary-Layer Meteorol 162:523–546. https://doi.org/10.1007/s10546-016-0209-y
Bennie J, Huntley B, Wiltshire A, Hill M, Baxter R (2008) Slope, aspect and climate: spatially explicit and implicit models of topographic microclimate in chalk grassland. Ecol Model 216:47–59. https://doi.org/10.1016/J.ECOLMODEL.2008.04.010
Bodine D, Klein PM, Arms SC, Shapiro A (2009) Variability of surface air temperature over gently sloped terrain. J Appl Meteorol Climatol 48:1117–1141. https://doi.org/10.1175/2009JAMC1933.1
Bogren J, Gustavsson T (1991) Nocturnal air and road surface temperature variations in complex terrain. Int J Climatol 11:443–455. https://doi.org/10.1002/joc.3370110408
Bogren J, Gustavsson T, Postgard U (2000) Local temperature differences in relation to weather parameters. Int J Climatol 20:151–170. https://doi.org/10.1002/(SICI)1097-0088(200002)20:2<151::AID-JOC460>3.0.CO;2-U
Bosch JL, Kleissl J (2013) Cloud motion vectors from a network of ground sensors in a solar power plant. Sol Energy 95:13–20
Bosch JL, Zheng Y, Kleissl J (2013) Deriving cloud velocity from an array of solar radiation measurements. Sol Energy 87:196–203. https://doi.org/10.1016/j.solener.2012.10.020
Cabrera A (1976) Enciclopedia Argentina de agricultura y jardinería: regiones fitogeográficas Argentinas. Acme, Buenos Aires
Campo AM (2015) Geografía Física: ¿tradicional o aplicada? In: Geografía Física Aplicada. Tomo I. Hidrografía Regional y Local. EdiUNS, Bahía Blanca, pp 11–25
Campo AM, Gil V, Gentili JO (2011) Análisis climatológico de la ciudad de Bahía Blanca. Universidad Nacional del Sur, Bahía Blanca
Capelli de Steffens AM, Piccolo MC, Campo de Ferreras AM (2005) Clima urbano de Bahía Blanca. Dunken, Buenos Aires
Cogliati MG (2010) Estudio de la distribución espacial de la temperatura en el valle del río Neuquén con la utilización de imágenes satelitales. Rev Estud Geográficos 6:205–222
Cogliati MG, Suárez MI (2008) Variabilidad de la temperatura de superficies en el NW de la provincia de Neuquén a partir de informción satelital. Boletín Geográfico XXX:13–25
Cogliati MG, Britos P, García-Martínez R (2006) Análisis del viento en el Valle del Río Negro mediante mapas auto organizados y algoritmos de inducción. Av en Energías Renov y Medio Ambient 10:11.137–11.143
Correa M, Zuluaga C, Palacio C, Pérez J, Jiménez J (2009) Acoplamiento de la atmósfera libre con el campo de vientos locales en una región tropical de topografía compleja. Caso de estudio: Valle de Aburrá, Antioquia, Colombia. DYNA 76:17–27
Czajkowski JD, Gomez A (1994) Introducción al diseño bioclimático y la economía energética edilicia. Universidad Nacional de La Plata, La Plata
del Castillo Oyarzún M, Castillo Haeger C (2014) Aproximación bioclimática para el diseño de espacios públicos, análisis inicial en distintas plazas chilenas. Arquit y Urban 35:69–82
Duffy PJB, Fraser JW (1963). Local frost occurrences in eastern Ontario woodlands. Forest Research Branch, Canada
Dugarova E, Gülasan N (2017) Glabal trends. Challenges and opportunities in the implementation of the sustainable development goals. United Nations Development Programme (UNDP)/United Nations Research Institute for Social Development (UNRISD), Geneva
Escobar G, Vargas W, Bischoff S (2004) Wind tides in the Rio de la Plata estuary: meteorological conditions. Int J Climatol 24:1159–1169. https://doi.org/10.1002/joc.1026
Fernández García F (1996) Manual de climatología aplicada. Clima, medio ambiente y planificación. Editorial Síntesis, Madrid
Fernández ME, Campo AM, Gentili JO (2015) Comportamiento temporal de la radiación solar global en la ciudad de Bahía Blanca, Argentina. Rev Climatol 15:51–64
Fernández ME, Gentili JO, Campo AM (2018) Sunshine duration analysis as a first step to estimate solar resource for photovoltaic electricity production in middle latitudes. Environ Process 5:313–328
Geiss A, Mahrt L (2015) Decomposition of spatial structure of nocturnal flow over gentle terrain. Boundary-Layer Meteorol 156:337–347. https://doi.org/10.1007/s10546-015-0043-7
Gentili JO, Gil V, Campo AM, Rosell P (2012) Calidad ambiental en “Cueva de los Leones”, periurbano de Bahía Blanca, Argentina. GEOSIG 4:265–278
Gil Olcina A, Olcina Cantos J (2017) Tratado de climatología aplicada. Universitat d’ Alacant, Alacant
Gonzalez Uriarte M (1984) Características geomorfológicas de la porción continental que rodea la Bahía Blanca, Provincia de Buenos Aires. In: 9no. Congreso Argentino de Geología. Asociación Geológica Argentina, Bariloche, pp 556–576
González MP, Di Pietro L, Gonzales MF, Argerich M, Castillo Marín N, Acosta M, Moscardini O, Iacona J, Respighi E, González S, Torchia N, Fernández Bussy J (2015) Vulnerabilidad y adaptación al cambio climático para la gestión y planificación local. Secretaría de Ambiente y Desarrollo Sustentable, Buenos Aires
Gonzalez M, Gil V, Gentili JO (2017) Dinámica geomorfológica y urbanización en áreas periurbanas. Norte de Bahía Blanca, Argentina. Huellas 21:65–83
Goodrich E (2016) Measuring the effects of parking lots and tree shading on microscale urban heat islands. University of Oregon, Eugene
Grill S, Gil V, Gentili JO (2011) Geología y Geomorfología (Cueva de los Leones). Universidad Nacional del Sur, Bahía Blanca
Guerrero CC (2014) Urban trees and atmospheric pollutants in big cities: effects in Madrid, Tesis doctoral. Universidad Politécnica de Madrid, Madrid
Gustavsson T, Karlsson M, Bogren J, Lindqvist S (1998) Development of temperature patterns during clear nights. J Appl Meteorol 37:559–571. https://doi.org/10.1175/1520-0450(1998)037<0559:DOTPDC>2.0.CO;2
Hiemstra JA, Saaroni H, Amorim JH (2017) The Urban Heat Island: thermal comfort and the role of urban greening. Springer, Cham, pp 7–19
Honorable Concejo Deliberante (2010) Plan Director del periurbano y pentros de interés turístico ambiental del partido de Bahía Blanca. Municipalidad de Bahía Blanca, Argentina
Horlacher V, Osborne S, Price JD (2012) Comparison of two closely located meteorological measurement sites and consequences for their areal representativity. Boundary-Layer Meteorol 142:469–493. https://doi.org/10.1007/s10546-011-9684-3
Hunt ED, Basara JB, Morgan CR (2007) Significant inversions and rapid in situ cooling at a well-sited Oklahoma mesonet station. J Appl Meteorol Climatol 46:353–367. https://doi.org/10.1175/JAM2467.1
Instituto Argentino de Normalización y Certificación (2011) Aislamiento térmico de edificios. Clasificación bioambiental de la República Argentina. IRAM, Buenos Aires
Jemmett-Smith BC (2014) Cold air pools over complex terrain. University of Leeds, England
Jemmett-Smith B, Ross AN, Sheridan P (2018) A short climatological study of cold air pools and drainage flows in small valleys. Weather 73:256–262. https://doi.org/10.1002/wea.3281
Jiménez PA, González-Rouco JF, Montávez JP, Navarro JP, García Bustamante E, Valero F (2008) Surface wind regionalization in complex terrain. J Appl Meteorol Climatol 47:308–325. https://doi.org/10.1175/2007JAMC1483.1
Lareau NP, Crosman E, Whiteman DC, Horel J, Hoch SW, Brown W, Horst T (2013) The persistent cold-air pool study. BAMS 94:51–64
Lemone MA, Ikeda K, Grossman RL, Rotach MW (2003) Horizontal variability of 2-m temperature at night during CASES-97. J Atmos Sci 60:2431–2449
Mahrt L (2006) Variation of surface air temperature in complex terrain. J Appl Meteorol Climatol 45:1481–1493
Mahrt L (2017) Stably stratified flow in a shallow valley. Boundary-Layer Meteorol 162:1–20. https://doi.org/10.1007/s10546-016-0191-4
Mahrt L, Heald RC (1983) Nocturnal surface temperature distribution as remotely sensed from low-flying aircraft. Agric Meteorol 28:99–107. https://doi.org/10.1016/0002-1571(83)90001-8
Mahrt L, Heald R (2015) Common marginal cold pools. J Appl Meteorol Climatol 54:339–351. https://doi.org/10.1175/JAMC-D-14-0204.1
Medeiros LE, Fitzjarrald DR (2014) Stable boundary layer in complex terrain. Part I: linking fluxes and intermittency to an average stability index. J Appl Meteorol Climatol 53:2196–2215. https://doi.org/10.1175/JAMC-D-13-0345.1
Medeiros LE, Fitzjarrald DR (2015) Stable boundary layer in complex terrain. Part II: geometrical and sheltering effects on mixing. J Appl Meteorol Climatol 54:170–188. https://doi.org/10.1175/JAMC-D-13-0346.1
Nikitidou E, Tzoumanikas P, Bais AF, Kazantzidis A (2017) The effect of clouds on surface solar irradiance, from an all-sky camera, in Thessaloniki, Greece. In: Karacostas T, Bais A, Nastos P (eds) Perspectives on atmospheric sciences, Springer. Springer, Cham, pp 1157–1162
Oke TR (2002) Boundary layer climates. Routledge, Vancouver
Perez R, David M, Hoff TE, Jamaly M, Kivalov S, Klessl J, Lauret P, Perez M (2016) Spatial and temporal variability of solar energy. Found trends® renew. Energy 1:1–44
Pizarro H, Rodríguez P, Bonaventura SM, O'Farrell I, Izaguirre I (2007) The sudestadas: a hydro-meteorological phenomenon that affects river pollution (River Luján, South America). Hydrol Sci J 52:702–712. https://doi.org/10.1623/hysj.52.4.702
Power HC, Mills DM (2005) Solar radiation climate change over southern Africa and an assessment of the radiative impact of volcanic eruptions. Int J Climatol 25:295–318. https://doi.org/10.1002/joc.1134
Price JD, Vosper S, Brown A, Ross A, Clark P, Davies F, Horlacher V, Claxton B, McGregor JR, Hoare JS, Jemmett-Smith B, Sheridan P (2011) Colpex: field and numerical studies over a region of small hills. Bull Am Meteorol Soc 1638–1650. https://doi.org/10.1175/2011BAMS3032.1
Rakovec J, Skok G, Žabkar R, Žagar N (2015) The influence of the depth of a very shallow cool-pool lake on nocturnal cooling. Agric For Meteorol 203:17–29. https://doi.org/10.1016/J.AGRFORMET.2014.12.014
Servicio Meteorológico Nacional (2010) Carta del tiempo 7 agosto 2010 09 UTC, Buenos Aires
Sheridan PF (2019) Synoptic-flow interaction with valley cold-air pools and effects on cold-air pool persistence: influence of valley size and atmospheric stability. Q J R Meteorol Soc 145:1636–1659. https://doi.org/10.1002/qj.3517
Stewart ID, Oke TR (2012) Local climate zones for urban temperature studies. Bull Am Meteorol Soc. https://doi.org/10.1175/BAMS-D-11-00019.1
Strahler A, Strahler A (2000) Geografía Física. Ediciones Omega, Barcelona
Tabony RC (1985) Relations between minimum temperature and topography in great britain. J Climatol 5:503–520. https://doi.org/10.1002/joc.3370050504
United Nations General Assembly (2015) Transforming our world: the 2030 agenda for sustainable development. United Nations, Geneva
Urban G, Migała K, Pawliczek P (2018) Sunshine duration and its variability in the main ridge of the Karkonosze Mountains in relation to with atmospheric circulation. Theor Appl Climatol 131:1173–1189. https://doi.org/10.1007/s00704-017-2035-7
Volonté A (2012) Comportamiento del viento y potencial eólico aplicado a la planificación urbana. Sector Norte del periurbano bahiense. Universidad Nacional del Sur, Bahía Blanca
Volonté A, Gentili JO, Gil V, Campo A (2012a) Análisis del comportamiento del viento y su aplicación a la planificación urbana. Zona norte de Bahía Blanca. In: Congreso Internacional de Geografia – 73° Semana de Geografía. GAEA, Buenos Aires, pp 227–238
Volonté A, Gil V, Gentili JO, Campo AM (2012b) Análisis del comportamiento del viento en el sector norte del periurbano de Bahía Blanca, Argentina. Rev Geogr 151:83–103. https://doi.org/10.2307/43558006
Vosper SB, Hughes JK, Lock P, Sheridan PF, Ross AN, Jemmett-Smith B, Brown AR (2014) Cold-pool formation in a narrow valley. Q J ofthe R Meteorol Soc 140:699–714. https://doi.org/10.1002/qj.2160
Whiteman CD, Haiden T, Posphical B, Eisenbach S, Steinacker R (2004) Minimum temperatures, diurnal temperature ranges, and temperature inversions in limestone sinkholes of different sizes and shapes. J Appl Meteorol 43:1224–1236. https://doi.org/10.1175/1520-0450(2004)043<1224:MTDTRA>2.0.CO;2
WMO (2017) Guide to meteorological instruments and methods of observation. World Meteorological Organization, Geneva
Wood WH (2017) Topographic and geographic influences on near-surface temperature under different seasonal weather types in southwestern Alberta. University of Calgary, Canada
World Meteorological Organization (2018) Guidance on good practices for climate services user engagement. Expert team on user interface for climate services. Commission for climatology. World Meteorological Organization (WMO), Geneva
Zavala C, García L, Di Meglio M (2005) Redes de drenaje y paleoclimas en el cuaternario del sur de la provincia de Buenos Aires. In: XVI Congreso Geológico Argentino. Asociación Geológica Argentina, La Plata, p 156
Zinger S, Campo AM, Gil V, Gentili JO, Rosell P (2011) Propuesta de creación. Reserva natural urbana “Cueva de los Leones.” Universidad Nacional del Sur, Bahía Blanca
Acknowledgements
This work was undertaken as part of the “Physical Geography Applied to the Study of Society-Nature Interaction. Problems at Different Time-Space Scales” research project, (24/G078), “Solar radiation applied to climate change local management in Bahía Blanca” research project (24/ZG23), and “Clima y Turismo en Argentina” research project (24/ZG12), all with the subsidy of the SGCyT, UNS.
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Gentili, J.O., Fernández, M.E. & Gil, V. Influence of Topography on Local Atmospheric Features in a Peri-urban Area of Bahía Blanca (Argentina). Environ. Process. 7, 23–40 (2020). https://doi.org/10.1007/s40710-019-00408-4
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DOI: https://doi.org/10.1007/s40710-019-00408-4