The climate of Patagonia: general patterns and controls on biotic processes

José M. Paruelo; Adriana Beltrán; Esteban Jobbágy; Osvaldo E. Sala; Rodolfo A. Golluscio

Autores/as

José M. Paruelo IFEVA y Cátedra de Ecología, Facultad de Agronomía, UBA. Av. San Martín 4453, 1417 Buenos Aires, Argentina.
Adriana Beltrán Cátedra de Climatología y Fenología Agrícola, Facultad de Agronomía, UBA. Av. San Martín 4453, 1417 Buenos Aires, Argentina.
Esteban Jobbágy IFEVA y Cátedra de Ecología, Facultad de Agronomía, UBA. Av. San Martín 4453, 1417 Buenos Aires, Argentina.
Osvaldo E. Sala IFEVA y Cátedra de Ecología, Facultad de Agronomía, UBA. Av. San Martín 4453, 1417 Buenos Aires, Argentina.
Rodolfo A. Golluscio IFEVA y Cátedra de Ecología, Facultad de Agronomía, UBA. Av. San Martín 4453, 1417 Buenos Aires, Argentina.

Resumen

In this article we review the main characteristics of the Patagonian climate, the spatial and temporal patterns of the most important climatic variables, and the influence of climate on ecosystem processes. The winter distribution of precipitation determines an asynchrony between the wet and the growing season in Patagonia. The amount of water that can be transferred from the wet season to the growing season depends mainly on the physical characteristics of the soil. In the semiarid steppe of Chubut, drainage accounted for 10% of annual precipitation. Winter distribution of precipitation determines also an asynchronic dynamics of evaporation and transpiration fluxes. The ENSO phenomenon have a significant impact on regional precipitation. In central-west Patagonia, spring precipitation (September to November) was lower than normal during La Niña events and greater than normal during El Niño events. From December to February the opposite pattern can be observed: higher than normal precipitation during La Niña events and lower than normal precipitation during El Niño events. The impact of this phenomenon on the seasonal temperature was not as clear as for precipitation. We did not detect any temporal trends in annual precipitation for the period 1961-1996. The phenology of carbon gains is quite homogeneous in Patagonia. Most of the region showed a peak of production in November, when, simultaneously, water availability and temperature are high. Toward the west, production peaked later (December). Deciduous forests showed the peak in January and February.

Citas

Aceituno, P. 1988. On the functioning of the Southern Oscillation in the South American sector. Part 1: surface climate. Monthly Weather Review 116:505-524.

Barros, V.R. and H.F. Mattio. 1977-78. Tendencias y fluctuaciones en la precipitación de la región patagónica. Meteorologica 8:237-246.

Barros, V.R., B.V. Scian and H.F. Mattio. 1979. Campos de precipitación de la provincia de Chubut (1931-1960). Geoacta 10:175-192.

Barros, V.R., M.E. Castañeda and M. Doyle. 1996. Recent precipitation trendsinSouthernSouth America to the East of the Andes: an indication of a mode of climatic variability.Pp. 41-67. In: Pinguelli Rosa, L. and M.A. dosSantos(eds.).Proceedings of Latin-American workshop on greenhouse gas emission of Energy sector and their impacts. COPPE/UFRJ, Rio de Janeiro.

Bell, N. 1981. Precipitation. Pp. 373-393. In: Goodall, D.W. and R.A. Perry (eds). Arid land ecosystems. Cambridge University Press, Cambridge.

Beltrán, A. 1997. Caracterización microclimática de] Distrito Occidental de la estepa patagónica. Magister Thesis, Universidad de Buenos Aires. Buenos Aires. 119 pp.

Beltrán, A.,R. Golluscio andC.Messina. 1996.Efecto del viento sobre la percepción de temperatura (windchill effect) en el sudoeste de Chubut.Pp. 285-286. Actas VII Congreso Argentino y Latinoamericano e Ibérico de Meteorología. CAM/FLISMET. Buenos Aires.

Beltrán, A., O.E.Sala, J.M.Paruelo, R. Golluscio and C. Messina. 1998.El Niño-Southern Oscillation (ENSO) controls on seasonal precipitation inPatagonia (Argentina).Pp. 35-36. The Second International Climate and History Conference. Climatic Research Unit, Norwich.

Bertiller, M.B., M.P. Irrisarri and J.O. Ares. 1990.Phenology of Festuca pallescens in relation to topography in north-western Patagonia. Journal of Vegetation Science 1:579-584.

Bertiller, M.B., N.O. Elissalde, C.M. Rostagno and G.E. Defosse. 1995. Environmental patterns and plant distribution along a precipitation gradientin western Patagonia. Journal of Arid Environment 29:85-97.

Castañeda, M.E. and V.R.Barros. 1994. Lastendencias de la precipitación en el cono sur de América al este de los Andes. Meteorologica 49:23-32.

Coronato,F. 1993.Wind chillfactor applied to Patagonian climatology. International Journal of Biometeorology 37:1-6.

Coronato,F. and M.B. Bertiller 1996.Precipitation and landscape related effects on soil moisture in semi-arid rangelands of Patagonia. Journal of Arid Environments 34:1-9.

FAO. 1985. Datos Agroclimáticos para America Latina y el Caribe.Food and Agriculture Organization of the United Nations. Roma.

Golluscio, R.A., O.E. Sala and W.K. Lauenroth. 1998. Differential use of large summer rainfall events by shrubs and grasses: a manipulative experimentin the patagonian steppe. Oecologia 115:17-25.

Hoffinan,J.A.J.,S. Núñez y A. Gómez. 1987.Fluctuaciones de la precipitación en la Argentina, en lo que va del siglo. Actas V Congreso Argentino y 11 Latinoamericano e Ibérico de Meteorología. CAM/FLISMET. Buenos Aires.

Jobbágy,E.G. 1993.Relaciones vegetación ambiente a la escala de paisaje en la estepa del distrito occidental de la patagonia extra-andina. Undergraduate Thesis, Universidad de Buenos Aires, Buenos Aires, 61 pp.

Jobbágy,E.G.,J.M.Paruelo andR.J.C.León. 1995.Estimación de la precipitación y de su variabilidad interanual a partir de información geográfica en el NW de Patagonia, Argentina. Ecología Austral 5:47-53.

Jobbágy,E.G.,J.M.Paruelo andR.J.C.León. 1996. Vegetation heterogeneity and diversity in flat andmountain landscapes ofPatagonia. Journal of Vegetation Science 7:599-608.

Jobbágy, E.G., O.E.Sala and J.M.Paruelo. 1998.Patterns and controls of primary production in the patagonian steppe: a remote sensing approach. Ecology. In press.

Kiladis,G.N. andH.F.Díaz. 1989.Global climate anomalies associated with extremes of the Southern Oscillation. Journal of Climate 2:1069-1090.

Leemans,R. andW.Cramer. 1991.The MASA database formeanmonthly values oftemperature, precipitation and cloudiness on a global terrestrial grid. Research Report RR-91-18. International Institute of Applied Systems Analyses. Luxemburg.

Le Houérou, H.N. 1996. Climate change, drought and desertification. Journal of Arid Environment 34:133- 185.

León,R.J.C. and J.M.Facelli. 1981. Descripción de una coenoclina en el SO del Chubut. Revista de la Facultad de Agronomía 2:163-171.

León, R.J.C., D. Bran, M. Collantes,J.M.Paruelo and A. Soriano. 1998. Grandes unidades de vegetación en la Patagonia. Ecología Austral 8:123-141.

Lloyd, D. 1990. A phenological classification ofterrestrial vegetation cover using shortwave vegetation index imagery. International Journal of RemoteSensing 11:2269-2279.

McNaughton, S.J., M. Oesterheld, D.A Frank and K.J. Williams. 1989. Ecosystem-level patterns of primary productivity and herbivory in terrestrial habitats. Nature 341:142-144.

Paruelo, J.M. 1991. Principales controles de las pérdidas de agua en la estepa patagónica. Magister Thesis, Universidad de Buenos Aires, Buenos Aires. 137 pp.

Paruelo, J.M. and O.E. Sala. 1995. Water losses in the Patagonian Steppe: a modelling approach. Ecology 76:510-520.

Paruelo, J.M. and W. Lauenroth. 1996. Relative abundance of functionaltypes in Grassland and shrubland of North America. Ecological Applications 6:1212-1224.

Paruelo, J.M., M.R. Aguiar, R.A. Golluscio, R.J.C. León and G. Pujol. 1993. Environmental controls of the NDVI dynamics in Patagonia based on NOAA-AVHRR satellite data. Journal of Vegetation Science 4:425- 428.

Paruelo, J.M., W. Lauenroth, H.E. Epstein, I.C. Burke, M.R. Aguiar and O.E. Sala. 1995. Regional climatic similarities in the temperate zones of North and South America. Journal of Biogeography 22:915-925.

Paruelo, J.M., H.E. Epstein, W.K. Lauenroth and I.C. Burke. 1997. ANPP estimates from NDVI for the Central Grassland region of the US. Ecology 78:953-958.

Paruelo, J.M., E.G. Jobbágy, O.E. Sala, W.K. Lauenroth and I.C. Burke. 1998. Functional and structural convergence of temperate grassland and shrubland ecosystems. Ecological Applications 8:194-206.

Prohaska, F. 1976. The climate of Argentina, Paraguay and Uruguay. Pp. 57-69. In: Schwerdtfeger, E. (ed.) Climate of Central and South America. World Survey of Climatology. Elsevier, Amsterdam.

Sala, O.E., W.J.Parton, L.A.Joyce and W.K. Lauenroth. 1988.PrimaryProduction of the central grassland region of the United States. Ecology 69:40-45.

Shaw, H.E., W.K. Lauenroth and J.M. Paruelo. 1995. Generating and testing daily weather data using a regional grassland data set. 80th Annual Meeting of the Ecological Society of America, Snowbird, Utah (USA).

Soriano, A. 1983. Deserts and Semi-Deserts of Patagonia. Pp. 423-460. In: West, N.E. (ed.) Ecosystems of the World: temperate deserts and semi-deserts. Elsevier, Amsterdam.

Soriano, A. and O.E. Sala. 1983. Ecological strategies in a patagonian arid steppe. Vegetatio 56:9-15.

Soriano, A., H.A. Alippe, O.E. Sala, T.M. Schlichter, C.P. Movia, R.J.C. León, R. Trabuco and V. A. Deregibus. 1976. Ecologia del pastizal de coiron amargo (Stipa speciosa) del Sudoeste de Chubut. Academia Nacional de Ciencias Agrícolas y Veterinarias 30:1-13.

El clima de la Patagonia: patrones generales y controles sobre los procesos bióticos

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