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Late Quaternary Vegetational and Climatic Changes in the Pampa Grassland of Argentina

Published online by Cambridge University Press:  20 January 2017

Aldo Raúl Prieto*
Affiliation:
Lab. Palinologı́a, Dpto Biologı́a, Centro de Geologı́a de Costas y del Cuaternario, Facultad de Ciencias Exactas y Naturales, Universidad Nacional de Mar del Plata, Funes 3250, 7600, Mar del Plata, Argentina

Abstract

The vegetation and climate of the Pampa grassland, Argentina, during the late Quaternary are reconstructed from pollen recovered from dated stratigraphic sections from arroyo walls and from archaelogical excavations. Prior to 10,500 yr B.P., herbaceous psammophytic steppe existed in the central part of the Pampa grassland while xerophytic woodland associated with psammophytic and halophytic steppe occurred in the southwestern part of the Pampa. These types of vegetation and the continental conditions that prevailed in the area of the present-day coast (38°S), indicate subhumid-dry climate and annual precipitation 100 mm lower than present. A subsequent change toward a vegetation characteristic of ponds, swamps, and foodplains, or toward environments with locally more effective moisture, occurred ca. 10,500 yr B.P. suggesting annual precipitation close to modern levels or a higher availability of water in the central part of the Pampa grassland, this type of vegetation existed until 8000 yr B.P., when it was replaced by grassland communities that lasted until 7000 yr B.P. In the southwestern part of the Pampa grassland, this vegetation developed before 7000 yr B.P. and persisted until ca. 5000 yr B.P. Sea level higher than the present ca. 6200 yr B.P. is consistent with sharp modification of the vegetation and development of local halophytic communities dominant at 38°S. A return to subhumid-dry conditions occurred after 5000 yr B.P. The late Holocene vegetation is characterized by pollen assemblages similar to the psammophytic and halophytic communities of the Southern pampa grassland, associated with communities with more edaphic conditions. At the same time, at 38°S a sea level regression is suggested by the dominance of fresh-water pollen assemblages and micropaleontological remains. The trend toward humid, temperate conditions ca. 1000 yr B.P. suggested by vertebrate remains characteristic of temperate and humid conditions, as well as a very short but dry episode during the 18th century suggested by the geology, are not clearly evidenced in the pollen sequences. Vegetational and climatic changes are explained by the latitudinal shifts and changes in intensity of the southern atmospheric circulation and changes in sea level.

Type
Research Article
Copyright
University of Washington

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References

Birks, H. J B., and Gordon, A. D. (1985). “Numerical Methods in Quaternary Pollen Analysis.” Academic Press, London.Google Scholar
Burgos, J. J. (1968). El clima de la Provincia de Buenos Aires en relación con la vegetación y el suelo. In “Flora de la Provincia de Buenos Aires” (Cabrera, A. L., Ed.), Parte 1 , pp. 3399. Colección Cientifica INTA, Buesnos Aires.Google Scholar
Burgos, J. J., and Vidal, A. L. (1951). Los climas de la República Argentina según la nueva clasificación de Thornthwaite. Meteoros 1 , 132. Buschiazzo, D. E., and Peinemann, N. (1985). Palaoboden in SE-Argentinien.Google Scholar
Zentralblatt fuer Geologie und Palaeontologie 1, 15591569. Google Scholar
Cabrera, A. L. (1941). Las communidades vegetales de las dunas costaneras de la Provincia de Buenos Aires. Dagi Publicaciones Técnicas 1(2), 159. Cabrera, A. L. (1968). Vegetación de la Provincia de Buenos Aires. In “Flora de la Provincia de Buenos Aires” (Cabrera, A. L., Ed.), Parte 1 , pp. 101123. Colección Científica INTA, Buenos Aires.Google Scholar
Carbonari, E. J. Huarte, R. A., and Figini, A. J. (1992). Miembro Guerrero, Formación Luján (Pleistoceno, Pcia de Buenos Aires) edades 14C. 3ras Jornadas Geológicas Bonaerenses. Actas, 245247. [La Plata] Google Scholar
Clapperton, C. (1993). “Quaternary Geology and Geomorphology of South America.” Elsevier, Amsterdam/New York.Google Scholar
Crivelli Montero, E. A. Silveira, M. A. Eugenio, E. O. Escola, P. S. Fernández, M. M., and Franco, N. V. (1987/1988). El sitio Fortín Necochea (Partido de General La Madrid, Provincia de Buenos Aires). Estado actual de los trabajos. Paleoetnologica 4 , 3953.Google Scholar
D’Antoni, H. L. Nieto, M. A., and Mancini, M. V. (1985). Pollenanalytic stratigraphy of Arroyo Las Brusquitas profile (Buenos Aires Province, Argentina). Zentralblatt fuer Geologie and Palaeontologie 1 , 17211729.Google Scholar
Dillehay, T. D. Ardilla Calderón, G. Politis, G., and Moraes Coutinho Beltrao, M. da, C. de, (1992). Earliest hunters and gatherers of South America. Journal of World Prehistory 6(2), 145204.Google Scholar
Espinosa, M. A. Fasano, J. L. Ferrero, L. Isla, F. I. Mugica, A., and Schnack, E. J. (1984). Microestratigrafía y micropaleontología de los sedimentos holocenos aflorantes en la desembocadura del arroyo Las Brusquitas (Partido de General Pueyrredón) y en Punta Hermengo (Partido de General Alvarado), Provincia de Buenes Aires. IX Congreso Geológico Argentino, Actas 3 , 520536. [San Carlos de Bariloche] Google Scholar
Fernández, C. A., and Romero, E. J. (1984). Palynology of Quaternary sediments of Lake Chascomús, northeastern Buenos Aires Province, Argentina. Quaternary of South America and Antarctic Peninsula 2 , 201221.Google Scholar
Fidalgo, F., and Tonni, E. P. (1983). Geología y paleontología de los sedimentos encauzados del Pleistoceno tardío y Holoceno en Punta Hermengo y arroyo Las Brusquitas (Partidos de General Alvarado y General Pueyrredón, Provincia de Buenes Aires). Ameghiniana 20 , 281296.Google Scholar
Fidalgo, F. Gentile, R. O., and Correa, H. A. (1986). “Geología y geomorfología en la cuenca del Arroyo Tapalqué.” Informe 30, Comisión Investigaciones Científicas, La Plata.Google Scholar
Flegenheimer, N., and Zárate, M. (1993). The archaeological record in Pampean loess deposits. Quaternary International 17 , 95100.Google Scholar
Fray, Ch., and Ewing, M. (1963). Pleistocene sedimentation and fauna of the Argentine shelf. I. Wisconsin sea level as indicated in Argentine Continental shelf sediments. Proceedings, Academy Natural Science Philadelphia 115(6), 113126.Google Scholar
González, M. A. Panarello, H. O. Marino, P. H., and Valencio, S. A. (1983). Niveles marinos del Holoceno en el estuario de Bahía blanca (Argentina): Isótopos estables y microfósiles calcáreos como indicadores paleoambientales. Simposio Oscilaciones del nivel del mar durante el último Hemiciclo Deglacial en Argentina, Actas 48–68 [Mar del Plata].Google Scholar
Guerstein, R. G., and Quattrocchio, M. E. (1984). Datos palinológicos de un perfil cuaternario, ubicado en el estuario de Bahía Blanca. IX Congreso Geológico Argentino, Actas 4 , 595609. [San Carlos de Bariloche].Google Scholar
Gray, J. (1965). Techniques in Palynology. In “Handbook of Paleontological Techniques” (Kummel, B. and Raup, B., Eds.), pp. 471481. Freeman and Co., San Francisco/London.Google Scholar
Grime, J. P. (1979). “Plant Strategies and Vegetation Processes.” Wiley, New York.Google Scholar
Heusser, C. J. (1971). “Pollen and Spores of Chile.” Univ. Arizona Press, Tucson.CrossRefGoogle Scholar
Huarte, R. A. Figini, A. J. Carbonari, J. E. Gómez, G. J., and Zubiaga, A. C. (1983). Dataciones radiocarbónicas del sitio Punta Hermengo (Partido de General Alvarado, Provincia de Buenos Aires). Ameghiniana 20(3–4), 295296.Google Scholar
Iriondo, M. H., and García, N. O. (1993). Climatic variations in Argentine plains during the last 18,000 years. Palaeogeography, Palaeoclimatology, Palaeoecology 101 , 209220.Google Scholar
Isla, F. I. (1989). Holocene sea-level fluctuation in the southern Hemisphere. Quaternary Science Reviews 8 , 359368.Google Scholar
Isla, F. I. Fasano, J. L. Ferrero, L. Espinosa, M. A., and Schnack, E. J. (1988). Late Quaternary marine-estuarine sequences of the southeastern coast of Buenos Aires Province, Argentina. Quaternary of South America and Antarctic Peninsula 6 , 137157.Google Scholar
Lauer, W., and Frankenberg, P. (1984). Late Glacial glaciation and the developed of climate in southern South America. In “Late Cainozoic Palaeoclimates of the Southern Hemisphere” (Vogel, J. C., Ed.), pp. 103114. Balkema: Rotterdam.Google Scholar
Lemcoff, J. H. (1991). Climate. In “Natural Grasslands. Introduction and Western Hemisphere” (Coupland, R. T., Ed.), pp. 376377. Elsevier: Amsterdam/London/New York/Tokyo.Google Scholar
León, R. J. C. (1991). Setting and Vegetation. In “Natural Grasslands. Introduction and Western Hemisphere” (Coupland, R. T., Ed.), pp. 371378, 382389. Elsevier: Amsterdam/London/New York/Tokyo.Google Scholar
León, R. J. C., and Anderson, D. L. (1983). El límite occidental del pastizal pampeano. Tuexenia 3 , 6782.Google Scholar
León, R. J. C. Rusch, G. M., and Oesterheld, M. (1984). Pastizales pampeanos—impacto agropecuario. Phytocoenologia 12(2–3), 201218.Google Scholar
Markgraf, V. (1983). Late and postglacial vegetational and paleoclimatic changes in subantarctic, temperate and arid environments in Argentina. Palynology 1 , 4370.Google Scholar
Markgraf, V. (1991). Late Pleistocene environmental and climatic evolution in southern South America. Bamberg Geographische Schriften Bd. 271281. [Bamberg] Google Scholar
Markgraf, V. (1993). Paleoenvironments and paleoclimates in Tierra del Fuego and southernmost Patagonia, South America. Palaeogeography, Palaeoclimatology, Palaeoecology 102 , 5368.Google Scholar
Markgraf, V., and D’Antoni, H. L. (1978). “Pollen Flora of Argentina”. Univ. Arizona Press: Tuscon.Google Scholar
Markgraf, V. Dodson, J. R. Kershaw, A. P. McGlone, M. S., and Nicholls, N. (1992). Evolution of late Pleistocene and Holocene climates in the circum- South Pacific land areas. Climate Dynamics 6 , 193211.Google Scholar
Nieto, M. A., and D’Antoni, H. L. (1985). Pollen analysis of sediments of the Atlantic shore of Mar Chiquita (Buenos Aires Province, Argentina). Zentralblatt fuer Geologie und Palaeontologie 1(11/12), 17311738.Google Scholar
Nieto, M. A., and Prieto, A. R. (1987). Análisis palinológico del Holoceno tardío del sitio Fortín Necochea (Partido de Gral. Lamadrid, Provincia de Buenos Aires, Argentina). Ameghiniana 24 , 271276.Google Scholar
Paez, M. M., and Prieto, A. R. (1993). Paleoenvironmental reconstruction by pollen analysis from loess sequences of the southeast Buenos Aires (Argentina). Quaternary International 17 , 2126.Google Scholar
Prado, J. L. Menegaz, A. N. Tonni, E. P., and Salemme, M. C. (1987). Los mamíferos de la fauna local Paso Otero (Pleistoceno tardío), Provincia de Buenos Aires. Aspectos paleoambientales y bioestratigráficos. Ameghiniana 24(3–4), 217233.Google Scholar
Prieto, A. R. (1989). “Palinología de Empalme Querandíes (Provincia de Buenos Aires). Un modelo paleoambiental para el Pleistoceno tardio— Holoceno.” Ph.D. Thesis, Universidad Nacional de Mar del Plata.Google Scholar
Prieto, A. R. (1993). Palinología de sedimentos lagunares del Holoceno en la Provincia de Buenos Aires: Una revisíon. In “Conferencias de Limnología/ Conferences on Limnology” (Boltovskoy, A. and Lopez, H. L., Eds.), pp. 203216. [La Plata] Google Scholar
Prieto, A. R., and Paez, M. M. (1989). Pollen analysis of discontinuous strati- graphical sequences: Holocene at Cerro La China locality (Buenos Aires, Argentina). Quaternary of South America and Antarctic Peninsula 7 , 219236.Google Scholar
Quattrocchio, M. E. Deschamps, C. Martínez, D. Grill, S., and Zabala, C. (1988). Caracterizacíon paleontológica y paleoambiental de sedimentos cuaternarios, Arroyo Napostá Grande, Provincia de Buenos Aires. II Jornadas Geológicas Bonaerenses Actas 3746. [Bahía Blanca] Google Scholar
Quattrocchio, M. E. Deschamps, C. Zabala, C. Borromei, A. M. Grill, S., and Guerstein, G. R. (1993). Cuaternario del sur de la Provincia del Buenos Aires. Estratigrafía e inferencias paleoambientales. In “El Holoceno en la Argentina” (Iriondo, M., Ed.), pp. 2234. [CADINQUA] Google Scholar
Rabassa, J. O. (1987). The Holocene of Argentina: A review. Quaternary of South America and Antarctic Peninsula 5 , 269290.Google Scholar
Tonni, E. P. (1992). Mamíferos y clima del Holoceno en la Provincia de Buenos Aires. In “Holoceno 1” (Iriondo, M., Ed.), pp. 6478. [CADINQUA] Google Scholar
Tonni, E. P., and Cione, A. L. (1994). Los mamíferos y el clima en el Pleistoceno y Holoceno de la Provincia de Buenos Aires. Jornadas de Arqueología e Interdisciplinas. CONICET-PREP 127142. [Buenos Aires] Google Scholar
Tonni, E. P., and Fidalgo, F. (1978). Consideraciones sobre los cambios climáticos durante el Pleistoceno tardío-Reciente en la Provincia de Buenos Aires. Aspectos ecológicos y zoogeográficos relacionados. Ameghiniana 15(1–2), 235253.Google Scholar
Tonni, E. P., and Figini, A. J. (1994). Asociaciones de mamíferos y ambientes en el Pleistoceno tardío y Holoceno del este de la regíon Pampeana. VI Congreso Argention de Paleontología y Bioestratigrafía Resúmenes, pp. 4344. Trelew, Chubut.Google Scholar
Tonni, E. P. Bargo, M. S., and Prado, J. L. (1988). Los cambios ambientales en el Pleistoceno tardío y Holoceno del sudeste de la Provincia de Buenos Aires a través de una secuencia de mamíferos. Ameghiniana 25(2), 99110.Google Scholar
Verettoni, H. N. (1965). “Las asociaciones halófilas del Partido de Bahía Blanca.” Comisíon Ejecutiva del 150 Aniversario de la Revolucíon de Mayo: Bahía Blanca.Google Scholar
Verettoni, H. N., and Aramayo, E. (1976). “Las Comunidades Vegetales de la Regíon de Bahía Blanca.” Harris & Cía SRL: Bahía Blanca.Google Scholar
Villagrán, C. M. (1993). Una interpretacíon climática del registro palinológico del último ciclo glacial-postglacial en Sudamérica. Bulletin de l’Institut Francais d’Etudes Andines 22(1), 243258.Google Scholar
Zárate, M., and Flegenheimer, N. (1991). Geoarchaeology of the Cerro La China Locality (Buenos Aires, Argentina): Site 2 and site 3. Geoarchaeology: An International Journal 6(3), 273294.Google Scholar
Zárate, M., and Blasi, A. (1993). Late Pleistocene-Holocene eolian deposits of the Southern Buenos Aires Province, Argentina: A preliminary model. Quaternary International 17 , 1520.Google Scholar