Artículo

Estamos trabajando para incorporar este artículo al repositorio
Consulte el artículo en la página del editor
Consulte la política de Acceso Abierto del editor

Abstract:

Differences between climate conditions during the Last Glacial Maximum (LGM) and the Mid-Holocene (MH) in southern South America inferred from the state-of-the-art PMIP3 paleoclimatic simulations are described for the first time in this paper. The aim is to expose characteristics of past climate changes occurred without human influence. In this context, numerical simulations are an indispensable tool for inferring changes in near-surface air temperature and precipitation in regions where proxy information is scarce or absent. The analyzed PMIP3 models describe MH temperatures significantly warmer than those of LGM with magnitudes of change depending on the season and the specific geographic region. In addition, models indicate that seasonal mean precipitation during MH increased with respect to LGM values in wide southern continental areas to the east of the Andes Cordillera whereas seasonal precipitation developed in areas to the west of Patagonian Andes reduced from LGM to MH. © 2018 Elsevier Ltd

Registro:

Documento: Artículo
Título:On the differences between Last Glacial Maximum and Mid-Holocene climates in southern South America simulated by PMIP3 models
Autor:Berman, A.L.; Silvestri, G.E.; Tonello, M.S.
Filiación:Centro de Investigaciones del Mar y la Atmósfera/CONICET-UBA, UMI IFAECI/CNRS, Ciudad Universitaria, Guiraldes 2160, Buenos Aires, Argentina
Laboratorio de Paleoecología y Palinología/Ecología y Paleoecología de Ambientes Acuáticos Continentales, Instituto de Investigaciones Marinas y Costeras (IIMyC), CONICET-UNMdP, J.B.Justo 2550, Mar del Plata, Argentina
Palabras clave:Last Glacial Maximum; Mid-Holocene; Pampa; Patagonia; PMIP3 models; South America; Climate change; Glacial geology; Holocenes; Last Glacial Maximum; Pampa; Patagonia; South America; Climate models; air temperature; climate conditions; Holocene; Last Glacial Maximum; numerical model; paleoclimate; precipitation (climatology); Andes; Argentina; Cordillera; Pampas; Paraguay; Patagonia
Año:2018
Volumen:185
Página de inicio:113
Página de fin:121
DOI: http://dx.doi.org/10.1016/j.quascirev.2018.02.003
Título revista:Quaternary Science Reviews
Título revista abreviado:Quat. Sci. Rev.
ISSN:02773791
CODEN:QSRED
Registro:https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_02773791_v185_n_p113_Berman

Referencias:

  • Agosta, E., Campagnucci, R., Ariztegui, D., Precipitation linked to Atlantic moisture transport: clues to interpret Patagonian palaeoclimate (2015) Clim. Res., 62, pp. 219-240
  • Berman, A.L., Silvestri, G., Compagnucci, R., Eastern Patagonia seasonal precipitation: influence of southern hemisphere circulation and links with subtropical South American precipitation (2012) J. Clim., 25, pp. 6781-6795
  • Berman, A.L., Silvestri, G., Tonello, M., Differences between last glacial maximum and present-day temperature and precipitation in southern South America (2016) Quat. Sci. Rev., 150, pp. 221-233
  • Berman, A.L., Silvestri, G., Rojas, M., Tonello, M., Accelerated greenhouse gases versus slow insolation forcing induced climate changes in southern South America since the Mid-Holocene (2017) Clim. Dyn, 48, pp. 387-404
  • Braconnot, P., Harrison, S.P., Kageyama, M., Bartlein, P.J., Masson-Delmotte, V., Abe-Ouchi, A., Otto-Bliesner, B., Zhao, Y., Evaluation of climate models using palaeoclimatic data (2012) Nat. Clim. Change, 2, pp. 417-424. , https://doi.org/10.1038/nclimate1456
  • Carvalho, L., Jones, C., Liebmann, B., The South Atlantic convergence zone: intensity, form, persistence, and relationships with intraseasonal to interannual activity and extreme rainfall (2004) J. Clim., 17, pp. 88-108
  • Catto, J.L., Jakob, C., Berry, G., Nicholls, N., Relating global precipitation to atmospheric fronts (2012) Geophys. Res. Lett., 39, p. L10805
  • Chevalier, M., Brewer, S., Chase, B.M., Qualitative assessment of PMIP3 rainfall simulations across the eastern African monsoon domains during the mid-Holocene and the Last Glacial Maximum (2017) Quat. Sci. Rev., 156, pp. 107-120
  • Fornace, K.L., Hughen, K.A., Shanahan, T.M., Fritz, S.C., Baker, P.A., Sylva, S.P., A 60,000-year record of hydrologic variability in the Central Andes from the hydrogen isotopic composition of leaf waxes in Lake Titicaca sediments (2014) Earth Planet Sci. Lett., 408, pp. 263-271
  • Garreaud, R.D., Lopez, P., Minvielle, M., Rojas, M., Large scale control on the Patagonia climate (2013) J. Clim., 26, pp. 215-230
  • Gent, P.R., Danabasoglu, G., Donner, L.J., Holland, M.M., Hunke, E.C., Jayne, S.R., Lawrence, D.M., Zhang, M., The community climate system model version 4 (2011) J. Clim., 24, pp. 4973-4991
  • Hoskins, B.J., Hodges, K.I., A new perspective on southern hemisphere storm tracks (2005) J. Clim., 18, pp. 4108-4129
  • Hulton, N.R.J., Purves, R.S., McCulloch, R.D., Sugden, D.E., Bentley, M.J., The last glacial maximum and deglaciation in southern South America (2002) Quat. Sci. Rev., 21, pp. 233-241
  • Iglesias, V., Whitlock, C., Markgraf, V., Bianchi, M.M., Postglacial history of the Patagonian forest/steppe ecotone (41-43°S) (2014) Quat. Sci. Rev., 94, pp. 120-135
  • Jungclaus, J., Giorgetta, M., Reick, C., Legutke, S., Brovkin, V., Crueger, T., Esch, M., Stevens, B., CMIP5 Simulations of the Max Planck Institute for Meteorology (MPI-M) Based on the MPI-ESM-P Model: the Lgm Experiment (2012), served by ESGF. WDCC at DKRZ; Jungclaus, J., Giorgetta, M., Reick, C., Legutke, S., Brovkin, V., Crueger, T., Esch, M., Stevens, B., CMIP5 Simulations of the Max Planck Institute for Meteorology (MPI-M) Based on the MPI-ESM-P Model: the MidHolocene Experiment (2012), served by ESGF. WDCC at DKRZ; Kageyama, M., Braconnot, P., Bopp, L., Mariotti, V., Roy, T., Woillez, M.-N., Caubel, A., Marti, O., Mid-Holocene and Last Glacial Maximum climate simulations with the IPSL model. Part II: model-data comparisons (2013) Clim. Dyn, 40, pp. 2469-2495
  • Kim, S.-J., Crowley, T.J., Erickson, D.J., Govindasamy, B., Duffy, P.B., Yong Lee, B., High-resolution climate simulation of the last glacial maximum (2008) Clim. Dyn, 31, pp. 1-16
  • Lamy, F., Hebbeln, D., Wefer, G., High-resolution marine record of climatic change in mid-latitude Chile during the last 28,000 years based on terrigenous sediment parameters (1999) Quat. Res., 51, pp. 83-93
  • Maldonado, A., Betancourt, J.L., Latorre, C., Villagrán, C., Pollen analyses from a 50,000-yr rodent midden series in the southern Atacama Desert (25° 30'S) (2005) J. Quat. Sci, 20 (5), pp. 493-507
  • Melo, M., Marengo, J., The influence of changes in orbital parameters over South American climate using the CPTEC AGCM: simulation of climate during the mid-Holocene (2008) Holocene, 18, pp. 501-516
  • Otto-Bliesner, B., Brady, E., Clauzet, G., Tomas, R., Levis, S., Kothavala, Z., Last glacial maximum and Holocene climate in CCSM3 (2006) J. Clim., 19, pp. 2526-2544
  • Paduano, G.M., Bush, M.B., Baker, P.A., Fritz, S.C., Seltzer, G.O., A vegetation and fire history of lake Titicaca since the last glacial maximum (2003) Palaeogeogr. Palaeoclimatol. Palaeoecol., 194, pp. 259-279
  • Ponce, F., Rabassa, J., Coronato, A., Borromei, A., Paleogeographic evolution of the Atlantic coast of Pampa and Patagonia since the last glacial maximum to the middle Holocene (2011) Biol. J. Linn. Soc., 103, pp. 363-379
  • Prado, L.F., Wainer, I., Chiessi, C.M., Mid-holocene PMIP3/CMIP5 model results: intercomparison for the south American monsoon system (2013) Holocene, 23 (12), pp. 1915-1920
  • Prado, L.F., Wainer, I., Chiessi, C.M., Ledru, M.-P., Turcq, B., A mid-Holocene climate reconstruction for eastern South America (2013) Clim. Past, 9, pp. 2117-2133
  • Rasmussen, K.L., Chaplin, M.M., Zuluaga, M.D., Houze, R.A., Jr., Contribution of extreme convective storms to rainfall in south America (2016) J. Hydrometeorol., 17 (1), pp. 353-367
  • Rojas, M., Moreno, P.I., Kageyama, M., Crucifix, M., Hewitt, C., Abe-Ouchi, A., Ohgaito, R., Hope, P., The Southern Westerlies during the last glacial maximum in PMIP2 simulations (2009) Clim. Dyn, 32, pp. 525-548
  • Rojas, M., Moreno, P.I., Atmospheric circulation changes and neoglacial conditions in the Southern Hemisphere mid-latitudes: insights from PMIP2 simulations at 6 kyr (2011) Clim. Dyn, 37, pp. 357-375
  • Rostami, K., Peltier, W.R., Mangini, A., Quaternary marine terraces, sea-level changes and uplift history of Patagonia, Argentina: comparisons with predictions of the ICE-4 G(VM2) model of the global process of glacial isostatic adjustment (2000) Quat. Sci. Rev., 19, pp. 1495-1525
  • Taylor, K., Stouffer, R., Meehl, G., An overview of CMIP5 and the experiment design (2012) Bull. Am. Meteor. Soc., 93, pp. 485-498
  • Valero-Garcés, B.L., Jenny, B., Rondanelli, M., Delgado-Huertas, A., Burns, S.J., Veit, H., Moreno, A., Palaeohydrology of Laguna de Tagua Tagua (34° 30′ S) and moisture fluctuations in Central Chile for the last 46 000 yr (2005) J. Quat. Sci., 20, pp. 625-641
  • Voldoire, A., Sanchez-Gomez, E., Salas y Mélia, D., Decharme, B., Cassou, C., Senési, S., Valcke, S., Chauvin, F., The CNRM-CM5.1 global climate model: description and basic evaluation (2012) Clim. Dyn, 40, pp. 2091-2121
  • Wainer, I., Clauzet, G., Ledru, M.-P., Brady, E., Otto-Bliesner, B., Last glacial maximum in south America: paleoclimate proxies and model results (2005) Geophys. Res. Lett., 32, p. L08702
  • Wang, X., Auler, A.S., Edwards, R.L., Cheng, H., Ito, E., Wang, Y., Kong, X., Solheid, M., Millennial-scale precipitation changes in southern Brazil over the past 90,000 years (2007) Geophys. Res. Lett., 34, p. L23701
  • Whitney, B.S., Mayle, F.E., Punyasena, S.W., Fitzpatrick, K.A., Burn, M.J., Guillen, R., Chavez, E., Metcalfe, S.E., A 45 kyr palaeoclimate record from the lowland interior of tropical South America (2011) Palaeogeogr. Palaeoclimat. Palaeoecol, 307, pp. 177-192
  • Wilks, D.S., Statistical Methods in the Atmospheric Sciences (2006), second ed. International Geophysics Series. Elsevier Academic Press St. Louis; Yukimoto, S., Adachi, Y., Hosaka, M., Sakami, T., Yoshimura, H., Hirabara, M., Tanaka, T.Y., Kitoh, A., A new global climate model of the meteorological research institute: MRI-CGCM3-model description and basic performance (2012) J. Meteorol. Soc. Jpn., 90A, pp. 23-64
  • Zolitschka, B., Anselmetti, F., Ariztegui, D., Corbella, H., Francus, P., Lücke, A., Maidana, N.I., Wastegård, S., Environment and climate of the last 51,000 years - new insights from the Potrok Aike maar lake sediment archive drilling project (PASADO) (2013) Quat. Sci. Rev., 71, pp. 1-12

Citas:

---------- APA ----------
Berman, A.L., Silvestri, G.E. & Tonello, M.S. (2018) . On the differences between Last Glacial Maximum and Mid-Holocene climates in southern South America simulated by PMIP3 models. Quaternary Science Reviews, 185, 113-121.
http://dx.doi.org/10.1016/j.quascirev.2018.02.003
---------- CHICAGO ----------
Berman, A.L., Silvestri, G.E., Tonello, M.S. "On the differences between Last Glacial Maximum and Mid-Holocene climates in southern South America simulated by PMIP3 models" . Quaternary Science Reviews 185 (2018) : 113-121.
http://dx.doi.org/10.1016/j.quascirev.2018.02.003
---------- MLA ----------
Berman, A.L., Silvestri, G.E., Tonello, M.S. "On the differences between Last Glacial Maximum and Mid-Holocene climates in southern South America simulated by PMIP3 models" . Quaternary Science Reviews, vol. 185, 2018, pp. 113-121.
http://dx.doi.org/10.1016/j.quascirev.2018.02.003
---------- VANCOUVER ----------
Berman, A.L., Silvestri, G.E., Tonello, M.S. On the differences between Last Glacial Maximum and Mid-Holocene climates in southern South America simulated by PMIP3 models. Quat. Sci. Rev. 2018;185:113-121.
http://dx.doi.org/10.1016/j.quascirev.2018.02.003