Special Issue Article
Late Quaternary environmental dynamics in the Atacama Desert reconstructed from rodent midden pollen records
M. E. de Porras,
A. Maldonado,
R. De Pol-Holz,
C. Latorre,
J. L. Betancourt,
Corresponding Author
M. E. de Porras
Centro de Estudios Avanzados en Zonas Áridas (CEAZA), Colina del Pino, La Serena, Chile
Correspondence: María Eugenia De Porras, as above.
E-mail: [email protected]
Search for more papers by this authorA. Maldonado
Centro de Estudios Avanzados en Zonas Áridas (CEAZA), Colina del Pino, La Serena, Chile
Instituto de Investigación Multidisciplinario en Ciência y Tecnología, Universidad de la Serena, Chile
Departamento de Biología Marina, Universidad Católica del Norte, Coquimbo, Chile
Search for more papers by this authorR. De Pol-Holz
GAIA-Antartica, Universidad de Magallanes, Punta Arenas, Chile
Search for more papers by this authorC. Latorre
Institute of Ecology and Biodiversity (IEB), Santiago, Chile
Departamento de Ecología y Centro UC del Desierto de Atacama, Pontificia Universidad Católica de Chile, Santiago, Chile
Search for more papers by this authorM. E. de Porras,
A. Maldonado,
R. De Pol-Holz,
C. Latorre,
J. L. Betancourt,
Corresponding Author
M. E. de Porras
Centro de Estudios Avanzados en Zonas Áridas (CEAZA), Colina del Pino, La Serena, Chile
Correspondence: María Eugenia De Porras, as above.
E-mail: [email protected]
Search for more papers by this authorA. Maldonado
Centro de Estudios Avanzados en Zonas Áridas (CEAZA), Colina del Pino, La Serena, Chile
Instituto de Investigación Multidisciplinario en Ciência y Tecnología, Universidad de la Serena, Chile
Departamento de Biología Marina, Universidad Católica del Norte, Coquimbo, Chile
Search for more papers by this authorR. De Pol-Holz
GAIA-Antartica, Universidad de Magallanes, Punta Arenas, Chile
Search for more papers by this authorC. Latorre
Institute of Ecology and Biodiversity (IEB), Santiago, Chile
Departamento de Ecología y Centro UC del Desierto de Atacama, Pontificia Universidad Católica de Chile, Santiago, Chile
Search for more papers by this authorABSTRACT
In the past two decades, much has been learned about the late Quaternary climate history of the Atacama Desert with some details still unclear about the seasonality, timing and extent of wet and dry phases. Modern climate studies reveal that, far from exhibiting a unique pattern, seasonal precipitation originates from many sources and mechanisms. For the last 16 ka, we attempt to sort out these complexities in pollen records from four fossil rodent midden series spanning 22°–25°S in northern Chile. Widespread wet conditions prevailed during the late Pleistocene and early Holocene, particularly between 13 and 9 ka, evidenced by <400 m lowering of pollen zones (plant communities) compared to today. Regional differences in the timing and magnitude of this displacement may be related to the prevailing source (tropical/extra-tropical) or mode (NNW/SE) of tropical precipitation through time. Wet conditions persisted well into the early Holocene, lasting ∼1–1.5 ka longer than previously suggested. The pollen record suggests extreme drying ∼8 ka, possibly associated with a northward shift of the Inter Tropical Convergence Zone, tracking minimum insolation values at subtropical latitudes during the austral summer. The establishment of conditions similar to today happened ∼4 ka. Copyright © 2017 John Wiley & Sons, Ltd.
Supporting Information
Additional supporting information related to this article may be found in the online version of this article.
| Filename | Description |
|---|---|
| jqs2980-sup-0001-SuppInfo-S1.docx15.7 KB | S1. Technical description of pollen assemblages from modern rodent middens along two elevational transects at (a) 22°S (LA-LIN) and (b) 24°S (SA-PS). S2. Technical description of pollen assemblages from fossil rodent middens series at (a) Cerros de Aiquina (CDA, 22°S); (B)Lomas de Tilocalar (LdT; 23°S); (c) Quebrada Zorras (QZO; 24.5°S); and (d) Barrancas Blancas (BB; 24.9°S). |
Please note: The publisher is not responsible for the content or functionality of any supporting information supplied by the authors. Any queries (other than missing content) should be directed to the corresponding author for the article.
References
- Aceituno P, Montecinos A. 1993. Análisis de la estabilidad de la relación entre la Oscilación del Sur y la precipitación en América del Sur. Bulletin de l'Institut Français d’Études Andines 22: 53–64.
- Arroyo MTK, Castor C, Marticorena C et al. 1998. The flora of Llullaillaco National Park located in the transitional winter–summer rainfall area of the northern Chilean Andes. Gayana Botánica 55: 93–110.
- Arroyo MTK, Squeo FA, Armesto JJ et al. 1988. Effects of aridity on plant diversity in the Northern Chilean Andes: results of a natural experiment. Annals of the Missouri Botanical Garden 75: 55–78.
- Betancourt JL, Latorre C, Rech JA et al. 2000. A 22,000-year record of monsoonal precipitation from Northern Chile's Atacama Desert. Science 289: 1542–1546.
- Betancourt JL, Saavedra B, 2002. Paleomadrigueras de roedores, un nuevo método paleoecológico para el estudio del Cuaternario en zonas áridas en Sudamérica. Revista Chilena de Historia Natural 75: 527–546.
- Blard P-H, Sylvestre F, Tripati AK et al. 2011. Lake highstands on the Altiplano (Tropical Andes) contemporaneous with Heinrich 1 and the Younger Dryas: new insights from 14C, U–Th dating and δ18O of carbonates. Quaternary Science Reviews 30: 3973–3989.
- Bozkurt D, Rondanelli R, Garreaud R et al. 2016. Impact of warmer Eastern Tropical Pacific SST on the March 2015 Atacama floods. Monthly Weather Review 144: 4441–4460.
- Braconnot P, Otto-Bliesner B, Harrison S et al. 2007. Results of PMIP2 coupled simulations of the mid-Holocene and last glacial maximum – Part 1: experiments and large-scale features. Climate of the Past 3: 261–277.
- de Porras ME, Maldonado A, Zamora-Allendes A et al. 2015. Calibrating the pollen signal in modern rodent middens from northern Chile to improve the interpretation of the late Quaternary midden record. Quaternary Research 84: 301–311.
- Díaz FP, Latorre C, Maldonado A et al. 2012. Rodent middens reveal episodic, long-distance plant colonizations across the hyperarid Atacama Desert over the last 34,000 years. Journal of Biogeography 39: 510–525.
-
Faegri K,
Iversen J.
1989.
Textbook of Pollen Analysis, 4th edn.
John Wiley & Sons:
Chichester.
10.1002/jcc.540100407 Google Scholar
- Fritz SC, Baker PA, Tapia PM et al. 2012. Evolution of the Lake Titicaca basin and its diatom flora over the last ∼370,000 years. Palaeogeography, Palaeoclimatolology, Palaeoecolology 1: 93–103.
- Garreaud RD. 2000. Cold air incursions over Subtropical South America: Mean structure and dynamics. Monthly Weather Review 128: 2544–2559.
- Garreaud RD, Aceituno P. 2001. Interannual rainfall variability over the South American Altiplano. Journal of Climate 14: 2779–2789.
- Garreaud RD, Vuille M, Clement AC. 2003. The climate of the Altiplano: observed current conditions and mechanisms of past changes. Palaeogeography, Palaeoclimatology, Palaeoecology 194: 5–22.
- Gayó E, Latorre C, Jordan TE et al. 2012a. Late Quaternary hydrological and ecological changes in the hyperarid core of the northern Atacama Desert (∼21°S). Earth-Science Reviews 113: 130–140.
- Gayó E, Latorre C, Santoro C et al. 2012b. Hydroclimate variability in the low-elevation Atacama Desert over the last 2500 years. Climate of the Past 8: 287–306.
- Grimm E. 2011. Tilia Software 1.7.16. Illinois State Museum, Research and Collection Center: Springfield, IL.
- Grimm EC. 1987. CONISS: A Fortran 77 program for stratigraphically constrained cluster analysis by the method of incremental sum of squares. Computers and Geosciences 13: 13–35.
- Grosjean M. 2001. Mid-Holocene climate in the south-central Andes: humid or dry? Science 292: 2391.
- Grosjean M, Cartajena I, Geyh MA et al. 2003. From proxy data to paleoclimate interpretation: the mid-Holocene paradox of the Atacama Desert, northern Chile. Palaeogeography, Palaeoclimatology, Palaeoecology 194: 247–258.
- Grosjean M, Nuñez L, Cartajena I et al. 1997. Mid-Holocene climate and culture change in the Atacama Desert, northern Chile. Quaternary Research 48: 239–246.
- Grosjean M, van Leeuwen JFN, van der Knaap WO et al. 2001. A 22,000 14C year BP sediment and pollen record of climate change from Laguna Miscanti (23°S), northern Chile. Global and Planetary Change 28: 35–51.
- Haug GH, Hughen KA, Sigman DM et al. 2001. Southward migration of the Intertropical Convergence Zone through the Holocene. Science 293: 1304–1308.
-
Heusser CJ.
1971.
Pollen and Spores of Chile.
University of Arizona:
Tucson.
10.2307/1218275 Google Scholar
- Heusser CJ. 1990. Ice age vegetation and climate of subtropical Chile. Palaeogeography, Palaeoclimatology, Palaeoecology 80: 107–127.
- Hogg AG, Hua Q, Blackwell PG et al. 2013. SHCal13 Southern Hemisphere Calibration, 0–50,000 years cal BP. Radiocarbon 55: 1889–1903.
- Houston J, Hartley AJ. 2003. The central Andean west-slope rainshadow and its potential contribution to the origin of hyper-aridity in the Atacama Desert. International Journal of Climatology 23: 1453–1464.
- Jenny B, Valero-Garcés BL, Villa-Martínez R et al. 2002. Early to Mid-Holocene Aridity in Central Chile and the Southern Westerlies: The Laguna Aculeo Record (34°S). Quaternary Research 58: 160–170.
- Juggins S. 2011. C2: Software for ecological and palaeoecological data analysis and visualization, Version 1.7.6. University of Newcastle, UK. https://www.staff.ncl.ac.uk/stephen.juggins/software/C2Home.htm
- Karamperidou C, Di Nezio PN, Timmermann A et al. 2015. The response of ENSO flavors to mid-Holocene climate: implications for proxy interpretation. Paleoceanography 30: 527–547.
- Lamy F, Hebbeln D, Wefer G. 1999. High resolution marine record of climatic change in mid-latitude Chile during the last 28,000 years based on terrigenous sediment parameters. Quaternary Research 51: 83–93.
- Latorre C, Betancourt JL, Arroyo MTK. 2006. Late Quaternary vegetation and climate history of a perennial river canyon in the Río Salado basin (22°S) of Northern Chile. Quaternary Research 65: 450–466.
- Latorre C, Betancourt JL, Quade J et al. 2005. Late Quaternary history of the Atacama Desert. In 23° South: The Archaeology and Environmental History of the Southern Deserts, M Smith, P Hesse (eds). National Museum of Australia: Canberra.
- Latorre C, Betancourt JL, Rylander KA et al. 2002. Vegetation invasions into absolute desert: A 45,000 yr rodent midden record from the Calama-Salar de Atacama basins, northern Chile (lat 22°–24°S). Geological Society of America Bulletin 114: 349–366.
- Latorre C, Betancourt JL, Rylander KA et al. 2003. A vegetation history from the arid prepuna of northern Chile (22–23°S) over the last 13 500 years. Palaeogeography, Palaeoclimatology, Palaeoecology 194: 223–246.
-
Latorre C,
Moreno PI,
Vargas G et al.
2007. Late Quaternary environments and paleoclimate. In
The Geology of Chile, T Moreno, W Gibbons (eds).
Geological Society;
London; 309–328.
10.1144/GOCH.12 Google Scholar
- Ledru M-P, Jomelli V, Bremond L et al. 2013. Evidence of moist niches in the Bolivian Andes during the mid-Holocene arid period. Holocene 23: 1547–1559.
- Lenters JD, Cook KH. 1997. On the origin of the Bolivian high and related circulation features of the South American climate. Journal of the Atmospheric Sciences 54: 656–678.
- Luebert F, Pliscoff P. 2006. Sinopsis bioclimática y vegetacional de Chile. Editorial Universitaria: Santiago.
- Maldonado A, Betancourt JL, Latorre C et al. 2005. Pollen analyses from a 50,000-yr rodent midden series in the southern Atacama Desert (25°30′S). Journal of Quaternary Science 20: 493–507.
- Maldonado A, Méndez C, Ugalde P et al. 2010. Early Holocene climate change and human occupation along the semiarid coast of north-central Chile. Journal of Quaternary Science 25: 985–988.
- Maldonado A, Uribe M. 2015. Paleoambientes y ocupaciones humanas en Tarapacá durante el período Formativo y comienzos del Intermedio Tardío. In XIX Congreso Nacional de Arqueología Chilena. Universidad de Tarapacá, Sociedad Chilena de Arqueología: Arica.
- Marengo JA, Douglas M, Silva Dias P. 2002. The South American low-level jet east of the Andes during the 1999 LBA-TRMM and LBA-WET AMC campaign. Journal of Geophysical Research 107: LBA 47-1–LBA 47-11.
- Marengo JA, Liebmann B, Grimm AM et al. 2012. Recent developments on the South American monsoon system. International Journal of Climatology 32: 1–21.
- Markgraf V, D'Antoni HL. 1978. Pollen Flora of Argentina. University of Arizona: Tucson.
- McGlue MM, Cohen AS, Ellis GS et al. 2013. Late Quaternary stratigraphy, sedimentology, and geochemistry of an underfilled lake basin in the Puna plateau (northwest Argentina). Basin Research 25: 638–658.
- Miesen FM, de Porras ME, Maldonado A. 2015. Pollen morphology of Cactaceae in Northern Chile. Gayana Botánica 72: 258–271.
- Montecinos A, Aceituno P. 2003. Seasonality of the ENSO-related rainfall variability in Central Chile and associated circulation anomalies. Journal of Climate 16: 281–296.
- Montes C, Cardona A, Jaramillo C et al. 2015. Middle Miocene closure of the Central American Seaway. Science 348: 226–229.
- Mujica MI, Latorre C, Maldonado A et al. 2015. Late Quaternary climate change, relict populations and present-day refugia in the northern Atacama Desert: a case study from Quebrada la Higuera (18°S). Journal of Biogeography 42: 76–88.
- Nester PL, Gayó EM, Latorre C et al. 2007. Perennial stream discharge in the hyperarid Atacama Desert of northern Chile during the latest Pleistocene. Proceedings of the National Academy of Sciences of the United States of America 104: 19724–19729.
- Núñez L, Cartajena I, Grosjean M. 2013. Archaeological silence and ecorefuges: arid events in the Puna of Atacama during the Middle Holocene. Quaternary International 307: 5–13.
- Núñez L, Grosjean M, Cartajena I et al. 1995. Proyectos Puripica: reconstrucción multidisciplinaria de eventos holocénicos cultural y ambientales. In Congreso Nacional de Arqueología Chilena, Vol. XIII, Antofagasta Ud (ed.); 273–289.
- Pigati JS, Bright JE, Shanahan TM et al. 2009. Late Pleistocene paleohydrology near the boundary of the Sonoran and Chihuahuan Deserts, southeastern Arizona, USA. Quaternary Science Reviews 28: 286–300.
- Placzek C, Quade J, Betancourt JL et al. 2009. Climate in the dry central Andes over geologic, millennial, and interannual timescales. Annals of the Missouri Botanical Garden 96: 386–397.
- Placzek C, Quade J, Patchett PJ. 2006. Geochronology and stratigraphy of late Pleistocene lake cycles on the southern Bolivian Altiplano: implications for causes of tropical climate change. Geological Society of America Bulletin 118: 515–532.
- Pliscoff P, Luebert F, Hilger HH et al. 2014. Effects of alternative sets of climatic predictors on species distribution models and associated estimates of extinction risk: A test with plants in an arid environment. Ecological Modelling 288: 166–177.
- Pueyo JJ, Sáez A, Giralt S et al. 2011. Carbonate and organic matter sedimentation and isotopic signatures in Lake Chungará, Chilean Altiplano, during the last 12.3 kyr. Palaeogeography, Palaeoclimatology, Palaeoecology 307: 339–355.
-
Quade J,
Dettinger M,
DeCelles P et al.
2015. The growth of the Central Andes 22–26°S. In
The Geodynamics of a Cordilleran Orogenic System: The Central Andes of Argentina and northern Chile, PG DeCelles, M Ducea, P Kapp, B Carrapa (eds). Geologic Society of America Memoir
212: 277–308.
10.1130/2015.1212(15) Google Scholar
- Quade J, Rech JA, Betancourt JL et al. 2001. Mid-Holocene climate in the south-central Andes: humid or dry? Response. Science 292: 2391a.
- Quade J, Rech JA, Betancourt JL et al. 2008. Paleowetlands and regional climate change in the central Atacama Desert, northern Chile. Quaternary Reseach 69: 343–360.
- Rech JA, Currie BS, Shullenberger ED et al. 2010. Evidence for the development of the Andean rain shadow from a Neogene isotopic record in the Atacama Desert, Chile. Earth and Planetary Science Letters 292: 371–382.
- Rech JA, Quade J, Betancourt JL. 2002. Late Quaternary paleohydrology of the central Atacama Desert (lat 22°–24°S), Chile. Geological Society of America Bulletin 114: 334–348.
- Reimi MA, Marcantonio F. 2016. Constraints on the magnitude of the deglacial migration of the ITCZ in the Central Equatorial Pacific Ocean. Earth and Planetary Science Letters 453: 1–8.
- Rojas MI, Arias PA, Flores-Aqueveque V et al. 2016. The South American monsoon variability over the last millennium in climate models. Climate of the Past 12: 1681–1691.
- Rozas E. 2012. Cambios vegetacionales y paleoclima del Valle del Río Huasco (29°S) durante el Holoceno inferidos a partir del análisis de polen preservado en paleomadrigueras de roedores. Departamento de Biología, Universidad de la Serena: La Serena, Chile.
- Sáez A, Godfrey LV, Herrera C et al. 2016. Timing of wet episodes in Atacama Desert over the last 15 ka. The ground water discharge deposits (GWD) from Domeyko range at 25°S. Quaternary Science Reviews 145: 82–93.
- Saulo AC, Nicolini M, Chou SC. 2000. Model characterization of the South American low-level flow during the 1997-1998 spring-summer season. Climate Dynamics 16: 867–881.
- Seillès B, Sánchez Goñi MF, Ledru MP et al. 2016. Holocene land–sea climatic links on the equatorial Pacific coast (Bay of Guayaquil, Ecuador). The Holocene 26: 567–577.
- Spaulding WG, Betancourt JL, Croft LC et al. 1990. Packrat Middens: their composition and methods of analysis. In Packrat Middens: the Last 40,000 Years of Biotic Change, JL Betancourt, TR Van Devender, PS Martin (eds). University of Arizona Press: Tucson; 467.
- Stuiver M, Reimer PJ, Reimer RW. 2005. CALIB 5.0. WWW program and documentation.
- Tchilinguirian P, Morales MR. 2013. Mid-Holocene paleoenvironments in Northwestern Argentina: Main patterns and discrepancies. Quaternary International 307: 14–23.
- Tedeschi RG, Cavalcanti IFA, Grimm AM. 2013. Influences of two types of ENSO on South American precipitation. International Journal of Climatology 33: 1382–1400.
- Valero-Garcés BL, Jenny B, Rondanelli M et al. 2005. Palaeohydrology of Laguna de Tagua Tagua (34° 30′ S) and moisture fluctuations in Central Chile for the last 46 000 yr. Journal of Quaternary Science 20: 625–641.
- Van Devender TR, Thompson RS, Betancourt JL. 1987. Vegetation and history of the Southwest, the nature and timing of the late Wisconsin-Holocene transition. In North America and Adjacent Oceans During the Last Deglaciation, The Geology of North America Vol. K3, WF Ruddiman, HE Wright (eds). Geological Society of America: Boulder, CO; 323–352.
- Villagrán C, Kalin-Arroyo MT, Marticorena C. 1983. Efectos de la desertización en la distribución de la flora andina de Chile. Revista Chilena de Historia Natural 56: 137–157.
- Villagrán C, Armesto JJ, Kalin Arroyo MT. 1981. Vegetation in a high Andean transect between Turi and cerro León in northern Chile. Vegetatio 48: 3–16.
- Vuille M, Ammann C. 1997. Regional snowfall patterns in the High, Arid Andes. Climatic Change 36: 413–423.
- Vuille M, Burns SJ, Taylor BL et al. 2012. A review of the South American monsoon history as recorded in stable isotopic proxies over the past two millennia. Climate of the Past 8: 1309–1321.
- Vuille M, Keimig F. 2004. Interannual variability of summertime convective cloudiness and precipitation in the Central Andes derived from ISCCP-B3 data. Journal of Climate 17: 3334–3348.
- Wang X, Edwards RL, Auler AS et al. 2017. Hydroclimate changes across the Amazon lowlands over the past 45,000 years. Nature 541: 204–207.
