Hostname: page-component-586b7cd67f-t8hqh Total loading time: 0 Render date: 2024-11-28T16:43:41.209Z Has data issue: false hasContentIssue false

A 3600-year record of drought in southern Pacific Costa Rica

Published online by Cambridge University Press:  29 May 2020

Zachary P. Taylor*
Affiliation:
Department of Environmental Science and Studies, Berry College, Mount Berry, Georgia30149, USA
Chad S. Lane
Affiliation:
Department of Earth and Ocean Sciences, University of North Carolina–Wilmington, Wilmington, North Carolina28403, USA
Sally. P. Horn
Affiliation:
Department of Geography, University of Tennessee, Knoxville, Tennessee37996, USA
*
*Corresponding author email address: ztaylor@berry.edu (Z.P. Taylor).

Abstract

We analyzed the δ2H composition of n-alkanes isolated from Laguna Zoncho, a small lake in southern Pacific Costa Rica, to reconstruct paleohydrology. Using a core that spans the past 3600 years, we found evidence of dry periods, most notably during the Terminal Classic Drought (TCD; ~1200 cal yr BP) and the Little Ice Age (~400 cal yr BP). Previous work at Laguna Zoncho, using bulk sedimentary δ13C and geochemical analysis, found that agriculture began to decline during the TCD. Our δ2H records confirm the occurrence of arid conditions coincident with the TCD at Laguna Zoncho and show that, despite receiving more than 3000 mm of precipitation per year, this region is susceptible to multidecadal droughts.

Type
Research Article
Copyright
Copyright © University of Washington. Published by Cambridge University Press, 2020

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

REFERENCES

Anchukaitis, K., Horn, S.P., 2005. A 2000-year reconstruction of forest disturbance from southern Pacific Costa Rica. Palaeogeography, Palaeoclimatology, Palaeoecology 221, 3554.CrossRefGoogle Scholar
Beach, T., Luzzadder-Beach, S., Cook, D., Dunning, N., Kennett, D.J., Krause, S., Terry, R., Trein, D., Valdez, F., 2015. Ancient Maya impacts on the Earth's surface: an early Anthropocene analog? Quaternary Science Reviews 124, 130.CrossRefGoogle Scholar
Behling, H., 2000. 2860-year high resolution pollen and charcoal record from the Cordillera de Talamanca in Panama: a history of human and volcanic forest disturbance. The Holocene 10, 387393.CrossRefGoogle Scholar
Bhattacharya, T., Chiang, J.C., 2014. Spatial variability and mechanisms underlying El Niño-induced droughts in Mexico. Climate Dynamics 43, 33093326.CrossRefGoogle Scholar
Bhattacharya, T., Chiang, J.C., Cheng, W., 2017. Ocean-atmosphere dynamics linked to 800–1050 CE drying in Mesoamerica. Quaternary Science Reviews 169, 263277.CrossRefGoogle Scholar
Blaauw, M., 2010. Methods and code for ‘classical'age-modelling of radiocarbon sequences. Quaternary Geochronology 5, 512518.CrossRefGoogle Scholar
Blaauw, M., Christen, J.A., 2011. Flexible paleoclimate age-depth models using an autoregressive gamma process. Bayesian Analysis 6, 457474.Google Scholar
Bowen, G.J., 2019. The Online Isotopes in Precipitation Calculator, version 3.1 (accessed April 1, 2019). http://www.waterisotopes.org.Google Scholar
Bowen, G.J., Revenaugh, J., 2003. Interpolating the isotopic composition of modern meteoric precipitation. Water Resources Research 39, 1299.CrossRefGoogle Scholar
Chiang, J.C., Kushnir, Y., Zebiak, S.E., 2000. Interdecadal changes in eastern Pacific ITCZ variability and its influence on the Atlantic ITCZ. Geophysical Research Letters 27, 36873690.CrossRefGoogle Scholar
Clement, R.M., Horn, S.P., 2001. Pre-Columbian land use history in Costa Rica: a 3000-year record of forest clearance, agriculture and fires from Laguna Zoncho. The Holocene 11, 419426.CrossRefGoogle Scholar
Colinvaux, P.A., de Oliveira, P.E., Moreno, J.E., 1999. Amazon Pollen Manual and Atlas. Harwood Academic, Amsterdam.Google Scholar
Corrales, F., Quintanilla, I., Barrantes, O., 1988. Historia Precolombiano y de los siglos XVI y XVII del Sureste de Costa Rica. [Pre-Colombian and 16th and 17th Centuries History of Southeast Costa Rica]. Proyecto de Investigación y Promoción de la Cultura Popular y Tradicional del Pacifico Sur, San Jose, Costa Rica.Google Scholar
Diefendorf, A.F., Freimuth, E.J., 2017. Extracting the most from terrestrial plant-derived n-alkyl lipids and their carbon isotopes from the sedimentary record: a review. Organic Geochemistry 103, 121.CrossRefGoogle Scholar
Douglas, P.M., Pagani, M., Canuto, M.A., Brenner, M., Hodell, D.A., Eglinton, T.I., Curtis, J.H., 2015. Drought, agricultural adaptation, and sociopolitical collapse in the Maya lowlands. Proceedings of the National Academy of Sciences 112, 56075612.CrossRefGoogle ScholarPubMed
Douglas, P.M., Pagani, M., Eglinton, T.I., Brenner, M., Curtis, J.H., Breckenridge, A., Johnston, K., 2018. A long-term decrease in the persistence of soil carbon caused by ancient Maya land use. Nature Geoscience 11, 645649.CrossRefGoogle Scholar
Douglas, P.M., Pagani, M., Eglinton, T.I., Brenner, M., Hodell, D.A., Curtis, J.H., Ma, K.F., Breckenridge, A., 2014. Pre-aged plant waxes in tropical lake sediments and their influence on the chronology of molecular paleoclimate proxy records. Geochimica et Cosmochimica Acta 141, 346364.CrossRefGoogle Scholar
Drolet, R.P., 1988. The emergence and intensification of complex societies in Pacific southern Costa Rica. In: Lange, F.W. (Ed.), Costa Rican Art and Archaeology: Essays in Honor of Frederick R. Mayer. University of Colorado, Boulder, pp. 163188.Google Scholar
Feakins, S.J., 2013. Pollen-corrected leaf wax D/H reconstructions of northeast African hydrological changes during the late Miocene. Palaeogeography, Palaeoclimatology, Palaeoecology 374, 6271.CrossRefGoogle Scholar
Feakins, S.J., Bentley, L.P., Salinas, N., Shenkin, A., Blonder, B., Goldsmith, G.R., Ponton, C., Arvin, L.J., Wu, M.S., Peters, T., 2016. Plant leaf wax biomarkers capture gradients in hydrogen isotopes of precipitation from the Andes and Amazon. Geochimica et Cosmochimica Acta 182, 155172.CrossRefGoogle Scholar
Fernández Guardia, R., 1913. History of the Discovery and Conquest of Costa Rica. (Van Dyke, H.W., Trans.). Thomas Crowell, New York.Google Scholar
Filippelli, G.M., Souch, C., Horn, S.P., Newkirk, D., 2010. The pre-Colombian footprint on terrestrial nutrient cycling in Costa Rica: insights from phosphorus in a lake sediment record. Journal of Paleolimnology 43, 843856.CrossRefGoogle Scholar
Garcin, Y., Schwab, V.F., Gleixner, G., Kahmen, A., Todou, G., Séné, O., Onana, J.-M., Achoundong, G., Sachse, D., 2012. Hydrogen isotope ratios of lacustrine sedimentary n-alkanes as proxies of tropical African hydrology: insights from a calibration transect across Cameroon. Geochimica et Cosmochimica Acta 79, 106126.CrossRefGoogle Scholar
Gierga, M., Hajdas, I., van Raden, U.J., Gilli, A., Wacker, L., Sturm, M., Bernasconi, S.M., Smittenberg, R.H., 2016. Long-stored soil carbon released by prehistoric land use: evidence from compound-specific radiocarbon analysis on Soppensee lake sediments. Quaternary Science Reviews 144, 123131.CrossRefGoogle Scholar
Gill, R.B., Mayewski, P.A., Nyberg, J., Haug, G.H., Peterson, L.C., 2007. Drought and the Maya collapse. Ancient Mesoamerica 18, 283302.CrossRefGoogle Scholar
Haberyan, K.A., Horn, S.P., 2005. Diatom paleoecology of Laguna Zoncho, Costa Rica. Journal of Paleolimnology 33, 361369.CrossRefGoogle Scholar
Hartshorn, G.S., 1983. Plants. In: Janzen, D. (Ed.), Costa Rican Natural History. University of Chicago Press, Chicago, pp. 118157.Google Scholar
Haug, G.A., Houghen, K.A., Sigman, D.A., Peterson, L.C., Rohl, U., 2001. Southward migration of the Intertropical Convergence Zone through the Holocene. Science 393, 13041308.CrossRefGoogle Scholar
Haug, G.H., Günther, D., Peterson, L.C., Sigman, D.M., Hughen, K.A., Aeshlimann, B., 2003. Climate and the collapse of Maya civilization. Science 299, 17311735.CrossRefGoogle ScholarPubMed
Hodell, D.A., Brenner, M., Curtis, J.H., 2005. Terminal Classic drought in the northern Maya lowlands inferred from multiple sediment cores in Lake Chichancanab (Mexico). Quaternary Science Reviews 24, 14131427.CrossRefGoogle Scholar
Hoopes, J.W., 1996. Settlement, subsistence, and the origins of social complexity in Greater Chiriquí: a reappraisal of the Aguas Buenas tradition. In: Lange, F.W. (Ed.), Paths to Central American Prehistory. University Press of Colorado, Boulder, pp. 1547.Google Scholar
Horn, S.P., 2016. Pre-Columbian maize agriculture in Costa Rica. In Staller, J.E., Tykot, R.H., Benz, B.F. (Eds.), Histories of Maize in Mesoamerica: Multidisciplinary Approaches. Routledge, London, pp. 104117.Google Scholar
Horn, S.P., Hayberyan, K.A., 2016. Lakes of Costa Rica. In: Kappelle, M. (Ed.), Costa Rica Ecosystems. University of Chicago Press, Chicago, pp. 656682.CrossRefGoogle Scholar
IAEA/WMO, 2015. Global Network of Isotopes in Precipitation: The GNIP Database (accessed April 1, 2019). https://nucleus.iaea.org/wiser.Google Scholar
Johanson, E.N., Horn, S.P., Lane, C.S., 2019. Pre-Columbian agriculture, fire, and Spanish contact: a 4200-year record from Laguna Los Mangos, Costa Rica. The Holocene 29, 17431757.CrossRefGoogle Scholar
Johanson, E.N., Horn, S.P., Lane, C.S., Sánchez, M., Cecil, J., 2020. Fire history across the Little Ice Age in southern Pacific Costa Rica. Journal of Paleolimnology, 123.CrossRefGoogle Scholar
Kennett, D.J., Beach, T.P., 2013. Archeological and environmental lessons for the Anthropocene from the Classic Maya collapse. Anthropocene 4, 88100.CrossRefGoogle Scholar
Kennett, D.J., Breitenbach, S.F., Aquino, V.V., Asmerom, Y., Awe, J., Baldini, J.U., Bartlein, P., Culleton, B.J., Ebert, C., Jazwa, C., 2012. Development and disintegration of Maya political systems in response to climate change. Science 338, 788791.CrossRefGoogle ScholarPubMed
Kerr, M.T., Horn, S.P., Lane, C.S., 2019. Stable isotope analysis of vegetation history and land-use change at Laguna Santa Elena in southern Pacific Costa Rica. Vegetation History and Archaeobotany.Google Scholar
Lachniet, M.S., Burns, S.J., Piperno, D.R., Asmerom, Y., Polyak, V.J., Moy, C.M., Christenson, K., 2004. A 1500-year El Niño: southern oscillation and rainfall history for the Isthmus of Panama from speleothem calcite. Journal of Geophysical Research-Atmospheres 109, D20117.CrossRefGoogle Scholar
Lane, C.S., Horn, S.P., Kerr, M.T., 2014. Beyond the Mayan lowlands: impacts of the Terminal Classic drought in the Caribbean Antilles. Quaternary Science Reviews 86, 8998.CrossRefGoogle Scholar
Lane, C.S., Horn, S.P., Mora, C.I., 2004. Stable carbon isotope ratios in lake and swamp sediments as a proxy for prehistoric forest clearance and crop cultivation in the neotropics. Journal of Paleolimnology 32, 375381.CrossRefGoogle Scholar
Lane, C.S., Horn, S.P., Mora, C.I., Orvis, K.H., 2009. Late-Holocene paleoenvironmental change at mid-elevation on the Caribbean slope of the Cordillera Central, Dominican Republic: a multi-site, multi-proxy analysis. Quaternary Science Reviews 28, 22392260.CrossRefGoogle Scholar
Lane, C.S., Horn, S.P., Orvis, K.H., Thomason, J.M., 2011. Oxygen isotope evidence of Little Ice Age aridity on the Caribbean slope of the Cordillera Central, Dominican Republic. Quaternary Research 75, 461470.CrossRefGoogle Scholar
Lane, C.S., Horn, S.P., Taylor, Z.P., Kerr, M.T., 2016. Correlation of bulk sedimentary and compound-specific δ13C values indicates minimal pre-aging of n-alkanes in a small tropical watershed. Quaternary Science Reviews 145, 238242.CrossRefGoogle Scholar
Lane, C.S., Taylor, A.K., Spencer, J., Jones, K.B., 2018. Compound-specific isotope records of late-Quaternary environmental change in southeastern North Carolina. Quaternary Science Reviews 182, 4864.CrossRefGoogle Scholar
Laurencich de Minelli, L., Minelli, L., 1966. Informe preliminar sobre excavaciones alrededor de San Vito de Java [Preliminary report on excavations around San Vito de Java]: 36th International Congress of Americanists (Seville, 1964). Acta 1, 415427.Google Scholar
Linares, O.F., Sheets, P.D., 1980. Highland agricultural villages in the Volcán Barú region. In: Linares, O.F., Ranere, A.J. (Eds.), Adaptive Radiations in Prehistoric Panama. Harvard University, Cambridge, Massachusetts, pp. 4455.Google Scholar
Luzzadder-Beach, S., Beach, T.P., Dunning, N.P., 2012. Wetland fields as mirrors of drought and the Maya abandonment. Proceedings of the National Academy of Sciences 109, 36463651.CrossRefGoogle Scholar
Mueller, A.D., Islebe, G.A., Anselmetti, F.S., Ariztegui, D., Brenner, M., Hodell, D.A., Hajdas, I., Hamann, Y., Haug, G.H., Kennett, D.J., 2010. Recovery of the forest ecosystem in the tropical lowlands of northern Guatemala after disintegration of Classic Maya polities. Geology 38, 523526.CrossRefGoogle Scholar
Palumbo, S.D., 2009. The Development of Complex Society in the Volcán Barú Region of Western Panama. Doctoral Dissertation, University of Pittsburg, Pittsburg.Google Scholar
Peterson, L.C., Huag, G.H., 2006. Variability in the mean latitude of the Atlantic Intertropical Convergence Zone as recorded by riverine input of sediments to the Cariaco Basin (Venezuela). Palaeogeography Palaeoclimatology Palaeoecology 234, 97113.CrossRefGoogle Scholar
Polissar, P.J., D'Andrea, W.J., 2014. Uncertainty in paleohydrologic reconstructions from molecular δD values. Geochimica et Cosmochimica Acta 129, 146156.CrossRefGoogle Scholar
Poveda, G., Waylen, P.R., Pulwarty, R.S., 2006. Annual and inter-annual variability of the present climate in northern South America and southern Mesoamerica. Palaeogeography, Palaeoclimatology, Palaeoecology 234, 327.CrossRefGoogle Scholar
Reimer, P.J., Baillie, M.G.L., Bard, E., Bayliss, A., Beck, J.W., Bertrand, C.J.H., Blackwell, P.G. et al. ., 2004. IntCal04 terrestrial radiocarbon age calibration, 0–26 cal kyr BP. Radiocarbon 46, 10291058.Google Scholar
Rodríguez-Ramírez, A., Caballero, M., Roy, P., Ortega, B., Vázquez-Castro, G., Lozano-García, S., 2015. Climatic variability and human impact during the last 2000 years in western Mesoamerica: evidence of Late Classic (AD 600–900) and Little Ice Age drought events. Climate of the Past 11, 12391248.CrossRefGoogle Scholar
Rosenmeier, M.F., Hodell, D.A., Brenner, M., Curtis, J.H., Guilderson, T.P., 2002. A 4000-year lacustrine record of environmental change in the southern Maya lowlands, Peten, Guatemala. Quaternary Research 57, 183190.CrossRefGoogle Scholar
Sachse, D., Billault, I., Bowen, G.J., Chikaraishi, Y., Dawson, T.E., Feakins, S.J., Freeman, K.H., Magill, C.R., McInerney, F.A., Van Der Meer, M.T., 2012. Molecular paleohydrology: interpreting the hydrogen-isotopic composition of lipid biomarkers from photosynthesizing organisms. Annual Review of Earth and Planetary Sciences 40, 221249.CrossRefGoogle Scholar
Sánchez, M., 2013. Las sociedades de rango y su distribución territorial en el Pacífico sur de Costa Rica [Ranked societies and their territorial distribution in Costa Rica's southern Pacific region]. Revista de Arqueología Americana, 5980.Google Scholar
Sánchez, M., Rojas, P., 2002. Asentamientos humanos antiguos en las tierras intermedias del Cantón de Coto Brus [Ancient human settlements in the intermediate lands of the Coto Brus canton]. Cuadernos de Antropología 12, 87106.Google Scholar
Sheets, P.D., 1992. The pervasive pejorative in intermediate area studies. In: Lange, F.W. (Ed.), Wealth and Hierarchy in the Intermediate Area. Dumbarton Oaks, Washington D.C., pp. 1541.Google Scholar
Soto, K., Gómez, L., 2002. Sitio Arqueologico el Zoncho CAT. U.C.R. N.168: Una Manifestación de los Agricultores Especializados en las Tierra Intermedias de San Vito, Cantón de Coto Brus, Puntarenas [El Zoncho CAT Archaeological Site. U.C.R. N.168: A Manifestation of Specialized Farmers in the Intermediate Lands of San Vito, Canton of Coto Brus, Puntarenas]. Universidad de Costa Rica, San Jose.Google Scholar
Stahle, D.W., Villaneuva Diaz, J., Burnette, D.J., Cerano Paredes, J., Heim, R.R. Jr., Fye, F.K., Acuna Soto, R., Therrell, M.D., Cleaveland, M.K., Stahle, D.E., 2011. Major Mesoamerican droughts of the past millennium. Geophysical Research Letters 38, L05703.CrossRefGoogle Scholar
Taylor, Z.P., Horn, S.P., Finkelstein, D.B., 2013a. Pre-Hispanic agricultural decline prior to the Spanish Conquest in southern Central America. Quaternary Science Reviews 73, 196200.CrossRefGoogle Scholar
Taylor, Z.P., Horn, S.P., Finkelstein, D.B., 2013b. Maize pollen concentrations in neotropical lake sediments as an indicator of the scale of prehistoric agriculture. The Holocene 23, 7884.CrossRefGoogle Scholar
Taylor, Z.P., Horn, S.P., Finkelstein, D.B., 2015. Assessing intra-basin spatial variability in geochemical and isotopic signatures in the sediments of a small neotropical lake. Journal of Paleolimnology 54, 395411.CrossRefGoogle Scholar
Wu, J., Porinchu, D.F., Horn, S.P., 2017. A chironomid-based reconstruction of late-Holocene climate and environmental change for southern Pacific Costa Rica. The Holocene 27, 7384.CrossRefGoogle Scholar
Wu, J., Porinchu, D.F., Horn, S.P., 2019. Late Holocene hydroclimate variability in Costa Rica: signature of the Terminal Classic drought and the Medieval climate anomaly in the northern tropical Americas. Quaternary Science Reviews 215, 144159.CrossRefGoogle Scholar