Hostname: page-component-cd9895bd7-gxg78 Total loading time: 0 Render date: 2024-12-27T07:43:29.208Z Has data issue: false hasContentIssue false

A 10,300 14C yr Record of Climate and Vegetation Change from Haiti

Published online by Cambridge University Press:  20 January 2017

Antonia Higuera-Gundy
Affiliation:
Florida Museum of Natural History, University of Florida, Gainesville, Florida, 32611
Mark Brenner
Affiliation:
Department of Fisheries and Aquatic Sciences, University of Florida, 7922 NW 71st Street, Gainesville, Florida, 32653
David A. Hodell
Affiliation:
Department of Geology, University of Florida, Gainesville, Florida, 32611
Jason H. Curtis
Affiliation:
Department of Geology, University of Florida, Gainesville, Florida, 32611
Barbara W. Leyden
Affiliation:
Department of Geology, University of South Florida, Tampa, Florida, 33620
Michael W. Binford
Affiliation:
Department of Geography, University of Florida, Gainesville, Florida, 32611

Abstract

Pleistocene and Holocene vegetation dynamics in the American tropics are inferred largely from pollen in continental lake sediments. Maritime influences may have moderated climate and vegetation changes on Caribbean islands. Stable isotope (δ18O) study of a 7.6-m core from Lake Miragoane, Haiti, provided a high-resolution record of changing evaporation/precipitation (E/P) since ∼10,300 14C yr B.P. The Miragoane pollen record documents climate influences and human impacts on vegetation in Hispaniola. The δ18O and pollen data near the base of the core indicate cool, dry conditions before ∼10,000 14C yr B.P. Lake Miragoane filled with water in the early Holocene as E/P declined and the freshwater aquifer rose. Despite increasing early Holocene moisture, shrubby, xeric vegetation persisted. Forest expanded ∼7000 14C yr B.P. in response to greater effective moisture and warming. The middle Holocene (∼7000–3200 14C yr B.P.) was characterized by high lake levels and greatest relative abundance of pollen from moist forest taxa. Climatic drying that began ∼3200 14C yr B.P. may have driven some mesophilic animal species to extinction. The pollen record of the last millennium reflects pre-Columbian (Taino) and European deforestation. Long-term, Holocene vegetation trends in southern Haiti are comparable to trends from continental, lowland circum-Caribbean sites, suggesting a common response to regional climate change.

Type
Research Article
Copyright
University of Washington

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

APHA (American Public Health Association) , (1992). Standard Methods for the Examination of Water and Wastewater. American Public Health Association, Washington.Google Scholar
Andersen, J.M. (1976). An ignition method for determination of total phosphorus in lake sediments. Water Research. 10, 329331.CrossRefGoogle Scholar
Bartlett, A.S., Barghoorn, E.S. (1973). Phytogeographic history of the Isthmus of Panama during the past 12,000 year (a history of vegetation, climate, and sea-level change). Graham, A. Vegetation and Vegetational History of Northern Latin America. Elsevier, New York., 203299.Google Scholar
Bradbury, J.P., Leyden, B., Salgado-Labouriau, M., Lewis, W.M. Jr., Schubert, C., Binford, M.W., Frey, D.G., Whitehead, D.R., Weibezahn, F.H. (1981). Late Quaternary environmental history of Lake Valencia, Venezuela. Science. 214, 12991305.Google Scholar
Brenner, M., Binford, M.W. (1988). A sedimentary record of human disturbance from Lake Miragoane, Haiti. Journal of Paleolimnology. 1, 8597.CrossRefGoogle Scholar
Burney, D.A., Burney, L.P. (1994). Holocene charcoal stratigraphy from Laguna Tortuguero, Puerto Rico, and the timing of human arrival on the island. Journal of Archaeological Science. 21, 273281.CrossRefGoogle Scholar
Curtis, J.H., Hodell, D.A. (1993). An isotopic and trace element study of ostracods from Lake Miragoane, Haiti: A 10.5 kyr record of paleosalinity and paleotemperature changes in the Caribbean. American Geophysical Union Geophysical Monograph. 78, 135152.Google Scholar
Dean, W.E. Jr.. (1974). Determination of carbonate and organic matter in calcareous sediments and sedimentary rocks by loss on ignition: Comparison with other methods. Journal of Sedimentary Petrology. 44, 242248.Google Scholar
Ekman, E.L. (1928). A botanical excursion in La Hotte, Haiti. Svensk Butanisk Tidskrift. 22, 200219.Google Scholar
Fairbanks, R.G. (1989). A 17,000 year glacio-eustatic sea level record: Influences of glacial melting rates in the Younger Dryas event and deep-ocean circulation. Nature. 342, 637642.CrossRefGoogle Scholar
Fisher-Meerow, L.L., Judd, W.S. (1989). A floristic study of five sites along an elevational transect in the Sierra de Baoruco, Prov. Pedernales, Dominican Republic. Moscosoa. 5, 159185.Google Scholar
Goodfriend, G.A., Mitterer, R.M. (1988). Late Quaternary land snails from the north coast of Jamaica: Local extinctions and climatic change. Palaeogeography, Palaeoclimatology, Palaeoecology. 63, 293311.Google Scholar
Hastenrath, S. (1984). Interannual variability and the annual cycle: Mechanisms of circulation and climate in the tropical Atlantic sector. Monthly Weather Review. 112, 10971107.2.0.CO;2>CrossRefGoogle Scholar
Hendry, M., Digerfeldt, G. (1989). Palaeogeography and palaeoenvironments of a tropical coastal wetland and offshore shelf during Holocene submergence, Jamaica. Palaeogeography, Palaeoclimatology, Palaeoecology. 73, 110.CrossRefGoogle Scholar
Hodell, D.A., Curtis, J.H., Jones, G.A., Higuera-Gundy, A., Brenner, M., Binford, M.W., Dorsey, K.T. (1991). Reconstruction of Caribbean climate change over the past 10,500 year. Nature. 352, 790793.CrossRefGoogle Scholar
Hodell, D.A., Curtis, J.H., Brenner, M. (1995). Possible role of climate in the collapse of Classic Maya civilization. Nature. 375, 391394.CrossRefGoogle Scholar
Holdridge, L.R. (1945). A brief sketch of the flora of Hispaniola. Verdoorn, F. Plants and Plant Science in Latin America. Chronica Botanica, Waltham., 7678.Google Scholar
Howard, R.A. (1973). The vegetation of the Antilles. Graham, A. Vegetation and Vegetational History of Northern Latin America. Elsevier, New York., 138.Google Scholar
Judd, W.S. (1987). Floristic study of Morne La Visite and Pic Macaya National Parks, Haiti. Bulletin of the Florida State Museum. 32, 1136.Google Scholar
Kjellmark, E. (1996). Late Holocene climate change and human disturbance on Andros Island, Bahamas. Journal of Paleolimnology. 15, 133145.Google Scholar
Leyden, B.W. (1984). Guatemalan forest synthesis after Pleistocene aridity. Proceedings of the National Academy of Sciences (U.S.A.). 81, 48564859.Google Scholar
Leyden, B.W. (1985). Late Quaternary aridity and Holocene moisture fluctuations in the Lake Valencia basin, Venezuela. Ecology. 66, 12791295.Google Scholar
Leyden, B.W. (1987). Man and climate in the Maya lowlands. Quaternary Research. 28, 407414.Google Scholar
Leyden, B.W., Brenner, M., Hodell, D.A., Curtis, J.H. (1994). Orbital and internal forcing of climate on the Yucatan Peninsula for the past ca. 36 ka. Palaeogeography, Palaeoclimatology, Palaeoecology. 109, 193210.CrossRefGoogle Scholar
Mann, P., Hempton, M.R., Bradley, D.C., Burke, K. (1983). Development of pull-apart basins. Journal of Geology. 91, 529554.CrossRefGoogle Scholar
Mann, P., Taylor, F.W., Burke, K., Kulstad, R. (1984). Subaerially exposed Holocene coral reef, Enriquillo Valley, Dominican Republic. Geological Society of America Bulletin. 95, 10841092.Google Scholar
Morgan, G.S., Woods, C.A. (1986). Extinction and the zoogeography of West Indian land mammals. Biological Journal of the Linnean Society. 28, 167203.Google Scholar
Orvis, K.H., Clark, G.M., Horn, S.P., Kennedy, L.M. (1997). Geomorphic traces of Quaternary climates in the Cordillera Central, Dominican Republic. Mountain Research and Development. 17, 323331.Google Scholar
Peterson, L.C., Overpeck, J.T., Kipp, N.G., Imbrie, J. (1991). A high-resolution late Quaternary upwelling record from the anoxic Cariaco basin, Venezuela. Paleoceanography. 6, 99119.CrossRefGoogle Scholar
Piperno, D.R., Bush, M.B., Colinvaux, P.A. (1990). Paleoenvironments and human occupation in late-Glacial Panama. Quaternary Research. 33, 108116.Google Scholar
Pregill, G.K., Olson, S.L. (1981). Zoogeography of West Indian vertebrates in relation to Pleistocene climatic cycles. Annual Review of Ecology and Systematics. 12, 7598.Google Scholar
Rouse, I. (1989). Peopling and repeopling of the West Indies. Woods, C.A. Biogeography of the West Indies: Past, Present, and Future. Sandhill Crane Press, Gainesville., 119136.Google Scholar
Rouse, I., Moore, C. (1984). Cultural sequence in southwestern Haiti. Bulletin de Bureau National d'Ethnologie. 1, 2538.Google Scholar
Street-Perrott, F.A., Hales, P.E., Perrott, R.A., Fontes, J.Ch., Switsur, V.R., Pearson, A. (1993). Late Quaternary palaeolimnology of a tropical marl lake: Wallywash Great Pond, Jamaica. Journal of Paleolimnology. 9, 322.Google Scholar
Taylor, F.W., Mann, P., Valastro, S. Jr., Burke, K. (1985). Stratigraphy and radiocarbon chronology of a subaerially exposed Holocene coral reef, Dominican Republic. Journal of Geology. 93, 311332.CrossRefGoogle Scholar
Tsukada, M., Deevey, E.S. (1967). Pollen analyses from four lakes in the southern Maya area of Guatemala and El Salvador. Cushing, E.J., Wright, H.E. Quaternary Paleoecology. Yale Univ. Press, New Haven., 303331.Google Scholar
Watts, W.A., Hansen, B.C.S. (1994). Pre-Holocene and Holocene pollen records of vegetation history from the Florida peninsula and their climatic implications. Palaeogeography, Palaeoclimatology, Palaeoecology. 109, 163176.Google Scholar
Whitmore, T.J., Brenner, M., Curtis, J.H., Dahlin, B.H., Leyden, B.W. (1996). Holocene climatic and human influences on lakes of the Yucatan Peninsula, Mexico. The Holocene. 6, 273287.Google Scholar
Woods, C.A. (1987). The threatened and endangered birds of Haiti: Lost horizons and new hopes. Schulman, G.L. Proceedings of the Second Delacour/IFCB symposium. International Foundation for the Conservation of Birds, North Hollywood., 385430.Google Scholar
Woods, C.A. (1989). The biogeography of West Indian rodents. Woods, C.A. Biogeography of the West Indies: Past, Present, and Future. Sandhill Crane Press, Gainesville., 741798.Google Scholar
Wright, H.E., Mann, D.H., Glaser, P.H. (1984). Piston corers for peat and lake sediments. Ecology. 65, 657659.Google Scholar