Author:
Brenner Mark,Rosenmeier Michael F.,Hodell David A.,Curtis Jason H.
Abstract
Since the late 1950s, scientists have used sediment cores from
lakes on the Yucatan Peninsula to explore the complex interactions
among climate, environment, and ancient Maya culture. Early
paleolimnological studies generally assumed that late Holocene
climate was invariable. Consequently, paleolimnologically inferred
environmental changes that occurred during the past 3,000 years
or so—for example, forest decline and soil erosion—were
attributed wholly to anthropogenic activities such as land
clearance for agriculture and construction. Recent high-resolution,
proxy-based paleoclimate records from continental and insular
sites around the Caribbean Sea contradict the assumption of
late Holocene climate stability. Instead, these core data suggest
that regional drying began about 3,000 years ago and that the
past three millennia were characterized by variable moisture
availability. Paleoclimate inferences from Lakes Chichancanab
and Punta Laguna, northern Yucatan Peninsula, indicate that
drought events over the past 2,600 years were cyclical. These
dry events, thought to have been driven by solar forcing, appear
to have occurred approximately every two centuries (about 208
years). The driest period of the late Holocene occurred between
A.D. 800 and 1000, coincident with the Classic Maya
Collapse. We review the history of paleolimnological studies
in the Maya Lowlands, discuss the difficulty of differentiating
climatic signals from anthropogenic signals in late Holocene
lake sediment profiles, and assess current understanding of
past climate changes in the region based on regional lacustrine
sediment studies.
Publisher
Cambridge University Press (CUP)
Subject
Arts and Humanities (miscellaneous),Geography, Planning and Development
Cited by
105 articles.
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