Preceramic human skeletal remains preserved in submerged caves near Tulum in the Mexican state of Quintana Roo, Mexico, reveal conflicting results regarding 14C dating. Here we use U-series techniques for dating a stalagmite overgrowing the pelvis of a human skeleton discovered in the submerged Chan Hol cave. The oldest closed system U/Th age comes from around 21 mm above the pelvis defining the terminus ante quem for the pelvis to 11311±370 y BP. However, the skeleton might be considerable older, probably as old as 13 ky BP as indicated by the speleothem stable isotope data. The Chan Hol individual confirms a late Pleistocene settling of Mesoamerica and represents one of the oldest human osteological remains in America.
Abstract. Unique bell-shaped underwater speleothems were recently reported from the
deep (∼ 55 m) meromictic El Zapote sinkhole (cenote) on the
Yucatán Peninsula, Mexico. The local diving community has termed these
speleothems as Hells Bells because of their shape and appearance in a dark
environment in ∼ 28–38 m water depth above a sulfidic halocline. It
was also suggested that Hells Bells form under water, yet the mystery of
their formation remained unresolved. Therefore, we conducted detailed
hydrogeochemical and geochemical analyses of the water column and Hells Bells
speleothems including stable carbon isotopes. Based on the comprehensive
results presented in this study we deduce that both biogeochemical processes
in the pelagic redoxcline and a dynamic halocline elevation of El Zapote
cenote are essential for Hells Bells formation. Hells Bells most likely form
in the redoxcline, a narrow 1–2 m thick water layer immediately above the
halocline where a pelagic chemolithoautotrophic microbial community thrives
from the upward diffusion of reduced carbon, nitrogen and sulfur species
released from organic matter degradation in organic-rich debris. We
hypothesize that chemolithoautotrophy, in particular proton-consuming
nitrate-driven anaerobic sulfide oxidation, favors calcite precipitation in
the redoxcline and hence Hells Bells formation. A dynamic elevation of the
halocline as a hydraulic response to droughts, annual tidal variability and
recharge events is further discussed, which might explain the shape of Hells
Bells as well as their occurrence over a range of 10 m water depth. Finally,
we infer that highly stagnant conditions, i.e., a thick halocline, a
low-light environment and sufficient input of organic material into a deep
meromictic cenote are apparent prerequisites for Hells Bells formation. This
might explain their exclusivity to only a few cenotes in a restricted area of
the northeastern Yucatán Peninsula.
Here, we report on an incomplete human skeleton, soot patches related to anthropogenic fireplaces, and cut marks on the mandible of an extinct peccary, from the submerged Muknal cave southwest of Tulum on the Mexican Yucatán peninsula. The human individual, here named ‘Muknal Grandfather’, was identified as a male based on cranial parameters. The age at the time of death was estimated to be between 40 and 45 years. We propose that the human bones have been brought to the cave during the latest Pleistocene or early Holocene, but not later than 8600 14C yr BP (ca. 9600 cal BP), as a secondary burial of a partial skeleton. The peccary mandible was placed close to the burial site, possibly as part of the same ritual. The Muknal cave therefore served as a place for funeral rituals.
A speleothem record from the north-eastern Yucatán peninsula (Mexico) provides new insights into the tropical hydro-climate of the Americas between 11,040 and 9520 a BP on up to sub-decadal scale. Despite the complex atmospheric reorganization during the end of the last deglaciation, the dominant internal leading modes of precipitation variability during the late Holocene were also active during the time of record. While multi-decadal variations were not persistent, Mesoamerican precipitation was dominated by changes on the decadal- and centennial scale, which may be attributed to ENSO activity driven by solar forcing. Freshwater fluxes from the remnant Laurentide ice sheet into the Gulf of Mexico and the North Atlantic have additionally modulated the regional evaporation/precipitation balance. In particular, this study underlines the importance of solar activity on tropical and subtropical climate variability through forcing of the tropical Pacific, providing a plausible scenario for observed recurrent droughts on the decadal scale throughout the Holocene.
The human settlement of the Americas has been a topic of intense debate for centuries, and there is still no consensus on the tempo and mode of early human dispersion across the continent. When trying to explain the biological diversity of early groups across North, Central and South America, studies have defended a wide range of dispersion models that tend to oversimplify the diversity observed across the continent. In this study, we aim to contribute to this debate by exploring the cranial morphological affinities of four late Pleistocene/early Holocene specimens recovered from the caves of Quintana Roo, Mexico. The four specimens are among the earliest human remains known in the continent and permit the contextualization of biological diversity present during the initial millennia of human presence in the Americas. The specimens were compared to worldwide reference series through geometric morphometric analyses of 3D anatomical landmarks. Morphological data were analyzed through exploratory visual multivariate analyses and multivariate classification based on Mahalanobis distances. The results show very different patterns of morphological association for each Quintana Roo specimen, suggesting that the early populations of the region already shared a high degree of morphological diversity. This contrasts with previous studies of South American remains and opens the possibility that the initial populations of North America already had a high level of morphological diversity, which was reduced as populations dispersed into the southern continent. As such, the study of these rare remains illustrates that we are probably still underestimating the biological diversity of early Americans.
<p><strong>Abstract.</strong> Unique bell-shaped underwater speleothems were recently reported from the deep (~&#8201;55&#8201;m) meromictic El Zapote sinkhole (cenote) on the Yucat&#225;n Peninsula, Mexico. The local diving community has termed these speleothems as Hells Bells because of their shape and appearance in a lightless environment in ~&#8201;28&#8211;38&#8201;m water depth above a sulfidic halocline. It was also suggested that Hells Bells form under water, yet the mystery of their formation remained unresolved. Therefore, we conducted detailed hydrogeochemical and geochemical analyses of the water column and Hells Bells speleothems including stable carbon isotopes. Based on the comprehensive results presented in this study we deduce that both, biogeochemical processes in the pelagic redoxcline and a dynamic halocline elevation of El Zapote cenote, are essential for Hells Bells formation. Hells Bells most likely form in the redoxcline, a narrow 1&#8211;2&#8201;m thick water layer immediately above the halocline where a pelagic chemolithoautotrophic microbial community thrives from the upward diffusion of reduced carbon, nitrogen and sulfur species released from organic matter degradation in organic-rich debris. We hypothesize that chemolithoautotrophy, in particular the proton consuming nitrate-driven anaerobic sulfide oxidation, favors calcite precipitation in the redoxcline and hence Hells Bells formation. A dynamic elevation of the halocline as a hydraulic response to recharge events, e.g. hurricanes, is further discussed, which might explain the shape of Hells Bells as well as their occurrence over a range of 10&#8201;m water depth. Finally, we infer apparent prerequisites for Hells Bells formation considering the exclusivity of these underwater speleothems to only a few cenotes of a restricted area of the northeastern Yucat&#225;n Peninsula.</p>
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