Quaternary record of terrestrial environmental change in response to climatic forcing and anthropogenic perturbations, in Puerto Rico

Abstract

We present cospatial, contemporary archival records of biotic and abiotic terrestrial processes operating over the past ∼25 ky within the Rio Fajardo watershed, in northeastern Puerto Rico. The proxy records were derived from a 5-m-thick stratigraphic section exposed by cut bank incision. We interpreted ecosystem dynamics from changes in the stable carbon isotopic ratio of sedimentary organic material compared to δ13C ratios of contemporary carbon sources. Sedimentary organic material had δ13C values ranging from −29.715 to −15.291. We derived a record of paleo-erosion rates in the catchment from the concentration of meteoric 10Be in layers of the floodplain sediments. Paleo-erosion rates ranged from 13 to 356 mm ky−1. The chronology of the sediments was constrained with the radiocarbon ages of organic deposits, the oldest age was calibrated to ∼22.4 ky BP (thousand years before present) and retrieved at 440 cm depth. We collected grain size data, clay mineralogies, and analyzed geochemical indices including the chemical weathering index, salinization, and base cation loss down profile. This stratigraphic sequence captures major shifts in the Caribbean climate, the intensification of the El Nino-Southern Oscillation, and the arrival of humans on the island. During the last glacial and early Holocene epochs both biotic (δ13C) and abiotic proxies (10Bemet and geochemical data) indicated dynamic equilibrium with climate. The past five thousand years (ky) of record are characterized instead by pulsed responses to disturbances in both systems. Colonial-era land use drove changes that significantly exceeded natural variability in any proxy over the period of record.