Abstract
Down-core changes in sedimentary facies, elemental geochemistry, pollen, spore, δ13C, δ15N and radiocarbon records from a filled lake, named R4, of the Serra Sul dos Carajás were used to study the relationship between the paleomorphological and paleoecological processes and their significance for Holocene paleoclimatology of the southeast Amazonia. The sediment deposition of the R4 lake started around 9500 cal yr BP. Increase of detrital components from 9500 to 7000 cal yr BP suggests high weathering of surrounding catchment rocks and soils, and deposition into the lake basin under mudflows. At that time, montane savanna and forest formation were already established suggesting predominance of wet climate. However, from 7000 to 3000 cal yr BP, a decline of detrital input occurred. Also, forest formation and pteridophytes were declined, while palms and macrophytes were remained relatively stable, indicating that water levels of the lake is likely dropped allowing the development of plants adapted to subaerial condition under drier climate conditions. After 3000 cal yr BP, eutrophication and low accommodation space lead to high lake productivity and the final stage of the lake filling respectively, and forest formation may has acquired its current structure, which suggests return of wetter climate conditions.
Highlights
Incoming insolation has been considered as the main rule controlling the intensity of the SouthAmerican monsoon system (SAMS) (Kutzbach et al 2008), with precession regulating insolation changes at tropical latitudes and eccentricity modulating its amplitude (Berger 1978, Baker and Fritz 2015)
About 0.2 g of dried and powdered samples from each sedimentary facies were analyzed by inductively coupled plasma optical emission spectrometry (ICP-OES; major elements) and inductively coupled plasma optical mass spectrometry (ICP-MS; trace elements including rare earth elements (REEs)), in the Acme Analytical Laboratory (Vancouver, Canada), after tetraborate fusion followed by dilute nitric acid digestion
Bayesian age-depth modelling for R4 core assumed a gamma distribution and a mean accumulation rate of 100 yr/cm (0.1 mm/yr), which resulted in maximum age of deposition of 9500 cal yr BP (Fig. 2; Table I)
Summary
Incoming insolation has been considered as the main rule controlling the intensity of the SouthAmerican monsoon system (SAMS) (Kutzbach et al 2008), with precession regulating insolation changes at tropical latitudes and eccentricity modulating its amplitude (Berger 1978, Baker and Fritz 2015). Western Amazon records moderately dry conditions for this period. This suggests the presence of a dipole of precipitation associated to a walker cell that gives rise to an east-west bipolar see-saw pattern of monsoon precipitation (Cruz et al 2009). Baker and Fritz (2015) re-evaluated the speleothem records presented by Cheng et al (2013), and indicated different paleoclimate condition. This new evidence needs to be tested using other paleoclimate proxies
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