Determinação do grau da influência terrestre versus marinha ao longo da transição Río de La Plata - Oceano Atlântico Sul, através de proxies bióticos e abióticos / Terrestrial versus marine influence determination on the Rio de La Plata - South Atlantic Ocean transition, by the biotic and abiotic proxies analyses

Nuria Lahuerta Pineiro

06 February 2014

O Río de La Plata (RdlP) e a costa leste do Uruguai representam uma zona de estudo de grande complexidade e interesse. Para caracterizar o transporte do sedimento terrígeno e assim decifrar o registro sedimentar, foram usados diferentes proxies: indicadores da origem da matéria orgânica (δ13C, δ15N e C/N), de contribuição terrestre (Al e Ti, Fe/Ca e Ti/Ca), de produtividade (conteúdo de Corg, Nt, CaCO3, Si, P, Ca, Ba, Al/Ti, Fe/Al, Ba/Al e Ba/Ti), e os indicadores de energia do ambiente (granulometria, diâmetro médio e seleção do sedimento), além das associações de proxies biológicos como tecamebas e ostrácodes, muito sensíveis ao padrão de salinidade, e foraminíferos bentônicos como integradores das principais características ambientais. Todos os proxies analisados refletiram o gradiente coincidente de influência continental versus marinha em direção a jusante na região do RdlP, provocada pela descarga dos rios Paraná e Uruguai, em contraposição à entrada de água marinha a montante. Na região oceânica, o gradiente observou-se na direção norte, provocado pelo efeito da vazão da pluma do RdlP e a vazão continental dos rios e lagoas dos Departamentos de Maldonado e Rocha. Este trabalho representa uma das primeiras abordagens multiproxies que revelam o registro nos sedimentos nessa área e garante boas perspectivas para estudos posteriores ambientais e paleoambientais. / The Rio de La Plata (RdlP) and the Uruguayan east shore represent a complex area. In order to characterize terrestrial sediment transport and to figure out the sedimentary record, different kind of proxies were used, both abiotic: bulk organic matter (δ13C, δ15N and C/N), terrestrial contribution (Al and Ti, Fe/Ca and Ti/Ca), productivity (Corg, Nt, CaCO3, Si, P, Ca, Ba, Al/Ti, Fe/Al, Ba/Al and Ba/Ti), environmental energy indicators (grain size), and biological proxies: tecamoebians and ostracoda, which are extremely susceptive to salinity changes, and benthic foraminifera as a environmental characteristics integrator. All analysed proxies reflected the difference between terrestrial versus marine gradient downstream on the RdlP, caused by the Paraná and Uruguay rivers discharge, versus marine water inlet upstream. In the oceanic region, the gradient was northward, caused by RdlP plume and terrestrial discharge from Maldonado and Rocha Department rivers and lagoons. This dissertation represents one of the first multiproxy approach, which reveals the sediment record in this area and, which guarantees the good perspectives for subsequent environmental and paleoenvironmental studies.

foraminíferos

gradiente

plataforma

proxies geoquímicos

Río de La Plata

salinidade

tafonomia

foraminifera

geochemical proxies

gradient

Río de La Plata

salinity

shelf

taphonomy

Evaluating Geochemical Proxies for Paleoclimate Reconstruction in Tropical Montane Peat : A Case Study from the Nilgiris, Southern India

Bala, P Ramya

January 2015

Peat from the temperate regions has been used for paleoenvironmental reconstruction using diverse proxies for over a century now. Peat is rare and severely understudied in the tropics. The montane peat bogs of the Nilgiris, southern India have been found to preserve global climatic signals including the Holocene Optimum and the Last Glacial Maximum (LGM). At Sandynallah, one of the oldest peat accumulations in the world at >40 kyr BP, we had undertaken a high resolution paleoenvironmental reconstruction using multiple proxies which are yet to be evaluated in the tropical context. The study consists of 3 main objectives, i. Establishing an accurate high resolution chronology for the peat profile using radiocarbon dating, ii. Extracting vegetation and climate information from C/N ratio and Rock-Eval indices and iii. Using elemental profiles to establish the utility of inorganic geochemical proxies for processes such as weathering and dust transport. High resolution chronology for the site was built using Accelerator Mass Spectrometry (AMS) radiocarbon dates. To improve accuracy of the age-depth model, we also tested 4 samples for the effects of the AAA (Acid-Alkali-Acid) extraction method, the most common pre-treatment method for peat in the world. We compared ages on bulk samples (acid washed) and AAA treated samples from 4 different depths. We find that for all depths, the ages of the untreated samples do not lie within the internal uncertainty window and differ from the AAA treated sample age by at least an order of magnitude of the internal error, if not more. Based on these results we argue that the internal error should be used in conjunction with a reliable estimate of external error in an age-depth model for more realistic dating of paleoclimatic events. C/N ratios were explored for their paleoclimatic potential in conjunction with Rock-Eval indices and it was found that decomposition in tropical peat, as opposed to temperate peat, may not be sensitive to climatic perturbations. Inorganic geochemical proxies were also evaluated through this study. We see that the major and trace elements, except the lanthanide series do not show many significant trends for paleoenvironmental interpretation. But the lanthanides show some promise for identifying potential sources of dust and weathered material. Our study has addressed the gap in knowledge about the utility of recent geochemical proxies in tropical peat and has attempted to provide a solution to improve reliability in constructing age-depth models.

Tropical Montane Peat

Palaeoclimatology

Inorganic Geochemistry

Paleoenvironmental Reconstruction

High Resolution Chronology

Geochemical Proxies

Nilgiris Montane Peat Bogs

Environmental Reconstruction Proxies

Abrupt Climate Shifts

Peat Chronology

Earth Science