Your search keyword '"Rodrigues, T."' showing total 4 results

1. δ18O and Mg/Ca Thermometry in Planktonic Foraminifera: A Multiproxy Approach Toward Tracing Coastal Upwelling Dynamics.

Author

Salgueiro, E., Voelker, A. H. L., Martin, P. A., Rodrigues, T., Zúñiga, D., Froján, M., Granda, F., Villacieros‐Robineau, N., Alonso‐Pérez, F., Alberto, A., Rebotim, A., González‐Álvarez, R., Castro, C. G., and Abrantes, F.

Subjects

UPWELLING (Oceanography), FORAMINIFERA, OCEAN temperature, THERMOMETRY, OCEAN bottom, TEMPERATURE measurements, SEDIMENT sampling

Abstract

Planktonic foraminifera δ18O and Mg/Ca ratios are widely considered as a powerful proxy to reconstruct past seawater‐column temperature. Due to the complex interpretation of planktonic foraminifera δ18O data in regard to past seawater temperatures, temperature determination based on the foraminifera shell Mg/Ca ratio is believed to be more accurate. Scarce Mg/Ca calibration data exists for coastal upwelling regions, resulting in incoherent results of past seawater reconstructions. The current study along the NW Iberia coastal upwelling system intends to define the best Mg/Ca temperature equation for the most representative species of this region (Neogloboquadrina incompta, Globigerina bulloides, and Globorotalia inflata). Seawater temperature from δ18O and Mg/Ca of these three planktonic foraminifera species was compared with the surface sediments alkenone derived SST and with the in situ temperatures measured at the depths where these foraminifera species currently live and calcify. The equations that better reflect each species calcification depth were selected as our regional equations for δ18O and Mg/Ca temperature reconstructions. The δ18O‐estimated temperatures for surface sediment specimens were comparable with in situ seawater‐column temperature measurements, whereas the Mg/Ca derived temperatures seem to underestimate in situ values, in special for G. bulloides from samples affected by stronger coastal upwelling. The G. bulloides δ18O and Mg/Ca estimated temperatures from samples located offshore, further from coastal upwelling influence, are comparable to surface sediment alkenone derived temperatures. Our study shows that in upwelling areas, regional calibration of planktonic foraminifera Mg/Ca temperature equations is necessary for reliable interpretations of high‐resolution past temperature variability in these important environments. Plain Language Summary: To reconstruct past seawater temperatures from foraminifera shells' Mg/Ca content, implies the use of calibration equations. Most of the existing equations do not include samples from coastal upwelling areas. In this work, we have calibrated both δ18O and Mg/Ca measured in the planktonic foraminifer's dominant species in surface sediments from NW Iberian margin. We used in situ temperatures, at the depths where these foraminiferal species currently live and calcify, and the alkenone‐derived temperature for the same sediments. δ18O estimated temperatures are equivalent to in situ seawater column temperatures, while Mg/Ca derived temperatures seem to underestimate in situ values, in special for G. bulloides in samples close to the coast, under stronger coastal upwelling influence. However, outside upwelling influence results are comparable to alkenone‐derived temperatures. Our study shows that to estimate past temperatures from planktonic foraminifera Mg/Ca, with confidence, regional calibrations are necessary, in particular for coastal upwelling systems. Key Points: To define the appropriate δ18O and Mg/Ca paleotemperature equations to be used in the most abundant planktonic foraminifera species preserved in the ocean floor at the NW Iberia coastal upwelling systemδ18O‐temperatures mirror in situ temperatures while the Mg/Ca‐temperatures underestimate the observed values, especially for G. bulloides, under stronger coastal upwelling influenceG. bulloides δ18O and Mg/Ca estimated temperatures are comparable to surface sediment alkenone‐temperatures for samples located offshore, without a strong coastal upwelling [ABSTRACT FROM AUTHOR]

Published

2020

2. Climate change and coastal hydrographic response along the Atlantic Iberian margin (Tagus Prodelta and Muros Ría) during the last two millennia.

Author

Lebreiro, S. M., Frances, G., Abrantes, F. F. G., Diz, P., Bartels-Jónsdóttir, H. B., Stroynowski, Z. N., Gil, I. M., Pena, L. D., Rodrigues, T., Jones, P. D., Nombela, M. A., Alejo, I., Briffa, K. R., Harris, I., and Grimalt, J. O.

Subjects

CLIMATE change, PALEOCLIMATOLOGY, OCEAN-atmosphere interaction, ATMOSPHERIC pressure, HYDRODYNAMICS, FLUID dynamics, MARINE meteorology, STRATIGRAPHIC geology

Abstract

The Tagus Prodelta (W Portugal) and the Muros Ría (NW Spain) are areas of high deposition rates registering high-resolution palaeoclimatic records for western Iberia. We compare the climatic conditions of the two areas over the last two millennia based on proxies of temperature (sea surface temperatures and oxygen isotopes), continental input (grain size, iron and magnetic susceptibility) and productivity (inorganic and organic carbon, carbon isotopes, benthic foraminifera and diatoms). Biogeochemical changes in the Tagus Prodelta reflect widely recognized North Atlantic climatic periods encompassing the Roman Period (AD 0-350), the Dark Ages (AD 400-700), the 'Mediaeval Warm Period' (MWP; AD 800-1200) and the 'Little Ice Age' (LIA; AD 1300-1750). The atmospheric North Atlantic Oscillation (NAO) drives the Tagus Prodelta multidecadal, long-term variability in precipitation-river input during cold periods (negative NAO) and marine upwelling during warmer periods (positive NAO), a scheme that is reversed in the Galician region. The Muros Ría shows only local hydrodynamics until AD 1150, including a 'suboxic' event in the inner Ría around AD 500-700. Since AD 1150 Atlantic warm upwelled waters have ventilated the outer Ría but only reach the inner Ría at AD 1750. The twentieth- century records are also interpreted as a reflex of the inverse NAO mode in both areas, resulting in amplification of the LIA biogeochemical water conditions. Centennial-scale solar activity appears to be another important forcing mechanism (or the only one, if solar activity drives the NAO and 'Bond-cycles') behind changes in the hydrography of the Tagus Prodelta, and primary production, bottom ventilation and organic carbon degradation in the Muros Ría. [ABSTRACT FROM AUTHOR]

Published

2006

3. Time-transgressive Holocene maximum of temperate and Mediterranean forest development across the Iberian Peninsula reflects orbital forcing.

Author

Gomes, S.D., Fletcher, W.J., Rodrigues, T., Stone, A., Abrantes, F., and Naughton, F.

Subjects

*HEATHLANDS, *INTERGLACIALS, *TEMPERATE forests, *OCEAN temperature, *YOUNGER Dryas, *SUMMER, *PENINSULAS, *ECOSYSTEM dynamics

Abstract

We describe a new pollen and Sea Surface Temperature (SST) record with sub-centennial to centennial resolution from a well-dated sediment core (D13882) obtained from the Atlantic margin of the southwest Iberian Peninsula. The core provides new insights into the dynamics of five ecological pollen-based groups (temperate forests, Mediterranean forests, pinewoods, heathlands and steppe) since the Late Pleistocene (last 13,260 cal yr BP). The record shows that the Early Holocene was marked by an increase of temperate and Mediterranean taxa, accompanied by a reduction of steppic plants, reflecting warm and relatively moist conditions when compared with the previous Younger Dryas episode. The timing of this Temperate and Mediterranean Forest (TMF) maximum which reflects optimum conditions of temperature and precipitation is regionally specific, as detected through a comparison of three marine cores across the Iberian Peninsula. Maximum TMF development occurs between 9760 and 7360 cal yr BP in D13882 whereas at a site to the northwest (MD03-2697), the maximum occurs some centuries earlier, and at a southeast site (MD95-2043), the maximum is evident later. The duration of the forest maximum is also progressively longer from northwest to southwest to southeast. A transition from forested ecosystems to heathland over western Iberia characterises the Middle Holocene, starting from around 7360 cal yr BP in D13882, suggesting reduced seasonality and a more Atlantic climate character with more moisture evenly available through the year. This contrasts with the aridity recorded in southeast Iberian sites and reflects a stable precipitation gradient between the wetter west and drier east of the Iberian Peninsula. Against this backdrop, pinewoods had a continuous presence, albeit with a trend of steady decline through the Holocene. The time-transgressive pattern in the TMF maximum is best explained by a less favourable moisture balance in the drier southeast sector, which was particularly important during the Early Holocene. Despite the relatively short duration of the Holocene interglacial (one half precession cycle), our observations support a key role for orbital forcing in the temporal expression of major vegetation groups, specifically the decline in summer insolation and the precession-related passage of perihelion season from summer to winter. • New pollen and SST record from SW Iberian marine for the last 13260 cal yr BP • Time transgressive pattern of Holocene forest maximum across NW, SW and SE Iberia • Stability of moisture gradient from NW to SE Iberia across the Holocene • Forest to heathland transition governed by orbital forcing (precession) [ABSTRACT FROM AUTHOR]

Published

2020

4. Coupled ocean and atmospheric changes during Greenland stadial 1 in southwestern Europe.

Author

Naughton, F., Costas, S., Gomes, S.D., Desprat, S., Rodrigues, T., Sanchez Goñi, M.F., Renssen, H., Trigo, R., Bronk-Ramsey, C., Oliveira, D., Salgueiro, E., Voelker, A.H.L., and Abrantes, F.

Subjects

*YOUNGER Dryas, *MERIDIONAL overturning circulation, *JET streams, *OCEAN temperature, *OCEAN, *SEA ice, *WESTERLIES

Abstract

Paleoclimate reconstructions suggest that the complex variability within the Greenland stadial 1 (GS-1) over western Europe was governed by coupled ocean and atmospheric changes. However, few works from the North Atlantic mid-latitudes document both the GS-1 onset and its termination, which are often considered as single abrupt transition events. Here, we present a direct comparison between marine (alkenone-based sea surface temperatures) and terrestrial (pollen) data, at very high resolution (28 years mean), from the southwestern Iberian shelf record D13882. Our results reveal a rather complex climatic period with internally changing conditions. The GS-1 onset (GS-1a: 12890-12720 yr BP) is marked by a progressive cooling and drying; GS-1b (12720-12390 yr BP) is the coldest and driest phase; GS-1c (12390-12030 yr BP) is marked by a progressive warming and increase in moisture conditions; GS-1 termination (GS-1d: 12030-11770 yr BP) is marked by rapid switches between cool wet, cold dry and cool wet conditions. Although hydroclimate response was very unsteady throughout the GS-1 and in particular during its termination phase, the persistence of an open temperate and Mediterranean forest in southwestern Iberia during the entire episode suggests that at least some moisture was delivered via the Westerlies. We propose coupled ocean and atmospheric mechanisms to reproduce these scenaria. Changes in the strength of the Atlantic Meridional Overturning Circulation (AMOC) as well as variations in the North Atlantic sea-ice growth have favoured the displacement of the polar jet stream's latitudinal position and contributed to a complex spatial pattern and strength of the Westerlies across western Europe. • Highlights of the Quaternary Science Reviews paper by Naughton et al.. • GS-1 in SW Iberia is a complex climatic period with four main phases. • Hydroclimate was very unsteady throughout the GS-1 event and in particular during its termination phase. • Ocean and atmospheric changes contributed to a complex spatial pattern of the Westerlies across Western Europe. [ABSTRACT FROM AUTHOR]

Published

2019