Your search keyword '"Lathika N"' showing total 122 results

1. Eolian versus fluvial supply to the northern Arabian Sea during the Holocene based on Nd isotope and geochemical records

Author

Rahaman, Waliur, Lathika, N., Prabhat, Priyesh, Tarique, Mohd., Arya, K.S., Mishra, Ravi, and Thamban, Meloth

Published

2023

2. Deep water circulation in the Arabian Sea during the last glacial cycle: Implications for paleo-redox condition, carbon sink and atmospheric CO2 variability

Author

Lathika, N., Rahaman, Waliur, Tarique, Mohd, Gandhi, Naveen, Kumar, Avinash, and Thamban, Meloth

Published

2021

3. Revisiting the mid-Pleistocene transition ocean circulation crisis.

Author

Hines SKV, Charles CD, Starr A, Goldstein SL, Hemming SR, Hall IR, Lathika N, Passacantando M, and Bolge L

Abstract

The mid-Pleistocene transition (MPT) [~1.25 to 0.85 million years ago (Ma)] marks a shift in the character of glacial-interglacial climate ( 1 , 2 ). One prevailing hypothesis for the origin of the MPT is that glacial deep ocean circulation fundamentally changed, marked by a circulation "crisis" at ~0.90 Ma (marine isotope stages 24 to 22) ( 3 ). Using high-resolution paired neodymium, carbon, and oxygen isotope data from the South Atlantic Ocean (Cape Basin) across the MPT, we find no evidence of a substantial change in deep ocean circulation. Before and during the early MPT (~1.30 to 1.12 Ma), the glacial deep ocean variability closely resembled that of the most recent glacial cycle. The carbon storage facilitated by developing deep ocean stratification across the MPT required only modest circulation adjustments.

Published

2024

4. Enhanced CO2 Degassing From the Tropical Indian Ocean During Cold Climatic Events of the Last Glacial Cycle

Author

Tarique, Mohd, primary, Rahaman, Waliur, additional, Lathika, N., additional, Prabhat, Priyesh, additional, Thamban, Meloth, additional, and Misra, Sambuddha, additional

Published

2023

5. Enhanced CO2 Degassing From the Tropical Indian Ocean During Cold Climatic Events of the Last Glacial Cycle.

Author

Tarique, Mohd, Rahaman, Waliur, Lathika, N., Prabhat, Priyesh, Thamban, Meloth, and Misra, Sambuddha

Subjects

SEAWATER salinity, CARBON cycle, ATMOSPHERIC carbon dioxide, LAST Glacial Maximum, BORON isotopes, ALPINE glaciers, OCEAN, WATER transfer

Abstract

Atmospheric CO2 variability on the glacial–interglacial (G–IG) timescale reflects a balance between oceanic and terrestrial processes involving carbon uptake and release. The Southern Ocean CO2 uptake is considered as an important modulator for the G–IG atmospheric CO2 variability, while the role of tropical ocean ventilation remains enigmatic. We present critical evidence for CO2 ventilation from the tropical Indian Ocean through the reconstruction of the Arabian Sea‐surface pCO2 for the past ∼136 ka utilizing boron isotope (δ11B) record of planktic foraminifera, Globigerinoides ruber. Our site in the Arabian Sea presently acts as a significant source of CO2. The reconstructed ΔpCO2 (ΔpCO2 = pCO2 Seawater − pCO2 Atmosphere) record shows an enhanced CO2 degassing up to ∼50 ppm during the major cooling events, such as the Last Glacial Maximum, Younger Dryas, and Heinrich‐Stadials. Our investigation based on multiproxy records of sea‐surface temperature, salinity, and productivity suggests that the northward invasion and shoaling of southern source CO2‐rich water, coupled with stronger upwelling, resulted in CO2 degassing during these cold intervals. This finding is in align with the tropical Atlantic which also demonstrated an enhanced CO2 degassing during the cold intervals; however, most of the upwelled CO2 was consumed as the water moved away from the upwelling sites. Therefore, our finding, when considered alongside tropical Atlantic records, suggests that tropical oceans played a minor role in reducing atmospheric CO2 levels during the cold intervals of the last glacial cycle, supporting the prevailing hypothesis. Key Points: Foraminifera δ11B‐based CO2 record of Arabian Sea surface for the past ∼136 kaEnhanced CO2 degassing during the cold climate events, that is, Heinrich‐Stadials, Younger Dryas, and Last Glacial MaximumThis degassing was caused by more export of southern‐sourced water and its upwelling [ABSTRACT FROM AUTHOR]

Published

2023

6. Site U1474

Author

Hall, I.R., primary, Hemming, S.R., additional, LeVay, L.J., additional, Barker, S., additional, Berke, M.A., additional, Brentegani, L., additional, Caley, T., additional, Cartagena-Sierra, A., additional, Charles, C.D., additional, Coenen, J.J., additional, Crespin, J.G., additional, Franzese, A.M., additional, Grüetzner, J., additional, Han, X., additional, Hines, S.K.V., additional, Jimenez-Espejo, F.J., additional, Just, J., additional, Koutsodendris, A., additional, Kubota, K., additional, Lathika, N., additional, Norris, R.D., additional, Periera dos Santos, T., additional, Robinson, R., additional, Rolinson, J.M., additional, Simon, M.H., additional, Tangunan, D., additional, van der Lubbe, J.J.L., additional, Yamane, M., additional, and Zhang, H., additional

Published

2017

7. Expedition 361 methods

Author

Hall, I.R., primary, Hemming, S.R., additional, LeVay, L.J., additional, Barker, S., additional, Berke, M.A., additional, Brentegani, L., additional, Caley, T., additional, Cartagena-Sierra, A., additional, Charles, C.D., additional, Coenen, J.J., additional, Crespin, J.G., additional, Franzese, A.M., additional, Gruetzner, J., additional, Han, X., additional, Hines, S.K.V., additional, Jimenez Espejo, F.J., additional, Just, J., additional, Koutsodendris, A., additional, Kubota, K., additional, Lathika, N., additional, Norris, R.D., additional, Periera dos Santos, T., additional, Robinson, R., additional, Rolinson, J.M., additional, Simon, M.H., additional, Tangunan, D., additional, van der Lubbe, J.J.L., additional, Yamane, M., additional, and Zhang, H., additional

Published

2017

8. Expedition 361 summary

Author

Hall, I.R., primary, Hemming, S.R., additional, LeVay, L.J., additional, Barker, S., additional, Berke, M.A., additional, Brentegani, L., additional, Caley, T., additional, Cartagena-Sierra, A., additional, Charles, C.D., additional, Coenen, J.J., additional, Crespin, J.G., additional, Franzese, A.M., additional, Gruetzner, J., additional, Han, X., additional, Hines, S.K.V., additional, Jimenez Espejo, F.J., additional, Just, J., additional, Koutsodendris, A., additional, Kubota, K., additional, Lathika, N., additional, Norris, R.D., additional, Periera dos Santos, T., additional, Robinson, R., additional, Rolinson, J.M., additional, Simon, M.H., additional, Tangunan, D., additional, van der Lubbe, J.J.L., additional, Yamane, M., additional, and Zhang, H., additional

Published

2017

9. Persistent influence of precession on northern ice sheet variability since the early Pleistocene

Author

STEPHEN BARKER, AIDAN STARR, JEROEN VAN DER LUBBE, Alice Doughty, Gregor Knorr, Stephen Conn, Sian Lordsmith, Lindsey Owen, Alexandra Nederbragt, Sidney Hemming, Ian Hall, Leah Levay, Melissa Berke, Luna Brentegani, Thibault Caley, Alejandra Cartagena-Sierra, Christopher Charles, Jason James Coenen, Julian Crespin, Allison Franzese, Jens Gruetzner, Xibin Han, Sophie Hines, Francisco Jimenez-Espejo, Janna Just, Andreas Koutsodendris, Kaoru Kubota, Lathika N., Richard Norris, Thiago Periera dos Santos, Rebecca Robinson, John Rolison, Margit Simon, Deborah Tangunan, Masako Yamane, Hucai Zhang, and Geology and Geochemistry

Subjects

Multidisciplinary

Abstract

Prior to ~1 million years ago (Ma), variations in global ice volume were dominated by changes in obliquity; however, the role of precession remains unresolved. Using a record of North Atlantic ice rafting spanning the past 1.7 million years, we find that the onset of ice rafting within a given glacial cycle (reflecting ice sheet expansion) consistently occurred during times of decreasing obliquity whereas mass ice wasting (ablation) events were consistently tied to minima in precession. Furthermore, our results suggest that the ubiquitous association between precession-driven mass wasting events and glacial termination is a distinct feature of the mid to late Pleistocene. Before then (increasing), obliquity alone was sufficient to end a glacial cycle, before losing its dominant grip on deglaciation with the southward extension of Northern Hemisphere ice sheets since ~1 Ma.

Published

2022

10. Latitudinal Migrations of the Subtropical Front at the Agulhas Plateau Through the Mid-Pleistocene Transition

Author

Alejandra Cartagena-Sierra, Melissa Berke, Rebecca Robinson, Basia Marcks, Isla S. Castañeda, Aidan Starr, Ian R. Hall, Sidney R. Hemming, Leah J. LeVay, Stephen Barker, Luna Brentegani, Thibault Caley, Christopher Charles, Jason James Coenen, Julian Crespin, Allison Franzese, Jens Gruetzner, Xibin Han, Sophie Hines, Francisco Jimenez-Espejo, Janna Just, Andreas Koutsodendris, Kaoru Kubota, Lathika N., Richard Norris, Thiago Periera dos Santos, John Rolison, Margit Simon, Deborah Tangunan, Jeroen van der Lubbe, Masako Yamane, and Hucai Zhang

Abstract

The meridional variability of the Subtropical Front (STF) in the Southern Hemisphere, linked to expansions or contractions of the Southern Ocean, may have played an important role in global ocean circulation by moderating the magnitude of water exchange at the Indian-Atlantic Ocean Gateway, so called Agulhas Leakage. Here we present new biomarker records of upper water column temperature (and) and primary productivity (chlorins and alkenones) from marine sediments at IODP Site U1475 on the Agulhas Plateau, near the STF and within the Agulhas retroflection pathway. We use these multiproxy time-series records from 1.4 to 0.3Ma to examine implied changes in the upper oceanographic conditions at the mid-Pleistocene transition (MPT, ca. 1.2–0.8Ma). Our reconstructions, combined with prior evidence of migrations of the STF over the last 350 ka, suggest that in the Southwestern Indian Ocean the STF may have been further south from the Agulhas Plateau during the mid-Pleistocene Interim State (MPIS, MIS 23–12) and reached its northernmost position during MIS 34–24 and MIS 10. Comparison to aGloborotalia menardii-derived Agulhas Leakage reconstruction from the Cape Basin suggests that only the most extreme northward migrations of the STF are associated with reduced Agulhas Leakage. During the MPIS, STF migrations do not appear to control Agulhas Leakage variability, we suggest previously modeled shifting westerly winds may be responsible for the patterns observed. A detachment between STF migrations and Agulhas Leakage, in addition to invoking shifting westerly winds may also help explain changes in CO2ventilation seen during the MPIS.

Published

2021

11. Surface pH Record (1990–2013) of the Arabian Sea From Boron Isotopes of Lakshadweep Corals—Trend, Variability, and Control

Author

Tarique, Mohd, primary, Rahaman, Waliur, additional, Fousiya, A. A., additional, Lathika, N., additional, Thamban, Meloth, additional, Achyuthan, Hema, additional, and Misra, Sambuddha, additional

Published

2021

12. A plio-pleistocene (C. 0–4 ma) cyclostratigraphy for iodp site u1478 (mozambique channel, sw indian ocean): Exploring an offshore record of paleoclimate and ecosystem variability in se africa

Author

Koutsodendris, Andreas, Nakajima, Kai, Kaboth-Bahr, Stefanie, Berke, Melissa A., Franzese, Allison M., Hall, Ian R., Hemming, Sidney R., Just, Janna, Levay, Leah J., Pross, Jörg, Robinson, Rebecca, Barker, S., Brentegani, L., Caley, T., Cartagena-Sierra, A., Charles, C. D., Coenen, J. J., Crespin, J. G., Gruetzner, J., Han, X., Hines, S. K.V., Espejo, F. J. Jimenez, Kubota, K., Lathika, N., Norris, R. D., Dos Santos, T. Pereira, Rolinson, J. M., Simon, M. H., Tangunan, D., van der Lubbe, J. J.L., Yamane, M., Zhang, H., Koutsodendris, Andreas, Nakajima, Kai, Kaboth-Bahr, Stefanie, Berke, Melissa A., Franzese, Allison M., Hall, Ian R., Hemming, Sidney R., Just, Janna, Levay, Leah J., Pross, Jörg, Robinson, Rebecca, Barker, S., Brentegani, L., Caley, T., Cartagena-Sierra, A., Charles, C. D., Coenen, J. J., Crespin, J. G., Gruetzner, J., Han, X., Hines, S. K.V., Espejo, F. J. Jimenez, Kubota, K., Lathika, N., Norris, R. D., Dos Santos, T. Pereira, Rolinson, J. M., Simon, M. H., Tangunan, D., van der Lubbe, J. J.L., Yamane, M., and Zhang, H.

Abstract

The paleoclimate and ecosystem variability in Africa during the Plio/Pleistocene has received considerable attention due to its potential links to hominid evolution. However, the reconstruction of this variability hinges critically upon highly temporally resolved proxy data from continuous, well-dated sediment archives. In light of these requirements we use a new XRF core-scanning record from International Ocean Discovery Program (IODP) Site U1478 off the Limpopo River mouth (Mozambique Channel, SW Indian Ocean) spanning the past c. 4 Ma to identify the climate variability in SE Africa. Our results show that the elemental distribution in the Site U1478 cores is mainly controlled by the rate of terrigenous input and – to a lesser extent – by bottom-current transport and post-depositional processes such as propagation of paleoredox boundaries and diagenesis across some intervals. The log(Ti/Ca) ratio, which is used as a tracer of terrigenous sediment input, shows quasi-cyclical variability across the entire record that closely matches the periods of orbital parameters. However, the cyclical behaviour of the log(Ti/Ca) signal varies through time, with the uppermost 106 m of the sequence (0–1.07 Ma) displaying a mix of precession and obliquity signals, the intervals 106–223 m (1.07–2.80 Ma) and 240–257 m (3.68–4.05 Ma) being dominated by precession, and the interval 223–240 m (2.80–3.68 Ma) being controlled by eccentricity. To refine the available chronology for Site U1478, which is based on shipboard biostratigraphic and paleomagnetic data, we have tuned the log(Ti/Ca) record to the LR04 benthic oxygen isotope record, summer insolation at 25° S, and orbital eccentricity depending on the dominant cyclicities in the XRF dataset across individual time intervals. The resulting chronology enables us to evaluate the XRF data as well as the previously available shipboard sedimentological and geochemical datasets within a regional and global climatic context. This allows the c

Published

2021

13. Modern-like deep water circulation in Indian Ocean caused by Central American Seaway closure.

Author

Prabhat P, Rahaman W, Lathika N, Tarique M, Mishra R, and Thamban M

Subjects

Humans, Indian Ocean, Antarctic Regions, Water, Central American People

Abstract

Global overturning circulation underwent significant changes in the late Miocene, driven by tectonic forcing, and impacted the global climate. Prevailing hypotheses related to the late Miocene deep water circulation (DWC) changes driven by the closure of the Central American Seaways (CAS) and its widespread impact remains untested due to the paucity of suitable records away from the CAS region. Here, we test the hypothesis of the large-scale circulation changes by providing a high-resolution record of DWC since the late Miocene (11.3 to ~2 Ma) from the north-western Indian Ocean. Our investigation reveals a progressive shift from Pacific-dominated DWC before ~9.0 Ma to the onset of a modern-like DWC system in the Indian Ocean comprising of Antarctic bottom water and northern component water during the Miocene-Pliocene transition (~6 Ma) caused by progressive shoaling of the CAS and suggests its widespread impact., (© 2022. The Author(s).)

Published

2022

14. Persistent influence of precession on northern ice sheet variability since the early Pleistocene.

Author

Barker S, Starr A, van der Lubbe J, Doughty A, Knorr G, Conn S, Lordsmith S, Owen L, Nederbragt A, Hemming S, Hall I, Levay L, Berke MA, Brentegani L, Caley T, Cartagena-Sierra A, Charles CD, Coenen JJ, Crespin JG, Franzese AM, Gruetzner J, Han X, Hines SKV, Jimenez Espejo FJ, Just J, Koutsodendris A, Kubota K, Lathika N, Norris RD, Periera Dos Santos T, Robinson R, Rolison JM, Simon MH, Tangunan D, Yamane M, and Zhang H

Abstract

Prior to ~1 million years ago (Ma), variations in global ice volume were dominated by changes in obliquity; however, the role of precession remains unresolved. Using a record of North Atlantic ice rafting spanning the past 1.7 million years, we find that the onset of ice rafting within a given glacial cycle (reflecting ice sheet expansion) consistently occurred during times of decreasing obliquity whereas mass ice wasting (ablation) events were consistently tied to minima in precession. Furthermore, our results suggest that the ubiquitous association between precession-driven mass wasting events and glacial termination is a distinct feature of the mid to late Pleistocene. Before then (increasing), obliquity alone was sufficient to end a glacial cycle, before losing its dominant grip on deglaciation with the southward extension of Northern Hemisphere ice sheets since ~1 Ma.

Published

2022

15. The last 1 million years of the extinct genus Discoaster: Plio–Pleistocene environment and productivity at Site U1476 (Mozambique Channel)

Author

Sidney Hemming, Jens Gruetzner, Thiago Santos, Stephen Barker, Jeroen Van der Lubbe, Masako Yamane, Andreas Koutsodendris, Janna Just, Lathika N, Margit Simon, Thibaut Caley, Deborah Tangunan, David De Vleeschouwer, Richard Norris, Geology and Geochemistry, Institut Pierre Louis d'Epidémiologie et de Santé Publique (iPLESP), Université Pierre et Marie Curie - Paris 6 (UPMC)-Institut National de la Santé et de la Recherche Médicale (INSERM), Center for Marine Environmental Sciences [Bremen] (MARUM), and Universität Bremen

Subjects

010504 meteorology & atmospheric sciences, [SDU.STU]Sciences of the Universe [physics]/Earth Sciences, 010502 geochemistry & geophysics, Oceanography, 01 natural sciences, Expedition 361, Water column, Calcareous nannofossils, Photic zone, 14. Life underwater, Glacial period, SDG 14 - Life Below Water, Ecology, Evolution, Behavior and Systematics, ComputingMilieux_MISCELLANEOUS, 0105 earth and related environmental sciences, Earth-Surface Processes, Nannoplankton, Extinction, biology, Discoaster, Paleontology, Plio-Pleistocene, biology.organism_classification, Productivity (ecology), Upwelling, Western Indian Ocean, Geology

Abstract

A detailed paleoenvironment reconstruction from the Mozambique Channel, western Indian Ocean, based on the calcareous nannoplankton assemblages was conducted for the interval between 2.85 and 1.85 Myr. This study covers the period during which the successive extinction of the last five species of discoasters occurred. New productivity data obtained from the abundances of the Discoaster species (Discoaster brouweri, D. triradiatus, D. pentaradiatus, D. surculus, and D. tamalis) and other indicative calcareous nannoplankton taxa showed abundance variations, which were at paced with the 100, 41, and 23 kyr astronomical periodicities. A shift in the productivity and water-column stratification proxies occurred at ~2.4 Ma, after the onset of the Northern Hemisphere glaciation. Here we propose that the variability recorded at International Ocean Discovery Program Site U1476 reflects the interplay between forcing associated with warm tropical Pacific and cold southern ocean influences. The former is shown by consistent occurrence of warm water taxa (Calcidiscus leptoporus, Oolithotus spp., Rhabdosphaera clavigera, Syracosphaera spp., Umbellosphaera spp.), typical of Indonesian Throughflow surface waters. On the other hand, the occurrence of Coccolithus pelagicus indicates the influence of cold, nutrient-rich sub-Antarctic surface waters. A more mixed water column initiated at ~2.4 Ma, and a consequent productivity increase led to the gradual reduction of the Discoaster species, until their extinction at 1.91 Ma. This period was characterized by the low values of the Florisphaera profunda index and high abundances of upper photic zone flora, indicative of nutrient-rich surface water conditions. High productivity at the location during this period could have also been amplified by localized upwelling events driven by the Mozambique Channel eddies.

Published

2018

16. A new seismic stratigraphy for the Agulhas Plateau resembles major paleo-oceanographic changes in the Indian-Atlantic Ocean gateway since the late Miocene

Author

Gruetzner, Jens, Jimenez Espejo, F.J., Lathika, N., and Uenzelmann-Neben, Gabriele

Abstract

The exchange of shallow and deep water masses between the Indian Ocean and the Atlantic constitutes an integral inter-ocean link in the global thermohaline circulation. In the gateway south of South Africa long-term changes in deep water flow during the Cenozoic have been initially studied using seismic reflection profiles. But the seismic stratigraphy was poorly constrained and not further resolved within the time period from the late Miocene to present. In particular, there were limited Pliocene records that could be used to investigate the influence of climatic (e.g. Antarctic ice volume) and tectonic (e.g. closure of the Central American seaway) on the deep-water variability. In 2016 the International Ocean Discovery Program (IODP) Expedition 361 (“SAFARI”) recovered complete high-resolution Plio-/Pleistocene sediment sections at six drilling locations on the southeast African margin and in the Indian-Atlantic ocean gateway. Here, we present results from Site U1475 (Agulhas Plateau), a location proximal to the entrance of North Atlantic Deep Water (NADW) to the Southern Ocean and South Indian Ocean. The site is located over a sediment drift in 2669 m water depth and comprises a complete carbonate rich (74 – 85%) stratigraphic section of the last ~7 Ma. We edited high-resolution data sets of density, velocity and natural gamma radiation measured at Site U1475 and corrected them to in-situ conditions. Cross correlations show that acoustic impedance contrasts and thus the formation of seismic reflectors are mainly due to density changes that are caused by climate-induced variations in biogenic vs. terrigenous sediment input. The calculated synthetic seismograms show an excellent correlation of drilling results with the site survey seismic field record, provide an accurate traveltime to depth conversion, and allow preliminary age assignments (± 0.3 Ma) based on the shipboard bio- and magnetostratigraphy. The most prominent reflectors are associated with compositional changes related to late Pleistocene glacial/interglacial variability, the middle Pleistocene transition, and the onset of the northern hemisphere glaciation. Furthermore, a peculiar early Pliocene interval (~ 5.3 – 4.0 Ma) bounded by two reflectors is characterized by 3-fold elevated sedimentation rates (> 10 cm/ka) and the occurrence of sediment waves. We argue that this enhanced sediment transport to the Agulhas Plateau was caused by a reorganization of the bottom current circulation pattern due to maximized inflow of NADW. Rhythmic bedding within the Pliocene sediment wave sequence likely reflects the 100-kyr orbital cycle. On the other hand, colour reflectance and natural gamma radiation show highest variability in the precession band. The very regular response of the core logging data to orbital forcing suggests that the shipboard age model can be significantly improved by cyclostratigraphy.

Published

2018

17. Trace Elements and Sr, Nd Isotope Compositions of Surface Sediments in the Indian Ocean: An Evaluation of Sources and Processes for Sediment Transport and Dispersal

Author

Subha Anand, S., primary, Rahaman, Waliur, additional, Lathika, N., additional, Thamban, M., additional, Patil, S., additional, and Mohan, Rahul, additional

Published

2019

18. Site U1478

Author

Hall, I.R., Hemming, S.R., LeVay, L.J., Expedition 361 Scientists, t, Barker, S., Berke, M.A., Brentegani, L., Caley, T., Cartagena-Sierra, A., Charles, C.D., Coenen, J.J., Crespin, J.G., Franzese, A.M., Gruetzner, J., Han, X., Hines, S.K.V., Jimenez Espejo, F.J., Just, J., Koutsodendris, A., Kubota, K., Lathika, N., Norris, R.D., Periera dos Santos, T., Robinson, R., Rolinson, J.M., Simon, M.H., Tangunan, D., van der Lubbe, J.J.L., Yamane, M., Zhang, H., Hall, I.R., Hemming, S.R., LeVay, L.J., Expedition 361 Scientists, t, Barker, S., Berke, M.A., Brentegani, L., Caley, T., Cartagena-Sierra, A., Charles, C.D., Coenen, J.J., Crespin, J.G., Franzese, A.M., Gruetzner, J., Han, X., Hines, S.K.V., Jimenez Espejo, F.J., Just, J., Koutsodendris, A., Kubota, K., Lathika, N., Norris, R.D., Periera dos Santos, T., Robinson, R., Rolinson, J.M., Simon, M.H., Tangunan, D., van der Lubbe, J.J.L., Yamane, M., and Zhang, H.

Published

2017

19. Site U1475

Author

Hall, I. R., Hemming, S.R., LeVay, L.J., Expedition 361 Scientists, the, Hall, I.R., Barker, S., Berke, M.A., Brentegani, L., Caley, T., Cartagena-Sierra, A., Charles, C.D., Coenen, J.J., Crespin, J.G., Franzese, A.M., Gruetzner, J., Han, X., Hines, S.K.V., Jimenez Espejo, F.J., Just, J., Koutsodendris, A., Kubota, K., Lathika, N., Norris, R.D., Periera dos Santos, T., Robinson, R., Rolinson, J.M., Simon, M.H., Tangunan, D., van der Lubbe, J.J.L., Yamane, M., Zhang, H., Hall, I. R., Hemming, S.R., LeVay, L.J., Expedition 361 Scientists, the, Hall, I.R., Barker, S., Berke, M.A., Brentegani, L., Caley, T., Cartagena-Sierra, A., Charles, C.D., Coenen, J.J., Crespin, J.G., Franzese, A.M., Gruetzner, J., Han, X., Hines, S.K.V., Jimenez Espejo, F.J., Just, J., Koutsodendris, A., Kubota, K., Lathika, N., Norris, R.D., Periera dos Santos, T., Robinson, R., Rolinson, J.M., Simon, M.H., Tangunan, D., van der Lubbe, J.J.L., Yamane, M., and Zhang, H.

Published

2017

20. Expedition 361 summary

Author

Hall, I.R., Hemming, S.R., LeVay, L.J., Expedition 361 Scientists, the, Barker, S., Berke, M.A., Brentegani, L., Caley, T., Cartagena-Sierra, A., Charles, C.D., Coenen, J.J., Crespin, J.G., Franzese, A.M., Gruetzner, J., Han, X., Hines, S.K.V., Jimenez Espejo, F.J., Just, J., Koutsodendris, A., Kubota, K., Lathika, N., Norris, R.D., Periera dos Santos, T., Robinson, R., Rolinson, J.M., Simon, M.H., Tangunan, D., van der Lubbe, J.J.L., Yamane, M., Zhang, H., Hall, I.R., Hemming, S.R., LeVay, L.J., Expedition 361 Scientists, the, Barker, S., Berke, M.A., Brentegani, L., Caley, T., Cartagena-Sierra, A., Charles, C.D., Coenen, J.J., Crespin, J.G., Franzese, A.M., Gruetzner, J., Han, X., Hines, S.K.V., Jimenez Espejo, F.J., Just, J., Koutsodendris, A., Kubota, K., Lathika, N., Norris, R.D., Periera dos Santos, T., Robinson, R., Rolinson, J.M., Simon, M.H., Tangunan, D., van der Lubbe, J.J.L., Yamane, M., and Zhang, H.

Abstract

International Ocean Discovery Program Expedition 361 drilled six sites on the southeast African margin (southwest Indian Ocean) and in the Indian-Atlantic Ocean gateway, from 30 January to 31 March 2016. In total, 5175 m of core was recovered, with an average recovery of 102%, during 29.7 days of on-site operations. The sites, situated in the Mozambique Channel at locations directly influenced by discharge from the Zambezi and Limpopo River catchments, the Natal Valley, the Agulhas Plateau, and Cape Basin, were targeted to reconstruct the history of the greater Agulhas Current system over the past ~5 My. The Agulhas Current is the strongest western boundary current in the Southern Hemisphere, transporting some 70 Sv of warm, saline surface water from the tropical Indian Ocean along the East African margin to the tip of Africa. Exchanges of heat and moisture with the atmosphere influence southern African climates, including individual weather systems such as extratropical cyclone formation in the region and rainfall patterns. Recent ocean model and paleoceanographic data further point at a potential role of the Agulhas Current in controlling the strength and mode of the Atlantic Meridional Overturning Circulation (AMOC) during the Late Pleistocene. Spillage of saline Agulhas water into the South Atlantic stimulates buoyancy anomalies that may influence basin-wide AMOC, with implications for convective activity in the North Atlantic and global climate change. The main objectives of the expedition were to establish the role of the Agulhas Current in climatic changes during the Pliocene–Pleistocene, specifically to document the dynamics of the Indian-Atlantic Ocean gateway circulation during this time, to examine the connection of the Agulhas leakage and AMOC, and to address the influence of the Agulhas Current on African terrestrial climates and coincidences with human evolution. Additionally, the expedition set out to fulfill the needs of Ancillary Project Letter numb

Published

2017

21. Expedition 361 methods

Author

Hall, I. R., Hemming, S.R., LeVay, L.J., Expedition 361 Scientists, the, Hall, I.R., Barker, S., Berke, M.A., Brentegani, L., Caley, T., Cartagena-Sierra, A., Charles, C.D., Coenen, J.J., Crespin, J.G., Franzese, A.M., Gruetzner, J., Han, X., Hines, S.K.V., Jimenez Espejo, F.J., Just, J., Koutsodendris, A., Kubota, K., Lathika, N., Norris, R.D., Periera dos Santos, T., Robinson, R., Rolinson, J.M., Simon, M.H., Tangunan, D., van der Lubbe, J.J.L., Yamane, M., Zhang, H., Hall, I. R., Hemming, S.R., LeVay, L.J., Expedition 361 Scientists, the, Hall, I.R., Barker, S., Berke, M.A., Brentegani, L., Caley, T., Cartagena-Sierra, A., Charles, C.D., Coenen, J.J., Crespin, J.G., Franzese, A.M., Gruetzner, J., Han, X., Hines, S.K.V., Jimenez Espejo, F.J., Just, J., Koutsodendris, A., Kubota, K., Lathika, N., Norris, R.D., Periera dos Santos, T., Robinson, R., Rolinson, J.M., Simon, M.H., Tangunan, D., van der Lubbe, J.J.L., Yamane, M., and Zhang, H.

Published

2017

22. Antarctic icebergs reorganize ocean circulation during Pleistocene glacials.

Author

Starr A, Hall IR, Barker S, Rackow T, Zhang X, Hemming SR, van der Lubbe HJL, Knorr G, Berke MA, Bigg GR, Cartagena-Sierra A, Jiménez-Espejo FJ, Gong X, Gruetzner J, Lathika N, LeVay LJ, Robinson RS, and Ziegler M

Abstract

The dominant feature of large-scale mass transfer in the modern ocean is the Atlantic meridional overturning circulation (AMOC). The geometry and vigour of this circulation influences global climate on various timescales. Palaeoceanographic evidence suggests that during glacial periods of the past 1.5 million years the AMOC had markedly different features from today 1 ; in the Atlantic basin, deep waters of Southern Ocean origin increased in volume while above them the core of the North Atlantic Deep Water (NADW) shoaled 2 . An absence of evidence on the origin of this phenomenon means that the sequence of events leading to global glacial conditions remains unclear. Here we present multi-proxy evidence showing that northward shifts in Antarctic iceberg melt in the Indian-Atlantic Southern Ocean (0-50° E) systematically preceded deep-water mass reorganizations by one to two thousand years during Pleistocene-era glaciations. With the aid of iceberg-trajectory model experiments, we demonstrate that such a shift in iceberg trajectories during glacial periods can result in a considerable redistribution of freshwater in the Southern Ocean. We suggest that this, in concert with increased sea-ice cover, enabled positive buoyancy anomalies to 'escape' into the upper limb of the AMOC, providing a teleconnection between surface Southern Ocean conditions and the formation of NADW. The magnitude and pacing of this mechanism evolved substantially across the mid-Pleistocene transition, and the coeval increase in magnitude of the 'southern escape' and deep circulation perturbations implicate this mechanism as a key feedback in the transition to the '100-kyr world', in which glacial-interglacial cycles occur at roughly 100,000-year periods.

Published

2021

23. Enhanced CO2Degassing From the Tropical Indian Ocean During Cold Climatic Events of the Last Glacial Cycle

Author

Tarique, Mohd, Rahaman, Waliur, Lathika, N., Prabhat, Priyesh, Thamban, Meloth, and Misra, Sambuddha

Abstract

Atmospheric CO2variability on the glacial–interglacial (G–IG) timescale reflects a balance between oceanic and terrestrial processes involving carbon uptake and release. The Southern Ocean CO2uptake is considered as an important modulator for the G–IG atmospheric CO2variability, while the role of tropical ocean ventilation remains enigmatic. We present critical evidence for CO2ventilation from the tropical Indian Ocean through the reconstruction of the Arabian Sea‐surface pCO2for the past ∼136 ka utilizing boron isotope (δ11B) record of planktic foraminifera, Globigerinoides ruber. Our site in the Arabian Sea presently acts as a significant source of CO2. The reconstructed ΔpCO2(ΔpCO2= pCO2 Seawater− pCO2 Atmosphere) record shows an enhanced CO2degassing up to ∼50 ppm during the major cooling events, such as the Last Glacial Maximum, Younger Dryas, and Heinrich‐Stadials. Our investigation based on multiproxy records of sea‐surface temperature, salinity, and productivity suggests that the northward invasion and shoaling of southern source CO2‐rich water, coupled with stronger upwelling, resulted in CO2degassing during these cold intervals. This finding is in align with the tropical Atlantic which also demonstrated an enhanced CO2degassing during the cold intervals; however, most of the upwelled CO2was consumed as the water moved away from the upwelling sites. Therefore, our finding, when considered alongside tropical Atlantic records, suggests that tropical oceans played a minor role in reducing atmospheric CO2levels during the cold intervals of the last glacial cycle, supporting the prevailing hypothesis. Foraminifera δ11B‐based CO2record of Arabian Sea surface for the past ∼136 kaEnhanced CO2degassing during the cold climate events, that is, Heinrich‐Stadials, Younger Dryas, and Last Glacial MaximumThis degassing was caused by more export of southern‐sourced water and its upwelling Foraminifera δ11B‐based CO2record of Arabian Sea surface for the past ∼136 ka Enhanced CO2degassing during the cold climate events, that is, Heinrich‐Stadials, Younger Dryas, and Last Glacial Maximum This degassing was caused by more export of southern‐sourced water and its upwelling

Published

2023

24. Fate of copper complexes in hydrothermally altered deep-sea sediments from the Central Indian Ocean Basin

Author

Chakraborty, Parthasarathi, primary, Sander, Sylvia G., additional, Jayachandran, Saranya, additional, Nath, B. Nagender, additional, Nagaraju, G., additional, Chennuri, Kartheek, additional, Vudamala, Krushna, additional, Lathika, N., additional, and Mascarenhas-Pereira, Maria Brenda L., additional

Published

2014

25. Glacial–interglacial Circumpolar Deep Water temperatures during the last 800 000 years: estimates from a synthesis of bottom water temperature reconstructions.

Author

Chandler, David M. and Langebroek, Petra M.

Subjects

ICE sheet thawing, OCEAN temperature, ANTARCTIC ice, WATER temperature, GLOBAL warming, ICE shelves

Abstract

Future climate and sea level projections depend sensitively on the response of the Antarctic Ice Sheet to ocean-driven melting and the resulting freshwater fluxes into the Southern Ocean. Circumpolar Deep Water (CDW) transport across the Antarctic continental shelf and into cavities beneath ice shelves is increasingly recognised as a crucial heat source for ice shelf melt. Quantifying past changes in the temperature of CDW is therefore of great benefit for modelling ice sheet response to past warm climates, for validating paleoclimate models, and for putting recent and projected changes in CDW temperature into context. Here we compile the available bottom water temperature reconstructions representative of CDW over the past 800 kyr. Estimated interglacial warming reached anomalies of +0.6 ± 0.4 °C (MIS 11) and +0.5 ± 0.5 °C (MIS 5) relative to present. Glacial cooling typically reached anomalies of ca. -1.5 to -2 °C , therefore maintaining positive thermal forcing for ice shelf melt even during glacials in the Amundsen Sea region of West Antarctica. Despite high variance amongst a small number of records and poor (4 kyr) temporal resolution, we find persistent and close relationships between our estimated CDW temperature and Southern Ocean sea surface temperature, Antarctic surface air temperature, and global deep-water temperature reconstructions at glacial-cycle timescales. Given the important role that CDW plays in connecting the world's three main ocean basins and in driving Antarctic Ice Sheet mass loss, additional temperature reconstructions targeting CDW are urgently needed to increase temporal and spatial resolution and to decrease uncertainty in past CDW temperatures – whether for use as a boundary condition, for model validation, or for understanding past oceanographic changes. [ABSTRACT FROM AUTHOR]

Published

2024

26. Polio vaccines.

Author

Bhasin VK and Lathika N

Subjects

Child, Crime, Humans, Immunization Programs, India, Poisoning, Poliomyelitis prevention & control, Poliovirus Vaccine, Inactivated standards, Vaccination adverse effects

Published

1995

27. Expedition 392 summary.

Author

Uenzelmann-Neben, G., Bohaty, S. M., Childress, L. B., Archontikis, O. A., Batenburg, S. J., Bijl, P. K., Burkett, A. M., Cawthra, H. C., Chanda, P., Coenen, J. J., Dallanave, E., Davidson, P. C., Doiron, K. E., Geldmacher, J., Gürer, D., Haynes, S. J., Herrle, J. O., Ichiyama, Y., Jana, D., and Jones, M. M.

Subjects

DRILLING platforms, BATHYMETRY, PALEOCEANOGRAPHY, OCEAN temperature, ANALYTICAL geochemistry

Abstract

During International Ocean Discovery Program Expedition 392, three sites were drilled on the Agulhas Plateau and one site was drilled in the Transkei Basin in the Southwest Indian Ocean. This region was positioned at paleolatitudes of ~53°-61°S during the Late Cretaceous (van Hinsbergen et al., 2015) (100-66 Ma) and within the new and evolving gateway between the South Atlantic, Southern Ocean, and southern Indian Ocean basins. Recovery of basement rocks and sedimentary sequences from the Agulhas Plateau sites and a thick sedimentary sequence in the Transkei Basin provides a wealth of new data to (1) determine the nature, origin, and bathymetric evolution of the Agulhas Plateau; (2) significantly advance the understanding of how Cretaceous temperatures, ocean circulation, and sedimentation patterns evolved as CO2 levels rose and fell and the breakup of Gondwana progressed; (3) document long- and short-term paleoceanographic variability through the Late Cretaceous and Paleogene; and (4) investigate geochemical interactions between igneous rocks, sediments, and pore waters through the life cycle of a large igneous province (LIP). Importantly, postcruise analysis of Expedition 392 drill cores will allow testing of competing hypotheses concerning Agulhas Plateau LIP formation and the role of deep ocean circulation changes through southern gateways in influencing Late Cretaceous--early Paleogene climate evolution. [ABSTRACT FROM AUTHOR]

Published

2023

28. A stacked record of relative palaeointensity for past 500 ka from western equatorial Indian Ocean sediments.

Author

Chen, Liang, Zhou, Liang, Liu, Jiabo, Yin, Zhengxin, Zhang, Jianli, Guan, Yulong, Chen, Long, Zhang, Yuzhen, Hu, Yuewei, Liu, Yang, and Jiang, Zhaoxia

Subjects

REMANENCE, OCEAN, STRATIGRAPHIC correlation, SEDIMENTS

Abstract

Relative palaeointensity (RPI) records can reflect the evolution of the Earth's axial dipole field and provide a suitable template for global stratigraphic correlation. Current RPI records are primarily obtained from the Atlantic and Pacific Oceans, particularly in the mid-latitudes of the Northern Hemisphere. Fewer RPI records originate from the Indian Ocean, particularly in low latitude areas, which limits sediment dating and geomagnetic evolution studies in these regions. In this study, we conduct a palaeomagnetic study on four sediment cores recovered from the western equatorial Indian Ocean (WEIO) to establish a new regional RPI stack from the past 500 ka for the global coverage of palaeointensity data, as well as a regional reference for palaeointensity-assisted stratigraphy. To estimate the RPI, the isothermal remanent magnetization is used as a normalizer. A chronological framework is constructed by correlating RPI records and environmental magnetic parameters (anhysteretic remanent magnetizationsaturation/isothermal remanent magnetization, ARM/SIRM) with PISO-1500 and LR04 δ18O curves, respectively. Our RPI stacked curve (WEIO-500) varies according to global and other regional high-resolution records. The five lows in the obtained RPI curve can be correlated with previously reported excursions. In addition, the mean inclination direction of each core is similar to the expected hypothetical geocentric axial dipole direction, with a negative inclination anomaly (mean Δ I) of −2.18° to −4.86°. The low mean Δ I and its reproducibility reflect the reliability of our chronological framework and stacked curve, thereby providing a new reference for correlating and calibrating RPI records from WEIO as well as other equatorial areas. [ABSTRACT FROM AUTHOR]

Published

2023

29. Depositional dynamics of the Bengal Fan since the Late Miocene: discrimination of skinfriction shear stresses of hemipelagic vs. turbiditic deposition.

Author

Kawsar, M., Manoj, M. C., and Weber, M. E.

Abstract

The Bengal Fan covers the entire floor of the Bay of Bengal (BoB) and has accumulated erosional material from the Himalayas since the Early Eocene. The fan architecture is constructed by turbidity current deposits via channel levee systems during active fan progradation and hemipelagic sedimentation during periods of local fan inactivity. In the present study, we document the fan development, sedimentation history, and depositional processes in the lower Bengal Fan and present a site-to-site comparison of stratigraphy and channel migration since the Late Tortonian (ca. 7.5 Ma) from sedimentological and physical property records at Site U1451 of IODP Expedition 354 to 8°N in the lower Bengal Fan. Fine sediment (Sortable Silt, SS) textural and sorting records are used to reconstruct the current skinfriction shear stress in the Benthic Boundary Layer (BBL) of the BoB. Also, a distinction in shear stress environment between turbidity dominated active fan and background hemipelagic fan growth is presented. A criterion is set in the following paper to validate the use of SS records in hemipelagic deposits in the BoB to decipher the shear stress regimes of depositing flows on the basis of sand weight percentage and mean SS sizes (S͞S) variation. This study will enhance our understanding of the Bengal Fan deposition dynamics and fan development with the reconstructed shear stress regimes associated with various depositing flows (turbidity current and/or deep water circulation). It will provide a strong base to model fan internal processes and material flux to the BoB. [ABSTRACT FROM AUTHOR]

Published

2023

30. Reconstructing dynamics of northern and southern sourced bottom waters during the last 200 ka using sortable silt records in the lower Bengal Fan.

Author

Kawsar, Masud, Mano, M. C., and Weber, Michael E.

Subjects

BOTTOM water (Oceanography), ATLANTIC meridional overturning circulation, WATER masses, SILT, GLOBAL cooling, SOLAR cycle, SUBMARINE fans, TURBIDITY currents

Abstract

Mean Sortable Silt (SS) size records in the hemipelagic deposits at Site U1452 (IODP 354) in the lower Bengal Fan are presented here to reconstruct the bottom water circulation strengths in the Bay of Bengal (BoB) during the last 200 ka (Marine Isotopic Stage 1 to 6). To eliminate possible amplitude shifts in SS size due to terrestrial sediment flux or turbiditic interventions, sedimentation history at the site is decomposed using End Member Analysis (EMA). SS size record in the BoB is mostly unimpacted by the terrestrial sediment flux and turbidity current deposition; hence the size sorting signature in SS records is best described to have arisen from benthic boundary layer current intensity. SS size record in the BoB indicates reduced bottom water flow speed during glacials (MIS 2 and 6), concomitant with the greater import of Antarctic/ Southern Ocean (SO) derived deep waters and increased speed during interglacials (MIS 1, 3 and 5) corresponding to an increased proportion of Northern Atlantic derived deep water mass in the northern Indian Ocean. Glacial and stadial decline in flow speed reflects on the density reversal between two deep water mass end members in the SO and a shoaled Atlantic meridional overturning circulation (AMOC). On the other hand, faster flow speed during the climate optima at MIS 5.5 and other warm substages of MIS 5 as well as during the Holocene present a deep and strong AMOC. Reduced bottom water circulation strength in the BoB during the MIS 5.5 to 5.4 transition might have contributed to atmospheric CO2 drawdown and global cooling during the early stages of glacial inception along with deep circulation changes in the SO. Also, millennial-scale variability in circulation strength in the BoB is linked to oceanic frontal shift in high northern latitudes and deepwater formation manifesting in reduced flow strength associated with local cold anomalies (C28-C23), successively culminating into glacial inception at MIS 5.4. Reduced flow speed is also observed during some of the Heinrich events indicating a strong teleconnection between deep North Atlantic and BoB. Productivity changes in the BoB might as well have been influenced by variable fluxes of northern and southern sourced water mass during the last 200 ka. [ABSTRACT FROM AUTHOR]

Published

2023

31. Reconstructing the Oxygen Depth Profile in the Arabian Sea During the Last Glacial Period.

Author

Lu, Wanyi, Costa, Kassandra M., and Oppo, Delia W.

Subjects

GLACIATION, DEPTH profiling, CLIMATE change, OXYGEN, CARBON isotopes, ATMOSPHERIC oxygen, OCEAN circulation

Abstract

Reconstructing the strength and depth boundary of oxygen minimum zones (OMZs) in the glacial ocean advances our understanding of how OMZs respond to climate changes. While many efforts have inferred better oxygenation of the glacial Arabian Sea OMZ from qualitative indices, oxygenation and vertical extent of the glacial OMZ is not well quantified. Here we present glacial‐Holocene oxygen reconstructions in a depth transect of Arabian Sea cores ranging from 600 to 3,650 m water depths. We estimate glacial oxygen concentrations using benthic foraminiferal surface porosity and benthic carbon isotope gradient reconstructions. Compared to the modern Arabian Sea, glacial oxygen concentrations were approximately 10–15 μmol/kg higher in the shallow OMZ (<1,000 m), and 5–80 μmol/kg lower at greater depths (1,500–3,650 m). Our results suggest that the OMZ in the glacial Arabian Sea was slightly better oxygenated but remained in the upper 1,000 m. We propose that the small increase in oxygenation of the Arabian Sea OMZ during the last glacial period was due to weaker upper ocean stratification induced by stronger winter monsoon winds coupled with an increase in oxygen solubility due to lower temperatures, counteracting the effects of more oxygen consumption resulting from higher primary productivity. Large‐scale changes in ocean circulation may have also contributed to better ventilation of the glacial Arabian Sea OMZ. Key Points: The glacial Arabian Sea oxygen minimum zone (OMZ) was slightly weaker but spanned the same depth range as modernEnhanced oxygen supply locally and/or from the Southern Ocean likely explained the weaker OMZ in the glacial Arabian SeaBottom water oxygen in the deep glacial Arabian Sea ranged between 50 and 100 μmol/kg [ABSTRACT FROM AUTHOR]

Published

2023

32. A Middle Pleistocene Glaciation Record from Lacustrine Sediments in the Western Tibetan Plateau and Discussion on Climate Change.

Author

ZHAO, Zhenming, JI, Wenhua, and FU, Chaofeng

Subjects

GEOMAGNETIC reversals, CLIMATE change, PLEISTOCENE Epoch, GLACIATION, SEDIMENTS, ICE cores

Abstract

The Tibetan Plateau is an important area for studying global climate change, but the answers to many scientific problems remain unknown. Here, we present new information from the lacustrine sedimentary record in the western Tibetan Plateau, related to the third most‐recent glaciations. Continuous sediment data, including sporopollen, particle size, total organic carbon, mass susceptibility, CaCO3, CaSO4, BaSO4 contents and chronological data, were reconstructed and revealed that climate and environmental conditions obviously and distinctly changed between 600 and 700 thousand years ago. In comparison, the data obtained from the Guliya ice core in this area also corresponds to the global glacial climatic characteristics recorded in basin sediments in the eastern and southeastern regions of the plateau and to the information obtained from ice cores in the Antarctic and Arctic regions. In this study, we conclude that the main reason for the glaciations and new tectonic movement must be a geomagnetic polarity reversal 774 thousand years ago (from Matuyama to Brunhes). Indeed, the results of this study suggest that the described reversal event might have influenced the current global climate pattern and will continue to impact climatic changes in the future. [ABSTRACT FROM AUTHOR]

Published

2023

33. Biogeography of Greater Antillean freshwater fishes, with a review of competing hypotheses.

Author

Massip-Veloso Y, Hoagstrom CW, McMahan CD, and Matamoros WA

Subjects

Animals, Phylogeography, Fishes physiology, Fishes genetics, Fishes classification, Fresh Water, Animal Distribution

Abstract

In biogeography, vicariance and long-distance dispersal are often characterised as competing scenarios. However, they are related concepts, both relying on collective geological, ecological, and phylogenetic evidence. This is illustrated by freshwater fishes, which may immigrate to islands either when freshwater connections are temporarily present and later severed (vicariance), or by unusual means when ocean gaps are crossed (long-distance dispersal). Marine barriers have a strong filtering effect on freshwater fishes, limiting immigrants to those most capable of oceanic dispersal. The roles of vicariance and dispersal are debated for freshwater fishes of the Greater Antilles. We review three active hypotheses [Cretaceous vicariance, Greater Antilles-Aves Ridge (GAARlandia), long-distance dispersal] and propose long-distance dispersal to be an appropriate model due to limited support for freshwater fish use of landspans. Greater Antillean freshwater fishes have six potential source bioregions (defined from faunal similarity): Northern Gulf of México, Western Gulf of México, Maya Terrane, Chortís Block, Eastern Panamá, and Northern South America. Faunas of the Greater Antilles are composed of taxa immigrating from many of these bioregions, but there is strong compositional disharmony between island and mainland fish faunas (>90% of Antillean species are cyprinodontiforms, compared to <10% in Northern Gulf of México and Northern South America, and ≤50% elsewhere), consistent with a hypothesis of long-distance dispersal. Ancestral-area reconstruction analysis indicates there were 16 or 17 immigration events over the last 51 million years, 14 or 15 of these by cyprinodontiforms. Published divergence estimates and evidence available for each immigration event suggests they occurred at different times and by different pathways, possibly with rafts of vegetation discharged from rivers or washed to sea during storms. If so, ocean currents likely provide critical pathways for immigration when flowing from one landmass to another. On the other hand, currents create dispersal barriers when flowing perpendicularly between landmasses. In addition to high salinity tolerance, cyprinodontiforms collectively display a variety of adaptations that could enhance their ability to live with rafts (small body size, viviparity, low metabolism, amphibiousness, diapause, self-fertilisation). These adaptations likely also helped immigrants establish island populations after arrival and to persist long term thereafter. Cichlids may have used a pseudo bridge (Nicaragua Rise) to reach the Greater Antilles. Gars (Lepisosteidae) may have crossed the Straits of Florida to Cuba, a relatively short crossing that is not a barrier to gene flow for several cyprinodontiform immigrants. Indeed, widespread distributions of Quaternary migrants (Cyprinodon, Gambusia, Kryptolebias), within the Greater Antilles and among neighbouring bioregions, imply that long-distance dispersal is not necessarily inhibitory for well-adapted species, even though it appears to be virtually impossible for all other freshwater fishes., (© 2024 Cambridge Philosophical Society.)

Published

2024

34. A 1.5-million-year record of orbital and millennial climate variability in the North Atlantic.

Author

Hodell, David A., Crowhurst, Simon J., Lourens, Lucas, Margari, Vasiliki, Nicolson, John, Rolfe, James E., Skinner, Luke C., Thomas, Nicola C., Tzedakis, Polychronis C., Mleneck-Vautravers, Maryline J., and Wolff, Eric W.

Subjects

MILANKOVITCH cycles, GLACIAL climates, GLACIATION, ATMOSPHERIC methane, CLIMATE change, ATMOSPHERIC temperature

Abstract

Climate during the last glacial period was marked by abrupt instability on millennial timescales that included large swings of temperature in and around Greenland (Daansgard–Oeschger events) and smaller, more gradual changes in Antarctica (AIM events). Less is known about the existence and nature of similar variability during older glacial periods, especially during the early Pleistocene when glacial cycles were dominantly occurring at 41 kyr intervals compared to the much longer and deeper glaciations of the more recent period. Here, we report a continuous millennially resolved record of stable isotopes of planktic and benthic foraminifera at IODP Site U1385 (the "Shackleton Site") from the southwestern Iberian margin for the last 1.5 million years, which includes the Middle Pleistocene Transition (MPT). Our results demonstrate that millennial climate variability (MCV) was a persistent feature of glacial climate, both before and after the MPT. Prior to 1.2 Ma in the early Pleistocene, the amplitude of MCV was modulated by the 41 kyr obliquity cycle and increased when axial tilt dropped below 23.5 ∘ and benthic δ18O exceeded ∼3.8 ‰ (corrected to Uvigerina), indicating a threshold response to orbital forcing. Afterwards, MCV became focused mainly on the transitions into and out of glacial states (i.e. inceptions and terminations) and during times of intermediate ice volume. After 1.2 Ma, obliquity continued to play a role in modulating the amplitude of MCV, especially during times of glacial inceptions, which are always associated with declining obliquity. A non-linear role for obliquity is also indicated by the appearance of multiples (82, 123 kyr) and combination tones (28 kyr) of the 41 kyr cycle. Near the end of the MPT (∼0.65 Ma), obliquity modulation of MCV amplitude wanes as quasi-periodic 100 kyr and precession power increase, coinciding with the growth of oversized ice sheets on North America and the appearance of Heinrich layers in North Atlantic sediments. Whereas the planktic δ18O of Site U1385 shows a strong resemblance to Greenland temperature and atmospheric methane (i.e. Northern Hemisphere climate), millennial changes in benthic δ18O closely follow the temperature history of Antarctica for the past 800 kyr. The phasing of millennial planktic and benthic δ18O variation is similar to that observed for MIS 3 throughout much of the record, which has been suggested to mimic the signature of the bipolar seesaw – i.e. an interhemispheric asymmetry between the timing of cooling in Antarctica and warming in Greenland. The Iberian margin isotopic record suggests that bipolar asymmetry was a robust feature of interhemispheric glacial climate variations for at least the past 1.5 Ma despite changing glacial boundary conditions. A strong correlation exists between millennial increases in planktic δ18O (cooling) and decreases in benthic δ13C , indicating that millennial variations in North Atlantic surface temperature are mirrored by changes in deep-water circulation and remineralization of carbon in the abyssal ocean. We find strong evidence that climate variability on millennial and orbital scales is coupled across different timescales and interacts in both directions, which may be important for linking internal climate dynamics and external astronomical forcing. [ABSTRACT FROM AUTHOR]

Published

2023

35. Weakening of the South Asian summer monsoon linked to interhemispheric ice-sheet growth since 12 Ma.

Author

Yao, Zhengquan, Shi, Xuefa, Guo, Zhengtang, Li, Xinzhou, Nath, B. Nagender, Betzler, Christian, Zhang, Hui, Lindhorst, Sebastian, and Miriyala, Pavan

Abstract

The evolution and driving mechanism of the South Asian summer monsoon (SASM) are still poorly understood. We here present a 12-Myr long SASM record by analyzing the strontium and neodymium isotopic composition of detrital components at IODP Exp. 359 Site U1467 from the northern Indian Ocean. The provenance investigation demonstrates that more dust enriched in εNd from northeastern Africa and the Arabian Peninsula was transported to the study site by monsoonal and Shamal winds during the summer monsoon season. A two-step weakening of the SASM wind since ~12 Ma is proposed based on the εNd record. This observational phenomenon is supported by climate modeling results, demonstrating that the SASM evolution was mainly controlled by variations in the gradient between the Mascarene High and the Indian Low, associated with meridional shifts of the Hadley Cell and the Intertropical Convergence Zone, which were caused by interhemispheric ice-sheet growth since the Middle Miocene.The εNd record from the IODP Exp. 359 Site U1467 in the northern Indian Ocean, along with climate modeling, reveals a two-step weakening of the South Asian summer monsoon (SASM) wind since 12 Ma. The SASM evolution was mainly caused by interhemispheric ice-sheet growth since the Middle Miocene. [ABSTRACT FROM AUTHOR]

Published

2023

36. Understanding the Seasonality, Trends, and Controlling Factors of Indian Ocean Acidification Over Distinctive Bio‐Provinces.

Author

Madkaiker, Kunal, Valsala, Vinu, Sreeush, M. G., Mallissery, Anju, Chakraborty, Kunal, and Deshpande, Aditi

Subjects

OCEAN acidification, SEAWATER salinity, ATMOSPHERIC carbon dioxide, OCEAN temperature, GLOBAL warming

Abstract

The Indian Ocean (IO) is witnessing acidification as a direct consequence of the continuous rising of atmospheric CO2 concentration and indirectly due to rapid ocean warming, which disrupts the pH of the surface waters. This study investigates the pH seasonality and trends over various bio‐provinces of the IO and regionally assesses the contribution of each of its controlling factors. Simulations from a global and a regional ocean model coupled with biogeochemical modules were validated with pH measurements over the basin and used to discern the regional response of pH seasonality (1990–2010) and trend (1961–2010) to changes in Sea Surface Temperature (SST), Dissolved Inorganic Carbon (DIC), Total Alkalinity (ALK), and Salinity (S). DIC and SST are significant contributors to the seasonal variability of pH in almost all bio‐provinces. Total acidification in the IO basin was 0.0675 units from 1961 to 2010, with 69.3% contribution from DIC followed by 13.8% contribution from SST. For most of the bio‐provinces, DIC remains a dominant contributor to changing trends in pH except for the Northern Bay of Bengal and Around India (NBoB‐AI) region, wherein the pH trend is dominated by ALK (55.6%) and SST (16.8%). Interdependence of SST and S over ALK is significant in modifying the carbonate chemistry and biogeochemical dynamics of NBoB‐AI and a part of tropical, subtropical IO bio‐provinces. A strong correlation between SST and pH trends infers an increasing risk of acidification in the bio‐provinces with rising SST and points out the need for sustained monitoring of IO pH in such hotspots. Plain Language Summary: As CO2 increases in the atmosphere due to anthropogenic activities, more and more CO2 dissolves in the ocean. This increases the acidity of seawater leading to a phenomenon known as ocean acidification. Indian Ocean (IO) is a mild sink of CO2 and its strength is decreasing owing to acidification. In this study, the seasonal variation of surface pH in IO and its long‐term changes are studied, over eight different IO bio‐provinces. Here, using 50 years of model data and observations, we found that acidification is occurring more rapidly in the IO. We have also found a high correlation between sea surface temperature (SST) and pH suggesting that the pH would continue to decrease with increase in SST due to global warming. The study helps to quantify the individual contribution of factors causing this decrease in pH and identify acidification hotspots. It is found that dissolved inorganic carbon and SST dominate the seasonal variation of pH and counterbalance each other. Key Points: Controlling factors of the seasonal variability of pH and its trends over various Indian Ocean (IO) bio‐provinces are investigatedDissolved Inorganic Carbon and Sea Surface Temperature (SST) are major driving forces contributing to the seasonal variability and trends in pH and counterbalance over the IOSST trends directly correlate with acidification trends in IO bio‐provinces, indicating that ocean warming enhances acidification [ABSTRACT FROM AUTHOR]

Published

2023

37. New Calcium Carbonate Nano‐particulate Pressed Powder Pellet (NFHS‐2‐NP) for LA‐ICP‐OES, LA‐(MC)‐ICP‐MS and µXRF.

Author

Boer, Wim, Nordstad, Simon, Weber, Michael, Mertz‐Kraus, Regina, Hönisch, Bärbel, Bijma, Jelle, Raitzsch, Markus, Wilhelms‐Dick, Dorothee, Foster, Gavin L., Goring‐Harford, Heather, Nürnberg, Dirk, Hauff, Folkmar, Kuhnert, Henning, Lugli, Federico, Spero, Howie, Rosner, Martin, van Gaever, Piet, de Nooijer, Lennart J., and Reichart, Gert‐Jan

Subjects

CALCIUM carbonate, LASER ablation inductively coupled plasma mass spectrometry, MASS spectrometry, POWDERS, REFERENCE sources, REFERENCE values, WOOD pellets

Abstract

A new matrix‐matched reference material has been developed – NFHS‐2‐NP (NIOZ Foraminifera House Standard‐2‐Nano‐Pellet) – with element mass fractions, and isotope ratios resembling that of natural foraminiferal calcium carbonate. A 180–355 µm size fraction of planktic foraminifera was milled to nano‐particles and pressed to pellets. We report reference and information values for mass fractions of forty‐six elements measured by six laboratories as well as for 87Sr/86Sr (three laboratories), δ13C, δ18O (five laboratories) and 206,207,208Pb/204Pb isotope ratios (one laboratory) determined by ICP‐MS, ICP‐OES, MC‐ICP‐MS, isotope ratio mass spectrometry, WD‐XRF and TIMS. Inter‐ and intra‐pellet elemental homogeneity was tested using multiple LA‐ICP‐MS analyses in two laboratories applying spot sizes of 60 and 70 µm. The LA‐ICP‐MS results for most of the elements relevant as proxies for palaeoclimate research show RSD values < 3%, demonstrating a satisfactory homogeneous composition. Homogeneity of 87Sr/86Sr ratios of the pellet was verified by repeated LA‐MC‐ICP‐MS by two laboratories. Information values are reported for Pb isotope ratios and δ13C, δ18O values. The homogeneity for these isotope systems remains to be tested by LA‐MC‐ICP‐MS and secondary‐ion mass spectrometry. Overall, our results confirm the suitability of NFHS‐2‐NP for calibration or monitoring the quality of in situ geochemical techniques. [ABSTRACT FROM AUTHOR]

Published

2022

38. Recent ocean acidification trends from boron isotope (δ11B) records of coral: Role of oceanographic processes and anthropogenic CO2 forcing.

Author

Tarique, Mohd and Rahaman, Waliur

Abstract

Anthropogenic CO2 emission has resulted in lowering of surface ocean pH referred as ‘Ocean acidification (OA)’ which posed a serious threat to calcifying marine organisms. Several attempts have been made to assess the role of anthropogenic CO2 forcing against oceanographic factors/processes contributing to the recent OA trend; however, such attempts were hindered by the dearth of long-term pH records. Boron isotopic composition (δ11B) of corals has been used as a robust proxy for seawater pH records. In the present study, we have compiled available coral δ11B-pH records from the Indian, Pacific and Atlantic oceans and assessed regional trends, variability, forcing factors and their relative roles. Most of these δ11B-pH records show a discernable decline trend in recent decades with large variability. Our assessment of the Pacific records reveals that atmospheric CO2 forcing explains maximum pH variability followed by physical oceanographic factors/processes modulated by Pacific oscillations, e.g., ENSO and PDO. In addition, coral metabolic processes might control a large portion of the pH variability; however, they require detailed laboratory-based studies. Further, our investigation reveals a significant increase in pH variability (pH extremes) since ~1970s associated with ENSO events which might be critical for the resilience and adaptability of corals and other calcifiers. Research Highlights: Since the industrial era (~1850), Coral δ11B-pH records show a discernible decreasing trend and a rapid decline since 1970. Oceanographic processes control large inter-annual pH variability, whereas the long-term declining trend is driven by atmospheric CO2 forcing. The pH extremes are predicted to increase in future warming scenarios, a threat to coral ecosystem. [ABSTRACT FROM AUTHOR]

Published

2022

39. Rift‐related multistage evolution of the Mangalwar Complex, Aravalli Craton (NW India): Evidence from elemental and Sr–Nd isotopic features of Proterozoic amphibolites.

Author

Hamidullah, Ismail S., Mondal, Md. Erfan Ali, Ahmad, Iftikhar, Dash, Jitendra K., and Rahaman, Waliur

Subjects

RIFTS (Geology), AMPHIBOLITES, RARE earth metals, PROTEROZOIC Era, PETROLOGY, SEDIMENTARY basins

Abstract

The Banded Gneissic Complex (BGC) of the Aravalli Craton (India) comprises Archean BGC‐I (3.3–2.5 Ga) and Proterozoic BGC‐II. The BGC‐II is a mosaic of amphibolite facies namely, (a) Mangalwar Gneissic Complex (MGC), (b) Mangalwar Metasedimentary Complex (MMC), and (c) granulite‐facies Sandmata Metamorphic Complex. Here we present field, petrography and geochemical study of the Proterozoic amphibolites from the MGC and MMC. Based on field and geochemical data, the amphibolites have been characterized into three types related to rift settings (G1, G2 and G3). The G1 type occurs as dykes in the MGC and bears ocean island basalt‐type rare earth element (REE) patterns along with negative Nb and Ti anomalies, negative to positive values of εNd(t) (−0.02 to +3.96) and slightly variable initial 87Sr/86Sr (ISr) ratios. They are derived from deep mantle sources and correspond to the pre‐rift magmatic phase. The G2 type occurs as isolated patches associated with chert and is characterized by light REE (LREE) depleted and almost flat heavy REE (HREE) patterns suggesting that they were emplaced in an oceanic setting and were derived from a shallower mantle bearing positive εNd(t) (+2.87 to +6.27) and ISr = 0.7002–0.7083. This phase corresponds to the opening of the Mangalwar sedimentary basin (MMC). The G3 type occurs intercalated with metasedimentary rocks of the MMC and marked by LREE‐enriched and HREE‐depleted to flat patterns that resemble Upper Continental Crust signature, their εNd(t) mostly negative values and variable ISr also corroborate this explanation. They are believed to be derived from heterogeneous sources and represent syn‐sedimentary volcanic phases. All these signatures indicate that the amphibolites distinctly represent three phases of magmatism that occurred during pre‐rift (1.72 Ga), opening of basin (1.62 Ga) and syn‐sedimentary volcanism (1.6–1.3 Ga) in the rift‐basin and they were formed during the Proterozoic. These rifting events might have been connected with the fragmentation of Columbia. [ABSTRACT FROM AUTHOR]

Published

2022

40. Comparison of sediment composition by smear slides to quantitative shipboard data: a case study on the utility of smear slide percent estimates, IODP Expedition 353, northern Indian Ocean.

Author

Phillips, Stephen C. and Littler, Kate

Subjects

COMPOSITION of sediments, HEAVY minerals, GAMMA rays, OCEAN, MARINE sediments, PERCENTILES, QUARTZ

Abstract

Smear slide petrography has been a standard technique during scientific ocean drilling expeditions to characterize sediment composition and classify sediment types, but presentation of these percent estimates to track downcore trends in sediment composition has become less frequent over the past 2 decades. We compare semi-quantitative smear slide composition estimates to physical property (natural gamma radiation, NGR) and solid-phase geochemical (calcium carbonate, CaCO 3 %) measurements from a range of marine depositional environments in the northern Indian Ocean (Bay of Bengal, Andaman Sea, Ninetyeast Ridge) collected during International Ocean Discovery Program (IODP) Expedition 353. We show that presenting smear slide estimates as percentages, rather than abundance categories, reveals similar downcore variation in composition to the more quantitative core analyses. Overall downcore trends in total calcareous components from smear slides (foraminifers + nannofossils + shell fragments + authigenic carbonate) follow similar downcore trends to samples measured by CaCO 3 coulometry. Total lithogenic components (clay + mica + quartz + feldspars + lithic grains + vitric grains + glauconite + heavy minerals + iron oxides) and clay from smear slides track reasonably well with NGR measurements. Comparison of site averages of absolute percentages of total calcium carbonate from coulometry and total calcareous components from smear slide observations reveals an overestimation in carbonate percentages in smear slides (likely due in part to underestimation of the clay fraction), especially in sediments rich in smectite clays. Differences in sediment color between sites and settling of clay particles during slide preparation may contribute to this discrepancy. Although smear slide estimates range in accuracy depending on the training of the operator, we suggest that sedimentologists describing cores obtained during scientific drilling can use the percent estimates of sedimentary components in smear slides to identify trends and cyclicity in marine sediment records. [ABSTRACT FROM AUTHOR]

Published

2022

41. Semi-automated tracking of iceberg B43 using Sentinel-1 SAR images via Google Earth Engine.

Author

Koo, YoungHyun, Xie, Hongjie, Ackley, Stephen F., Mestas-Nuñez, Alberto M., Macdonald, Grant J., and Hyun, Chang-Uk

Subjects

SYNTHETIC aperture radar, ICEBERGS, SPATIAL resolution, SEA ice, IMAGE segmentation, GLACIAL drift

Abstract

Sentinel-1 C-band synthetic aperture radar (SAR) images can be used to observe the drift of icebergs over the Southern Ocean with around 1–3 d of temporal resolution and 10–40 m of spatial resolution. The Google Earth Engine (GEE) cloud-based platform allows processing of a large quantity of Sentinel-1 images, saving time and computational resources. In this study, we process Sentinel-1 data via GEE to detect and track the drift of iceberg B43 during its lifespan of 3 years (2017–2020) in the Southern Ocean. First, to detect all candidate icebergs in Sentinel-1 images, we employ an object-based image segmentation (simple non-iterative clustering – SNIC) and a traditional backscatter threshold method. Next, we automatically choose and trace the location of the target iceberg by comparing the centroid distance histograms (CDHs) of all detected icebergs in subsequent days with the CDH of the reference target iceberg. Using this approach, we successfully track iceberg B43 from the Amundsen Sea to the Ross Sea and examine its changes in area, speed, and direction. Three periods with sudden losses of area (i.e., split-offs) coincide with periods of low sea ice concentration, warm air temperature, and high waves. This implies that these variables may be related to mechanisms causing the split-off of the iceberg. Since the iceberg is generally surrounded by compacted sea ice, its drift correlates in part with sea ice motion and wind velocity. Given that the bulk of the iceberg is under water (∼30 –60 m freeboard and ∼150 –400 m thickness), its motion is predominantly driven by the westward-flowing Antarctic Coastal Current, which dominates the circulation of the region. Considering the complexity of modeling icebergs, there is a demand for a large iceberg database to better understand the behavior of icebergs and their interactions with surrounding environments. The semi-automated iceberg tracking based on the storage capacity and computing power of GEE can be used for this purpose. [ABSTRACT FROM AUTHOR]

Published

2021

42. Circulation adjustment in the Arctic and Atlantic in response to Greenland and Antarctic mass loss.

Author

Berk, J. van den, Drijfhout, S. S., and Hazeleger, W.

Subjects

MELTWATER, MERIDIONAL overturning circulation, OCEAN temperature, ICE caps, ATMOSPHERIC models

Abstract

Following a high-end projection for mass loss from the Greenland and Antarctic ice-sheets, a freshwater forcing was applied to the ocean surface in the coupled climate model EC-Earthv2.2 to study the response to meltwater release assuming an RCP8.5 emission scenario. The meltwater forcing results in an overall freshening of the Atlantic that is dominated by advective changes, strongly enhancing the freshening due to dilution by Greenland meltwater release. The strongest circulation change occurs in the western North Atlantic subpolar gyre and in the gyre in the Nordic Seas, leaving the North Atlantic subpolar gyre the region where most advective salt export occurs. Associated with counteracting changes in both gyre systems, the response of the Atlantic Meridional Overturning Circulation is rather weak over the 190 years of the experiment; it reduces with only 1 Sv ( = 10 6 m 3 s - 1 ), compared to changes in the subpolar gyre of 5 Sv. This relative insensitivity of the AMOC to the forcing is attributed to enhanced convection in the Nordic Seas and stronger overflows that compensate reduced convection in the Labrador and Irminger Seas, and lead to higher sea surface temperatures (SSTs) in the former and lower SSTs in the latter region. The weakened subpolar gyre in the west also shifts the North Atlantic Current and the subpolar-subtropical gyre boundary; with the subtropical gyre expanding, and the western subpolar gyre contracting. The SST changes are associated with obduction of Atlantic waters in the Nordic Seas that would otherwise obduct in the western subpolar gyre. The anomalous SSTs also induce a coupled ocean-atmosphere feedback that further strengthens the Nordic Seas circulation and weakens the western subpolar gyre. This occurs because the anomalous SST-gradient enhances the westerlies, especially between 65 ∘ N and 70 ∘ N; the associated increase in windstress curl consequently enhances the gyre in the Nordic Seas. This feedback is driven by the Greenland mass loss; Antarctic meltwater discharge causes a weaker, opposite response and more particularly affects the South Atlantic salinity budget through northward advection of low-salinity waters from the Southern Ocean. This effect, however, becomes visible only hundred years after the onset of Antarctic mass loss. We conclude that the response to freshwater forcing from both ice caps can lead to a complex response in the Atlantic circulation systems with opposing effects in different subbasins. The relative strength of the response is time-dependent and largely governed by internal feedbacks; the forcing acts mainly as a trigger and is decoupled from the response. [ABSTRACT FROM AUTHOR]

Published

2021

43. Late Miocene Onset of Tasman Leakage and Southern Hemisphere Supergyre Ushers in Near‐Modern Circulation.

Author

Christensen, Beth A., De Vleeschouwer, David, Henderiks, Jorijntje, Groeneveld, Jeroen, Auer, Gerald, Drury, Anna Joy, Karatsolis, Boris Theofanis, Lyu, Jing, Betzler, Christian, Eberli, Gregor P., and Kroon, Dick

Subjects

MIOCENE Epoch, CLIMATE change, OCEAN circulation, MERIDIONAL overturning circulation, LEAKAGE, WATER depth

Abstract

This study provides a Miocene‐to‐recent history of Tasman Leakage (TL), driving surface‐to‐intermediate waters from the Pacific into the Indian Ocean. TL, in addition to Indonesian ThroughFlow (ITF), constitutes an important part of the Southern Hemisphere Supergyre. Here, we employ deep‐sea benthic δ13C timeseries from the southwestern Pacific and eastern Indian Oceans to identify the history of Tasman Leakage. The δ13C results combined with sedimentary evidence show that an inter‐ocean connection south of Australia existed from 7 Ma onward. A southward shift in Westerlies combined with a northward movement of Australia created the oceanic corridor necessary for Tasman Leakage (between Australia and the sub‐Antarctic Front) at this time. Furthermore, changes in the northern limb of the Supergyre (ITF) are evident in the sedimentary record on Broken Ridge from ∼3 to 2 Ma when Banda Sea intermediate waters started originating from the North Pacific. Plain Language Summary: Global ocean circulation allows for the distribution of heat between different latitudes and different water depths. It has long been understood that much of the return flow from the Pacific to the Atlantic occurs through the Indonesian Throughflow, but more recently, oceanographers have identified another, deeper pathway south of Australia: the Tasman Leakage. This connection consists of Pacific waters that leave the Tasman Sea by flowing southwest around Australia, into the Indian Ocean and ultimately back into the Atlantic. We use carbon isotopes of benthic foraminifera, coupled with sedimentation patterns around Australia and the Indian Ocean, to determine the onset of this new pathway in global thermohaline circulation: This occurred around 7 Ma. This onset was coincident with major global climatic and oceanographic change and was controlled by the position of the Australian continent and the sub‐Antarctic Front. TL onset was only able to occur when Australia had moved far enough north to allow for westward flow. Key Points: Benthic δ13C time‐series from the southwestern Pacific and eastern Indian Ocean suggest onset of Tasman Leakage at 7 MaLatitudinal movement of the Australian continent away from the sub‐Antarctic Front creates the oceanic corridor necessary for Tasman LeakageThe Late Miocene onset of Tasman Leakage completed the Southern Hemisphere Supergyre and ushered in the near‐modern ocean circulation style [ABSTRACT FROM AUTHOR]

Published

2021

44. Control of oceanic circulation on sediment distribution in the southwestern Atlantic margin (23 to 55∘ S).

Author

Michaelovitch de Mahiques, Michel, Violante, Roberto, Franco-Fraguas, Paula, Burone, Leticia, Barbedo Rocha, Cesar, Ortega, Leonardo, Felicio dos Santos, Rosangela, Mi Kim, Bianca Sung, Lopes Figueira, Rubens Cesar, and Caruso Bícego, Marcia

Subjects

NEODYMIUM isotopes, SEDIMENTATION & deposition, SEDIMENTS, SEDIMENT transport, ISOTOPIC signatures, OCEAN circulation, CONCEPTUAL models

Abstract

In this study, we interpret the role played by ocean circulation in sediment distribution on the southwestern Atlantic margin using radiogenic Nd and Pb isotopes. The latitudinal trends for Pb and Nd isotopes reflect the different current systems acting on the margin. The utilization of the sediment fingerprinting method allowed us to associate the isotopic signatures with the main oceanographic features in the area. We recognized differences between Nd and Pb sources to the Argentinean shelf (carried by the flow of Subantarctic Shelf Water) and slopes (transported by deeper flows). Sediments from Antarctica extend up to the Uruguayan margin, carried by the Upper and Lower Circumpolar Deep Water. Our data confirm that, for shelf and intermediate areas (the upper 1200 m), the transfer of sediments from the Argentinean margin to the north of 35 ∘ S is limited by the Subtropical Shelf Front and the basin-wide recirculated Antarctic Intermediate Water. On the southern Brazilian inner and middle shelf, it is possible to recognize the northward influence of the Río de la Plata sediments carried by the Plata Plume Water. Another flow responsible for sediment transport and deposition on the outer shelf and slope is the southward flow of the Brazil Current. Finally, we propose that the Brazil–Malvinas Confluence and the Santos Bifurcation act as boundaries of geochemical provinces in the area. A conceptual model of sediment sources and transport is provided for the southwestern Atlantic margin. [ABSTRACT FROM AUTHOR]

Published

2021

45. A New Seismic Stratigraphy in the Indian‐Atlantic Ocean Gateway Resembles Major Paleo‐Oceanographic Changes of the Last 7 Ma.

Author

Gruetzner, Jens, Jiménez Espejo, Francisco J., Lathika, Nambiyathodi, Uenzelmann‐Neben, Gabriele, Hall, Ian R., Hemming, Sidney R., and LeVay, Leah J.

Subjects

STRATIGRAPHIC geology, PALEOCEANOGRAPHY, OCEANOGRAPHIC observations, WATER masses, MERIDIONAL overturning circulation

Abstract

The exchange of water masses between the Indian Ocean and the Atlantic constitutes an integral interocean link in the global thermohaline circulation. Long‐term changes in deep water flow have been studied using seismic reflection profiles but the seismic stratigraphy was poorly constrained and not resolved for the time period from the late Miocene onward. Here we present results from International Ocean Discovery Program Site U1475 (Agulhas Plateau) located over a sediment drift proximal to the entrance of North Atlantic Deep Water into the Southern Ocean and South Indian Ocean. Site U1475 comprises a complete carbonate‐rich stratigraphic section of the last ~7 Ma that provides an archive of climate‐induced variations in ocean circulation. Six marker reflectors occurring in the upper 300 m of the drift are identified here for the first time. The formation of these reflectors is mainly due to density changes that are mostly caused by changes in biogenic versus terrigenous sediment deposition. Synthetic seismograms allow age assignments for the horizons based on biostratigraphy and magnetostratigraphy. Prominent reflectors are related to late Pleistocene glacial/interglacial variability, the middle and early Pleistocene transitions, and the onset of the northern hemisphere glaciation. A peculiar early Pliocene interval (~5.3–4.0 Ma) bounded by two reflectors is characterized by fourfold elevated sedimentation rates (>10 cm/kyr) and the occurrence of sediment waves. We argue that this enhanced sediment transport to the Agulhas Plateau was caused by a reorganization of the bottom current circulation pattern due to maximized inflow of North Atlantic Deep Water. Key Points: A new seismic stratigraphy has been derived for the late Miocene to Pleistocene at the Agulhas Plateau (IODP Site U1475)Reflectors are associated with the onset of the northern hemisphere glaciation, the middle Pleistocene transition, and the late Pleistocene climate variabilityA major reorganization of the bottom current circulation pattern at ~5.3 Ma is likely due to maximized inflow of North Atlantic Deep Water [ABSTRACT FROM AUTHOR]

Published

2019

46. Export fluxes of geochemical solutes in the meltwater stream of Sutri Dhaka Glacier, Chandra basin, Western Himalaya.

Author

Singh, Ajit, Laluraj, C., Sharma, Parmanand, Patel, Lavkush, and Thamban, Meloth

Subjects

MELTWATER, GLACIERS, WEATHERING, STREAMFLOW, GLOBAL warming

Abstract

The hydrochemistry of meltwater from the Sutri Dhaka Glacier, Western Himalaya, has been studied to understand the influence of the factors controlling the weathering processes of the glaciers during the peak ablation period. The high solar irradiance prompted intense melting, which has raised the stream flow of the glacier. The meltwater has been observed as slightly alkaline (mean pH 8.2) and contains the major anions (HCO > SO > NO > Cl) and cations (Ca > Mg > K > Na > NH ) with Ca (78.5%) and HCO (74.5%) as the dominant species. The piper diagram indicates the category of stream meltwater as Ca-HCO type. In addition, it is evident from the Gibbs diagram that the interaction between the meltwater and bedrock controls the ionic concentrations of the glacial meltwater. The high ratio value (~ 0.75) of HCO /(HCO + SO ) indicates that the carbonate weathering is dominant. Fe and Al followed by Mn, Sr, and Ti are the most dominant trace elements present in the meltwater. The significant negative correlation exhibited by the major ions and Sr with the discharge is recommended for the enrichment of these solutes during the lean discharge periods. However, the insignificant correlation of Fe, Al, Mn, and Ti with discharge suggests their physicochemical control. The principal component analysis (PCA) carried has highlighted three dominant composites, i.e., the water-rock interaction, atmospheric dust inputs, and physicochemical changes in the meltwater. Hence, the present study elucidates the export of geochemical solutes from Sutri Dhaka Glacier and factors governing the water chemistry, which helps in the better understanding of hydrochemical processes of the Himalayan glaciers and substantial improvement of our understanding about the glacio-hydrological environments and their response in the scenario of global warming. [ABSTRACT FROM AUTHOR]

Published

2017

47. Sediment composition and its effect on the productivity in Larsemann Hills, East Antarctica

Author

Choudhary, Shabnam, Nayak, Ganapati, Tiwari, Anoop Kumar, and Khare, Neloy

Published

2018

48. The Prediction of Carbon Emission Information in Yangtze River Economic Zone by Deep Learning.

Author

Huang, Huafang, Wu, Xiaomao, and Cheng, Xianfu

Subjects

LAND use planning, URBAN planning, URBANIZATION, LANDSCAPE ecology, CITIES & towns

Abstract

This study aimed to respond to the national "carbon peak" mid-and long-term policy plan, comprehensively promote energy conservation and emission reduction, and accurately manage and predict carbon emissions. Firstly, the proposed method analyzes the Yangtze River Economic Belt as well as its "carbon peak" and carbon emissions. Secondly, a support vector regression (SVR) machine prediction model is proposed for the carbon emission information prediction of the Yangtze River Economic Zone. This experiment uses a long short-term memory neural network (LSTM) to train the model and realize the experiment's prediction of carbon emissions. Finally, this study obtained the fitting results of the prediction model and the training model, as well as the prediction results of the prediction model. Information indicators such as the scale of industry investment, labor efficiency output, and carbon emission intensity that affect carbon emissions in the "Yangtze River Economic Belt" basin can be used to accurately predict the carbon emissions information under this model. Therefore, the experiment shows that the SVR model for solving complex nonlinear problems can achieve a relatively excellent prediction effect under the training of LSTM. The deep learning model adopted herein realized the accurate prediction of carbon emission information in the Yangtze River Economic Zone and expanded the application space of deep learning. It provides a reference for the model in related fields of carbon emission information prediction, which has certain reference significance. [ABSTRACT FROM AUTHOR]

Published

2021

49. Proceedings of the International Ocean Discovery Program; South African climates (Agulhas LGM density profile); Expedition 361 of the riserless drilling platform, Port Louis, Mauritius, to Cape Town, South Africa; Sites U1474-U1479, 30 January-31 March 2016

Author

Hall, Ian R., Hemming, Sidney R., LeVay, Leah J., Barker, Stephen R., Berke, Melissa A., Brentegani, Luna, Caley, Thibaut, Cartagena-Sierra, Alejandra, Charles, Christopher D., Coenen, Jason J., Crespin, Julien G., Franzese, Allison M., Gruetzner, Jens, Xibin, Han, Hines, Sophia K. V., Jimenez Espejo, Francisco J., Just, Janna, Koutsodendris, Andreas, Kubota, Kaoru, Lathika, Nambiyathodi, Norris, Richard D., Pereira dos Santos, Thiago, Robinson, Rebecca, Rolison, John M., Simon, Margit H., Tangunan, Deborah, Yamane, Masako, Hucai, Zhang, and van der Lubbe, H. J. L.

Subjects

Historical Geology and Paleoecology, Agulhas Current, Algae, Atlantic Ocean, Biostratigraphy, Cenozoic, Cores, Correlation, Diatoms, Expedition 361, Foraminifera, Geochemistry, Hydrochemistry, Indian Ocean, International Ocean Discovery Program, Invertebrata, Lithostratigraphy, Magnetostratigraphy, Marine sediments, Microfossils, Mozambique Channel, Nannofossils, Neogene, Paleo-oceanography, Paleoclimatology, Physical properties, Plantae, Pore water, Protista, Quaternary, Sediments, South Atlantic, Southeast Atlantic, Tertiary, West Indian Ocean, 12 Stratigraphy, Historical Geology and Paleoecology, 12 Stratigraphy

Published

2017

50. Shifts in Diatom Dominance Associated with Seasonal Changes in an Estuarine-Mangrove Phytoplankton Community.

Author

Hilaluddin, Fareha, Yusoff, Fatimah Md., and Toda, Tatsuki

Subjects

MANGROVE plants, DIATOMS, MANGROVE ecology, PHYTOPLANKTON, ENVIRONMENTAL indicators, FOREST reserves, MANGROVE forests

Abstract

A study on seasonal phytoplankton abundance and composition in a mangrove estuary, Matang Mangrove Forest Reserve (MMFR), Malaysia, was carried out to determine the phytoplankton structure in this ecosystem, and to identify potential indicators of environmental changes. Phytoplankton samples were collected bimonthly from June 2010 to April 2011, to cover both dry (June to October) and wet (November to April) seasons, at four selected sampling sites along the river. Diatoms showed the highest number of species (50 species) from a total of 85 phytoplankton species from 76 genera. Diatoms contributed more than 90% of the total phytoplankton abundance during the dry season (southwest monsoon) and less than 70% during the wet season (northeast monsoon) as dinoflagellates became more abundant during the rainy season. Two diatoms were recorded as dominant species throughout the sampling period; Cyclotella sp. and Skeletonema costatum. Cyclotella sp. formed the most abundant species (62% of total phytoplankton) during the dry period characterized by low nutrients and relatively low turbidity. Skeletonema costatum contributed 93% of the total phytoplankton in October, which marked the end of the dry season and the beginning of the wet season, characterized by strong winds and high waves leading to the upwelling of the water column. Massive blooms of Skeletonema costatum occurred during the upwelling when total nitrogen (TN) and total phosphorus (TP) concentrations were highest (p < 0.05) throughout the year. The abundance of diatom species during the wet season was more evenly distributed, with most diatom species contributing less than 12% of the total phytoplankton. Autotrophic producers such as diatoms were limited by high turbidity during the northeast monsoon when the rainfall was high. During the wet season, Cyclotella and Skeletonema costatum only contributed 9% and 5% of the total phytoplankton, respectively, as dinoflagellates had more competitive advantage in turbid waters. This study illustrates that some diatom species such as Cyclotella sp. and Skeletonema costatum could be used as indicators of the environmental changes in marine waters. [ABSTRACT FROM AUTHOR]

Published

2020