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1. The palaeoclimate potential of continental scientific drilling

Author

Obrist-Farner, Jonathan, Anderson, Lesleigh, Baker, Paul, Berke, Melissa A., Beverly, Emily J., Brigham-Grette, Julie, Brown, Erik, Castañeda, Isla S., Deino, Alan L., Fritz, Sherilyn C., Goldstein, Steven L., Kehrwald, Natalie M., Kirby, Matthew, Miller, Kenneth G., Olsen, Paul, Boush, Lisa Park, Robinson, Marci M., Russell, James, and Soreghan, Gerilyn S.

Published
2024
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5. Broadening the View of Holistic Care: Integrating Arts and Humanities Into Physician Assistant Education.

Author

Horak, Shaun D PA-C, Dickey, Pamela MPAS, PA-C, Ammons, Samantha K., Barone, T. Lynne, Culross, Beth GCNS-BC, CHSE, Berke, Melissa, Duran, Adrian R., Hawkins, Daniel N., Langan, Steve MFA, McCaffrey, Joseph, and Morris, Amy

Abstract

Introduction : The integration of arts and humanities (A&H) into physician assistant (PA) preclinical curriculum may enhance student performance and improve their patient rapport. Arts and humanities content could promote the personal and professional qualities we desire in clinicians including competence, compassion, and empathy. The aim of this research was to determine what PA students report learning from A&H modules designed to foster personal insight and perspective-taking. Methods : The "Introduction of Humanities & Arts into Physician Assistant Education" (IHAPAE) project is an intercampus collaboration between 2 Midwest Universities. The IHAPAE faculty collaboratively created and delivered A&H-based modules within first-year communication courses. Two cohorts of PA students (N = 130) participated in modules and subsequently attended exploratory focus groups to elicit their perceptions of the A&H curriculum. Results : Using a constructivist grounded theory approach for data analysis, we found that PA students perceived multiple benefits. Specifically, module content promoted reflection and stress reduction, improved their continuity of care notes, provided utility in cultivating empathy in patient communication, and introduced students to A&H approaches they could recommend to patients. Discussion : The process model that emerged from student perceptions fits well with existing emotional regulation theory and provides empirical evidence for cultivation of empathy and patient-centeredness. Given the positive outcomes of our project, PA programs should consider the value of incorporating the A&H activities into their curriculum to enhance the student experience and develop essential provider attributes and skills. [ABSTRACT FROM AUTHOR]

Published
2024
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13. ICDP workshop on the Lake Victoria Drilling Project (LVDP): scientific drilling of the world's largest tropical lake.

Author

Berke, Melissa A., Peppe, Daniel J., and the LVDP team

Subjects
*LAKES, *CLIMATE sensitivity, *AQUATIC animals, *WATERSHEDS, *LAKE sediments, *FOSSIL diatoms, *EXPLOSIVE volcanic eruptions
Abstract

Lake Victoria, which is bordered by Uganda, Tanzania, Kenya, and has a catchment that extends to Rwanda and Burundi, is home to the largest human population surrounding any lake in the world and provides critical resources across eastern Africa. Lake Victoria is also the world's largest tropical lake by surface area, but it is relatively shallow and without a major inlet, making it very sensitive to changes in climate, and especially hydroclimate. Furthermore, its size creates abundant habitats for aquatic fauna, including the iconic hyper-diverse cichlids, and serves as a major geographic barrier to terrestrial fauna across equatorial Africa. Given Lake Victoria's importance to the eastern African region, its sensitivity to climate, and its influences on terrestrial and aquatic faunal evolution and dispersal, it is vital to understand the connection between the lake and regional climate and how the lake size, shape, and depth have changed through its depositional history. This information can only be ascertained by collecting a complete archive of Lake Victoria's sedimentary record. To evaluate the Lake Victoria basin as a potential drilling target, ∼ 50 scientists from 10 countries met in Dar es Salaam, Tanzania, in July 2022 for the International Continental Scientific Drilling Program (ICDP)-sponsored Lake Victoria Drilling Project (LVDP) workshop. Discussions of the main scientific objectives for a future drilling project included (1) recovering the Pleistocene and Holocene sedimentary records of Lake Victoria that document the dynamic nature of the lake, including multiple lacustrine and paleosol sequences; (2) establishing the chronology of recovered sediments, including using extensive tephra fingerprinting and other techniques from deposits in the region; (3) reconstructing past climate, environment, lacustrine conditions, and aquatic fauna, using an integrated multi-proxy approach, combined with climate and hydrologic modeling; and (4) connecting new records with existing sedimentary snapshots and fossils exposed in deposits around the lake, tying archaeological, paleontological, sedimentological, tectonic, and volcanic findings to new drilling results. The LVDP provides an innovative way to address critical geological, paleontological, climatological, and evolutionary biological questions about Quaternary to modern landscapes and ecosystems in eastern Africa. Importantly, this project affords an excellent opportunity to help develop conservation and management strategies for regional responses to current and future changes in climate, land use, fisheries, and resiliency of at-risk communities in equatorial Africa. [ABSTRACT FROM AUTHOR]

Published
2024
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14. The influence of tropical Atlantic sea-surface temperatures and the North Atlantic Subtropical High during the Maya Droughts.

Author

Gibson, Derek K, Obrist-Farner, Jonathan, Birkett, Brooke A, Curtis, Jason H, Berke, Melissa A, Douglas, Peter MJ, Rice, Prudence M, and Maurer, Jeremy

Subjects
MAYAS, OCEAN temperature, DROUGHTS, LITTLE Ice Age, HYDROLOGY, PALEOCLIMATOLOGY
Abstract

The frequency and duration of Late-Holocene hydrologic extremes in northern Guatemala were investigated using multiple sedimentological and geochemical proxies preserved in a sediment core collected from Lake Petén Itzá. A general trend of increasing aridity in the Maya Lowlands during the past 2000 years was punctuated by several multidecadal- to centennial-scale drought events recorded in the Petén Itzá sediments. In particular, the period spanning the Maya Terminal Classic Period and the Medieval Climate Anomaly (MCA), between 800 and 1300 CE, was marked by several extreme droughts and included the driest conditions of the past 2000 years between 950 and 1100 CE. Similarities between our data and other existing regional paleoclimate records suggest regional drying events during this time may have been driven by a common mechanism. Specifically, comparisons between these records and tropical Atlantic sea surface temperatures (SSTs) suggest that the dry intervals may have been driven by a westward expansion of the North Atlantic Subtropical High pressure system. This period was unique in the general agreement between regional proxy records, which are otherwise notably heterogeneous during the Late-Holocene. During the Little Ice Age (LIA; 1400–1800 CE) mean precipitation at Petén Itzá was further reduced, and multidecadal drying events were recorded between 1500–1530, 1600–1640, and 1770–1800 CE. However, regional hydroclimatic coherency was weaker during the LIA, suggesting that additional climatic mechanisms played a more important role in local-scale hydrology during that time. [ABSTRACT FROM AUTHOR]

Published
2024
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23. Climatic History of the Northeastern United States During the Past 3000 Years

Author

Marlon, Jennifer R, Pederson, Neil, Nolan, Connor, Goring, Simon, Shuman, Bryan, Robertson, Ann, Booth, Robert, Bartlein, Patrick J, Berke, Melissa A, Clifford, Michael, Cook, Edward, Dieffenbacher-Krall, Ann, Dietze, Michael C, Hessl, Amy, Hubeny, J. Bradford, Jackson, Stephen T, Marsicek, Jeremiah, McLachlan, Jason, Mock, Cary J, Moore, David J. P, Nichols, Jonathan, Peteet, Dorothy, Schaefer, Kevin, Trouet, Valerie, Umbanhowar, Charles, Williams, John W, and Yu, Zicheng

Subjects
Life Sciences (General), Meteorology And Climatology
Abstract

Many ecosystem processes that influence Earth system feedbacks - vegetation growth, water and nutrient cycling, disturbance regimes - are strongly influenced by multidecadal- to millennial-scale climate variations that cannot be directly observed. Paleoclimate records provide information about these variations, forming the basis of our understanding and modeling of them. Fossil pollen records are abundant in the NE US, but cannot simultaneously provide information about paleoclimate and past vegetation in a modeling context because this leads to circular logic. If pollen data are used to constrain past vegetation changes, then the remaining paleoclimate archives in the northeastern US (NE US) are quite limited. Nonetheless, a growing number of diverse reconstructions have been developed but have not yet been examined together. Here we conduct a systematic review, assessment, and comparison of paleotemperature and paleohydrological proxies from the NE US for the last 3000 years. Regional temperature reconstructions (primarily summer) show a long-term cooling trend (1000BCE - 1700CE) consistent with hemispheric-scale reconstructions, while hydroclimate data show gradually wetter conditions through the present day. Multiple proxies suggest that a prolonged, widespread drought occurred between 550 and 750CE. Dry conditions are also evident during the Medieval Climate Anomaly, which was warmer and drier than the Little Ice Age and drier than today. There is some evidence for an acceleration of the longer-term wetting trend in the NE US during the past century; coupled with an abrupt shift from decreasing to increasing temperatures in the past century, these changes could have wide-ranging implications for species distributions, ecosystem dynamics, and extreme weather events. More work is needed to gather paleoclimate data in the NE US to make inter-proxy comparisons and to improve estimates of uncertainty in reconstructions.

Published
2017
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24. Curriculum Integration: A Two-Way Street.

Author

Berke, Melissa K.

Abstract

Describes curriculum integration and examines a theory of multicultural integration applying it to music education. Offers guidelines for music teachers who attempt to integrate music education with other subject areas: (1) get organized; (2) inform your principal; (3) start small; (4) be proactive; (5) be flexible; and (6) evaluate the effort. (CMK)

Published
2000

26. Plio‐Pleistocene Continental Hydroclimate and Indian Ocean Sea Surface Temperatures at the Southeast African Margin

Author

Taylor, Audrey K., Berke, Melissa A., Castañeda, Isla S., Koutsodendris, Andreas, Campos, Hernan, Hall, Ian R., Hemming, Sidney R., LeVay, Leah J., Sierra, Alejandra Cartagena, O'Connor, Keith, and Expedition Scientists

Subjects
Atmospheric Science, geography, geography.geographical_feature_category, Paleontology, Climate change, TEX86, International Ocean Discovery Program, Oceanography, Sea surface temperature, River mouth, Tropical rain belt, Indian Ocean Dipole, Glacial period, Geology
Abstract

Efforts to understand long‐term Indian Ocean dynamics and land‐sea linkages in southeast Africa during periods of significant global and regional climate change have been inhibited by a lack of high‐resolution climate records, particularly during the Plio‐Pleistocene. Here we present new biomarker and pollen records from International Ocean Discovery Program (IODP) Site U1478, located at the Upper Agulhas Confluence near the Limpopo River mouth, to establish environmental conditions at the southeast African margin between 4 and 1.8 Ma and address this spatiotemporal gap. Compound‐specific hydrogen isotopes of terrestrial leaf waxes (δDwax) and TEX86, using marine archaeal lipids, document hydroclimate variability and sea surface temperatures (SST), respectively, permitting an onshore‐offshore climate comparison. The U1478 records establish the Limpopo catchment response to the switch in Indonesian Throughflow source waters, the mid‐Pliocene Warm Period, and intensification of Northern Hemisphere glaciations at ∼2.7 Ma. Broad coherence between the δDwax and >SST records supports a linkage between Indian Ocean temperatures and southeast African hydroclimate. We hypothesize that additional mechanisms including Indian Ocean cross‐basin SST gradients (ΔSST) and high latitude glaciation acted as hydroclimate controls during the Plio‐Pleistocene. We use ΔSST to evaluate ocean‐atmosphere patterns similar to the Indian Ocean Dipole (IOD) and establish generally wetter conditions in the region associated with positive IOD‐like phases. Additionally, an obliquity signal evident in the δDwax record indicates that glacial‐interglacial variability likely influenced the tropical rain belt position and also controlled rainfall. Hydroclimate and environmental conditions across the Plio‐Pleistocene in southeast Africa may have important implications for regional hominin evolution.

Published
2021
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27. Extended megadroughts in the southwestern United States during Pleistocene interglacials

Author

Fawcett, Peter J., Werne, Josef P., Anderson, R. Scott, Heikoop, Jeffrey M., Brown, Erik T., Berke, Melissa A., Smith, Susan J., Goff, Fraser, Donohoo-Hurley, Linda, Cisneros-Dozal, Luz M., Schouten, Stefan, Damste, Jaap S. Sinninghe, Huang, Yongsong, Toney, Jaime, Fessenden, Julianna, WoldeGabriel, Giday, Atudorei, Viorel, Geissman, John W., and Allen, Craig D.

Subjects
Droughts -- Natural history -- Models -- United States, Interglacial periods -- Discovery and exploration, Glacial epoch -- Discovery and exploration, Environmental issues, Science and technology, Zoology and wildlife conservation
Abstract

The potential for increased drought frequency and severity linked to anthropogenic climate change in the semi-arid regions of the southwestern United States (US) is a serious concern (1). Multi-year droughts during the instrumental period2 and decadal-length droughts of the past two millennia (1, 3) were shorter and climatically different from the future permanent, 'dust-bowl-like' megadrought conditions, lasting decades to a century, that are predicted as a consequence of warming (4). So far, it has been unclear whether or not such megadroughts occurred in the southwestern US, and, if so, with what regularity and intensity. Here we show that periods of aridity lasting centuries to millennia occurred in the southwestern US during mid-Pleistocene interglacials. Using molecular palaeotemperature proxies (5) to reconstruct the mean annual temperature (MAT) in mid-Pleistocene lacustrine sediment from the Valles Caldera, New Mexico, we found that the driest conditions occurred during the warmest phases of interglacials, when the MAT was comparable to or higher than the modern MAT. A collapse of drought-tolerant [C.sub.4] plant communities during these warm, dry intervals indicates a significant reduction in summer precipitation, possibly in response to a poleward migration of the subtropical dry zone. Three MAT cycles ~2°C in amplitude occurred within Marine Isotope Stage (MIS) 11 and seem to correspond to the muted precessional cycles within this interglacial. In comparison with MIS 11, MIS 13 experienced higher precessional-cycle amplitudes, larger variations in MAT (4-6°C) and a longer period of extended warmth, suggesting that local insolation variations were important to interglacial climatic variability in the southwestern US. Comparison of the early MIS 11 climate record with the Holocene record shows many similarities and implies that, in the absence of anthropogenic forcing, the region should be entering a cooler and wetter phase., The hydroclimatology of the southwestern US shows significant natural variability including major historical droughts (1). Models of climate response to anthropogenic warming predict future dustbowl-like conditions that will last much [...]

Published
2011
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28. Antarctic icebergs reorganize ocean circulation during Pleistocene glacials

Author

Starr, Aidan, Hall, Ian R., Barker, Stephen, Rackow, Thomas, Zhang, Xu, Hemming, Sidney R., van der Lubbe, H. J.L., Knorr, Gregor, Berke, Melissa A., Bigg, Grant R., Cartagena-Sierra, Alejandra, Jiménez-Espejo, Francisco J., Gong, Xun, Gruetzner, Jens, Lathika, Nambiyathodi, LeVay, Leah J., Robinson, Rebecca S., Ziegler, Martin, Expedition 361 Science Party, Stratigraphy and paleontology, and Stratigraphy & paleontology

Subjects
General
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 today1; 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) shoaled2. 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

29. Eastern Mediterranean Paleoclimate and Ecosystems during the Rise of Early Civilizations, Cruise No. M144, December 27, 2017 - January 18, 2018, Heraklion (Greece) - Catania (Italy)

Author

Pross, J��rg, Bahr, Andr��, Berke, Melissa, Blum, Marie, Brzelinski, Swaantje, Campos, Hernan, Catunda, Maria Carolina, Evers, Florian, Kaboth, Stefanie, Kotthoff, Ulrich, Koutsodendris, Andreas, Krengel, Thomas, Lange, Danae, Lippold, J��rg, M��chtle, Bertil, Manta, Kyriaki, Maicher, Doris, Norris, Richard, P��ppelmeier, Frerk, Ravani, Alexandra, Schulz, Hartmut, S��fke, Finn, Sugla, Rishi, Vakhrameeva, Polina, Vannacci, Martina, Otte, Frank, and Raeke, Andreas

Subjects
Earth sciences and geology, Earth Science
Abstract

METEOR-Berichte

Published
2021
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30. Lessons from a high-CO2 world: An ocean view from ∼3 million years ago

Author

McClymont, Erin L., Ford, Heather L., Ling Ho, Sze, Tindall, Julia C., Haywood, Alan M., Alonso-Garcia, Montserrat, Bailey, Ian, Berke, Melissa A., Littler, Kate, Patterson, Molly O., Petrick, Benjamin, Peterse, Francien, Christina Ravelo, A., Risebrobakken, Bjorg, De Schepper, Stijn, Swann, George E.A., Thirumalai, Kaustubh, Tierney, Jessica E., van der Weijst, Carolien, White, Sarah, Abe-Ouchi, Ayako, Baatsen, Michiel L.J., Brady, Esther C., Chan, Wing Le, Chandan, Deepak, Feng, Ran, Guo, Chuncheng, Von Der Heydt, Anna S., Hunter, Stephen, Li, Xiangyi, Lohmann, Gerrit, Nisancioglu, Kerim H., Otto-Bliesner, Bette L., Richard Peltier, W., Stepanek, Christian, Zhang, Zhongshi, Marine and Atmospheric Research, Organic geochemistry, Marine palynology and palaeoceanography, Sub Dynamics Meteorology, Sub Physical Oceanography, and Marine Palynology

Subjects
Global and Planetary Change, Stratigraphy, Palaeontology
Abstract

A range of future climate scenarios are projected for high atmospheric CO2 concentrations, given uncertainties over future human actions as well as potential environmental and climatic feedbacks. The geological record offers an opportunity to understand climate system response to a range of forcings and feedbacks which operate over multiple temporal and spatial scales. Here, we examine a single interglacial during the late Pliocene (KM5c, ca. 3:205_0:01 Ma) when atmospheric CO2 exceeded pre-industrial concentrations, but were similar to today and to the lowest emission scenarios for this century. As orbital forcing and continental configurations were almost identical to today, we are able to focus on equilibrium climate system response to modern and near-future CO2. Using proxy data from 32 sites, we demonstrate that global mean sea-surface temperatures were warmer than pre-industrial values, by 2:3 C for the combined proxy data (foraminifera Mg=Ca and alkenones), or by 3:2 3.4 C (alkenones only). Compared to the preindustrial period, reduced meridional gradients and enhanced warming in the North Atlantic are consistently reconstructed. There is broad agreement between data and models at the global scale, with regional differences reflecting ocean circulation and/or proxy signals. An uneven distribution of proxy data in time and space does, however, add uncertainty to our anomaly calculations. The reconstructed global mean seasurface temperature anomaly for KM5c is warmer than all but three of the PlioMIP2 model outputs, and the reconstructed North Atlantic data tend to align with the warmest KM5c model values. Our results demonstrate that even under low-CO2 emission scenarios, surface ocean warming may be expected to exceed model projections and will be accentuated in the higher latitudes.

Published
2020

31. Lessons from a high-CO2 world: an ocean view from ∼ 3 million years ago

Author

McClymont, Erin L., Ford, Heather L., Ho, Sze Ling, Tindall, Julia C., Haywood, Alan M., Alonso-Garcia, Montserrat, Bailey, Ian, Berke, Melissa A., Littler, Kate, Patterson, Molly O., Petrick, Benjamin, Peterse, Francien, Ravelo, A. Christina, De Schepper, Stijn, Swann, George E. A., Thirumalai, Kaustubh, Tierney, Jessica E., van der Weijst, Carolien, White, Sarah, Abe-Ouchi, Ayako, Baatsen, Michiel L. J., Brady, Esther C., Chan, Wing-Le, Chandan, Deepak, Feng, Ran, Guo, Chuncheng, von der Heydt, Anna S., Hunter, Stephen, Li, Xiangyi, Lohmann, Gerrit, Nisancioglu, Kerim H., Otto-Bliesner, Bette L., Peltier, W. Richard, Stepanek, Christian, and Zhang, Zhongshi

Subjects
Global and Planetary Change, Stratigraphy, Palaeontology
Abstract

A range of future climate scenarios are projected for high atmospheric CO2 concentrations, given uncertainties over future human actions as well as potential environmental and climatic feedbacks. The geological record offers an opportunity to understand climate system response to a range of forcings and feedbacks which operate over multiple temporal and spatial scales. Here, we examine a single interglacial during the late Pliocene (KM5c, ca. 3.205±0.01 Ma) when atmospheric CO2 exceeded pre-industrial concentrations, but were similar to today and to the lowest emission scenarios for this century. As orbital forcing and continental configurations were almost identical to today, we are able to focus on equilibrium climate system response to modern and near-future CO2. Using proxy data from 32 sites, we demonstrate that global mean sea-surface temperatures were warmer than pre-industrial values, by ∼2.3 ∘C for the combined proxy data (foraminifera Mg∕Ca and alkenones), or by ∼3.2–3.4 ∘C (alkenones only). Compared to the pre-industrial period, reduced meridional gradients and enhanced warming in the North Atlantic are consistently reconstructed. There is broad agreement between data and models at the global scale, with regional differences reflecting ocean circulation and/or proxy signals. An uneven distribution of proxy data in time and space does, however, add uncertainty to our anomaly calculations. The reconstructed global mean sea-surface temperature anomaly for KM5c is warmer than all but three of the PlioMIP2 model outputs, and the reconstructed North Atlantic data tend to align with the warmest KM5c model values. Our results demonstrate that even under low-CO2 emission scenarios, surface ocean warming may be expected to exceed model projections and will be accentuated in the higher latitudes.

Published
2020

32. Data report: evaluation of shipboard magnetostratigraphy by alternating field demagnetization of discrete samples, Expedition 361, Site U1475

Author

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

Abstract

The paleomagnetic shipboard data of International Ocean Discovery Program Site U1475, with a record reaching back to approximately 7 Ma, allowed for the identification of major magnetic polarity chrons and subchrons back to ~3.5 Ma. However, the natural remanent magnetization (NRM) was very weak, and transitional intervals with unclear polarity were as thick as several meters. The midpoints of these transitional intervals were reported in the shipboard results without decimal places because of the poor data quality. To evaluate and possibly refine the shipboard magnetostratigraphy, subsampling was performed across the polarity transitions. Detailed alternating field (AF) demagnetization experiments were conducted on these discrete samples and were complemented by anhysteretic remanent magnetization acquisition measurements and subsequent demagnetization. AF demagnetization data of NRM were analyzed using anchored principal component analysis (PCA) to obtain the characteristic remanent magnetization. These PCA results generally confirm the smoothed signal across polarity transitions at Site U1475. However, the midpoint depths of the top of the Keana Subchron, the Gauss-Matuyama and Matuyama-Brunhes boundaries, and the base of the Olduvai Subchron were adjusted.

Published
2020

33. Antarctic icebergs reorganize ocean circulation during Pleistocene glacials

Author

Stratigraphy and paleontology, Stratigraphy & paleontology, Starr, Aidan, Hall, Ian R., Barker, Stephen, Rackow, Thomas, Zhang, Xu, Hemming, Sidney R., van der Lubbe, H. J.L., Knorr, Gregor, Berke, Melissa A., Bigg, Grant R., Cartagena-Sierra, Alejandra, Jiménez-Espejo, Francisco J., Gong, Xun, Gruetzner, Jens, Lathika, Nambiyathodi, LeVay, Leah J., Robinson, Rebecca S., Ziegler, Martin, Expedition 361 Science Party, Stratigraphy and paleontology, Stratigraphy & paleontology, Starr, Aidan, Hall, Ian R., Barker, Stephen, Rackow, Thomas, Zhang, Xu, Hemming, Sidney R., van der Lubbe, H. J.L., Knorr, Gregor, Berke, Melissa A., Bigg, Grant R., Cartagena-Sierra, Alejandra, Jiménez-Espejo, Francisco J., Gong, Xun, Gruetzner, Jens, Lathika, Nambiyathodi, LeVay, Leah J., Robinson, Rebecca S., Ziegler, Martin, and Expedition 361 Science Party

Published
2021

34. The interglacial-glacial sequence of events at the Agulhas Plateau: Antarctic icebergs lead ocean circulation into ice ages and across the Mid-Pleistocene Transition

Author

Starr, Aidan, Hall, Ian R., Barker, Stephen, Hemming, Sidney R., Rackow, Thomas, Zhang, Xu, van der Lubbe, J.J.L., Knorr, Gregor, Berke, Melissa A., Bigg, Grant R., Cartagena-Sierra, Alejandra, Jimenez-Espejo, Francisco J., Gong, Xun, Gruetzner, Jens, Lathika, Nambiyathodi, LeVay, Leah J., Ziegler, Martin, Starr, Aidan, Hall, Ian R., Barker, Stephen, Hemming, Sidney R., Rackow, Thomas, Zhang, Xu, van der Lubbe, J.J.L., Knorr, Gregor, Berke, Melissa A., Bigg, Grant R., Cartagena-Sierra, Alejandra, Jimenez-Espejo, Francisco J., Gong, Xun, Gruetzner, Jens, Lathika, Nambiyathodi, LeVay, Leah J., and Ziegler, Martin

Abstract

Palaeoceanographic evidence suggests that glacial periods of the Mid to Late Pleistocene were characterized by markedly different global ocean circulation patterns to modern; 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. Whilst proxy records and modelling efforts continue to clarify this picture, an evidence alluding to the origin of this phenomenon remains elusive. Because of this, our understanding of the sequence of events leading to global glacial conditions remains incomplete. 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 1-2 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. This, in concert with increased sea-ice cover, may have enabled positive buoyancy anomalies to effectively escape into the ‘upper’ Atlantic overturning circulation limb, providing a teleconnection between surface Southern Ocean conditions and the formation of NADW. Furthermore, we observe a distinct obliquity pacing of Antarctic iceberg melt both preceding and following the Mid-Pleistocene Transition, become obscured during this interval. With new and existing data we investigate the evolution of orbital forcing at the Agulhas Plateau, considering the implications for ‘Southern Escape’ of freshwater as a key feedback in the transition to the ‘100-kyr world’.

Published
2021

35. Latitudinal Migrations of the Subtropical Front at the Agulhas Plateau Through the Mid‐Pleistocene Transition

Author

Cartagena‐Sierra, Alejandra, Berke, Melissa A., Robinson, Rebecca S., Marcks, Basia, Castañeda, Isla S., Starr, Aidan, Hall, Ian R., Hemming, Sidney R., LeVay, Leah J., Expedition 361 Scientific Party (incl. Jens Gruetzner), t., Cartagena‐Sierra, Alejandra, Berke, Melissa A., Robinson, Rebecca S., Marcks, Basia, Castañeda, Isla S., Starr, Aidan, Hall, Ian R., Hemming, Sidney R., LeVay, Leah J., and Expedition 361 Scientific Party (incl. Jens Gruetzner), t.

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 0.3 Ma to examine implied changes in the upper oceanographic conditions at the mid-Pleistocene transition (MPT, ca. 1.2?0.8 Ma). 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 a Globorotalia 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 CO2 ventilation seen during the MPIS.

Published
2021

36. 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, 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, and Robinson, Rebecca

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

37. Strong glacial-interglacial variability in upper ocean hydrodynamics, biogeochemistry, and productivity in the southern Indian Ocean

Author

Ministerio de Ciencia e Innovación (España), European Commission, German Research Foundation, Ministerio de Ciencia, Innovación y Universidades (España), Tangunan, Deborah, Berke, Melissa A., Cartagena Sierra, Alejandra, Flores, José Abel, Gruetzner, Jens, Jiménez Espejo, Francisco J., LeVay, Leah J., Baumann, Karl-Heinz, Romero, Óscar, Saavedra-Pellitero, Mariem, Coenen, Jason J., Starr, Aidan, Hemming, Sidney R., Hall, Ian R., Ministerio de Ciencia e Innovación (España), European Commission, German Research Foundation, Ministerio de Ciencia, Innovación y Universidades (España), Tangunan, Deborah, Berke, Melissa A., Cartagena Sierra, Alejandra, Flores, José Abel, Gruetzner, Jens, Jiménez Espejo, Francisco J., LeVay, Leah J., Baumann, Karl-Heinz, Romero, Óscar, Saavedra-Pellitero, Mariem, Coenen, Jason J., Starr, Aidan, Hemming, Sidney R., and Hall, Ian R.

Abstract

In the southern Indian Ocean, the position of the subtropical front - the boundary between colder, fresher waters to the south and warmer, saltier waters to the north - has a strong influence on the upper ocean hydrodynamics and biogeochemistry. Here we analyse a sedimentary record from the Agulhas Plateau, located close to the modern position of the subtropical front and use alkenones and coccolith assemblages to reconstruct oceanographic conditions over the past 300,000 years. We identify a strong glacial-interglacial variability in sea surface temperature and productivity associated with subtropical front migration over the Agulhas Plateau, as well as shorter-term high frequency variability aligned with variations in high latitude insolation. Alkenone and coccolith abundances, in combination with diatom and organic carbon records indicate high glacial export productivity. We conclude that the biological pump was more efficient and strengthened during glacial periods, which could partly account for the reported reduction in atmospheric carbon dioxide concentrations. Migration of the Subtropical Front during glacial and interglacial periods resulted in variability in the strength of the biological pump in the Southern Ocean sector of the Indian Ocean, according to sedimentary records from the Agulhas Plateau.

Published
2021

38. Antarctic icebergs reorganize ocean circulation during Pleistocene glacials

Author

Ministerio de Ciencia e Innovación (España), Natural Environment Research Council (UK), National Key Research and Development Program (China), Helmholtz Association, European Commission, Starr, Aidan, Hall, Ian R., Barker, Stephen, Rackow, Thomas, Zhang, Xu, Hemming, Sidney R., Van Der Lubber, H. J. L., Knorr, Gregor, Berke, Melissa A., Bigg, Grant R., Cartagena Sierra, Alejandra, Jiménez Espejo, Francisco J., Gong, Xun, Gruetzner, Jens, Lathika, Nambiyathodi, LeVay, Leah J., Robinson, Rebecca S., Ziegler, Martin, Ministerio de Ciencia e Innovación (España), Natural Environment Research Council (UK), National Key Research and Development Program (China), Helmholtz Association, European Commission, Starr, Aidan, Hall, Ian R., Barker, Stephen, Rackow, Thomas, Zhang, Xu, Hemming, Sidney R., Van Der Lubber, H. J. L., Knorr, Gregor, Berke, Melissa A., Bigg, Grant R., Cartagena Sierra, Alejandra, Jiménez Espejo, Francisco J., Gong, Xun, Gruetzner, Jens, Lathika, Nambiyathodi, LeVay, Leah J., Robinson, Rebecca S., and Ziegler, Martin

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; 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. 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

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

Author

Cartagena-Sierra, Alejandra, Berke, Melissa A., Robinson, Rebecca S., Marcks, Basia, Castañeda, Isla S., Starr, Aidan, Hall, Ian R., Hemming, Sidney R., LeVay, Leah J., Cartagena-Sierra, Alejandra, Berke, Melissa A., Robinson, Rebecca S., Marcks, Basia, Castañeda, Isla S., Starr, Aidan, Hall, Ian R., Hemming, Sidney R., and LeVay, Leah J.

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 ((Formula presented.) and (Formula presented.)) 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 0.3 Ma to examine implied changes in the upper oceanographic conditions at the mid-Pleistocene transition (MPT, ca. 1.2–0.8 Ma). 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 a Globorotalia 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 CO2 ventilation seen during the MPIS.

Published
2021

40. 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, primary, Nakajima, Kai, additional, Kaboth-Bahr, Stefanie, additional, Berke, Melissa A., additional, Franzese, Allison M., additional, Hall, Ian R., additional, Hemming, Sidney R., additional, Just, Janna, additional, LeVay, Leah J., additional, Pross, Jörg, additional, and Robinson, Rebecca, additional

Published
2021
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41. The interglacial-glacial sequence of events at the Agulhas Plateau: Antarctic icebergs lead ocean circulation into ice ages and across the Mid-Pleistocene Transition

Author

Starr, Aidan, primary, Hall, Ian, additional, Barker, Stephen, additional, Hemming, Sidney, additional, Rackow, Thomas, additional, Zhang, Xu, additional, van der Lubbe, H.J.L, additional, Knorr, Gregor, additional, Berke, Melissa, additional, Bigg, Grant, additional, Cartagena-Sierra, Alejandra, additional, Jimenez-Espejo, Francisco, additional, Gong, Xun, additional, Gruetzner, Jens, additional, Lathka, Nambiyathodi, additional, LeVay, Leah, additional, and Ziegler, Martin, additional

Published
2021
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43. Lessons from a high CO2 world: an ocean view from ~3 million years ago

Author

McClymont, Erin, primary, Ford, Heather, additional, Ho, Sze Ling, additional, Tindall, Julia, additional, Haywood, Alan, additional, Alonso Garcia, Montserrat, additional, Bailey, Ian, additional, Berke, Melissa, additional, Littler, Kate, additional, Patterson, Molly, additional, Petrick, Benjamin, additional, Peterse, Francien, additional, Ravelo, Christina, additional, Risebrobakken, Bjorg, additional, De Schepper, Stijn, additional, Swann, George, additional, Thirumalai, Kaustubh, additional, Tierney, Jessica, additional, van der Weijst, Carolien, additional, and White, Sarah, additional

Published
2020
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45. Lessons from a high CO2 world: an ocean view from ~ 3 million years ago

Author

McClymont, Erin L., Ford, Heather L., Ho, Sze Ling, Tindall, Julia C., Haywood, Alan M., Alonso-Garcia, Montserrat, Bailey, Ian, Berke, Melissa A., Littler, Kate, Patterson, Molly, Petrick, Benjamin, Peterse, Francien, Ravelo, A. Christina, Risebrobakken, Bjørg, Schepper, Stijn, Swann, George E. A., Thirumalai, Kaustubh, Tierney, Jessica E., Weijst, Carolien, and White, Sarah

Abstract

A range of future climate scenarios are projected for high atmospheric CO2 concentrations, given uncertainties over future human actions as well as potential environmental and climatic feedbacks. The geological record offers an opportunity to understand climate system response to a range of forcings and feedbacks which operate over multiple temporal and spatial scales. Here, we examine a single interglacial during the late Pliocene (KM5c, ca. 3.205 ± 0.01 Ma) when atmospheric CO2 concentrations were higher than pre-industrial, but similar to today and to the lowest emission scenarios for this century. As orbital forcing and continental configurations were almost identical to today, we are able to focus on equilibrium climate system response to modern and near-future CO2. Using proxy data from 32 sites, we demonstrate that global mean sea-surface temperatures were warmer than pre-industrial, by ~ 2.3 ºC for the combined proxy data (foraminifera Mg/Ca and alkenones), or by ~ 3.2 ºC (alkenones only). Compared to the pre-industrial, reduced meridional gradients and enhanced warming in the North Atlantic are consistently reconstructed. There is broad agreement between data and models at the global scale, with regional differences reflecting ocean circulation and/or proxy signals. An uneven distribution of proxy data in time and space does, however, add uncertainty to our anomaly calculations. The reconstructed global mean sea-surface temperature anomaly for KM5c is warmer than all but three of the PlioMIP2 model outputs, and the reconstructed North Atlantic data tend to align with the warmest KM5c model values. Our results demonstrate that even under low CO2 emission scenarios, surface ocean warming may be expected to exceed model projections, and will be accentuated in the higher latitudes.

Published
2020

46. Surface and deep-water variability on the southern Agulhas Plateau: Interhemispheric links over the past 2 Ma

Author

Hall, Ian R., Starr, Aidan, Hemming, Sidney R., Barker, Stephen, Van Der Lubber, Jeroen, Cartagena Sierra, Alejandra, Berke, Melissa A., Gruetzner, Jens, Jiménez Espejo, Francisco J., LeVay, Leah J., Lathika, Nambiyathodi, and Robinson, Rebecca S.

Abstract

AGU's Fall Meeting 2019, in San Francisco (EE.UU.) 9–13 December 2019, The Southern Ocean is involved in setting the state of global climate through its role in redistributing heat and salt through the world ocean and its control on atmospheric CO2. Utilising sediment core sites on the southern Agulhas Plateau (AP) in the southwest Indian Ocean, we present new records of ice-rafted debris mass accumulation rate (IRDMAR), intermediate and benthic oxygen and carbon isotope, sortable silt mean grain size and bulk sediment chemistry (XRF) spanning the past 2 Ma. The AP is situated at the southern extent of the Indian-Atlantic Ocean Gateway (I-AOG); the upper water column is dominated by Indian Ocean waters not leaked into the South Atlantic and instead flowing eastward as the Agulhas Return Current. South of the AP, the relatively cold and fresh waters of the Sub-Antarctic Zone (SAZ) meet their northern limit and steep meridional property gradients occur. The AP region is therefore highly sensitive to variations in both the Sub-Antarctic Zone (SAZ) to the south and the Agulhas Current System to the north. IODP Site U1475 (41°25.61¿S; 25°15.64¿E, 2669 m water depth), was recovered from a contourite drift deposit on the southern AP, situated close to the modern-day subtropical front. Together with complementary data from sediment core MD02-2588 from the same location, our results indicate that during glacial periods there was a persistent influence of a well-ventilated water mass within the I-AOG with a carbon isotope signature similar to present-day Northern Component Water (NCW). The records of chemical ventilation and near-bottom flow vigour closely reflect changes in the advection of NCW and meridional variability in the location of the Antarctic Circumpolar Current and its associated fronts, as recorded by IRDMAR. We suggest that equatorward expansions of the circum-Antarctic frontal system, occurring relatively early in the glacial sequence, are central in triggering this glacial overturning circulation, hence modulating global climate. On orbital timescales, the SAZ represents a window through which external forcing may be translated into the global climate system; likely relevant for the enigmatic Mid-Pleistocene Transition.

Published
2019

47. Lessons from a high-CO2 world: An ocean view from ∼3 million years ago

Author

Marine and Atmospheric Research, Organic geochemistry, Marine palynology and palaeoceanography, Sub Dynamics Meteorology, Sub Physical Oceanography, Marine Palynology, McClymont, Erin L., Ford, Heather L., Ling Ho, Sze, Tindall, Julia C., Haywood, Alan M., Alonso-Garcia, Montserrat, Bailey, Ian, Berke, Melissa A., Littler, Kate, Patterson, Molly O., Petrick, Benjamin, Peterse, Francien, Christina Ravelo, A., Risebrobakken, Bjorg, De Schepper, Stijn, Swann, George E.A., Thirumalai, Kaustubh, Tierney, Jessica E., van der Weijst, Carolien, White, Sarah, Abe-Ouchi, Ayako, Baatsen, Michiel L.J., Brady, Esther C., Chan, Wing Le, Chandan, Deepak, Feng, Ran, Guo, Chuncheng, Von Der Heydt, Anna S., Hunter, Stephen, Li, Xiangyi, Lohmann, Gerrit, Nisancioglu, Kerim H., Otto-Bliesner, Bette L., Richard Peltier, W., Stepanek, Christian, Zhang, Zhongshi, Marine and Atmospheric Research, Organic geochemistry, Marine palynology and palaeoceanography, Sub Dynamics Meteorology, Sub Physical Oceanography, Marine Palynology, McClymont, Erin L., Ford, Heather L., Ling Ho, Sze, Tindall, Julia C., Haywood, Alan M., Alonso-Garcia, Montserrat, Bailey, Ian, Berke, Melissa A., Littler, Kate, Patterson, Molly O., Petrick, Benjamin, Peterse, Francien, Christina Ravelo, A., Risebrobakken, Bjorg, De Schepper, Stijn, Swann, George E.A., Thirumalai, Kaustubh, Tierney, Jessica E., van der Weijst, Carolien, White, Sarah, Abe-Ouchi, Ayako, Baatsen, Michiel L.J., Brady, Esther C., Chan, Wing Le, Chandan, Deepak, Feng, Ran, Guo, Chuncheng, Von Der Heydt, Anna S., Hunter, Stephen, Li, Xiangyi, Lohmann, Gerrit, Nisancioglu, Kerim H., Otto-Bliesner, Bette L., Richard Peltier, W., Stepanek, Christian, and Zhang, Zhongshi

Published
2020

48. ICDP workshop on the Lake Tanganyika Scientific Drilling Project: A late Miocene-present record of climate, rifting, and ecosystem evolution from the world's oldest tropical lake

Author

Russell, James, Barker, P A, Cohen, Andrew S, Ivory, Sarah J, Kimirei, I A, Lane, Christine S, Leng, Melanie J., Maganza, Neema, McGlue, Michael Matthew, Msaky, Emma S, Noren, Anders J, Boush, Lisa Park, Salzburger, Walter, Scholz, Christopher A, Tiedemann, Ralph, Nuru, Shaidu, Albrecht, Christian, Ali, Rahma, Arrowsmith, Ramón Ja, Asanga, Danstan, Asmerom, Yemane, Bakundukize, Charles, Bauersachs, Thorsten, Beck, Catherine C, Berke, Melissa A, Beverley, Emily, Blaauw, Martin, Brown, Erik T, Campisano, Christopher J, Carrapa, Bárbara, Castaûeda, Isla, Dee, Sylvia G, Deino, Alan L, Ebinger, Cynthia J, Ellis, Geoffrey S, Foerster, Verena E, Fontijn, Karen, Gehrels, George E, Indemaur, Adrian, Jovanovska, Elena, Junginger, Annett, Kaboth, Stefanie, Kallmeyer, Jens, King, John W, Konecky, Bronwen L, Mark, Darren F, McIntyre, Peter B, Michel, Ellinor, Mkuu, Doreen, Morgan, Leah, Mtetela, Cassy, Muderwha, Nshombo, Muirhead, James D, Mumbi, Cassian T, Muschick, Mo, Nahimana, David, Ngowi, Venosa, Njiko, Pashcal, Nkenyeli, Simon, Nkotagu, Hudson H, Ntakimazi, Gaspard, Oppo, Davide, Purkamo, Lotta, Rick, Jessica A, Roberts, Helen M, Ronco, Fabrizia, Sangweni, Charles, Shaghude, Yohanna W, Shigela, Josephat, Shillington, Donna J, Sophia, Chen Shuang, Sier, Mark Jan, Soreghan, Michael James, Spanbauer, Trisha L, Spencer-Jones, Charlotte L, Staff, Richard A, Stone, Jeffery R, Todd, Jonathan A, Trauth, Martin H, Van Bocxlaer, Bert, Viehberg, Finn A, Vogel, Hendrik, Vonhof, Hubert, Wolff, Christian, Wu, Qinglong, Yost, Chad L, Zeeden, Christian, Russell, James, Barker, P A, Cohen, Andrew S, Ivory, Sarah J, Kimirei, I A, Lane, Christine S, Leng, Melanie J., Maganza, Neema, McGlue, Michael Matthew, Msaky, Emma S, Noren, Anders J, Boush, Lisa Park, Salzburger, Walter, Scholz, Christopher A, Tiedemann, Ralph, Nuru, Shaidu, Albrecht, Christian, Ali, Rahma, Arrowsmith, Ramón Ja, Asanga, Danstan, Asmerom, Yemane, Bakundukize, Charles, Bauersachs, Thorsten, Beck, Catherine C, Berke, Melissa A, Beverley, Emily, Blaauw, Martin, Brown, Erik T, Campisano, Christopher J, Carrapa, Bárbara, Castaûeda, Isla, Dee, Sylvia G, Deino, Alan L, Ebinger, Cynthia J, Ellis, Geoffrey S, Foerster, Verena E, Fontijn, Karen, Gehrels, George E, Indemaur, Adrian, Jovanovska, Elena, Junginger, Annett, Kaboth, Stefanie, Kallmeyer, Jens, King, John W, Konecky, Bronwen L, Mark, Darren F, McIntyre, Peter B, Michel, Ellinor, Mkuu, Doreen, Morgan, Leah, Mtetela, Cassy, Muderwha, Nshombo, Muirhead, James D, Mumbi, Cassian T, Muschick, Mo, Nahimana, David, Ngowi, Venosa, Njiko, Pashcal, Nkenyeli, Simon, Nkotagu, Hudson H, Ntakimazi, Gaspard, Oppo, Davide, Purkamo, Lotta, Rick, Jessica A, Roberts, Helen M, Ronco, Fabrizia, Sangweni, Charles, Shaghude, Yohanna W, Shigela, Josephat, Shillington, Donna J, Sophia, Chen Shuang, Sier, Mark Jan, Soreghan, Michael James, Spanbauer, Trisha L, Spencer-Jones, Charlotte L, Staff, Richard A, Stone, Jeffery R, Todd, Jonathan A, Trauth, Martin H, Van Bocxlaer, Bert, Viehberg, Finn A, Vogel, Hendrik, Vonhof, Hubert, Wolff, Christian, Wu, Qinglong, Yost, Chad L, and Zeeden, Christian

Abstract

The Neogene and Quaternary are characterized by enormous changes in global climate and environments, including global cooling and the establishment of northern high-latitude glaciers. These changes reshaped global ecosystems, including the emergence of tropical dry forests and savannahs that are found in Africa today, which in turn may have influenced the evolution of humans and their ancestors. However, despite decades of research we lack long, continuous, well-resolved records of tropical climate, ecosystem changes, and surface processes necessary to understand their interactions and influences on evolutionary processes. Lake Tanganyika, Africa, contains the most continuous, long continental climate record from the mid-Miocene (∼ 10 Ma) to the present anywhere in the tropics and has long been recognized as a top-priority site for scientific drilling. The lake is surrounded by the Miombo woodlands, part of the largest dry tropical biome on Earth. Lake Tanganyika also harbors incredibly diverse endemic biota and an entirely unexplored deep microbial biosphere, and it provides textbook examples of rift segmentation, fault behavior, and associated surface processes. To evaluate the interdisciplinary scientific opportunities that an ICDP drilling program at Lake Tanganyika could offer, more than 70 scientists representing 12 countries and a variety of scientific disciplines met in Dar es Salaam, Tanzania, in June 2019. The team developed key research objectives in basin evolution, source-to-sink sedimentology, organismal evolution, geomicrobiology, paleoclimatology, paleolimnology, terrestrial paleoecology, paleoanthropology, and geochronology to be addressed through scientific drilling on Lake Tanganyika. They also identified drilling targets and strategies, logistical challenges, and education and capacity building programs to be carried out through the project. Participants concluded that a drilling program at Lake Tanganyika would produce the first continuous Mioce, SCOPUS: ar.j, info:eu-repo/semantics/published

Published
2020

49. ICDP workshop on the Lake Tanganyika Scientific Drilling Project: A late Miocene-present record of climate, rifting, and ecosystem evolution from the world's oldest tropical lake

Author

Russell, James M., Barker, Philip, Cohen, Andrew, Ivory, Sarah, Kimirei, Ishmael, Lane, Christine, Leng, Melanie, Maganza, Neema, McGlue, Michael, Msaky, Emma, Noren, Anders, Boush, Lisa Park, Salzburger, Walter, Scholz, Christopher, Tiedemann, Ralph, Nuru, Shaidu, Albrecht, Christian, Ali, Rahma, Arrowsmith, Ramon, Asanga, Danstan, Asmerom, Yemane, Bakundukize, Charles, Bauersachs, Thorsten, Beck, Catherine, Berke, Melissa, Beverley, Emily, Blaauw, Martin, Boush, Lisa, Brown, Erik, Campisano, Chris, Carrapa, Barbara, Castaûeda, Isla, Cohen, Andy, Dee, Sylvia, Deino, Alan, Ebinger, Cindy, Russell, James M., Barker, Philip, Cohen, Andrew, Ivory, Sarah, Kimirei, Ishmael, Lane, Christine, Leng, Melanie, Maganza, Neema, McGlue, Michael, Msaky, Emma, Noren, Anders, Boush, Lisa Park, Salzburger, Walter, Scholz, Christopher, Tiedemann, Ralph, Nuru, Shaidu, Albrecht, Christian, Ali, Rahma, Arrowsmith, Ramon, Asanga, Danstan, Asmerom, Yemane, Bakundukize, Charles, Bauersachs, Thorsten, Beck, Catherine, Berke, Melissa, Beverley, Emily, Blaauw, Martin, Boush, Lisa, Brown, Erik, Campisano, Chris, Carrapa, Barbara, Castaûeda, Isla, Cohen, Andy, Dee, Sylvia, Deino, Alan, and Ebinger, Cindy

Abstract

The Neogene and Quaternary are characterized by enormous changes in global climate and environments, including global cooling and the establishment of northern high-latitude glaciers. These changes reshaped global ecosystems, including the emergence of tropical dry forests and savannahs that are found in Africa today, which in turn may have influenced the evolution of humans and their ancestors. However, despite decades of research we lack long, continuous, well-resolved records of tropical climate, ecosystem changes, and surface processes necessary to understand their interactions and influences on evolutionary processes. Lake Tanganyika, Africa, contains the most continuous, long continental climate record from the mid-Miocene (∼ 10 Ma) to the present anywhere in the tropics and has long been recognized as a top-priority site for scientific drilling. The lake is surrounded by the Miombo woodlands, part of the largest dry tropical biome on Earth. Lake Tanganyika also harbors incredibly diverse endemic biota and an entirely unexplored deep microbial biosphere, and it provides textbook examples of rift segmentation, fault behavior, and associated surface processes. To evaluate the interdisciplinary scientific opportunities that an ICDP drilling program at Lake Tanganyika could offer, more than 70 scientists representing 12 countries and a variety of scientific disciplines met in Dar es Salaam, Tanzania, in June 2019. The team developed key research objectives in basin evolution, source-to-sink sedimentology, organismal evolution, geomicrobiology, paleoclimatology, paleolimnology, terrestrial paleoecology, paleoanthropology, and geochronology to be addressed through scientific drilling on Lake Tanganyika. They also identified drilling targets and strategies, logistical challenges, and education and capacity building programs to be carried out through the project. Participants concluded that a drilling program at Lake Tanganyika would produce the first continuous Mioce

Published
2020

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