Tropical cyclone activity and western North Atlantic stratification over the last millennium: a comparative review with viable connections

Tropical cyclones (TC) are recognized to modify the thermal structure of the upper ocean through the process of vertical mixing. Assessing the role this mixing plays in the overall stratification of the upper ocean is difficult, due to the relatively short and incomplete instrumental record. Proxy r...

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Published in:Journal of Quaternary Science
Main Authors: Woodruff, Jonathan D., Sriver, Ryan L., Lund, David C.
Other Authors: Department of Earth and Environmental Sciences, University of Michigan, Ann Arbor, Michigan, USA, Department of Geosciences, University of Massachusetts, Amherst, Massachusetts, USA., Department of Geosciences, University of Massachusetts, Amherst, Massachusetts, USA, Department of Geosciences, Pennsylvania State University, University Park, Pennsylvania, USA
Format: Article in Journal/Newspaper
Language:unknown
Published: John Wiley & Sons, Ltd. 2012
Subjects:
Paleotempestology
Ocean
Stratification
Late Holocene
Hurricanes
Paleoceanography
Geological Sciences
Science
North Atlantic
Online Access:https://hdl.handle.net/2027.42/91201
https://doi.org/10.1002/jqs.1551
id ftumdeepblue:oai:deepblue.lib.umich.edu:2027.42/91201
record_format openpolar
institution Open Polar
collection University of Michigan: Deep Blue
op_collection_id ftumdeepblue
language unknown
topic Paleotempestology
Ocean
Stratification
Late Holocene
Hurricanes
Paleoceanography
Geological Sciences
Science
spellingShingle Paleotempestology
Ocean
Stratification
Late Holocene
Hurricanes
Paleoceanography
Geological Sciences
Science
Woodruff, Jonathan D.
Sriver, Ryan L.
Lund, David C.
Tropical cyclone activity and western North Atlantic stratification over the last millennium: a comparative review with viable connections
topic_facet Paleotempestology
Ocean
Stratification
Late Holocene
Hurricanes
Paleoceanography
Geological Sciences
Science
description Tropical cyclones (TC) are recognized to modify the thermal structure of the upper ocean through the process of vertical mixing. Assessing the role this mixing plays in the overall stratification of the upper ocean is difficult, due to the relatively short and incomplete instrumental record. Proxy records for both TC landfalls and oceanographic stratification are preserved within the geological record and provide insight for how past changes in TC‐induced mixing have potentially affected water column structure prior to the instrumental record. Here we provide the first comparison between previously published paleo‐reconstructions of vertical ocean density and tropical cyclone activity from the western North Atlantic. A prominent lull in TC activity has been observed prior to approximately 1700 CE that extends back several centuries. This interval of low TC activity is shown to be concurrent with the timing of increased ocean stratification near Great Bahama Bank, potentially due in part to reduced TC‐induced mixing. To test whether this relationship is feasible, we present numerical results from a coarse‐resolution ocean general circulation model experiment isolating the effect of TC surface wind forcing on the upper ocean. An anomaly of roughly 0.12 kg m −3 in vertical stratification occurs above and below the mixed layer for model runs with and without TC mixing. This anomaly is roughly 25% of the entire paleo‐density signal observed just prior to 1700 CE. These results suggest that TC mixing alone cannot completely explain the density anomaly observed prior to 1700 CE, but support TC variability as an important contributor to enhancing oceanic stratification during this interval. Copyright © 2011 John Wiley & Sons, Ltd. Peer Reviewed http://deepblue.lib.umich.edu/bitstream/2027.42/91201/1/1551_ftp.pdf
author2 Department of Earth and Environmental Sciences, University of Michigan, Ann Arbor, Michigan, USA
Department of Geosciences, University of Massachusetts, Amherst, Massachusetts, USA.
Department of Geosciences, University of Massachusetts, Amherst, Massachusetts, USA
Department of Geosciences, Pennsylvania State University, University Park, Pennsylvania, USA
format Article in Journal/Newspaper
author Woodruff, Jonathan D.
Sriver, Ryan L.
Lund, David C.
author_facet Woodruff, Jonathan D.
Sriver, Ryan L.
Lund, David C.
author_sort Woodruff, Jonathan D.
title Tropical cyclone activity and western North Atlantic stratification over the last millennium: a comparative review with viable connections
title_short Tropical cyclone activity and western North Atlantic stratification over the last millennium: a comparative review with viable connections
title_full Tropical cyclone activity and western North Atlantic stratification over the last millennium: a comparative review with viable connections
title_fullStr Tropical cyclone activity and western North Atlantic stratification over the last millennium: a comparative review with viable connections
title_full_unstemmed Tropical cyclone activity and western North Atlantic stratification over the last millennium: a comparative review with viable connections
title_sort tropical cyclone activity and western north atlantic stratification over the last millennium: a comparative review with viable connections
publisher John Wiley & Sons, Ltd.
publishDate 2012
url https://hdl.handle.net/2027.42/91201
https://doi.org/10.1002/jqs.1551
genre North Atlantic
genre_facet North Atlantic
op_relation Woodruff, Jonathan D.; Sriver, Ryan L.; Lund, David C. (2012). "Tropical cyclone activity and western North Atlantic stratification over the last millennium: a comparative review with viable connections." Journal of Quaternary Science 27(4): 337-343. <http://hdl.handle.net/2027.42/91201>
0267-8179
1099-1417
https://hdl.handle.net/2027.42/91201
doi:10.1002/jqs.1551
Journal of Quaternary Science
Mock C. 2008. Tropical cyclone variations in Louisiana, USA, since the late eighteenth century. Geochemistry Geophysics Geosystems 9: Q05V02.
Mock C. 2004. Tropical cyclone reconstructions from documentary records: examples from South Carolina. In Hurricanes and Typhoons: Past, Present and Future, Murnane R, Liu KB (eds). Columbia University Press: New York; 121 – 148.
Noren AJ, Bierman PR, Steig EJ, et al. 2002. Millennial‐scale storminess variability in the northeastern United States during the Holocene epoch. Nature 419: 821 – 824.
Nott J. 2004. Palaeotempestology: the study of and implications. Review article: prehistoric tropical cyclones–a review for hazard assessment. Environment International 30: 433 – 447.
Nott J. 2011. A 6000 year tropical cyclone record from Western Australia. Quaternary Science Reviews 30: 713 – 722.
Nott J, Hayne M. 2001. High frequency of 'super‐cyclones' along the Great Barrier Reef over the past 5,000 years. Nature 413: 508 – 512.
Nott J, Haig J, Neil H, et al. 2007. Greater frequency variability of landfalling tropical cyclones at centennial compared to seasonal and decadal scales. Earth and Planetary Science Letters 255: 367 – 372.
Nott J, Smithers S, Walsh K, et al. 2009. Sand beach ridges record 6000 year history of extreme tropical cyclone activity in northeastern Australia. Quaternary Science Reviews 28: 1511 – 1520.
Nyberg J, Malmgren BA, Winter A, et al. 2007. Low Atlantic hurricane activity in the 1970s and 1980s compared to the past 270 years. Nature 447: 698 – 701.
Scheffers A, Scheffers S. 2006. Documentation of the impact of Hurricane Ivan on the coastline of Bonaire (Netherlands Antilles). Journal of Coastal Research 22: 1437 – 1450.
Scileppi E, Donnelly JP. 2007. Sedimentary evidence of hurricane strikes in western Long Island, New York. Geochemistry Geophysics Geosystems 8: Q06011.
Scott D, Collins E, Gayes P, et al. 2003. Records of prehistoric hurricanes on the South Carolina coast based on micropaleontological and sedimentological evidence, with comparison to other Atlantic Coast records. Geological Society of America Bulletin 115: 1027 – 1039.
Spiske M, Borocz Z, Bahlburg H. 2008. The role of porosity in discriminating between tsunami and hurricane emplacement of boulders: a case study from the Lesser Antilles, southern Caribbean. Earth and Planetary Science Letters 268: 384 – 396.
Sriver RL, Huber M. 2007. Observational evidence for an ocean heat pump induced by tropical cyclones. Nature 447: 577 – 580.
Sriver RL, Huber M. 2010. Modeled sensitivity of upper thermocline properties to tropical cyclone winds and possible feedbacks on the Hadley circulation. Geophysical Research Letters 37: L08704.
Sriver RL, Huber M, Nusbaumer J. 2008. Investigating tropical cyclone–climate feedbacks using the TRMM Microwave Imager and the Quick Scatterometer. Geochemistry Geophysics Geosystems 9: Q09V11.
Sriver RL, Goes M, Mann ME, et al. 2010. Climate response to tropical cyclone‐induced ocean mixing in an Earth system model of intermediate complexity. Journal of Geophysical Research 115: C10042.
Suzuki A, Yokoyama Y, Kan H, et al. 2008. Identification of 1771 Meiwa Tsunami deposits using a combination of radiocarbon dating and oxygen isotope microprofiling of emerged massive Porites boulders. Quaternary Geochronology 3: 226 – 234.
Wallace DJ, Anderson JB. 2010. Evidence of similar probablility of intense hurricane strikes for the Gulf of Mexico over the late Holocene. Geology 38: 511 – 514.
Webster PJ, Holland GJ, Curry JA, et al. 2005. Changes in tropical cyclone number, duration, and intensity in a warming environment. Science 309: 1844 – 1846.
Williams H. 2010. Storm surge deposition by Hurricane Ike on the McFaddin National Wildlife Refuge, Texas: implications for paleotempestology studies. Journal of Foraminiferal Research 40: 210 – 219.
Woodruff JD, Donnelly JP, Emanuel K, et al. 2008a. Assessing sedimentary records of paleohurricane activity using modeled hurricane climatology. Geochemistry Geophysics Geosystems 9: Q09V10.
Woodruff JD, Donnelly JP, Mohrig D, et al. 2008b. Reconstructing relative flooding intensities responsible for hurricane‐induced deposits from Laguna Playa Grande, Vieques, Puerto Rico. Geology 36: 391 – 394.
Woodruff JD, Donnelly JP, Okusu A. 2009. Exploring typhoon variability over the mid‐to‐late Holocene: evidence of extreme coastal flooding from Kamikoshiki, Japan. Quaternary Science Reviews 28: 1774 – 1785.
Yu K, Zhao J, Shi Q, et al. 2009. Reconstruction of storm/tsunami records over the last 4000 years using transported coral blocks and lagoon sediments in the southern South China Sea. Quaternary International 195: 128 – 137.
Zhao J, Neil D, Feng Y, et al. 2009. High‐precision U‐series dating of very young cyclone‐transported coral reef blocks from Heron and Wistari reefs, southern Great Barrier Reef, Australia. Quaternary International 195: 122 – 127.
Bender MA, Knutson TR, Tuleya RE, et al. 2010. Modeled impact of anthropogenic warming on the frequency of intense Atlantic hurricanes. Science 327: 454 – 458.
Besonen MR, Bradley RS, Mudelsee M, et al. 2008. A 1,000‐year, annually‐resolved record of hurricane activity from Boston, Massachusetts. Geophysical Research Letters 35: L14705.
Boldt KV, Lane P, Woodruff JD, et al. 2010. Calibrating a sedimentary record of overwash from Southeastern New England using modeled historic hurricane surges. Marine Geology 275: 127 – 139.
Boose ER, Chamberlin KE, Foster DR. 2001. Landscape and regional impacts of hurricanes in New England. Ecological Monographs 71: 27 – 48.
Boose ER, Serrano MI, Foster DR. 2004. Landscape and regional impacts of hurricanes in Puerto Rico. Ecological Monographs 74: 335 – 352.
Bove MC, Elsner JB, Landsea CW, et al. 1998. Effect of El Niño on US landfalling hurricanes, revisited. Bulletin of the American Meteorological Society 79: 2477 – 2482.
Brierley CM, Fedorov AV, Liu Z, et al. 2009. Greatly expanded tropical warm pool and weakened Hadley circulation in the early Pliocene. Science 323: 1714 – 1718.
Brooke B, Ryan D, Pietsch T, et al. 2008. Influence of climate fluctuations and changes in catchment land use on Late Holocene and modern beach‐ridge sedimentation on a tropical macrotidal coast: Keppel Bay, Queensland, Australia. Marine Geology 251: 195 – 208.
Buynevich IV, FitzGerald DM, Goble RJ. 2007. A 1500 yr record of North Atlantic storm activity based on optically dated relict beach scarps. Geology 35: 543 – 546.
Chan JCL, Shi J. 2000. Frequency of typhoon landfall over Guangdong Province of China during the period 1470–1931. International Journal of Climatology 20: 183 – 190.
Chenoweth M. 2006. A reassessment of historical Atlantic basin tropical cyclone activity, 1700–1855. Climatic Change 76: 169 – 240.
Chenoweth M, Divine D. 2008. A document‐based 318‐year record of tropical cyclones in the Lesser Antilles, 1690–2007. Geochemistry Geophysics Geosystems 9: Q08013.
Collins WD, Bitz CM, Blackmon ML, et al. 2006. The community climate system model version 3 (CCSM3). Journal of Climate 19: 2122 – 2143.
Dahl‐Jensen D, Mosegaard K, Gundestrup N, et al. 1998. Past temperatures directly from the Greenland ice sheet. Science 282: 268 – 271.
Dansgaard W. 1964. Stable isotopes in precipitation. Tellus 16: 436 – 468.
Donnelly JP, Webb T. 2004. Back‐barrier sedimentary records of intense hurricane landfalls in the northeastern United States. In Hurricanes and Typhoons: Past, Present and Future, Murnane R, Liu KB (eds). Columbia University Press: New York; 58 – 96.
Donnelly JP, Woodruff JD. 2007. Intense hurricane activity over the past 5,000 years controlled by El Niño and the West African monsoon. Nature 447: 465 – 468.
Donnelly JP, Bryant SS, Butler J, et al. 2001a. 700 yr sedimentary record of intense hurricane landfalls in southern New England. Geological Society of America Bulletin 113: 714 – 727.
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spelling ftumdeepblue:oai:deepblue.lib.umich.edu:2027.42/91201 2023-08-20T04:08:19+02:00 Tropical cyclone activity and western North Atlantic stratification over the last millennium: a comparative review with viable connections Woodruff, Jonathan D. Sriver, Ryan L. Lund, David C. Department of Earth and Environmental Sciences, University of Michigan, Ann Arbor, Michigan, USA Department of Geosciences, University of Massachusetts, Amherst, Massachusetts, USA. Department of Geosciences, University of Massachusetts, Amherst, Massachusetts, USA Department of Geosciences, Pennsylvania State University, University Park, Pennsylvania, USA 2012-05 application/pdf https://hdl.handle.net/2027.42/91201 https://doi.org/10.1002/jqs.1551 unknown John Wiley & Sons, Ltd. Woodruff, Jonathan D.; Sriver, Ryan L.; Lund, David C. (2012). "Tropical cyclone activity and western North Atlantic stratification over the last millennium: a comparative review with viable connections." Journal of Quaternary Science 27(4): 337-343. <http://hdl.handle.net/2027.42/91201> 0267-8179 1099-1417 https://hdl.handle.net/2027.42/91201 doi:10.1002/jqs.1551 Journal of Quaternary Science Mock C. 2008. Tropical cyclone variations in Louisiana, USA, since the late eighteenth century. Geochemistry Geophysics Geosystems 9: Q05V02. Mock C. 2004. Tropical cyclone reconstructions from documentary records: examples from South Carolina. In Hurricanes and Typhoons: Past, Present and Future, Murnane R, Liu KB (eds). Columbia University Press: New York; 121 – 148. Noren AJ, Bierman PR, Steig EJ, et al. 2002. Millennial‐scale storminess variability in the northeastern United States during the Holocene epoch. Nature 419: 821 – 824. Nott J. 2004. Palaeotempestology: the study of and implications. Review article: prehistoric tropical cyclones–a review for hazard assessment. Environment International 30: 433 – 447. Nott J. 2011. A 6000 year tropical cyclone record from Western Australia. Quaternary Science Reviews 30: 713 – 722. Nott J, Hayne M. 2001. High frequency of 'super‐cyclones' along the Great Barrier Reef over the past 5,000 years. Nature 413: 508 – 512. Nott J, Haig J, Neil H, et al. 2007. Greater frequency variability of landfalling tropical cyclones at centennial compared to seasonal and decadal scales. Earth and Planetary Science Letters 255: 367 – 372. Nott J, Smithers S, Walsh K, et al. 2009. Sand beach ridges record 6000 year history of extreme tropical cyclone activity in northeastern Australia. Quaternary Science Reviews 28: 1511 – 1520. Nyberg J, Malmgren BA, Winter A, et al. 2007. Low Atlantic hurricane activity in the 1970s and 1980s compared to the past 270 years. Nature 447: 698 – 701. Scheffers A, Scheffers S. 2006. Documentation of the impact of Hurricane Ivan on the coastline of Bonaire (Netherlands Antilles). Journal of Coastal Research 22: 1437 – 1450. Scileppi E, Donnelly JP. 2007. Sedimentary evidence of hurricane strikes in western Long Island, New York. Geochemistry Geophysics Geosystems 8: Q06011. Scott D, Collins E, Gayes P, et al. 2003. Records of prehistoric hurricanes on the South Carolina coast based on micropaleontological and sedimentological evidence, with comparison to other Atlantic Coast records. Geological Society of America Bulletin 115: 1027 – 1039. Spiske M, Borocz Z, Bahlburg H. 2008. The role of porosity in discriminating between tsunami and hurricane emplacement of boulders: a case study from the Lesser Antilles, southern Caribbean. Earth and Planetary Science Letters 268: 384 – 396. Sriver RL, Huber M. 2007. Observational evidence for an ocean heat pump induced by tropical cyclones. Nature 447: 577 – 580. Sriver RL, Huber M. 2010. Modeled sensitivity of upper thermocline properties to tropical cyclone winds and possible feedbacks on the Hadley circulation. Geophysical Research Letters 37: L08704. Sriver RL, Huber M, Nusbaumer J. 2008. Investigating tropical cyclone–climate feedbacks using the TRMM Microwave Imager and the Quick Scatterometer. Geochemistry Geophysics Geosystems 9: Q09V11. Sriver RL, Goes M, Mann ME, et al. 2010. Climate response to tropical cyclone‐induced ocean mixing in an Earth system model of intermediate complexity. Journal of Geophysical Research 115: C10042. Suzuki A, Yokoyama Y, Kan H, et al. 2008. Identification of 1771 Meiwa Tsunami deposits using a combination of radiocarbon dating and oxygen isotope microprofiling of emerged massive Porites boulders. Quaternary Geochronology 3: 226 – 234. Wallace DJ, Anderson JB. 2010. Evidence of similar probablility of intense hurricane strikes for the Gulf of Mexico over the late Holocene. Geology 38: 511 – 514. Webster PJ, Holland GJ, Curry JA, et al. 2005. Changes in tropical cyclone number, duration, and intensity in a warming environment. Science 309: 1844 – 1846. Williams H. 2010. Storm surge deposition by Hurricane Ike on the McFaddin National Wildlife Refuge, Texas: implications for paleotempestology studies. Journal of Foraminiferal Research 40: 210 – 219. Woodruff JD, Donnelly JP, Emanuel K, et al. 2008a. Assessing sedimentary records of paleohurricane activity using modeled hurricane climatology. Geochemistry Geophysics Geosystems 9: Q09V10. Woodruff JD, Donnelly JP, Mohrig D, et al. 2008b. Reconstructing relative flooding intensities responsible for hurricane‐induced deposits from Laguna Playa Grande, Vieques, Puerto Rico. Geology 36: 391 – 394. Woodruff JD, Donnelly JP, Okusu A. 2009. Exploring typhoon variability over the mid‐to‐late Holocene: evidence of extreme coastal flooding from Kamikoshiki, Japan. Quaternary Science Reviews 28: 1774 – 1785. Yu K, Zhao J, Shi Q, et al. 2009. Reconstruction of storm/tsunami records over the last 4000 years using transported coral blocks and lagoon sediments in the southern South China Sea. Quaternary International 195: 128 – 137. Zhao J, Neil D, Feng Y, et al. 2009. High‐precision U‐series dating of very young cyclone‐transported coral reef blocks from Heron and Wistari reefs, southern Great Barrier Reef, Australia. Quaternary International 195: 122 – 127. Bender MA, Knutson TR, Tuleya RE, et al. 2010. Modeled impact of anthropogenic warming on the frequency of intense Atlantic hurricanes. Science 327: 454 – 458. Besonen MR, Bradley RS, Mudelsee M, et al. 2008. A 1,000‐year, annually‐resolved record of hurricane activity from Boston, Massachusetts. Geophysical Research Letters 35: L14705. Boldt KV, Lane P, Woodruff JD, et al. 2010. Calibrating a sedimentary record of overwash from Southeastern New England using modeled historic hurricane surges. Marine Geology 275: 127 – 139. Boose ER, Chamberlin KE, Foster DR. 2001. Landscape and regional impacts of hurricanes in New England. Ecological Monographs 71: 27 – 48. Boose ER, Serrano MI, Foster DR. 2004. Landscape and regional impacts of hurricanes in Puerto Rico. Ecological Monographs 74: 335 – 352. Bove MC, Elsner JB, Landsea CW, et al. 1998. Effect of El Niño on US landfalling hurricanes, revisited. Bulletin of the American Meteorological Society 79: 2477 – 2482. Brierley CM, Fedorov AV, Liu Z, et al. 2009. Greatly expanded tropical warm pool and weakened Hadley circulation in the early Pliocene. Science 323: 1714 – 1718. Brooke B, Ryan D, Pietsch T, et al. 2008. Influence of climate fluctuations and changes in catchment land use on Late Holocene and modern beach‐ridge sedimentation on a tropical macrotidal coast: Keppel Bay, Queensland, Australia. Marine Geology 251: 195 – 208. Buynevich IV, FitzGerald DM, Goble RJ. 2007. A 1500 yr record of North Atlantic storm activity based on optically dated relict beach scarps. Geology 35: 543 – 546. Chan JCL, Shi J. 2000. Frequency of typhoon landfall over Guangdong Province of China during the period 1470–1931. International Journal of Climatology 20: 183 – 190. Chenoweth M. 2006. A reassessment of historical Atlantic basin tropical cyclone activity, 1700–1855. Climatic Change 76: 169 – 240. Chenoweth M, Divine D. 2008. A document‐based 318‐year record of tropical cyclones in the Lesser Antilles, 1690–2007. Geochemistry Geophysics Geosystems 9: Q08013. Collins WD, Bitz CM, Blackmon ML, et al. 2006. The community climate system model version 3 (CCSM3). Journal of Climate 19: 2122 – 2143. Dahl‐Jensen D, Mosegaard K, Gundestrup N, et al. 1998. Past temperatures directly from the Greenland ice sheet. Science 282: 268 – 271. Dansgaard W. 1964. Stable isotopes in precipitation. Tellus 16: 436 – 468. Donnelly JP, Webb T. 2004. Back‐barrier sedimentary records of intense hurricane landfalls in the northeastern United States. In Hurricanes and Typhoons: Past, Present and Future, Murnane R, Liu KB (eds). Columbia University Press: New York; 58 – 96. Donnelly JP, Woodruff JD. 2007. Intense hurricane activity over the past 5,000 years controlled by El Niño and the West African monsoon. Nature 447: 465 – 468. Donnelly JP, Bryant SS, Butler J, et al. 2001a. 700 yr sedimentary record of intense hurricane landfalls in southern New England. Geological Society of America Bulletin 113: 714 – 727. IndexNoFollow Paleotempestology Ocean Stratification Late Holocene Hurricanes Paleoceanography Geological Sciences Science Article 2012 ftumdeepblue https://doi.org/10.1002/jqs.1551 2023-07-31T21:22:35Z Tropical cyclones (TC) are recognized to modify the thermal structure of the upper ocean through the process of vertical mixing. Assessing the role this mixing plays in the overall stratification of the upper ocean is difficult, due to the relatively short and incomplete instrumental record. Proxy records for both TC landfalls and oceanographic stratification are preserved within the geological record and provide insight for how past changes in TC‐induced mixing have potentially affected water column structure prior to the instrumental record. Here we provide the first comparison between previously published paleo‐reconstructions of vertical ocean density and tropical cyclone activity from the western North Atlantic. A prominent lull in TC activity has been observed prior to approximately 1700 CE that extends back several centuries. This interval of low TC activity is shown to be concurrent with the timing of increased ocean stratification near Great Bahama Bank, potentially due in part to reduced TC‐induced mixing. To test whether this relationship is feasible, we present numerical results from a coarse‐resolution ocean general circulation model experiment isolating the effect of TC surface wind forcing on the upper ocean. An anomaly of roughly 0.12 kg m −3 in vertical stratification occurs above and below the mixed layer for model runs with and without TC mixing. This anomaly is roughly 25% of the entire paleo‐density signal observed just prior to 1700 CE. These results suggest that TC mixing alone cannot completely explain the density anomaly observed prior to 1700 CE, but support TC variability as an important contributor to enhancing oceanic stratification during this interval. Copyright © 2011 John Wiley & Sons, Ltd. Peer Reviewed http://deepblue.lib.umich.edu/bitstream/2027.42/91201/1/1551_ftp.pdf Article in Journal/Newspaper North Atlantic University of Michigan: Deep Blue Journal of Quaternary Science 27 4 337 343

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