# Northwestern Australia Mio-Pliocene polycyclic aromatic hydrocarbon (PAH) data
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#               World Data Service for Paleoclimatology, Boulder
#                                   and
#                      NOAA Paleoclimatology Program
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# Template Version 3.0
# Encoding: UTF-8
# NOTE: Please cite original publication, online resource and date accessed when using this data.
# If there is no publication information, please cite Investigator, title, online resource and date accessed.
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# Description/Documentation lines begin with #
# Data lines have no #
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# Online_Resource: https://www.ncdc.noaa.gov/paleo/study/31852
#      Description: NOAA Landing Page
# Online_Resource: https://www.ncei.noaa.gov/pub/data/paleo/contributions_by_author/karp2020/karp2020-odp763a.txt
#      Description: NOAA location of the template
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# Data_Type: Paleoceanography
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# Dataset_DOI:
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# Parameter_Keywords: biomarkers, geochemistry
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# Contribution_Date
#    Date: 2020-11-25
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# File_Last_Modified_Date
#    Date: 2020-11-25
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# Title
#    Study_Name: Northwestern Australia Mio-Pliocene polycyclic aromatic hydrocarbon (PAH) data
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# Investigators
#      Investigators: Karp, Allison; Andrae, Jake; McInerney, Francesca; Polissar, Pratigya; Freeman, Katherine
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# Description_Notes_and_Keywords
#        Description: 
#         Provided Keywords: C4 grassland expansion, paleofire
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# Publication
# Authors: Karp, A.T., Andrae, J.W., McInerney, F.A., Polissar, P.J., Freeman, K.H.
# Published_Date_or_Year: 
# Published_Title: Soil carbon loss and weak fire feedbacks during Pliocene C4 grassland expansion in Australia
# Journal_Name: Geophysical Research Letters
# Volume: in revision
# Edition: 
# Issue: 
# Pages: 
# Report_Number: 
# DOI: 
# Online_Resource: 
# Full_Citation: 
# Abstract: C4 grasslands proliferated later in Australia than they did on other continents (~ 3.5 Ma versus 10 to 5 Ma). It remains unclear whether this delay reflects differences in climate conditions or ecological feedbacks, such as fire, that promote C4 ecosystems. Here, we evaluated these factors using terrestrial biomarkers from marine sediments off western Australia. Fire-derived polycyclic aromatic hydrocarbons (PAH) indicate fire ecology did not substantially change during or following C4 expansion. The presence of fire-adapted C3 woody vegetation likely diminished the role of fire and delayed C4 expansion until it was prompted by climate drying between 3.5 to 3.0 Ma. At the same time, mass accumulation rates of weathered PAHs increased 100-fold, which indicates a significant loss of soil carbon accompanied this ecosystem shift. The tight couplings between hydroclimate and carbon storage altered boundary conditions for Australian ecosystems, and similar abrupt behavior may shape environmental responses to climate change.
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# Publication
# Authors: Andrae, J.W., McInerney, F.A., Polissar, P.J., Sniderman, J.M.K., Howard, S., Hall, P.A., Phelps, S.R. 
# Published_Date_or_Year: 2018
# Published_Title: Initial Expansion of C4 Vegetation in Australia During the Late Pliocene
# Journal_Name: Geophysical Research Letters
# Volume: 45
# Edition: 
# Issue: 
# Pages: 1-10
# Report_Number: 
# DOI: 10.1029/2018GL077833
# Online_Resource: 
# Full_Citation: 
# Abstract: Since the late Miocene, plants using the C4 photosynthetic pathway have increased to become major components of many tropical and subtropical ecosystems. However, the drivers for this expansion remain under debate, in part because of the varied histories of C4 vegetation on different continents. Australia hosts the highest dominance of C4 vegetation of all continents, but little is known about the history of C4 vegetation there. Carbon isotope ratios of plant waxes from scientific ocean drilling sediments off north-western Australia reveal the onset of Australian C4 expansion at ~3.5 Ma, later than in many other regions. Pollen analysis from the same sediments reveals increasingly open C3-dominated biomes preceding the shift to open C4-dominated biomes by several million years. We hypothesize that the development of a summer monsoon climate beginning in the late Pliocene promoted a highly seasonal precipitation regime favorable to the expansion of C4 vegetation.
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# Funding_Agency
#    Funding_Agency_Name: National Science Foundation (NSF)
#    Grant: DGE1255832
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# Funding_Agency
#    Funding_Agency_Name: Australian Research Council
#    Grant: LE160100067, FT110100100793
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# Funding_Agency
#    Funding_Agency_Name: The Pennsylvania State Department of Geosciences
#    Grant: 
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# Funding_Agency
#    Funding_Agency_Name: Elsevier Research Scholarship
#    Grant: 
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# Funding_Agency
#    Funding_Agency_Name: University of Adelaide
#    Grant: 
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# Site_Information
# Site_Name: ODP 763A
# Location: Indian Ocean
# Northernmost_Latitude: -20.583333
# Southernmost_Latitude: -20.583333
# Easternmost_Longitude: 112.2
# Westernmost_Longitude: 112.2
# Elevation: -1367.5
#---------------------------------------
# Data_Collection
#   Collection_Name: ODP763A PAH Karp2020
#   First_Year: 10006818
#   Last_Year: 1022907
#   Time_Unit: cal yr BP
#   Core_Length: 
#   Notes: 
#---------------------------------------
# Chronology_Information 
# Chronology: 
# Age model from Andrae et al. (2018); based on published data cited for each date listed below
# Depth_mbsf	Age_Cal_Yr_BP	Type	Chron	Source	
# 0	0	NaN  NaN	Hilgen FJ, et al. (2012) Chapter 29 - The Neogene Period. The Geologic Time Scale, (Elsevier, Boston), pp 923-978; Tang C (1992) Paleomagnetism of Cenozoic sediments in holes 762B and 763A, central Exmouth Plateau, Northwest Australia. Proceedings of the ODP 122:717-733	
# 15.1	0.781	Magnostrat	C1n 	Hilgen FJ, et al. (2012) Chapter 29 - The Neogene Period. The Geologic Time Scale, (Elsevier, Boston), pp 923-978; Tang C (1992) Paleomagnetism of Cenozoic sediments in holes 762B and 763A, central Exmouth Plateau, Northwest Australia. Proceedings of the ODP 122:717-733	
# 18.3	0.988	Magnostrat	C1r.1n 	Hilgen FJ, et al. (2012) Chapter 29 - The Neogene Period. The Geologic Time Scale, (Elsevier, Boston), pp 923-978; Tang C (1992) Paleomagnetism of Cenozoic sediments in holes 762B and 763A, central Exmouth Plateau, Northwest Australia. Proceedings of the ODP 122:717-733	
# 21.1	1.072	Magnostrat	C1r.1n 	Hilgen FJ, et al. (2012) Chapter 29 - The Neogene Period. The Geologic Time Scale, (Elsevier, Boston), pp 923-978; Tang C (1992) Paleomagnetism of Cenozoic sediments in holes 762B and 763A, central Exmouth Plateau, Northwest Australia. Proceedings of the ODP 122:717-733	
# 31.1	1.778	Magnostrat	C2n	Hilgen FJ, et al. (2012) Chapter 29 - The Neogene Period. The Geologic Time Scale, (Elsevier, Boston), pp 923-978; Tang C (1992) Paleomagnetism of Cenozoic sediments in holes 762B and 763A, central Exmouth Plateau, Northwest Australia. Proceedings of the ODP 122:717-733	
# 35.7	1.945	Magnostrat	C2n 	Hilgen FJ, et al. (2012) Chapter 29 - The Neogene Period. The Geologic Time Scale, (Elsevier, Boston), pp 923-978; Tang C (1992) Paleomagnetism of Cenozoic sediments in holes 762B and 763A, central Exmouth Plateau, Northwest Australia. Proceedings of the ODP 122:717-733	
# 38.93	2.004	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 39.19	2.008	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 39.4	2.012	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 39.65	2.017	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 40.17	2.026	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 40.43	2.031	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 40.9	2.039	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 41.15	2.044	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 42.9	2.076	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 42.91	2.076	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 43.15	2.08	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 43.41	2.085	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 43.67	2.089	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 43.93	2.094	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 44.19	2.099	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 44.4	2.103	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 44.65	2.107	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 44.91	2.112	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 45.17	2.117	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 45.43	2.121	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 45.69	2.126	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 45.9	2.135	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 46.09	2.148	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 46.29	2.162	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 46.49	2.176	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 46.69	2.19	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 46.89	2.204	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 47.09	2.218	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 47.29	2.232	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 47.4	2.24	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 47.59	2.253	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 47.79	2.267	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 47.99	2.281	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 48.19	2.295	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 48.39	2.309	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 48.59	2.322	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 48.79	2.336	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 48.9	2.344	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 49.09	2.357	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 49.29	2.371	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 49.49	2.385	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 49.69	2.399	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 49.89	2.413	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 50.09	2.427	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 50.29	2.441	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 50.4	2.449	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 50.59	2.462	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 50.79	2.476	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 50.99	2.49	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 51.19	2.504	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 51.39	2.518	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 51.59	2.532	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 51.79	2.546	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 51.9	2.553	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 52.09	2.566	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 52.29	2.58	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 52.4	2.585	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 52.87	2.605	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 53.11	2.615	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 53.35	2.625	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 53.6	2.634	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 53.8	2.644	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 53.9	2.647	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 54.13	2.657	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 54.37	2.667	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 54.61	2.677	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 54.85	2.687	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 55.09	2.697	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 55.33	2.707	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 55.63	2.719	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 55.87	2.729	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 56.11	2.739	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 56.35	2.749	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 56.59	2.759	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 56.83	2.769	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 56.9	2.772	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 57.13	2.781	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 57.37	2.791	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 57.61	2.801	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 57.85	2.811	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 58.4	2.834	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 58.63	2.843	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 58.87	2.853	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 59.11	2.863	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 59.35	2.873	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 59.59	2.883	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 59.83	2.893	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 59.9	2.896	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 60.13	2.905	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 60.37	2.915	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 60.61	2.925	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 60.85	2.935	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 61.09	2.945	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 61.33	2.955	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 61.4	2.958	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 61.63	2.968	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 61.87	2.978	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 61.9	2.979	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 62.11	2.987	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 62.13	2.988	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 62.37	2.998	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 62.61	3.008	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 62.85	3.018	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 63.09	3.028	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 63.33	3.038	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 63.4	3.041	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 63.63	3.05	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 63.87	3.06	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 64.11	3.07	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 64.48	3.086	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 64.8	3.099	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 64.9	3.103	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 65.21	3.116	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 65.53	3.129	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 65.85	3.142	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 66.17	3.155	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 66.4	3.169	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 66.71	3.187	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 67.03	3.206	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 67.35	3.225	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 67.67	3.231	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 67.9	3.236	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 68.12	3.24	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 68.35	3.245	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 68.58	3.249	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 68.81	3.254	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 69.04	3.259	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 69.27	3.263	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 69.4	3.266	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 69.62	3.27	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 69.85	3.287	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 70.08	3.303	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 70.31	3.32	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 70.54	3.325	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 70.77	3.33	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 70.9	3.333	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 71.12	3.338	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 71.35	3.343	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 71.4	3.345	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 71.58	3.349	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 71.85	3.355	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 72.08	3.36	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 72.31	3.365	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 72.54	3.371	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 72.77	3.378	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 72.9	3.381	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 73.12	3.388	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 73.35	3.394	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 73.58	3.4	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 73.81	3.407	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 74.04	3.413	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 74.27	3.42	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 74.4	3.423	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 74.62	3.429	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 74.85	3.436	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 75.08	3.442	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 75.31	3.449	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 75.54	3.455	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 75.77	3.461	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 75.9	3.465	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 76.12	3.477	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 76.35	3.489	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 76.58	3.501	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 76.81	3.513	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 77.04	3.525	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 77.27	3.537	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 77.4	3.544	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 77.62	3.555	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 77.85	3.565	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 78.08	3.575	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 78.31	3.577	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 78.54	3.579	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 78.77	3.581	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 78.9	3.583	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 79.12	3.585	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 79.35	3.587	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 79.58	3.589	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 79.81	3.591	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 80.04	3.593	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 80.27	3.595	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 80.4	3.596	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 80.62	3.598	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 80.85	3.6	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 81.08	3.603	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 81.12	3.603	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 81.35	3.605	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 81.45	3.613	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 81.55	3.622	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 81.65	3.63	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 81.75	3.632	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 81.85	3.634	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 81.95	3.636	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 82.05	3.638	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 82.15	3.64	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 82.25	3.642	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 82.35	3.644	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 82.4	3.644	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 82.49	3.646	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 82.59	3.648	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 82.69	3.65	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 82.79	3.654	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 82.89	3.658	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 82.99	3.662	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 83.09	3.666	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 83.19	3.67	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 83.29	3.672	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 83.39	3.674	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 83.49	3.676	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 83.59	3.677	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 83.69	3.679	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 83.79	3.681	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 83.99	3.685	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 84.19	3.688	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 84.29	3.69	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 84.39	3.693	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 84.49	3.697	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 84.59	3.7	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 84.69	3.703	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 84.79	3.707	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 84.89	3.71	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 84.99	3.713	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 85.09	3.717	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 85.19	3.72	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 85.29	3.731	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 85.4	3.744	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 85.49	3.754	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 85.59	3.765	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 85.69	3.777	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 85.79	3.788	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 85.89	3.799	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 85.99	3.811	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 86.09	3.822	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 86.19	3.834	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 86.29	3.845	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 86.39	3.856	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 86.49	3.868	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 86.9	3.914	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 86.99	3.924	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 87.09	3.936	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 87.19	3.947	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 87.29	3.958	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 87.39	3.97	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 87.49	3.981	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 87.69	4.004	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 87.79	4.015	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 87.89	4.027	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 87.99	4.038	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 88.09	4.049	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 88.19	4.061	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 88.29	4.072	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 88.4	4.084	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 88.49	4.095	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 88.59	4.106	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 88.69	4.117	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 88.79	4.129	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 88.89	4.14	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 88.99	4.151	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 89.09	4.163	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 89.19	4.174	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 89.29	4.185	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 89.39	4.197	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 89.49	4.208	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 89.59	4.219	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 89.69	4.231	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 89.79	4.242	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 89.9	4.255	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 89.99	4.265	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 90.09	4.276	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 90.19	4.288	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 90.29	4.299	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 90.58	4.333	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 90.77	4.356	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 91.15	4.401	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 91.34	4.424	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 91.53	4.446	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 91.72	4.469	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 92.08	4.512	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 92.27	4.534	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 92.46	4.557	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 92.65	4.579	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 92.84	4.602	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 93.03	4.624	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 93.22	4.647	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 93.58	4.69	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 93.77	4.712	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 93.96	4.735	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 94.15	4.757	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 94.34	4.78	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 94.61	4.809	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 94.83	4.829	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 95.01	4.846	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 95.13	4.857	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 95.25	4.868	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 95.37	4.879	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 95.49	4.89	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 95.61	4.901	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 95.73	4.912	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 95.85	4.923	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 95.97	4.934	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 96.09	4.945	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 96.21	4.957	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 96.33	4.968	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 96.51	4.984	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 96.63	4.995	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 96.75	5.006	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 96.87	5.017	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 96.99	5.028	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 97.11	5.039	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 97.23	5.05	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 97.35	5.062	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 97.47	5.073	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 97.59	5.084	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 97.71	5.095	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 97.83	5.106	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 98.01	5.122	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 98.13	5.133	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 98.25	5.144	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 98.37	5.155	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 98.49	5.166	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 98.73	5.189	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 98.85	5.2	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 99.09	5.222	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 99.21	5.233	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 99.33	5.244	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 99.51	5.26	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 99.98	5.304	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 100.07	5.312	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 100.16	5.32	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 100.25	5.329	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 100.34	5.337	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 100.43	5.345	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 100.52	5.353	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 100.61	5.362	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 100.7	5.37	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 100.79	5.378	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 100.88	5.387	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 100.97	5.395	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 101.06	5.403	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 101.15	5.411	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 101.24	5.42	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 101.33	5.428	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 101.48	5.442	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 101.57	5.45	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 101.66	5.458	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 101.75	5.467	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 101.84	5.475	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 101.93	5.483	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 102.02	5.492	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 102.11	5.5	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 102.2	5.508	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 102.29	5.516	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 102.38	5.525	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 102.47	5.533	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 102.56	5.541	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 102.65	5.55	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 102.98	5.58	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 103.07	5.588	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 103.16	5.597	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 103.25	5.605	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 103.34	5.613	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 103.43	5.621	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 103.52	5.63	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 103.61	5.638	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 103.7	5.646	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 103.79	5.655	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 103.88	5.663	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 103.97	5.671	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 104.06	5.679	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 104.24	5.696	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 104.33	5.704	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 104.48	5.718	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 104.57	5.726	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 104.66	5.735	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 104.75	5.743	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 104.84	5.751	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 104.93	5.76	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 105.11	5.776	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 105.2	5.784	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 105.29	5.793	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 105.38	5.801	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 105.47	5.809	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 105.56	5.818	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 105.65	5.826	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 105.74	5.834	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 105.83	5.842	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 105.98	5.856	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 106.07	5.865	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 106.16	5.873	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 106.25	5.881	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 106.34	5.889	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 106.43	5.898	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 106.52	5.906	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 106.61	5.914	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 106.7	5.923	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 106.79	5.931	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 106.88	5.939	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 106.97	5.947	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 107.06	5.956	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 107.15	5.964	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 107.24	5.972	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 107.33	5.981	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 107.48	5.994	orbitally tuned age model	NaN  Karas C, Nürnberg D, Tiedemann R, & Garbe-Schönberg D (2011) Pliocene Indonesian Throughflow and Leeuwin Current dynamics: Implications for Indian Ocean polar heat flux. Paleoceanography 26(2)	
# 107.9	6.033	Magnostrat	C3An.1n 	Hilgen FJ, et al. (2012) Chapter 29 - The Neogene Period. The Geologic Time Scale, (Elsevier, Boston), pp 923-978; Tang C (1992) Paleomagnetism of Cenozoic sediments in holes 762B and 763A, central Exmouth Plateau, Northwest Australia. Proceedings of the ODP 122:717-733	
# 115.8	7.14	Magnostrat	C3Bn 	Hilgen FJ, et al. (2012) Chapter 29 - The Neogene Period. The Geologic Time Scale, (Elsevier, Boston), pp 923-978; Tang C (1992) Paleomagnetism of Cenozoic sediments in holes 762B and 763A, central Exmouth Plateau, Northwest Australia. Proceedings of the ODP 122:717-733	
# 127.6	8.771	Magnostrat	C4An 	Hilgen FJ, et al. (2012) Chapter 29 - The Neogene Period. The Geologic Time Scale, (Elsevier, Boston), pp 923-978; Tang C (1992) Paleomagnetism of Cenozoic sediments in holes 762B and 763A, central Exmouth Plateau, Northwest Australia. Proceedings of the ODP 122:717-733	
# 139.6	9.786	Magnostrat	C4Ar.2n 	Hilgen FJ, et al. (2012) Chapter 29 - The Neogene Period. The Geologic Time Scale, (Elsevier, Boston), pp 923-978; Tang C (1992) Paleomagnetism of Cenozoic sediments in holes 762B and 763A, central Exmouth Plateau, Northwest Australia. Proceedings of the ODP 122:717-733	
# 147.1	15.974	Magnostrat	C5Cn.1n 	Hilgen FJ, et al. (2012) Chapter 29 - The Neogene Period. The Geologic Time Scale, (Elsevier, Boston), pp 923-978; Tang C (1992) Paleomagnetism of Cenozoic sediments in holes 762B and 763A, central Exmouth Plateau, Northwest Australia. Proceedings of the ODP 122:717-733	
# 
#---------------------------------------
# Variables
# Data variables follow that are preceded by "##" in columns one and two.
# Variables list, one per line, shortname-tab-longname components (9 components: what, material, error, units, seasonality, archive, detail, method, C or N for Character or Numeric data)
## Age_cal_yr_BP	age,,,calendar year before present,,paleoceanography,,,N,
## Depth_mbsf	depth,,,meter,,paleoceanography,,,N,
## Acephthene	polycyclic aromatic hydrocarbon,sediment,,nanogram per gram,,paleoceanography,,,N,Acephthene
## Acephthylene	polycyclic aromatic hydrocarbon,sediment,,nanogram per gram,,paleoceanography,,,N,Acephthylene
## Fluorene	polycyclic aromatic hydrocarbon,sediment,,nanogram per gram,,paleoceanography,,,N,Fluorene
## Phenthrene	polycyclic aromatic hydrocarbon,sediment,,nanogram per gram,,paleoceanography,,,N,Phenthrene
## Anthracene	polycyclic aromatic hydrocarbon,sediment,,nanogram per gram,,paleoceanography,,,N,Anthracene
## MPs	polycyclic aromatic hydrocarbon,sediment,,nanogram per gram,,paleoceanography,,,N,methyl phenanthrenes
## DMPs	polycyclic aromatic hydrocarbon,sediment,,nanogram per gram,,paleoceanography,,,N,dimethyl phenanthrenes
## Fluoranthene	polycyclic aromatic hydrocarbon,sediment,,nanogram per gram,,paleoceanography,,,N,Fluoranthene
## Pyrene	polycyclic aromatic hydrocarbon,sediment,,nanogram per gram,,paleoceanography,,,N,Pyrene
## TMPs	polycyclic aromatic hydrocarbon,sediment,,nanogram per gram,,paleoceanography,,,N,TMPs
## Retene	polycyclic aromatic hydrocarbon,sediment,,nanogram per gram,,paleoceanography,,,N,Retene
## Mpyrs	polycyclic aromatic hydrocarbon,sediment,,nanogram per gram,,paleoceanography,,,N,Mpyrs
## Benz_a_anthracene	polycyclic aromatic hydrocarbon,sediment,,nanogram per gram,,paleoceanography,,,N,benzo[a]anthracene
## Triphenylene	polycyclic aromatic hydrocarbon,sediment,,nanogram per gram,,paleoceanography,,,N,Triphenylene
## Chrysene	polycyclic aromatic hydrocarbon,sediment,,nanogram per gram,,paleoceanography,,,N,Chrysene
## Mchrys	polycyclic aromatic hydrocarbon,sediment,,nanogram per gram,,paleoceanography,,,N,methylchrysene
## Benzo_b_fluoranthene	polycyclic aromatic hydrocarbon,sediment,,nanogram per gram,,paleoceanography,,,N,benzo[b]fluoranthene
## Benzo_k_fluoranthene	polycyclic aromatic hydrocarbon,sediment,,nanogram per gram,,paleoceanography,,,N,benzo[k]fluoranthene
## Benzo_a_pyrene	polycyclic aromatic hydrocarbon,sediment,,nanogram per gram,,paleoceanography,,,N,benzo[a]pyrene
## Benzo_e_pyrene	polycyclic aromatic hydrocarbon,sediment,,nanogram per gram,,paleoceanography,,,N,benzo[e]pyrene
## Perylene	polycyclic aromatic hydrocarbon,sediment,,nanogram per gram,,paleoceanography,,,N,Perylene
## Ideno_123_cd_pyrene	polycyclic aromatic hydrocarbon,sediment,,nanogram per gram,,paleoceanography,,,N,ideno(123-cd)pyrene
## Dibenz_ah_anthrecene	polycyclic aromatic hydrocarbon,sediment,,nanogram per gram,,paleoceanography,,,N,dibenz[ah]anthrecene
## Benz_ghi_perylene	polycyclic aromatic hydrocarbon,sediment,,nanogram per gram,,paleoceanography,,,N,benz[ghi]perylene
## Coronene	polycyclic aromatic hydrocarbon,sediment,,nanogram per gram,,paleoceanography,,,N,Coronene
## Total_parent_PAHs	polycyclic aromatic hydrocarbon,sediment,,nanogram per gram,,paleoceanography,,,N,total parent PAHs
## APDI	organic compound index,,,dimensionless,,paleoceanography,,,N,Alkylated PAH Derivative Index
## DMP_Y	organic compound index,,,dimensionless,,paleoceanography,,,N,ratio of dimethyl phenanthrenes DMP_Y
## DMP_X	organic compound index,,,dimensionless,,paleoceanography,,,N,ratio of dimethyl phenanthrenes DMP_X
## Retene_3_ring	organic compound index,,,dimensionless,,paleoceanography,,,N,ratio of retene to other 3-ringed PAHs; retene/(phenthrene+anthracene+retene)
## LMW_Total	organic compound index,,,dimensionless,,paleoceanography,,,N,abundance of low-molecular weight to total PAHs
## MP_P	organic compound index,,,dimensionless,,paleoceanography,,,N,concentration ratio of summed methyl phenanthrenes over phenanthrene
## Total_PAH_C31	polycyclic aromatic hydrocarbon,,,dimensionless,,paleoceanography,,,N,Total PAH normalized to C31 n-alkane
## Total_PAH_C31_NMF_corr_Pyro	polycyclic aromatic hydrocarbon,,,dimensionless,,paleoceanography,,,N,Total PAH normalized to C31 n-alkane Pyro NMF corrected 
## Factor_1_weathered	factor score,,,dimensionless,,paleoceanography,,,N,proportion of sample attributed to the weathered endmember
## Factor_2_pyro	factor score,,,dimensionless,,paleoceanography,,,N,proportion of sample attributed to the pyrogenic endmember
## Factor_3_petro	factor score,,,dimensionless,,paleoceanography,,,N,proportion of sample attributed to the petrogenic endmember
## dry_density 	density,dry sediment,,gram per cubic centimeter,,paleoceanography,,,N,
## Sed_rate	sedimentation rate,,,centimeter per kiloyear,,paleoceanography,,,N,
## MAR 	accumulation rate,,,gram per square centimeter per kiloyear,,paleoceanography,,,N,mass accumulation rate
## Total_PAH_MAR	polycyclic aromatic hydrocarbon,,,nanogram per square centimeter per kiloyear,,paleoceanography,,,N,total PAH mass accumulation rate
## Weathered_PAH_MAR	polycyclic aromatic hydrocarbon,,,nanogram per square centimeter per kiloyear,,paleoceanography,,,N,weathered PAH mass accumulation rate
## Petrogenic_PAH_MAR	polycyclic aromatic hydrocarbon,,,nanogram per square centimeter per kiloyear,,paleoceanography,,,N,petrogenic PAH mass accumulation rate
#------------------------
# Data:
# Data lines follow (have no #)
# Data line format - tab-delimited text, variable short name as header
# Missing_Values: NA
Age_cal_yr_BP	Depth_mbsf	Acephthene	Acephthylene	Fluorene	Phenthrene	Anthracene	MPs	DMPs	Fluoranthene	Pyrene	TMPs	Retene	Mpyrs	Benz_a_anthracene	Triphenylene	Chrysene	Mchrys	Benzo_b_fluoranthene	Benzo_k_fluoranthene	Benzo_a_pyrene	Benzo_e_pyrene	Perylene	Ideno_123_cd_pyrene	Dibenz_ah_anthrecene	Benz_ghi_perylene	Coronene	Total_parent_PAHs	APDI	DMP_Y	DMP_X	Retene_3_ring	LMW_Total	MP_P	Total_PAH_C31	Total_PAH_C31_NMF_corr_Pyro	Factor_1_weathered	Factor_2_pyro	Factor_3_petro	dry_density 	Sed_rate	MAR 	Total_PAH_MAR	Weathered_PAH_MAR	Petrogenic_PAH_MAR	
1024857.00	19.52	0.000	0.000	0.000	0.042	0.000	0.062	0.096	0.110	0.056	0.081	0.024	0.019	0.030	0.016	0.029	0.000	0.208	0.070	0.022	0.189	0.021	0.123	0.000	0.147	0.155	1.197	2.1788	3.232374	0.80987	0.3656	0.202122	1.473316	0.030769	0.019975	0.660224	0.102126	0.237649	0.838	2.116	1.772	2.121	1.401	0.504	
1967376.00	36.925	0.000	0.005	0.005	0.097	0.000	0.071	0.036	0.078	0.043	0.034	0.010	0.015	0.022	0.007	0.018	0.006	0.228	0.028	0.020	0.135	0.022	0.122	0.024	0.195	0.231	1.258	-6.8508	1.391478	0.701036	0.089845	0.22068	0.73368	0.012171	0.004677	0.376959	0.469133	0.153908	1.674	2.116	3.542	4.457	1.68	0.686	
2505400.00	51.21	0.000	0.000	0.017	0.614	0.018	0.577	0.418	0.127	0.126	0.273	0.031	0.056	0.024	0.058	0.031	0.186	0.206	0.043	0.063	0.092	0.129	0.174	0.013	0.254	0.377	2.236	1.9502	7.2122	0.91859	0.046288	0.499623	0.939929	0.053802	0.018976	0.352768	0.301996	0.345236	1.042	2.574	2.682	5.997	2.116	2.07	
2750250.00	56.38	0.002	0.023	0.011	0.191	0.011	0.170	0.112	0.063	0.063	0.080	0.000	0.024	0.017	0.016	0.011	0.064	0.138	0.024	0.046	0.047	0.074	0.125	0.012	0.202	0.284	1.287	5.6122	4.086267	0.890655	0	0.349556	0.890335	0.033486	0.012202	0.362765	0.342694	0.294541	1.046	2.574	2.692	3.465	1.257	1.021	
2813091.00	57.9	0.010	0.000	0.000	0.026	0.000	0.014	0.030	0.024	0.019	0.000	0.017	0.000	0.009	0.004	0.009	0.000	0.070	0.017	0.011	0.219	0.015	0.075	0.000	0.123	0.178	0.794	-10.3638	3.56874	0.820845	0.387439	0.115026	0.546411	0.008513	2.75E-11	3.35E-09	0.111272	0.888728	1.071	2.574	2.756	2.189	0	1.945	
3000083.00	62.42	0.000	0.001	0.017	0.430	0.073	1.613	2.491	0.079	0.194	2.827	0.101	0.722	0.018	0.897	0.196	2.106	0.272	0.031	0.061	0.051	0.148	0.190	0.061	1.127	1.300	4.999	-42.5996	5.946394	0.896657	0.167488	0.285006	3.751648	0.175005	0.168079	0.945574	0.054426	6.41E-09	1.062	2.574	2.733	13.66	12.917	0	
3249652.00	68.61	0.000	0.000	0.010	0.255	0.007	1.141	1.696	0.031	0.069	1.761	0.046	0.243	0.019	0.477	0.176	1.392	0.152	0.034	0.075	0.027	0.149	0.112	0.038	0.552	0.797	2.831	-23.1392	7.151043	0.914006	0.14854	0.240456	4.467634	0.065038	0.057546	0.945935	0.053921	0.000144	1.087	2.574	2.798	7.921	7.492	0.001	
3409348.00	73.9	0.000	0.000	0.000	0.024	0.000	0.007	0.006	0.008	0.008	0.006	0.003	0.001	0.003	0.002	0.006	0.011	0.040	0.005	0.003	0.016	0.018	0.047	0.018	0.071	0.143	0.394	41.871	2.390827	0.840563	0.12055	0.17752	0.280945	0.005095	0.001482	0.281098	0.650528	0.068375	1.029	2.574	2.648	1.044	0.294	0.071	
3502565.00	73.61	0.001	0.000	0.008	0.140	0.066	0.272	0.305	0.036	0.041	0.223	0.013	0.024	0.006	0.052	0.035	0.200	0.067	0.014	0.015	0.008	0.049	0.081	0.002	0.161	0.274	1.005	-20.1296	11.79202	0.952019	0.058534	0.422447	1.947952	0.042137	0.022708	0.548994	0.097264	0.353742	1.029	2.574	2.648	2.661	1.461	0.941	
3598870.00	80.72	0.000	0.000	0.003	0.035	0.000	0.037	0.036	0.024	0.024	0.018	0.008	0.010	0.005	0.006	0.008	0.004	0.099	0.011	0.009	0.169	0.017	0.076	0.006	0.136	0.172	0.782	-7.3498	4.783002	0.882311	0.181187	0.139316	1.032907	0.009337	0.002924	0.317228	0.196956	0.485815	1.062	2.574	2.733	2.139	0.678	1.039	
3761700.00	85.56	0.001	0.002	0.016	0.238	0.009	0.432	0.526	0.031	0.042	0.515	0.022	0.042	0.009	0.114	0.065	0.472	0.064	0.013	0.126	0.023	0.037	0.058	0.014	0.126	0.218	1.169	-14.4108	10.25775	0.948381	0.082501	0.397798	1.817707	0.046992	0.034587	0.743601	0.129917	0.126482	1.075	0.943	1.014	1.185	0.881	0.15	
4001700.00	87.67	0.000	0.000	0.000	0.040	0.002	0.033	0.013	0.104	0.000	0.001	0.010	0.000	0.000	0.039	0.000	0.028	0.033	0.002	0.000	0.001	0.001	0.000	0.000	0.000	0.015	0.238	11.9009	1.879489	0.884651	0.188372	0.800741	0.814876	NA	NA	0.050944	0.417964	0.531092	1.067	0.943	1.006	0.239	0.012	0.127	
4234300.00	89.72	0.000	0.002	0.014	0.122	0.030	0.143	0.167	0.021	0.024	0.158	0.016	0.023	0.003	0.055	0.023	0.178	0.034	0.010	0.006	0.000	0.025	0.026	0.000	0.078	0.132	0.580	-6.0282	6.228845	0.908716	0.09533	0.520629	1.167554	0.021824	0.01426	0.657496	0.199012	0.143493	1.093	0.943	1.03	0.598	0.393	0.086	
4506028.00	92.03	0.000	0.001	0.007	0.082	0.006	0.077	0.071	0.024	0.029	0.061	0.007	0.015	0.003	0.012	0.006	0.060	0.051	0.028	0.013	0.009	0.059	0.058	0.000	0.112	0.217	0.659	1.2727	4.068325	0.873436	0.06818	0.336504	0.938541	0.023892	0.012274	0.51433	0.280568	0.205102	1.093	0.943	1.03	0.679	0.349	0.139	
4744263.00	94.04	0.001	0.000	0.005	0.099	0.008	0.078	0.056	0.030	0.030	0.039	0.006	0.010	0.006	0.009	0.008	0.036	0.079	0.008	0.021	0.012	0.019	0.048	0.006	0.112	0.108	0.591	9.624	4.926222	0.9017	0.053415	0.362437	0.790282	0.046737	0.016215	0.345257	0.354388	0.300355	1.1	0.943	1.037	0.613	0.212	0.184	
4999583.00	95.515	0.000	0.001	0.013	0.106	0.009	0.070	0.062	0.025	0.028	0.048	0.013	0.014	0.002	0.007	0.006	0.014	0.023	0.011	0.010	0.006	0.028	0.023	0.003	0.033	0.050	0.356	11.9228	2.476564	0.822711	0.10097	0.595759	0.662507	0.020306	0.007997	0.391854	0.366079	0.242066	1.1	0.943	1.037	0.369	0.145	0.089	
5238042.00	99.265	0.001	0.002	0.014	0.185	0.011	0.100	0.063	0.039	0.040	0.047	0.009	0.015	0.004	0.014	0.007	0.059	0.049	0.022	0.014	0.012	0.057	0.047	0.003	0.101	0.166	0.731	24.4174	4.140646	0.873705	0.045403	0.517229	0.541655	0.031893	0.009025	0.276949	0.504639	0.218411	1.117	0.943	1.053	0.77	0.213	0.168	
5753500.00	104.26	0.019	0.120	0.006	0.079	0.007	0.039	0.018	0.025	0.021	0.009	0.011	0.004	0.005	0.003	0.006	0.005	0.025	0.009	0.008	0.009	0.021	0.030	0.017	0.047	0.047	0.482	32.06	1.125564	0.724395	0.112417	0.489443	0.48993	0.026867	0.003652	0.129574	0.585537	0.284888	1.112	0.943	1.048	0.506	0.066	0.144	
6002357.00	107.57	0.000	0.000	0.003	0.098	0.005	0.041	0.016	0.116	0.003	0.003	0.015	0.000	0.000	0.040	0.016	0.031	0.034	0.019	0.000	0.001	0.037	0.000	0.000	0.001	0.034	0.369	40.237	0.602295	0.613405	0.12511	0.756446	0.417444	0.034845	3.22E-10	9.71E-09	0.656457	0.343543	1.111	0.943	1.048	0.387	0	0.133	
6317457.00	109.93	0.000	0.000	0.005	0.095	0.011	0.056	0.027	0.032	0.026	0.018	0.006	0.007	0.005	0.005	0.006	0.020	0.084	0.018	0.015	0.058	0.049	0.046	0.000	0.105	0.249	0.759	23.6256	4.790399	0.901535	0.055945	0.326716	0.594449	0.041105	0.009014	0.213162	0.521831	0.265007	1.132	0.943	1.067	0.81	0.173	0.215	
6491214.00	111.17	0.002	0.001	0.015	0.196	0.012	0.092	0.058	0.043	0.043	0.042	0.018	0.015	0.005	0.010	0.008	0.021	0.059	0.012	0.009	0.740	0.034	0.041	0.005	0.092	0.244	1.535	29.8404	1.637186	0.777234	0.081299	0.233632	0.469674	0.04437	0.010993	0.240971	0.552907	0.206122	1.126	0.943	1.062	1.63	0.393	0.336	
6749047.00	113.01	0.004	0.041	0.013	0.141	0.007	0.076	0.039	0.017	0.019	0.025	0.000	0.005	0.002	0.006	0.004	0.025	0.037	0.018	0.004	0.025	0.044	0.035	0.006	0.079	0.334	0.791	29.2922	3.323642	0.86725	0	0.473968	0.541901	0.026512	0.005691	0.208168	0.544563	0.247269	1.126	0.943	1.062	0.84	0.175	0.208	
6845734.00	113.7	0.000	0.000	0.002	0.030	0.004	0.034	0.045	0.026	0.025	0.015	0.016	0.008	0.006	0.004	0.028	0.013	0.078	0.009	0.000	0.018	0.026	0.075	0.030	0.127	0.506	0.969	-18.081	1.334543	0.694301	0.317925	0.200688	1.131069	0.037403	0.008685	0.238381	0.094378	0.66724	1.126	0.943	1.062	1.029	0.245	0.686	
6994268.00	114.76	0.001	0.001	0.005	0.116	0.008	0.178	0.194	0.030	0.040	0.151	0.010	0.028	0.003	0.029	0.015	0.104	0.061	0.015	0.012	0.119	0.028	0.047	0.006	0.108	0.220	0.837	-14.3108	7.486321	0.924956	0.071456	0.338676	1.538433	0.092061	0.050431	0.55566	0.141424	0.302916	1.126	0.943	1.062	0.889	0.494	0.269	
7264398.00	116.7	0.000	0.000	0.006	0.064	0.005	0.033	0.022	0.021	0.021	0.015	0.008	0.008	0.003	0.004	0.004	0.012	0.033	0.010	0.005	0.260	0.025	0.041	0.004	0.080	0.211	0.772	25.4328	1.315847	0.770555	0.104108	0.202573	0.511131	0.04339	0.01153	0.260115	0.504933	0.234952	1.134	0.943	1.069	0.826	0.215	0.194	
7515959.00	118.52	0.000	0.000	0.005	0.114	0.009	0.062	0.019	0.028	0.022	0.012	0.013	0.005	0.002	0.006	0.004	0.025	0.042	0.025	0.004	0.034	0.054	0.062	0.007	0.119	0.242	0.726	33.1168	1.259505	0.758249	0.092924	0.370868	0.546143	0.047387	0.006839	0.136198	0.637801	0.226002	1.166	0.943	1.1	0.799	0.109	0.181	
7792400.00	120.52	0.000	0.001	0.005	0.089	0.010	0.045	0.027	0.026	0.022	0.019	0.006	0.009	0.004	0.005	0.005	0.016	0.060	0.008	0.011	0.102	0.018	0.059	0.005	0.125	0.316	0.852	27.9234	2.632368	0.848777	0.060557	0.280478	0.502445	0.038697	0.009523	0.23961	0.538361	0.222029	1.166	0.943	1.1	0.937	0.225	0.208	
8020464.00	122.17	0.000	0.000	0.004	0.131	0.007	0.082	0.060	0.038	0.042	0.038	0.023	0.016	0.005	0.007	0.006	0.021	0.066	0.024	0.015	0.039	0.059	0.061	0.000	0.094	0.206	0.746	16.2658	1.357291	0.7464	0.141609	0.412484	0.627825	0.06486	0.018628	0.284037	0.415428	0.300534	1.16	0.943	1.094	0.816	0.232	0.245	
8107542.00	122.8	0.000	0.000	0.000	0.016	0.003	0.021	0.037	0.011	0.010	0.004	0.007	0.003	0.002	0.004	0.004	0.010	0.022	0.002	0.008	0.040	0.009	0.024	0.003	0.033	0.113	0.296	-33.356	2.550526	0.809676	0.268917	0.229112	1.268134	0.009908	0.000706	0.08016	2.35E-09	0.91984	1.16	0.943	1.094	0.324	0.026	0.298	
8301742.00	124.205	0.000	0.001	0.006	0.068	0.005	0.052	0.062	0.019	0.025	0.053	0.012	0.012	0.005	0.010	0.011	0.018	0.054	0.014	0.011	0.000	0.029	0.053	0.000	0.091	0.278	0.650	3.9588	2.360687	0.806643	0.136737	0.331025	0.758692	0.041267	0.022072	0.536258	0.275713	0.188029	1.144	0.943	1.079	0.701	0.376	0.132	
8544319.00	125.96	0.000	0.000	0.003	0.100	0.006	0.043	0.031	0.086	0.009	0.011	0.023	0.001	0.001	0.028	0.014	0.022	0.027	0.012	0.000	0.003	0.005	0.011	0.000	0.000	0.065	0.366	30.0946	0.495499	0.555745	0.17483	0.746558	0.432956	NA	NA	0.092489	0.518699	0.388813	1.144	0.943	1.079	0.395	0.037	0.154	
8820058.00	128.18	0.000	0.001	0.014	0.113	0.007	0.080	0.076	0.020	0.025	0.062	0.012	0.014	0.002	0.012	0.008	0.031	0.029	0.010	0.010	0.003	0.025	0.044	0.003	0.068	0.336	0.707	9.2486	3.105567	0.838668	0.091473	0.486777	0.706748	0.068121	0.030524	0.446759	0.340665	0.212576	1.164	0.943	1.097	0.776	0.346	0.165	
9060275.00	131.02	0.000	0.000	0.003	0.112	0.006	0.049	0.018	0.125	0.005	0.003	0.015	0.000	0.000	0.038	0.016	0.027	0.028	0.009	0.000	0.000	0.008	0.000	0.000	0.000	0.056	0.397	39.9498	0.392437	0.556186	0.113699	0.824641	0.434074	NA	NA	9.92E-09	0.66279	0.33721	1.167	0.943	1.1	0.436	0	0.147	
9288650.00	133.72	0.001	0.000	0.006	0.088	0.009	0.046	0.031	0.021	0.017	0.021	0.006	0.006	0.002	0.005	0.004	0.009	0.016	0.004	0.003	0.421	0.005	0.005	0.002	0.008	0.064	0.677	24.3006	4.320846	0.893352	0.056217	0.224936	0.521412	0.289542	0.074198	0.251169	0.491153	0.257678	1.119	0.943	1.055	0.714	0.179	0.184	
9517871.00	136.43	0.002	0.006	0.003	0.029	0.005	0.067	0.083	0.042	0.030	0.032	0.016	0.020	0.010	0.022	0.038	0.096	0.035	0.007	0.005	0.061	0.000	0.014	0.007	0.027	0.142	0.485	-33.024	2.102638	0.787907	0.322092	0.348818	2.316691	0.112843	0.033886	0.300885	3.9E-05	0.699076	1.119	0.943	1.055	0.512	0.154	0.358	
10008768.00	139.87	0.000	0.001	0.002	0.114	0.004	0.048	0.032	0.116	0.014	0.019	0.022	0.004	0.002	0.032	0.018	0.025	0.036	0.002	0.000	0.003	0.000	0.003	0.000	0.002	0.032	0.381	32.4962	1.237745	0.722828	0.158294	0.790114	0.422886	NA	NA	0.177528	0.562176	0.260296	1.049	0.121	0.127	0.048	0.009	0.013