# Northeast Pacific 31,000 Year Fossil Diatom Assemblage Data
#----------------------------------------------------------------------- 
#                World Data Service for Paleoclimatology, Boulder 
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#                     NOAA Paleoclimatology Program 
#             National Centers for Environmental Information (NCEI)
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# Online_Resource: https://www.ncdc.noaa.gov/paleo/study/22210 
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# Online_Resource: https://www1.ncdc.noaa.gov/pub/data/paleo/contributions_by_author/lopes2015odp1019.txt
#       Description:
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# Original_Source_URL:  
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# Description/Documentation lines begin with #
# Data lines have no #
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# Archive: Paleoceanography
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# Dataset DOI: 
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# Parameter_Keywords: population abundance 
#---------------------------------------
# Contribution_Date
#    Date: 2017-06-07
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# File_Last_Modified_Date
#    Date: 2017-06-07
#---------------------------------------
# Title
#    Study_Name: Northeast Pacific 31,000 Year Fossil Diatom Assemblage Data
#---------------------------------------
# Investigators
#      Investigators: Lopes, C.; Kucera, M.; Mix, A.C.
#---------------------------------------
# Description_Notes_and_Keywords
#        Description: Surface and downcore diatom assemblage data from cores in the Northeast Pacific off Oregon,  
#	 and estimation of Primary Production Export using Diatom based Tranfer Functions.
#         Provided Keywords: Diatoms, Organic Carbon, Transfer functions 
# 
# Lopes et al. Supplementary Materials. Table S1. Diatom species list and codes					
# Code used	Species 	Freshwater species	Marine/Brackish species	Species with surface area >300 mm2	Species with surface area <300 mm2
# sp1	Actinocyclus curvatulus Janisch	No	Yes	Yes	No
# sp2	Actinocyclus normanii (Greg.) Husted	No	Yes	Yes	No
# sp3	Actinoptychus senarius (Ehr.) Ehrenberg	No	Yes	Yes	No
# sp4	Stephanodiscus rotula (forma minutula) (Kutz) Grunow	Yes	No	n/a	n/a
# sp5	Aulacoseira islandica (O. Mull.) Simonsen	Yes	No	n/a	n/a
# sp6	Aulacoseira granulata (Thwaites) Crawford/ (Her.) Thwaites	Yes	No	n/a	n/a
# sp7	Aulacoseira spp.	Yes	No	n/a	n/a
# sp8	Aulacosira italica (Ehr.) Kutzing	Yes	No	n/a	n/a
# sp9	Bacteriastrum spp.	No	Yes	n/a	n/a
# sp10	Chaetoceros resting spores Ehrenberg	No	Yes	Yes	No
# sp11	Coscinodiscus decrescens Grunow	No	Yes	Yes	No
# sp12	Coscinodiscus marginatus Ehrenberg	No	Yes	Yes	No
# sp13	Coscinodiscus radiatus Ehrenberg/(Schmidt)	No	Yes	Yes	No
# sp14	Cyclotella litoralis Lange & Syvertsen	No	Yes	Yes	No
# sp15	Cyclotella ocellata Pantocsek	Yes	No	n/a	n/a
# sp16	Cyclotella spp.	No	Yes	Yes	No
# sp17	Cyclotella striata (Kutz.) Grunow	No	Yes	Yes	No
# sp18	Hemidiscus cuneiformis Wallich	No	Yes	Yes	No
# sp19	Leptocylindrus resting spores Cleve	No	Yes	n/a	n/a
# sp20	Melosira ambigua (Grunow) Simonsen	Yes	No	n/a	n/a
# sp21	Odontella aurita (Lyngbye) C. A. Agardh 	No	Yes	Yes	No
# sp22	Paralia sulcata (Ehr.) Cleve	No	Yes	Yes	No
# sp23	Rhizosolenia hebetata forma hebetatata Bailey	No	Yes	Yes	No
# sp24	Rhizosolenia styliformis Brightwell 	No	Yes	Yes	No
# sp25	Roperia tesselata (Roper) Grunow ex Van Heurck	No	Yes	Yes	No
# sp26	Stephanopyxis turris (Arnot in Greville) Ralfs in Pritchard	No	Yes	Yes	No
# sp27	Thalassiossira allenii Takano	No	Yes	n/a	n/a
# sp28	Thalassiossira anguste-lineata (A. Schmi.) Fryxell & Hasle	No	Yes	Yes	No
# sp29	Thalassiossira eccentrica  (Ehr.) Cleve	No	Yes	Yes	No
# sp30	Thalassiossira leptotus Hasle & Fryxell	No	Yes	Yes	No
# sp31	Thalassiossira lineata Jouse	No	Yes	Yes	No
# sp32	Thalassiossira oestrupii (Ostenf.) Hasle	No	Yes	Yes	No
# sp33	Thalassiossira pacifica Gran & Angst	No	Yes	No	n/a
# sp34	Thalassiossira cf trifulta *	No	Yes	No	Yes
# sp35	Thalassiossira sp1*	No	Yes	No	Yes
# sp36	Thalassiossira sp2*	No	Yes	No	Yes
# sp37	Thalassiossira sp6*	No	Yes	No	Yes
# sp38	Thalassiossira spp.*	No	Yes	No	Yes
# sp39	Cocconeis placentula Ehrenberg	No	Yes	No	n/a
# sp40	Cocconeis sp1*	No	Yes	No	n/a
# sp41	Delphineis surilella (Ehr.) Andrews	No	Yes	No	Yes
# sp42	Epithemia turgida (Her.) Kutz	Yes	No	n/a	n/a
# sp43	Fragilaria brevistriata Grunow	Yes	No	n/a	n/a
# sp44	Fragilaria constricta Ehrenberg	Yes	No	n/a	n/a
# sp45	Fragilaria construens (Ehr.) Grunow   	Yes	No	n/a	n/a
# sp46	Fragilariopsis doliolus (Wallich) Medin & Sims  	No	Yes	n/a	Yes
# sp47	Gomphonema constrictum Ehrenberg	Yes	No	n/a	n/a
# sp48	Lioloma elongatum (Grunow) Hasle	No	Yes	Yes	No
# sp49	Lioloma pacificum (Cupp) Hasle	No	Yes	Yes	No
# sp50	Lioloma spp.	No	Yes	Yes	No
# sp51	Neodenticula seminae (Simonsen & Kanaya) Akiba & Yanagisawa 	No	Yes	No	Yes
# sp52	Nitzschia gp bicapitata	No	Yes	No	Yes
# sp53	Raphoneis amphiceros Ehrenberg (Gregory) Grunow	No	Yes	No	Yes
# sp54	Thalassionema nitzschioides Grunow	No	Yes	No	Yes
# 	* Description in Lopes et al. (2006)				
# 
# List of Diatom species with relative abundances <2% and therefore not used in calculations: 
# Actinoptychus adriaticus, Actinoptychus splendens, Actinoptychus spp., Asterolampra grevillei, Asterolampra marylandica, Asterolampra spp., Asteromphalus robustus, Asteromphalus heptachis, Asteromphalus sarcophagus, Asteromphalus spp., Arachnodiscus ehremberg, Aulacoseia distans, Aulacosira agassizi, Azpetia africana, Azpetia neocrenulata, Azpetia nodulifera, Bactriastrum cf delicatum, Coscinodiscus antarctica, Coscinodiscus asteromphalus, Coscinodiscus denarius, Coscinodiscus granii, Coscinodiscus nitidus, Coscinodiscus oculus iridis, Coscinodiscus subtilus, Coscinodiscus wailesii, Coscinodiscus zadiatus, Cyclotella kutzingiana, Cyclotella meneghiniana, Cyclotella comta, Cyclotella catenata, Cyclotella setigera, Cyclotella comensis, Guinardia spp., Melosira spp., Biddulphia longic., Odontella spp., Planktionella sol, Porosira glacialis, Rhizosolenia aciculares, Rhizosolenia borealis, Rhizosolenia bergonii, Rhizosolenia castracanei, Rhizosolenia  formosa, Rhizosolenia spp., Rhizosolenia hebetata (forma semispina), Rhizosolenia setigera, Rhizosolenia cf simplex, Rhizosolenia simplex, Thalassiossira angulata, Thalassiossira dichotomica, Thalassiossira  endoseriata, Thalassiossira convexa, Thalassiossira cf eccentricas, Thalassiossira exigua, Thalassiossira  gravida, Thalassiossira guillardia, Thalassiossira hendeyi, Thalassiossira lundiana, Thalassiossira cf mendiolana, Thalassiossira mendiolana, Thalassiossira cf nanolineata, Thalassiossira nanolineata, Thalassiossira nordenskioeldii, Thalassiossira oceanica, Thalassiossira poro-irregulata, Thalassiossira cf poroseriata, Thalassiosira cf punctigera, Thalassiossira cf sacketii, Thalassiossira cf simonsenii, Thalassiossira  simonsenii, Thalassiossira subtilis, Thalassiossira trifulta, Thalassiossira sp3, Thalassiossira sp4, Thalassiossira sp5, Triceratum alternans, Achnantes  clevei, Achnantes  lanceolata, Achnantes  levanderi, Achnantes  lorenziana, Achnantes minutissima, Achnantes spp., Amphora comutata, Amphora ovalis, Amphora spp., Cocconeis diminuta, Cocconeis cf nitida, Cocconeis nitida, Cocconeis disculus, Cocconeis scutellum, Cocconeis heteroida, Cocconeis ornata, Cocconeis constatum, Cocconeis spp., Cymbella cuspidata, Cymbella leptoceros, Cymbella lacustris, Cymbella turmida, Cymbella turgida, Denticula delicata, Diatoma mesodon, Diatoma vulgaris, Diploneis chersonensis, Diploneis constrita, Diploneis lineata, Diploneis bombus, Diploneis subcinta, Diploneis parma, Diploneis subcirculares, Diploneis smithii, Epithemia spp., Epithemia argus, Eunotia septentrionalis, Eunotia monodom, Eunotia parallela, Eunotia pectinalis, Fragilaria constricta, Delphineis karstenii, Fragilaria inflata, Fragilaria leptostauron, Fragilaria pinnata, Fragilaria ulma, Fragilaria spp., Gomphonema acuminatum, Gomphonema olivaceum, Gomphonema angustatum, Gonphonema intracom, Gomphonema spp, Gyrosigma acumatum, Hantzschia amphiox, Navicula bacillari, Navicula capitata, Navicula commutabilis, Navicula distans, Navicula explaneta, Navicula gastrum, Navicula gibbula, Navicula lisbonenses, Navicula lundstronii, Navicula gp lyratae, Navicula radiosa, Navicula viridula, Navicula spp., Nitzschia dietrichii, Nitzschia amphibia, Nitzschia angustata, Nitzschia bifurcata, Pleurosigma nicobaricum, Pleurosigma spp., Opephora martyi, Raphoneis cf nitida, Raphoneis spp., Surirella linearis, Stauroneis phoenicenteron, Synedra ulna, Synedra famelica, Synedra voucheria, Trachyneis velata, Tetracyclus rupestris, Thalassionema bacillare, Thalassionema nitzschioides parva, Thalassiotrix longissima 
# 
# 
# Lopes et al. Supplementary Materials. Table S4. Results of the Q-mode factor analysis of diatom 				
# floras from table S3 (italic bold are the highest loadings for each factor).  				
# 	Factor 1	Factor 2	Factor 3	Factor 4
# Actinocyclus curvatulus Janisch	-0.055	0.0361	0.2043	0.0642
# Actinocyclus normanii (Greg.) Husted	-0.0112	0.0181	0.0028	0.0529
# Actinoptychus senarius (Ehr.) Ehrenberg	-0.0481	-0.1162	0.3009	0.4443
# Bacteriastrum spp.	-0.0062	0.0064	0.0122	0.0185
# Chaetoceros resting spores Ehrenberg	0.9725	0.1167	0.1684	0.0791
# Coscinodiscus decrescens Grunow	-0.0108	0.0033	-0.0066	0.0715
# Coscinodiscus marginatus Ehrenberg	-0.0094	-0.0193	0.0319	0.2296
# Coscinodiscus radiatus Ehrenberg/(Schmidt)	-0.0399	0.0467	0.1208	0.2337
# Cyclotella litoralis Lange & Syvertsen	0.0053	0.0054	-0.0092	0.0448
# Cyclotella spp.	-0.0015	0.0023	-0.007	0.0476
# Cyclotella striata (Kutz.) Grunow	-0.0008	0.0082	-0.0022	0.0053
# Hemidiscus cuneiformis Wallich	-0.0059	0.013	-0.0056	0.0199
# Leptocylindrus resting spores Cleve	0.0259	-0.0195	-0.0131	0.1318
# Odontella aurita (Lyngbye) C. A. Agardh 	-0.0023	0.0045	0.0083	0.0205
# Paralia sulcata (Ehr.) Cleve	-0.0058	-0.0002	0.0459	0.1545
# Rhizosolenia hebetata forma hebetatata Bailey	-0.0478	0.0021	-0.0592	0.5419
# Rhizosolenia styliformis Brightwell 	-0.0038	0.0227	-0.0036	-0.0029
# Roperia tesselata (Roper) Grunow ex Van Heurck	-0.0041	0.0195	-0.008	0.0072
# Stephanopyxis turris (Arnot in Greville) Ralfs in Pritchard	-0.1487	-0.0066	0.8754	-0.2111
# Thalassiossira allenii Takano	0.0067	0.0119	-0.0028	-0.0132
# Thalassiossira anguste-lineata (A. Schmi.) Fryxell & Hasle	0	0.0041	-0.0024	0.0105
# Thalassiossira eccentrica  (Ehr.) Cleve	-0.0505	0.0763	0.0792	0.1541
# Thalassiossira leptotus Hasle & Fryxell	-0.0229	0.0212	0.1139	0.0405
# Thalassiossira lineata Jouse	-0.0003	0.0169	-0.0026	0.0259
# Thalassiossira oestrupii (Ostenf.) Hasle	-0.0468	0.061	-0.0277	0.231
# Thalassiossira pacifica Gran & Angst	0.0068	0.0115	0.0035	-0.0234
# Thalassiossira cf trifulta *	-0.0043	0.0012	-0.0023	0.027
# Thalassiossira sp1*	-0.0124	0.0033	-0.0101	0.0968
# Thalassiossira sp2*	-0.0053	-0.0015	-0.0081	0.0596
# Thalassiossira sp6*	-0.0033	0.0006	-0.0015	0.021
# Thalassiossira spp.*	-0.0085	0.0042	-0.0112	0.0785
# Cocconeis sp1*	-0.0021	0.0024	0.0008	0.0047
# Delphineis surilella (Ehr.) Andrews	-0.0085	-0.0195	0.1474	0.0863
# Fragilariopsis doliolus (Wallich) Medin & Sims  	-0.0636	0.1597	-0.0646	0.1716
# Lioloma elongatum (Grunow) Hasle	-0.0071	0.01	-0.0066	0.0639
# Lioloma pacificum (Cupp) Hasle	0.002	0.0053	-0.0135	0.0524
# Lioloma spp.	-0.008	0.0041	-0.0173	0.1102
# Neodenticula seminae (Simonsen & Kanaya) Akiba & Yanagisawa 	-0.0424	0.0333	0.0256	0.3655
# Nitzschia gp bicapitata	-0.0036	0.0184	0.0013	0.0043
# Raphoneis amphiceros Ehrenberg (Gregory) Grunow	-0.0066	0.0118	0.0596	0.0233
# Thalassionema nitzschioides Grunow	-0.1002	0.9637	0.0146	-0.0368
# * Taxonomic details in Lopes et al.- 2006				
# 
#---------------------------------------
# Publication
# Authors: Cristina Lopes, Michal Kucera, and Alan C. Mix
# Published_Date_or_Year: 2015
# Published_Title: Climate change decouples oceanic primary and export productivity and organic carbon burial
# Journal_Name: Proceeedings of the National Academy of Sciences
# Volume: 112
# Edition: 
# Issue: 2
# Pages: 332-335
# Report Number: 
# DOI: 10.1073/pnas.1410480111
# Online_Resource: http://www.pnas.org/content/112/2/332
# Full_Citation: 
# Abstract: Understanding responses of oceanic primary productivity, carbon export, and burial to climate change is essential for model-based projection of biological feedbacks in a high-CO2 world. Here we compare estimates of productivity based on the composition of fossil diatom floras with organic carbon burial off Oregon in the Northeast Pacific across a large climatic transition at the last glacial termination. Although estimated primary productivity was highest during the Last Glacial Maximum, carbon burial was lowest, reflecting reduced preservation linked to low sedimentation rates. A diatom size index further points to a glacial decrease (and deglacial increase) in the fraction of fixed carbon that was exported, inferred to reflect expansion, and contraction, of subpolar ecosystems that today favor smaller plankton. Thus, in contrast to models that link remineralization of carbon to temperature, in the Northeast Pacific, we find dominant ecosystem and sea floor control such that intervals of warming climate had more efficient carbon export and higher carbon burial despite falling primary productivity.
#---------------------------------------
# Funding_Agency
#    Funding_Agency_Name: National Science Foundation
#    Grant: 0602395, 1204204
#---------------------------------------
# Funding_Agency
#    Funding_Agency_Name: Fundação para a Ciência e Tecnologia
#    Grant: PDTC/AAC-CLI/112189/2009
#---------------------------------------
# Funding_Agency
#    Funding_Agency_Name: Fundação para a Ciência e Tecnologia
#    Grant: SFRH/BPD/26732/2006
#---------------------------------------
# Funding_Agency
#    Funding_Agency_Name: Deutscher Akademischer Austauschdienst
#    Grant: “Acções Integradas Luso-Alemãs/DAAD
#---------------------------------------
# Funding_Agency
#    Funding_Agency_Name: Bundesministerium für Bildung und Forschung
#    Grant: “Acções Integradas Luso-Alemãs/DAAD
#---------------------------------------
# Site Information
# Site_Name: ODP1019C
# Location: Ocean>Pacific Ocean>North Pacific Ocean
# Country: 
# Northernmost_Latitude: 41.683
# Southernmost_Latitude: 41.683
# Easternmost_Longitude: -124.933
# Westernmost_Longitude: -124.933
# Elevation: -978
#---------------------------------------
# Data_Collection
#   Collection_Name: Lopes2015ODP1019
#   Earliest_Year: 7574 
#   Most_Recent_Year: 31
#   Time_Unit: cal yr BP
#   Core_Length:  
#   Notes: 
#---------------------------------------
# Chronology_Information 
# Chronology: 
# 
# Lopes et al. Supplementary Materials. Table S5.  Radiocarbon 									Lopes et al. Supplementary Materials. Table S5.  Radiocarbon 	
# data from cores ODP 1019 C and D and MD02-2499.									data from cores ODP 1019 C and D and MD02-2499.	
# CORE	Material (foraminifers)	Depth (mcd)	Revised depth (mcd)	14C Age       (years B.P.)	Reservoir  Age          (years)	Reservoir Corrected Age          (years B.P.)	calendar age (years B.P.)	Final depth (mcd)	average calendar age (years B.P.)	Reference
# ODP 1019D	Globobulimina spp.	0.16	0.16	2040+40	1750	290+40	310+80	0.16	333+190	Barron et al. (2003)
# ODP 1019D	mixed benthic forams	0.16	0.16	2130+40	1750	380+40	430+90			Barron et al. (2003)
# ODP 1019D	Globobulimina spp.	0.57	0.57	3040+40	1750	1290+40	1250+60	0.57	1216+205	Barron et al. (2003)
# ODP 1019D	mixed benthic forams	1.16	1.27	5100+700	1750	3350+700	3670+910	1.27	3677+205	Barron et al. (2003)
# ODP 1019D	mixed benthic forams	2.07	2.21	6400+40	1750	4650+40	5430+90	2.21	5342+257	Barron et al. (2003)
# ODP 1019C	bark	2.84	2.84	6030+150			6741+183	2.84	6741+183	Mix et al. (1999) and this study
# ODP 1019C	mixed planktic forams	4.17	4.17	9950+110	720	9230+228	10458+301	4.17	10458+301	Mix et al. (1999) and this study
# ODP 1019C	mixed planktic forams	4.92	4.92	10210+120	720	9490+233	10805+308	4.92	10805+308	Mix et al. (1999) and this study
# ODP 1019C	mixed planktic forams	5.16	5.16	11410+170	720	10690+263	12566+333	5.16	12566+333	Mix et al. (1999) and this study
# ODP 1019C	mixed planktic forams	5.81	5.81	11580+140	720	10860+244	12804+259	5.81	12804+259	Mix et al. (1999) and this study
# ODP 1019C	mixed planktic forams	6.21	6.21	11950+110	720	11230+228	13135+219	6.21	13135+219	Mix et al. (1999) and this study
# ODP 1019C	mixed planktic forams	7.11	7.11	13350+120	720	12630+233	14917+473	7.11	14917+473	Mix et al. (1999) and this study
# ODP 1019C	mixed planktic forams	8.21	8.21	15080+120	720	14360+233	17457+359	8.21	17457+359	Mix et al. (1999) and this study
# ODP 1019C	mixed planktic forams	9.54	9.54	16040+140	720	15320+244	18624+247	9.54	18624+247	Mix et al. (1999) and this study
# ODP 1019C	mixed planktic forams	10.55	10.55	18550+210	720	17830+290	21200+470	10.55	21200+470	Mix et al. (1999) and this study
# ODP 1019C	mixed planktic forams	12.15	12.15	21240+280	720	20520+344	24553+443	12.15	24553+443	Mix et al. (1999) and this study
# MD02-2499	Uvigerina spp.	2	1.28	10950+50	1750	9200+206	10384+267	1.28	10549+279	Lopes and Mix (2009)
# MD02-2499	mixed planktic forams	2	1.28	10100+65	720	9380+210	10624+301			Lopes and Mix (2009)
# MD02-2499	Uvigerina spp.	5.8	4.58	17850+80	1750	16100+215	19277+203	4.58	19260+237	Lopes and Mix (2009)
# MD02-2499	mixed planktic forams	5.8	4.58	16750+140	720	16030+244	19213+231			Lopes and Mix (2009)
# MD02-2499	mixed benthic forams	9.2	7.98	25800+180	1750	24050+269	28624+299	7.98	28858+348	Lopes and Mix (2009)
# MD02-2499	mixed planktic forams	9.2	7.98	24900+120	720	24180+233	28762+263			Lopes and Mix (2009)
# MD02-2499	Correlation with benthic oxygen curve from W8709-13PC	0.4	0.4	10549						This study
# MD02-2499	Correlation with benthic oxygen curve from W8709-13PC	3.4	2.18	12434						This study
# MD02-2499	Correlation with benthic oxygen curve from W8709-13PC	5.4	4.18	17877						This study
# 
# 
# Lopes et al. Supplementary Materials. Table S6. The radiocarbon-based age model for core W8709-13PC, including the calculation of mean sedimentation rates and their uncertainties for 30-cm intervals.																																
# 	STEP 1: Raw Age model (14C --> Calendar Ages)						STEP 2: TRIM OVELAPPING ERROR BARS IN ADJACENT DATES						STEP 3: Correct for MAX age less than MIN age in previous step						STEP 4: REPEAT STEP 2 -- RESULT = monotonic age model, no overlapping errors						STEP 5: INTERP MEAN MIN MAX ages to 30cm (cull gaps) Calc. Uncertainty						STEP 6: Calculate sedimentation rates with Monte Carlo uncertainty	
# Original Source	Depth in core (midpoint, cm)	Calendar age (yr BP)	Calendar age error 1 sigma (yr BP)	Minimum age (yr BP)	Maximum age (yr BP)		Depth in core (midpoint, cm)	Modified calendar age (yr BP)	Modified minimum age (yr BP)	Modified maximum age (yr BP)	Modified calendar age error 1 sigma (yr BP)		Depth in core (midpoint, cm)	Modified calendar age (yr BP)	Modified minimum age (yr BP)	Modified maximum age (yr BP)	Modified calendar age error 1 sigma (yr BP)		Depth in core (midpoint, cm)	Modified calendar age (yr BP)	Modified minimum age (yr BP)	Modified maximum age (yr BP)	Modified calendar age error 1 sigma (yr BP)		30cm intervals gin30_90	Interpolated modified calendar age (yr BP)	Interpolated modified minimum age (yr BP)	Interpolated modified maximum age (yr BP)	Interpolated modified calendar age error 1 sigma (yr BP)		Average sedimentation rate for 30-cm intervals (cm/kyr)	Monte-Carlo simulation based standard deviation 1 sigma (cm/kyr)
# 																																
# Lund et al. 2011	70.5	8338	227	8111	8565		70.5	8338	8111	8565	227		70.5	8338	8111	8565	227		70.5	8338	8111	8565	227		90	9287.6	9092.7	9481.9	115		24.78110028	3.535363643
# Lund et al. 2011	80.5	8904	277	8627	9181		80.5	8852	8627	9077	225		80.5	8852	8627	9077	225		80.5	8852	8627	9077	225		120	10498.2	10339	10656.8	94		20.69393668	1.989933177
# Lund et al. 2011	88.5	9213	241	8972	9454		88.5	9266	9077	9454	188.5		88.5	9265.5	9077	9454	188.5		88.5	9266	9077	9454	188.5		150	11947.9	11802.8	12092.7	86		20.78858014	2.127555845
# Lund et al. 2011	99.0	9816	268	9548	10084		99.0	9725	9548	9902	177		99.0	9725	9548	9902	177		99.0	9725	9548	9902	177		180	13391	13216.7	13564.9	103		16.46090535	1.535225393
# Lund et al. 2011	105.0	9999	279	9720	10278		105.0	10070	9902	10237	167.5		105.0	10069.5	9902	10237	167.5		105.0	10070	9902	10237	167.5		210	15213.5	15030.8	15395.7	108		17.83378909	1.571879271
# Lund et al. 2011	124.0	10456	260	10196	10716		124.0	10338	10237	10438	100.5		124.0	10337.5	10237	10438	100.5		124.0	10338	10237	10438	100.5		240	16895.7	16750.3	17040.8	86		27.14195241	3.771198098
# Gardner et al. 1997	126.5	10549	389	10160	10938		126.5	10688	10438	10938	250		126.5	10688	10438	10938	250		126.5	10688	10438	10938	250		270	18001	17836.3	18165.1	97		20.67967188	2.532640609
# Lund & Mix 1998	139.0	11539	329	11210	11868		139.0	11342	11210	11473	131.5		139.0	11341.5	11210	11473	131.5		139.0	11342	11210	11473	131.5		300	19451.7	19241.6	19661.1	124		15.30378003	2.021693501
# Lund et al. 2011	142.0	11413	336	11077	11749		142.0	11585	11473	11696	111.5		142.0	11584.5	11473	11696	111.5		142.0	11585	11473	11696	111.5		330	21412	21094.8	21729.1	188		13.61223286	1.64661588
# Lund et al. 2011	147.5	12012	369	11643	12381		147.5	11948	11696	12200	252		147.5	11948	11696	12200	252		147.5	11926	11696	12156	230		360	23615.9	23371	23860.4	145		16.57550141	1.689910743
# Lund & Mix 1998	154.0	12306	288	12018	12594		154.0	12156	12200	12111	-44.5		154.0	12155.5	12111	12200	44.5		154.0	12156	12156	12156	0		390	25425.8	25313.6	25537.5	66		22.61761158	2.497491303
# Lund et al. 2011	157.0	11991	363	11628	12354		157.0	12233	12111	12354	121.5		157.0	12232.5	12111	12354	121.5		157.0	12255	12156	12354	99		420	26752.2	26560.2	26944.1	114		13.89660923	1.506460513
# Lund et al. 2011	162.5	12784	188	12596	12972		162.5	12784	12596	12972	188		162.5	12784	12596	12972	188		162.5	12784	12596	12972	188		450	28911	28602	29220	183		11.76009408	1.515784767
# 
# 
# Lopes et al. Supplementary Materials. Table S7. The radiocarbon-based age model for core W8709-13PC, 																													
# including the calculation of mean sedimentation rates and their uncertainties for 30-cm intervals.																													
# Age model and sedimentation rate								Estimate of export efficiency						Estimate of export productivity				Organic carbon burial				Reconstructed PPa				Biological pump parameters			
# Depth interval in core (midpoint, cm)	Depth	Interpolated modified calendar age (yr BP)	Interpolated modified calendar age error 1 sigma (yr BP)	Average sedimentation rate for 30-cm intervals (cm/kyr)	Monte-Carlo simulation based 1 sigma uncertainty (cm/kyr)	Sedimentation Rate MINIMUM	Sedimentation Rate MAXIMUM	Mean proportion of large diatoms in interval (%)	Standard deviation in interval (%)	Scaling of mean relative percentage of large diatoms to Export Effiiency (EE)	EE standard deviation in interval	EE MINIMUM	EE MAXIMUM	Mean value of Export Productivity (EP, average of both techniques) (gC/m2/yr)	1 sigma uncertainty on EP (gC/m2/yr)	EP MINIMUM	EP MAXIMUM	Mean value of organic carbon burial (OCB) in interval (gC/m2/y)	1 sigma uncertainty of OCB (gC/m2/y)	Corg MAR MINIMUM	CORG MAR MAXIMUM	PPa mean of ML and ANN (gC/m2/y)	PPa RMSEP by ANN (gC/m2/y)	PPa MINIMUM	Ppa MAXIMUM	Burial efficiency (OCB/PPa) %	1 sigma uncertainty of burial efficiency %	Preservation % (OCB/EP)	1 sigma uncertainty of preservation (%)
# 90 to 120 cm	90.00	9287.60	122.00	24.78	3.54	21.25	28.32	73.79	2.27	0.39	0.05	0.36	0.41	165.91	46.45	119.47	212.36	2.10	0.30	1.79	2.40	430.37	104.00	326.37	534.37	0.49	0.1370	1.26	0.3977
# 90 to 120 cm	120.00	10498.20	122.00	24.78	3.54	21.25	28.32	73.29	2.27	0.38	0.05	0.35	0.41	163.32	45.91	117.41	209.22	2.10	0.30	1.79	2.40	430.37	104.00	326.37	534.37	0.49	0.1370	1.28	0.4053
# 120 to 150 cm	120.00	10498.20	99.00	20.69	1.99	18.70	22.68	71.23	3.98	0.35	0.10	0.31	0.40	153.36	55.37	97.99	208.73	1.67	0.17	1.51	1.84	432.28	104.00	328.28	536.28	0.39	0.1006	1.09	0.4080
# 120 to 150 cm	150.00	11947.90	99.00	20.69	1.99	18.70	22.68	72.07	3.98	0.36	0.10	0.32	0.41	157.71	56.08	101.64	213.79	1.67	0.17	1.51	1.84	432.28	104.00	328.28	536.28	0.39	0.1006	1.06	0.3912
# 150 to 180 cm	150.00	11947.90	91.00	20.79	2.13	18.66	22.92	75.00	3.86	0.40	0.09	0.35	0.45	207.19	63.51	143.68	270.70	1.61	0.17	1.44	1.78	518.02	104.00	414.02	622.02	0.31	0.0703	0.78	0.2516
# 150 to 180 cm	180.00	13391.00	91.00	20.79	2.13	18.66	22.92	80.28	3.86	0.46	0.09	0.42	0.51	240.03	68.01	172.02	308.04	1.61	0.17	1.44	1.78	518.02	104.00	414.02	622.02	0.31	0.0703	0.67	0.2025
# 180 to 210 cm	180.00	13391.00	109.00	16.46	1.54	14.93	18.00	83.32	0.65	0.50	0.02	0.49	0.51	283.48	52.73	230.75	336.21	1.30	0.13	1.18	1.43	567.17	104.00	463.17	671.17	0.23	0.0477	0.46	0.0966
# 180 to 210 cm	210.00	15213.50	109.00	16.46	1.54	14.93	18.00	81.56	0.65	0.48	0.02	0.47	0.49	271.50	50.56	220.93	322.06	1.30	0.13	1.18	1.43	567.17	104.00	463.17	671.17	0.23	0.0477	0.48	0.1009
# 210 to 240 cm	210.00	15213.50	114.00	17.83	1.57	16.26	19.41	82.85	2.10	0.49	0.05	0.47	0.52	321.32	60.95	260.36	382.27	1.29	0.12	1.18	1.41	650.19	104.00	546.19	754.19	0.20	0.0366	0.40	0.0847
# 210 to 240 cm	240.00	16895.70	114.00	17.83	1.57	16.26	19.41	84.74	2.10	0.52	0.05	0.49	0.54	336.07	62.96	273.11	399.02	1.29	0.12	1.18	1.41	650.19	104.00	546.19	754.19	0.20	0.0366	0.39	0.0802
# 240 to 270	240.00	16895.70	91.00	27.14	3.77	23.37	30.91	84.70	2.83	0.52	0.07	0.48	0.55	375.04	72.92	302.12	447.96	1.83	0.26	1.57	2.09	726.24	104.00	622.24	830.24	0.25	0.0509	0.49	0.1177
# 240 to 270	270.00	18001.00	91.00	27.14	3.77	23.37	30.91	86.11	2.83	0.53	0.07	0.50	0.57	387.34	74.23	313.11	461.56	1.83	0.26	1.57	2.09	726.24	104.00	622.24	830.24	0.25	0.0509	0.47	0.1129
# 270 to 300	270.00	18001.00	103.00	20.68	2.53	18.15	23.21	77.68	4.50	0.43	0.11	0.38	0.49	370.95	103.02	267.93	473.97	1.25	0.16	1.10	1.41	858.35	104.00	754.35	962.35	0.15	0.0253	0.34	0.1028
# 270 to 300	300.00	19451.70	103.00	20.68	2.53	18.15	23.21	73.89	4.50	0.39	0.11	0.33	0.44	331.90	101.05	230.85	432.95	1.25	0.16	1.10	1.41	858.35	104.00	754.35	962.35	0.15	0.0253	0.38	0.1242
# 300 a 330	300.00	19451.70	131.00	15.30	2.02	13.28	17.33	72.35	2.20	0.37	0.05	0.34	0.39	306.96	58.34	248.62	365.31	0.89	0.12	0.77	1.01	833.64	104.00	729.64	937.64	0.11	0.0195	0.29	0.0672
# 300 a 330	330.00	21412.00	131.00	15.30	2.02	13.28	17.33	71.41	2.20	0.36	0.05	0.33	0.38	297.59	57.58	240.01	355.17	0.89	0.12	0.77	1.01	833.64	104.00	729.64	937.64	0.11	0.0195	0.30	0.0701
# 330 to 360 cm	330.00	21412.00	198.00	13.61	1.65	11.97	15.26	69.04	2.74	0.33	0.07	0.30	0.36	277.38	65.20	212.18	342.58	0.79	0.10	0.69	0.89	844.57	104.00	740.57	948.57	0.09	0.0162	0.28	0.0755
# 330 to 360 cm	360.00	23615.90	198.00	13.61	1.65	11.97	15.26	70.31	2.74	0.34	0.07	0.31	0.38	290.32	66.05	224.27	356.37	0.79	0.10	0.69	0.89	844.57	104.00	740.57	948.57	0.09	0.0162	0.27	0.0703
# 360 to 390 cm	360.00	23615.90	153.00	16.58	1.69	14.89	18.27	58.62	3.42	0.20	0.08	0.16	0.24	163.34	69.22	94.11	232.56	0.96	0.10	0.86	1.06	803.03	104.00	699.03	907.03	0.12	0.0198	0.59	0.2560
# 360 to 390 cm	390.00	25425.80	153.00	16.58	1.69	14.89	18.27	58.37	3.42	0.20	0.08	0.16	0.24	160.98	69.13	91.85	230.11	0.96	0.10	0.86	1.06	803.03	104.00	699.03	907.03	0.12	0.0198	0.60	0.2630
# 390 to 420 cm	390.00	25425.80	70.00	22.62	2.50	20.12	25.12	71.82	3.07	0.36	0.07	0.33	0.40	318.74	75.02	243.71	393.76	0.28	0.03	0.25	0.31	880.86	104.00	776.86	984.86	0.03	0.0054	0.09	0.0233
# 390 to 420 cm	420.00	26752.20	70.00	22.62	2.50	20.12	25.12	71.41	3.07	0.36	0.07	0.32	0.39	314.43	74.77	239.66	389.20	0.28	0.03	0.25	0.31	880.86	104.00	776.86	984.86	0.03	0.0054	0.09	0.0238
# 
#---------------------------------------
# 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)
## depth_mm	Depth,,,mm ,,,,,N,
## depth_comp	Depth composite,,,mm ,,,,,N,
## sp1	Actinocyclus curvatulus Janisch,Diatoms relative abundance (<2%),n/a,Percentage,,Paleoceanography,,Instrument,N,
## sp2	Actinocyclus normanii (Greg.) Husted,Diatoms relative abundance (<2%),n/a,Percentage,,Paleoceanography,,Instrument,N,
## sp3	Actinoptychus senarius (Ehr.) Ehrenberg,Diatoms relative abundance (<2%),n/a,Percentage,,Paleoceanography,,Instrument,N,
## sp4	Stephanodiscus rotula (forma minutula) (Kutz) Grunow,Diatoms relative abundance (<2%),n/a,Percentage,,Paleoceanography,,Instrument,N,
## sp5	Aulacoseira islandica (O. Mull.) Simonsen,Diatoms relative abundance (<2%),n/a,Percentage,,Paleoceanography,,Instrument,N,
## sp6	Aulacoseira granulata (Thwaites) Crawford/ (Her.) Thwaites,Diatoms relative abundance (<2%),n/a,Percentage,,Paleoceanography,,Instrument,N,
## sp7	Aulacoseira spp.,Diatoms relative abundance (<2%),n/a,Percentage,,Paleoceanography,,Instrument,N,
## sp8	Aulacosira italica (Ehr.) Kutzing,Diatoms relative abundance (<2%),n/a,Percentage,,Paleoceanography,,Instrument,N,
## sp9	Bacteriastrum spp.,Diatoms relative abundance (<2%),n/a,Percentage,,Paleoceanography,,Instrument,N,
## sp10	Chaetoceros resting spores Ehrenberg,Diatoms relative abundance (<2%),n/a,Percentage,,Paleoceanography,,Instrument,N,
## sp11	Coscinodiscus decrescens Grunow,Diatoms relative abundance (<2%),n/a,Percentage,,Paleoceanography,,Instrument,N,
## sp12	Coscinodiscus marginatus Ehrenberg,Diatoms relative abundance (<2%),n/a,Percentage,,Paleoceanography,,Instrument,N,
## sp13	Coscinodiscus radiatus Ehrenberg/(Schmidt),Diatoms relative abundance (<2%),n/a,Percentage,,Paleoceanography,,Instrument,N,
## sp14	Cyclotella litoralis Lange & Syvertsen,Diatoms relative abundance (<2%),n/a,Percentage,,Paleoceanography,,Instrument,N,
## sp15	Cyclotella ocellata Pantocsek,Diatoms relative abundance (<2%),n/a,Percentage,,Paleoceanography,,Instrument,N,
## sp16	Cyclotella spp.,Diatoms relative abundance (<2%),n/a,Percentage,,Paleoceanography,,Instrument,N,
## sp17	Cyclotella striata (Kutz.) Grunow,Diatoms relative abundance (<2%),n/a,Percentage,,Paleoceanography,,Instrument,N,
## sp18	Hemidiscus cuneiformis Wallich,Diatoms relative abundance (<2%),n/a,Percentage,,Paleoceanography,,Instrument,N,
## sp19	Leptocylindrus resting spores Cleve,Diatoms relative abundance (<2%),n/a,Percentage,,Paleoceanography,,Instrument,N,
## sp20	Melosira ambigua (Grunow) Simonsen,Diatoms relative abundance (<2%),n/a,Percentage,,Paleoceanography,,Instrument,N,
## sp21	Odontella aurita (Lyngbye) C. A. Agardh ,Diatoms relative abundance (<2%),n/a,Percentage,,Paleoceanography,,Instrument,N,
## sp22	Paralia sulcata (Ehr.) Cleve,Diatoms relative abundance (<2%),n/a,Percentage,,Paleoceanography,,Instrument,N,
## sp23	Rhizosolenia hebetata forma hebetatata Bailey,Diatoms relative abundance (<2%),n/a,Percentage,,Paleoceanography,,Instrument,N,
## sp24	Rhizosolenia styliformis Brightwell ,Diatoms relative abundance (<2%),n/a,Percentage,,Paleoceanography,,Instrument,N,
## sp25	Roperia tesselata (Roper) Grunow ex Van Heurck,Diatoms relative abundance (<2%),n/a,Percentage,,Paleoceanography,,Instrument,N,
## sp26	Stephanopyxis turris (Arnot in Greville) Ralfs in Pritchard,Diatoms relative abundance (<2%),n/a,Percentage,,Paleoceanography,,Instrument,N,
## sp27	Thalassiossira allenii Takano,Diatoms relative abundance (<2%),n/a,Percentage,,Paleoceanography,,Instrument,N,
## sp28	Thalassiossira anguste-lineata (A. Schmi.) Fryxell & Hasle,Diatoms relative abundance (<2%),n/a,Percentage,,Paleoceanography,,Instrument,N,
## sp29	Thalassiossira eccentrica  (Ehr.) Cleve,Diatoms relative abundance (<2%),n/a,Percentage,,Paleoceanography,,Instrument,N,
## sp30	Thalassiossira leptotus Hasle & Fryxell,Diatoms relative abundance (<2%),n/a,Percentage,,Paleoceanography,,Instrument,N,
## sp31	Thalassiossira lineata Jouse,Diatoms relative abundance (<2%),n/a,Percentage,,Paleoceanography,,Instrument,N,
## sp32	Thalassiossira oestrupii (Ostenf.) Hasle,Diatoms relative abundance (<2%),n/a,Percentage,,Paleoceanography,,Instrument,N,
## sp33	Thalassiossira pacifica Gran & Angst,Diatoms relative abundance (<2%),n/a,Percentage,,Paleoceanography,,Instrument,N,
## sp34	Thalassiossira cf trifulta *,Diatoms relative abundance (<2%),n/a,Percentage,,Paleoceanography,,Instrument,N,
## sp35	Thalassiossira sp1*,Diatoms relative abundance (<2%),n/a,Percentage,,Paleoceanography,,Instrument,N,
## sp36	Thalassiossira sp2*,Diatoms relative abundance (<2%),n/a,Percentage,,Paleoceanography,,Instrument,N,
## sp37	Thalassiossira sp6*,Diatoms relative abundance (<2%),n/a,Percentage,,Paleoceanography,,Instrument,N,
## sp38	Thalassiossira spp.*,Diatoms relative abundance (<2%),n/a,Percentage,,Paleoceanography,,Instrument,N,
## sp39	Cocconeis placentula Ehrenberg,Diatoms relative abundance (<2%),n/a,Percentage,,Paleoceanography,,Instrument,N,
## sp40	Cocconeis sp1*,Diatoms relative abundance (<2%),n/a,Percentage,,Paleoceanography,,Instrument,N,
## sp41	Delphineis surilella (Ehr.) Andrews,Diatoms relative abundance (<2%),n/a,Percentage,,Paleoceanography,,Instrument,N,
## sp42	Epithemia turgida (Her.) Kutz,Diatoms relative abundance (<2%),n/a,Percentage,,Paleoceanography,,Instrument,N,
## sp43	Fragilaria brevistriata Grunow,Diatoms relative abundance (<2%),n/a,Percentage,,Paleoceanography,,Instrument,N,
## sp44	Fragilaria constricta Ehrenberg,Diatoms relative abundance (<2%),n/a,Percentage,,Paleoceanography,,Instrument,N,
## sp45	Fragilaria construens (Ehr.) Grunow   ,Diatoms relative abundance (<2%),n/a,Percentage,,Paleoceanography,,Instrument,N,
## sp46	Fragilariopsis doliolus (Wallich) Medin & Sims  ,Diatoms relative abundance (<2%),n/a,Percentage,,Paleoceanography,,Instrument,N,
## sp47	Gomphonema constrictum Ehrenberg,Diatoms relative abundance (<2%),n/a,Percentage,,Paleoceanography,,Instrument,N,
## sp48	Lioloma elongatum (Grunow) Hasle,Diatoms relative abundance (<2%),n/a,Percentage,,Paleoceanography,,Instrument,N,
## sp49	Lioloma pacificum (Cupp) Hasle,Diatoms relative abundance (<2%),n/a,Percentage,,Paleoceanography,,Instrument,N,
## sp50	Lioloma spp.,Diatoms relative abundance (<2%),n/a,Percentage,,Paleoceanography,,Instrument,N,
## sp51	Neodenticula seminae (Simonsen & Kanaya) Akiba & Yanagisawa ,Diatoms relative abundance (<2%),n/a,Percentage,,Paleoceanography,,Instrument,N,
## sp52	Nitzschia gp bicapitata,Diatoms relative abundance (<2%),n/a,Percentage,,Paleoceanography,,Instrument,N,
## sp53	Raphoneis amphiceros Ehrenberg (Gregory) Grunow,Diatoms relative abundance (<2%),n/a,Percentage,,Paleoceanography,,Instrument,N,
## sp54	Thalassionema nitzschioides Grunow,Diatoms relative abundance (<2%),n/a,Percentage,,Paleoceanography,,Instrument,N,
## Other	Sum of species>2%,Diatoms relative abundance (<2%),n/a,Percentage,,Paleoceanography,,Instrument,N,
## total number counted	Number of frustles counted (if multiplied by % species keep no decimal places),,,,,,,,,
## Observed PPa (gC/m2/y)	Observed Annual Primary Productivity,sea surface,unknown,g/c/m2/y,Annual,Instrumental,,Instrument,N,
## Estimated PPa ML (gC/m2/y)	Estimated Annual Primary Productivity from Maximum Likelihood,sea surface,104,g/c/m2/y,Annual,Reconstruction,,Instrument,N,
## Residuals from ML (gC/m2/y)	Residuals estimation for Annual Primary Productivity from Maximum Likelihood,sea surface,104,g/c/m2/y,Annual,Reconstruction,,Instrument,N,
## Estimated PPa ANN (gC/m2/y)	Estimated Annual Primary Productivity from Artificial Neural Networks,sea surface,155,g/c/m2/y,Annual,Reconstruction,,Instrument,N,
## Residuals from ANN (gC/m2/y)	Residuals estimation for Annual Primary Productivity from Artificial Neural Networks,sea surface,155,g/c/m2/y,Annual,Reconstruction,,Instrument,N,
#------------------------
# Data
# Data lines follow (have no #)
# Data line format - tab-delimited text, variable short name as header
# Missing Value: 
Hole-Core-Section,   Interval (cm)	Depth (cm converted)	sp1	sp2	sp3	sp4	sp5	sp6	sp7	sp8	sp9	sp10	sp11	sp12	sp13	sp14	sp15	sp16	sp17	sp18	sp19	sp20	sp21	sp22	sp23	sp24	sp25	sp26	sp27	sp28	sp29	sp30	sp31	sp32	sp33	sp34	sp35	sp36	sp37	sp38	sp39	sp40	sp41	sp42	sp43	sp44	sp45	sp46	sp47	sp48	sp49	sp50	sp51	sp52	sp53	sp54	Other	total number of diatoms identified		Presence of silicoflagelates	Presence of Chaetoceros vegetative cells remains	Presence of fragile diatom species: Bacteriastrum, Asteromphalus, Paralia sulcata		ODP aPP from ML (gC/m2/y)	ODP aPP from ANN (gC/m2/y)	F1 (Upwelling Index)	Factor 2	Factor 3	Factor 4	Communalities	ODP 1019 FW diatoms (%)	age (years B. P.)	Mean proportion of large diatoms  (%)	Standard deviation  (%)
1019D-1H-1, 1-3	2	0.93	0.93	1.24	0.62	0.00	0.00	0.00	0.00	0.00	43.30	0.00	1.87	2.18	3.43	0.00	0.00	0.00	1.25	3.12	0.00	0.93	2.49	0.00	0.00	2.49	0.00	0.00	0.31	1.56	0.62	0.31	0.93	0.00	0.00	0.00	0.00	0.00	0.00	0.93	0.00	0.00	0.00	0.00	0.00	0.00	2.49	0.00	0.93	1.25	0.62	0.31	0.16	1.40	20.25	3.14	321.5		Yes	Yes	Yes		474.92	344.69	0.8171	0.5202	0.1767	0.1352	0.99	0.31	31	73.43	2.57
1019D-1H-1, 11-13	12	1.0	0.0	3.5	0.0	0.0	0.0	0.0	0.0	0.0	43.8	0.0	0.0	4.5	4.0	0.0	0.0	0.0	1.0	4.0	0.0	1.5	1.5	2.0	0.5	1.5	0.5	0.0	1.5	1.0	0.5	0.0	1.5	0.0	0.0	0.0	0.0	0.0	0.0	0.0	0.0	0.0	0.0	0.0	0.0	0.0	3.0	0.0	0.2	0.5	0.7	0.2	0.2	1.0	17.7	2.74	201		Yes	Yes	Yes		488.98	438.56	0.8298	0.4704	0.2003	0.181	0.98	0.00	247	76.47	3.10
1019D-1H-1, 21-23	22	0.3	0.0	3.2	0.6	0.0	0.0	0.0	0.0	0.0	40.6	0.0	2.2	1.9	1.6	0.0	0.0	0.0	1.3	5.1	0.0	0.3	1.6	1.0	0.0	2.6	0.0	0.0	0.0	1.9	0.0	0.0	0.6	0.0	0.0	0.0	0.0	0.0	0.0	0.0	0.0	0.3	0.0	0.0	0.0	0.0	4.5	0.0	0.6	0.5	0.0	0.6	0.0	1.0	25.8	1.76	312.5		Yes	Yes	Yes		453.95	354.43	0.7406	0.6157	0.1717	0.1591	0.98	0.16	462	65.22	2.80
1019D-1H-1, 31-33	32	1.2	0.3	0.0	0.6	0.0	0.0	0.0	0.0	0.0	49.6	0.0	1.5	0.3	0.3	0.0	0.0	0.0	0.3	5.0	0.3	0.9	1.2	0.0	0.3	0.6	0.3	0.0	0.6	0.6	0.3	0.0	0.6	0.0	0.0	0.0	0.0	0.0	0.0	0.0	0.0	0.0	0.0	0.0	0.0	0.0	6.3	0.0	0.3	0.4	0.1	0.4	0.0	0.3	23.8	3.81	341		Yes	Yes	Yes		529.43	402.34	0.8147	0.535	0.1606	0.1062	0.99	0.44	678	65.91	2.70
1019D-1H-1, 43-345	44	0.6	0.0	1.9	0.0	0.0	0.0	0.0	0.0	0.0	47.0	0.0	0.9	0.3	0.0	0.3	0.0	1.3	1.3	4.4	0.0	0.0	1.9	0.0	0.6	1.6	0.0	0.0	0.0	2.2	1.3	0.0	0.6	0.0	0.0	0.0	0.0	0.0	0.0	0.3	0.0	0.5	0.0	0.0	0.0	0.0	3.9	0.0	0.2	0.3	0.0	0.0	0.0	0.0	26.0	2.66	319		Not observed	Yes	Yes		549.40	451.88	0.7858	0.575	0.1691	0.1126	0.99	1.41	893	67.06	2.74
1019D-1H-1, 31-33	62	1.0	0.0	0.6	0.0	0.0	0.0	0.0	0.0	0.0	60.8	0.0	0.3	1.0	1.3	0.0	0.0	0.0	0.3	1.0	0.0	0.6	1.9	0.0	0.0	0.0	0.3	0.0	0.3	1.6	0.3	0.0	1.3	0.0	0.0	0.0	0.0	0.0	0.0	0.0	0.0	0.0	0.0	0.0	0.0	0.0	4.2	0.0	0.2	0.0	0.8	1.1	0.0	0.6	18.2	2.25	311		Yes	Yes	Yes		578.14	473.14	0.8894	0.4007	0.177	0.1102	1.00	0.00	1423	75.08	2.49
1019D-1H-1, 81-83	82	0.3	0.0	1.3	0.0	0.0	0.0	0.0	0.0	0.0	62.7	0.0	0.3	0.3	0.3	0.0	0.0	0.0	0.3	0.3	0.0	0.6	1.3	0.0	0.6	0.0	1.0	0.0	0.0	3.2	0.0	0.0	1.3	0.0	0.0	0.0	0.0	0.0	0.0	0.0	0.0	0.0	0.0	0.0	0.0	0.3	5.1	0.0	0.5	0.2	0.2	1.0	0.0	0.0	15.1	3.82	314		Yes	Yes	Yes		593.21	456.88	0.9043	0.3538	0.1861	0.1121	0.99	0.32	2260	77.83	2.40
1019D-1H-1, 101-103	102	1.3	0.0	2.9	0.0	0.0	0.0	0.0	0.0	0.0	56.5	0.0	0.3	1.3	1.9	0.0	0.0	0.0	0.3	1.3	0.0	1.3	1.6	0.0	0.3	0.0	0.0	0.0	0.3	2.3	1.0	0.0	1.0	0.0	0.0	0.0	0.0	0.0	0.0	0.0	0.0	0.0	0.0	0.0	0.0	0.0	1.5	0.0	0.3	0.8	0.2	0.6	0.0	0.3	19.5	3.07	309.5		Yes	Yes	Yes		630.28	492.38	0.8734	0.428	0.1888	0.1203	1.00	0.00	3093	77.03	2.45
1019D-1H-1, 121-123	122	0.0	0.0	2.0	0.0	0.0	0.0	0.0	0.0	0.0	56.6	0.0	0.0	0.3	0.0	0.0	0.0	0.0	0.3	1.3	0.0	1.0	1.7	0.0	2.0	0.0	0.3	0.0	0.3	2.0	0.3	0.0	0.7	0.0	0.0	0.0	0.0	0.0	0.0	0.0	0.0	0.0	0.0	0.0	0.0	0.0	3.5	0.0	0.5	0.0	0.2	0.0	0.0	0.2	25.1	1.51	298.5		Yes	Yes	Yes		639.85	518.75	0.8365	0.5049	0.1745	0.0973	0.99	0.00	3787	70.34	2.68
1019D-1H-1, 141-143	142	0.5	0.0	1.0	0.0	0.5	0.0	0.0	0.0	0.0	52.8	0.0	0.5	1.5	0.0	0.0	0.0	1.5	0.0	2.4	0.0	0.0	1.5	0.0	0.5	0.0	0.5	0.0	0.0	1.9	0.5	1.0	1.5	0.0	0.0	0.0	0.0	0.0	0.0	0.2	0.0	0.0	0.0	0.0	0.0	0.0	2.4	0.0	0.2	1.9	0.5	1.9	0.0	1.0	20.6	3.39	206.5		Not observed	Yes	Yes		543.93	401.42	0.8547	0.4682	0.1809	0.1189	1.00	0.73	4153	72.28	3.22
1019D-1H-2, 1-3	152	0.3	0.0	1.0	0.0	0.0	0.0	0.0	0.0	0.3	69.3	0.0	0.3	0.0	0.0	0.0	0.0	0.0	0.0	1.9	0.0	0.0	1.0	0.0	0.0	0.0	0.3	0.0	0.0	0.6	0.0	0.0	0.3	0.0	0.0	0.0	0.0	0.0	0.0	0.0	0.0	0.0	0.0	0.0	0.0	0.0	1.3	0.0	0.3	1.1	0.0	0.6	0.0	0.3	19.8	1.12	313		Yes	Yes	Yes		653.10	387.00	0.9035	0.3789	0.1747	0.0876	1.00	0.48	4336	77.19	2.41
1019D-1H-2, 20-22	171	1.0	0.0	1.3	0.0	0.0	0.6	0.0	0.0	0.0	61.9	0.0	0.6	1.6	1.3	0.0	0.0	0.0	0.0	1.6	0.0	0.3	0.0	0.3	0.0	0.0	0.3	0.0	0.0	0.0	0.6	0.0	1.3	0.0	0.0	0.0	0.0	0.0	0.0	0.6	0.0	0.3	0.0	0.0	0.0	0.0	0.8	0.0	0.5	2.1	0.0	0.3	0.3	0.0	21.0	1.43	315		Not observed	Yes	Not observed		615.42	354.56	0.8821	0.4212	0.1795	0.0975	1.00	1.75	4683	76.54	2.44
1019D-1H-2, 40-422	191	0.4	0.0	0.7	0.0	0.0	0.0	0.0	0.0	0.0	66.7	0.0	0.0	1.1	1.5	0.0	0.0	0.0	0.0	1.1	0.0	0.4	1.1	0.0	0.0	0.0	1.1	0.0	0.0	0.4	0.0	0.0	0.7	0.0	0.0	0.0	0.0	0.0	0.0	0.4	0.0	0.0	0.0	0.0	0.0	0.0	0.2	0.0	0.7	1.1	0.0	0.7	0.2	0.0	20.6	0.92	271.5		Yes	Yes	Yes		651.72	391.94	0.8936	0.3974	0.1853	0.0846	1.00	0.37	5050	77.88	2.55
1019D-1H-2, 60-62	211	0.3	0.3	0.3	0.3	0.0	0.0	0.0	0.0	0.0	64.2	0.0	0.0	0.0	0.3	0.0	0.0	0.0	0.0	3.1	0.0	0.0	0.6	0.6	0.0	0.0	0.3	0.0	0.0	1.9	0.9	0.0	0.0	0.0	0.0	0.0	0.0	0.0	0.0	0.0	0.0	0.0	0.0	0.0	0.0	0.0	1.2	0.0	0.2	0.6	0.3	0.9	0.0	0.0	23.6	0.00	324		Not observed	Yes	Yes		639.46	432.28	0.8726	0.446	0.1709	0.0892	1.00	0.00	5415	73.32	2.50
1019D-1H-2, 80-82	231	0.3	0.0	0.0	0.3	0.3	0.3	0.0	0.0	0.0	65.4	0.0	0.3	0.6	1.0	0.0	0.0	0.0	0.6	1.3	0.0	0.3	0.3	0.6	0.0	0.0	0.3	0.0	0.0	0.0	0.6	0.0	0.3	0.0	0.0	0.0	0.0	0.0	0.0	0.0	0.0	0.0	0.0	0.0	0.0	0.0	2.7	0.0	0.5	0.6	0.0	0.3	0.0	0.3	21.6	0.95	315		Yes	Yes	Yes		620.67	411.03	0.8864	0.4198	0.1684	0.0859	1.00	0.63	5781	74.26	2.50
1019D-1H-2, 100-102	251	1.6	0.0	0.0	0.6	0.0	0.3	0.0	0.0	0.3	62.0	0.0	0.0	1.9	0.6	0.0	0.0	0.3	0.0	2.3	0.0	0.0	1.3	0.0	0.3	0.0	1.6	0.0	0.0	1.0	0.0	0.6	0.6	0.0	0.0	0.0	0.0	0.0	0.0	0.2	0.0	0.0	0.0	0.0	0.0	0.0	1.1	0.0	0.5	0.5	0.0	2.3	0.0	0.3	17.9	1.62	308		Yes	Yes	Yes		609.18	438.60	0.8946	0.3854	0.1972	0.099	1.00	0.65	6148	77.19	2.46
1019D-1H-2, 2120-122	271	0.0	0.0	0.0	0.5	0.0	0.0	0.0	0.0	0.0	58.4	0.0	1.4	0.0	1.0	0.0	0.0	0.0	0.0	4.8	1.0	0.0	0.5	1.4	0.5	0.0	1.9	0.0	0.0	0.0	0.5	0.0	0.5	0.0	0.0	0.0	0.0	0.0	0.0	0.5	0.0	0.0	0.0	0.0	0.0	0.0	2.6	0.0	1.0	0.5	0.0	2.9	0.2	0.0	17.8	2.38	210.5		Yes	Yes	Yes		536.22	383.75	0.886	0.3976	0.1887	0.1156	0.99	1.43	6513	74.35	3.16
1019D-1H-2, 140-142	291	0.0	0.0	0.0	0.0	0.9	0.0	0.0	0.0	0.0	48.0	0.0	0.0	0.0	0.9	0.0	0.0	0.0	0.0	0.9	1.8	1.8	0.0	0.9	1.8	0.0	0.9	0.0	0.0	0.0	0.0	0.0	0.0	0.0	0.0	0.0	0.0	0.0	0.0	0.0	0.0	0.0	0.0	0.0	0.0	0.0	2.3	0.0	0.9	1.8	0.5	2.7	0.5	0.0	28.1	5.43	110.5		Not observed	Not observed	Not observed		509.17	405.39	0.7778	0.594	0.163	0.0867	0.99	3.62	6879	63.50	4.81
1019D-1H-3, 10-12	311	1.0	0.0	0.3	0.0	0.0	0.0	0.0	0.3	0.0	59.0	0.0	0.0	0.7	0.7	0.0	0.0	0.0	0.3	2.0	0.0	0.3	1.3	0.3	0.7	1.3	0.0	0.0	0.0	2.0	0.7	0.0	0.3	0.0	0.0	0.0	0.0	0.0	0.0	0.3	0.0	0.0	0.0	0.0	0.0	0.0	7.4	0.0	0.8	1.3	0.2	1.8	0.0	0.0	15.3	1.65	303.5		Not observed	Yes	Yes		512.93	323.53	0.8946	0.3759	0.1673	0.1241	0.98	1.32	7244	74.35	2.56
1019D-1H-3, 28-30	329	0.6	0.0	0.0	0.3	0.0	0.3	0.0	0.0	0.0	65.1	0.0	0.3	0.9	0.9	0.0	0.0	0.0	0.0	0.9	0.0	0.3	0.0	0.0	0.0	0.0	0.0	0.0	0.0	1.8	0.0	0.0	0.6	0.6	0.0	0.0	0.0	0.0	0.0	0.0	0.0	0.0	0.0	0.0	0.0	0.0	4.8	0.0	0.6	0.6	0.2	1.8	0.0	0.0	17.4	1.97	330.5		Not observed	Yes	Yes		570.24	380.70	0.902	0.3762	0.1669	0.1032	0.99	0.61	7574	74.92	2.43