# North African Dust Deposition Flux Data over the last 67,000 Years
#-----------------------------------------------------------------------
#               World Data Service for Paleoclimatology, Boulder
#                                   and
#                      NOAA Paleoclimatology Program
#-----------------------------------------------------------------------
# Template Version 4.0
# 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, study title, NOAA Landing Page URL, and date accessed.
#
# Description/Documentation lines begin with '#' followed by a space
# Data lines have no '#'
#
# NOAA_Landing_Page: https://www.ncei.noaa.gov/access/paleo-search/study/33572
#   Landing_Page_Description: NOAA Landing Page of this file's parent study, which includes all study metadata.
#
# Study_Level_JSON_Metadata: https://www.ncei.noaa.gov/pub/data/metadata/published/paleo/json/noaa-ocean-33572.json
#   Study_Level_JSON_Description: JSON metadata of this data file's parent study, which includes all study metadata.
#
# Data_Type: Paleoceanography
#
# Dataset_DOI: 10.25921/mnmn-z362
#
# Science_Keywords: 
#---------------------------------------
# Resource_Links
#
# Data_Download_Resource: https://www.ncei.noaa.gov/pub/data/paleo/contributions_by_author/kinsley2021/kinsley2021-658c-dustflux.txt
#   Data_Download_Description: NOAA Template File; ODP 658C Dust Flux Data
#
#---------------------------------------
# Contribution_Date
#   Date: 2021-06-17
#---------------------------------------
# File_Last_Modified_Date
#   Date: 2025-06-02
#---------------------------------------
# Title
#   Study_Name: North African Dust Deposition Flux Data over the last 67,000 Years
#---------------------------------------
# Investigators
#   Investigators: Kinsley, C.W.; Bradtmiller, L.I.; McGee, D.; Galgay, M.; Stuut, J.-B.; Tjallingii, R.; Winckler, G.; deMenocal, P.B.
#---------------------------------------
# Description_Notes_and_Keywords
#   Description: Aeolian dust fluxes, biogenic component percentages, and grain size in sediment cores from 4 sites along the northwest African continental margin over the last 67,000 years
#         Provided Keywords: Dust, North Africa, West African monsoon, Green Sahara, Heinrich events
#---------------------------------------
# Publication
#   Authors: Kinsley, C.W.; Bradtmiller, L.I.; McGee, D.; Galgay, M.; Stuut, J.-B.; Tjallingii, R.; Winckler, G.; deMenocal, P.B.
#   Published_Date_or_Year: 2022-01-01
#   Published_Title: Orbital- and Millennial-Scale Variability in Northwest African Dust Emissions Over the Past 67,000 years
#   Journal_Name: Paleoceanography and Paleoclimatology
#   Volume: 37
#   Edition: 
#   Issue: 1
#   Pages: 
#   Report_Number: e2020PA004137
#   DOI: 10.1029/2020PA004137
#   Online_Resource: 
#   Full_Citation: 
#   Abstract: Reconstructions of aeolian dust flux to West African margin sediments can be used to explore changing atmospheric circulation and hydroclimate over North Africa on millennial to orbital timescales. Here, we extend West African margin dust flux records back to 37 ka in a transect of core sites from 19°N to 27°N, and back to 67 ka at Ocean Drilling Program (ODP) Hole 658C, in order to explore the interplay of orbital and high-latitude forcings on North African climate and make quantitative estimates of dust flux during the core of the Last Glacial Maximum (LGM). The ODP 658C record shows a Green Sahara interval from 60 to 50 ka during a time of high Northern Hemisphere summer insolation, with dust fluxes similar to levels during the early Holocene African Humid Period, and an abrupt peak in flux during Heinrich event 5a (H5a). Dust fluxes increase from 50 to 35 ka while the high-latitude Northern Hemisphere cools, with peaks in dust flux associated with North Atlantic cool events. From 35 ka through the LGM dust deposition decreases in all cores, and little response is observed to low-latitude insolation changes. Dust fluxes at sites north of 20°N were near late Holocene levels during the LGM time slice, suggesting a more muted LGM response than observed in mid-latitude dust sources. Records along the northwest African margin suggest important differences in wind responses during different stadials, with maximum dust flux anomalies centered south of 20°N during H1 and north of 20°N during the Younger Dryas.
#---------------------------------------
# Funding_Agency
#   Funding_Agency_Name: US National Science Foundation
#   Grant: OCE-1103262, OCE-1030784
#---------------------------------------
# Site_Information
#   Site_Name: ODP 658C
#   Location: North Atlantic Ocean
#   Northernmost_Latitude: 20.749167
#   Southernmost_Latitude: 20.749167
#   Easternmost_Longitude: -18.580833
#   Westernmost_Longitude: -18.580833
#   Elevation_m: -2263.6
#---------------------------------------
# Data_Collection
#   Collection_Name: ODP108-658C Dust Flux Kinsley2021
#   First_Year: 67081
#   Last_Year: 18881
#   Time_Unit: cal yr BP
#   Core_Length_m: 72.9
#   Parameter_Keywords: geochemistry, physical properties, radiogenic isotope
#   Notes: 
#---------------------------------------
# Chronology_Information 
# Chronology: 
#---------------------------------------
# Variables
# PaST_Thesaurus_Download_Resource: https://www.ncei.noaa.gov/access/paleo-search/skos/past-thesaurus.rdf
#   PaST_Thesaurus_Download_Description: Paleoenvironmental Standard Terms (PaST) Thesaurus terms, definitions, and relationships in SKOS format.
#
# Data variables follow that are preceded by "##" in columns one and two.
# Variables list, one per line, shortname-tab-var components: what, material, error, units, seasonality, data type, detail, method, C or N for Character or Numeric data)
#
## Core	sample identification,,,,,paleoceanography,,,N,Core number
## Type	sample identification,,,,,paleoceanography,,,C,Core type
## Section	sample identification,,,,,paleoceanography,,,C,Core section number
## Interval_top	depth at sample end,,,centimeter,,paleoceanography,,,N,Top depth of sample interval 
## Interval_bottom	depth at sample start,,,centimeter,,paleoceanography,,,N,Bottom depth of sample interval
## Depth_cm	depth,,,centimeter,,paleoceanography,,,N,depth in core using mid-depth of sample interval
## Age_ka	age,,,calendar kiloyear before present,,paleoceanography,,,N,determined by P_Sequence routine in Oxcal 4.2
## CaCO3_percent	Calcium cabonate,sediment,,percent,,paleoceanography,,,N,
## Opal_percent	silicon dioxide,sediment,,percent,,paleoceanography,,,N,
## Corg_percent	Organic carbon,sediment,,percent,,paleoceanography,,,N,
## Detrital_percent	mineral matter,,,percent,,paleoceanography,,,N,
## EM3_fraction	grain size class,mineral matter,,fraction,,paleoceanography,,,N,Fine grain size endmember contribution to detrital fraction
## EM2_fraction	grain size class,mineral matter,,fraction,,paleoceanography,,,N,Middle grain size endmember contribution to detrital fraction
## EM1_fraction	grain size class,mineral matter,,fraction,,paleoceanography,,,N,Coarse grain size endmember contribution to detrital fraction
## Dust_fraction	grain size class,mineral matter,,fraction,,paleoceanography,,,N,Sum of EM2 and EM1 contributions to detrital fraction
## 230Th	230Th,sediment,,disintegration per minute per gram,,paleoceanography,,isotope dilution mass spectrometry,N,
## 230Th_err	230Th,sediment,one standard deviation,disintegration per minute per gram,,paleoceanography,,,N,
## 232Th	232Th,sediment,,disintegration per minute per gram,,paleoceanography,,isotope dilution mass spectrometry,N,
## 232Th_err	232Th,sediment,one standard deviation,disintegration per minute per gram,,paleoceanography,,,N,
## 238U	238U,sediment,,disintegration per minute per gram,,paleoceanography,,isotope dilution mass spectrometry,N,
## 238U_err	238U,sediment,one standard deviation,disintegration per minute per gram,,paleoceanography,,,N,
## Sediment_flux	accumulation rate,sediment,,gram per square centimeter per kiloyear,,paleoceanography,,,N,Calculated by 230Thxs normalization using detrital U/Th activity ratio of 0.7 ± 0.05
## Sed_flux_err	accumulation rate,sediment,one standard deviation,gram per square centimeter per kiloyear,,paleoceanography,,,N,Sediment flux uncertainty
## Detrital_flux	mineral matter,sediment,,gram per square centimeter per kiloyear,,paleoceanography,,,N,accumulation rate calculated as sediment flux*detrital percent
## Det_flux_err	mineral matter,sediment,one standard deviation,gram per square centimeter per kiloyear,,paleoceanography,,,N,Detrital flux uncertainty
## Dust_flux	dust,sediment,,gram per square centimeter per kiloyear,,paleoceanography,,,N,accumulation rate calculated as sediment flux*detrital percent*dust fraction
## Dust_flux_err	dust,sediment,one standard deviation,gram per square centimeter per kiloyear,,paleoceanography,,,N,Dust flux uncertainty
## CaCO3_flux	calcium carbonate,sediment,gram per square centimeter per kiloyear,,paleoceanography,,,N,accumulation rate calculated as sediment flux*CaCO3 percent
## CaCO3_flux_err	calcium carbonate,sediment,one standard deviation,gram per square centimeter per kiloyear,,paleoceanography,,,N,CaCO3 flux uncertainty
## Opal_flux	silicon dioxide,sediment,gram per square centimeter per kiloyear,,paleoceanography,,,N,accumulation rate calculated as sediment flux*opal percent
## Opal_flux_err	silicon dioxide,sediment,one standard deviation,gram per square centimeter per kiloyear,,paleoceanography,,,N,Opal flux uncertainty
## Corg_flux	organic carbon,sediment,,gram per square centimeter per kiloyear,,paleoceanography,,,N,accumulation rate calculated as sediment flux*Corg percent
## Corg_flux_err	organic carbon,sediment,one standard deviation,gram per square centimeter per kiloyear,,paleoceanography,,,N,Corg flux uncertainty
#------------------------
# Data:
# Data lines follow (have no #)
# Data line format - tab-delimited text, variable short name as header
# Missing_Values: -999
Core	Type	Section	Interval_top	Interval_bottom	Depth_cm	Age_ka	CaCO3_percent	Opal_percent	Corg_percent	Detrital_percent	EM3_fraction	EM2_fraction	EM1_fraction	Dust_fraction	230Th	230Th_err	232Th	232Th_err	238U	238U_err	Sediment_flux	Sed_flux_err	Detrital_flux	Det_flux_err	Dust_flux	Dust_flux_err	CaCO3_flux	CaCO3_flux_err	Opal_flux	Opal_flux_err	Corg_flux	Corg_flux_err
1	H	3	38	39	3.455	18.881	38.27	4.24	5.78	51.71	0.25	0.35	0.40	0.75	3.011	0.030	1.116	0.011	3.731	0.037	2.851	0.110	1.475	0.059	1.106	0.071	1.091	0.043	0.121	0.005	0.165	0.007
1	H	3	42	43	3.495	19.209	38.43	4.16	5.53	51.88	0.26	0.23	0.51	0.74	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999
1	H	3	48	49	3.555	19.597	38.84	4.08	5.61	51.47	0.33	0.25	0.42	0.67	3.049	0.030	1.138	0.011	3.424	0.034	2.727	0.103	1.404	0.055	0.940	0.060	1.059	0.041	0.111	0.004	0.153	0.006
1	H	3	53	54	3.605	19.912	39.55	3.95	5.68	50.82	0.26	0.20	0.54	0.74	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999
1	H	3	58	59	3.655	20.228	39.75	3.89	5.61	50.75	0.31	0.15	0.54	0.69	2.932	0.029	0.938	0.009	3.316	0.033	2.707	0.087	1.374	0.046	0.948	0.057	1.076	0.036	0.105	0.004	0.152	0.005
1	H	3	63	64	3.705	20.543	44.03	3.45	6.10	46.42	0.26	0.09	0.65	0.74	3.226	0.032	1.051	0.011	3.131	0.031	2.353	0.074	1.092	0.036	0.808	0.048	1.036	0.034	0.081	0.003	0.144	0.005
1	H	3	68	69	3.755	20.858	39.80	3.31	5.61	51.28	0.25	0.13	0.62	0.75	2.867	0.029	1.134	0.011	3.340	0.033	3.026	0.126	1.552	0.067	1.164	0.077	1.204	0.052	0.100	0.004	0.170	0.007
1	H	3	73	74	3.805	21.174	39.29	3.43	5.86	51.42	0.28	0.12	0.60	0.72	3.310	0.033	1.207	0.012	3.102	0.031	2.353	0.083	1.210	0.044	0.871	0.054	0.925	0.034	0.081	0.003	0.138	0.005
1	H	3	78	79	3.855	21.489	40.21	3.45	5.81	50.53	0.28	0.00	0.72	0.72	2.682	0.027	0.951	0.010	3.195	0.032	3.145	0.118	1.589	0.062	1.144	0.072	1.264	0.049	0.109	0.004	0.183	0.007
1	H	3	83	84	3.905	21.804	41.59	3.58	6.02	48.81	0.31	0.11	0.58	0.69	3.366	0.034	1.067	0.011	3.527	0.035	2.301	0.073	1.123	0.037	0.775	0.047	0.957	0.032	0.082	0.003	0.139	0.005
1	H	3	88	89	3.955	22.120	40.79	3.51	5.98	49.72	0.25	0.13	0.62	0.75	2.966	0.030	0.950	0.010	3.844	0.038	2.871	0.102	1.427	0.053	1.071	0.066	1.171	0.043	0.101	0.004	0.172	0.006
1	H	3	93	94	4.005	22.435	39.17	3.65	6.12	51.06	0.33	0.21	0.46	0.67	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999
1	H	3	98	99	4.055	22.751	37.40	3.80	5.69	53.10	0.25	0.18	0.57	0.75	2.980	0.030	1.120	0.011	3.704	0.037	2.975	0.124	1.580	0.068	1.185	0.078	1.113	0.048	0.113	0.005	0.169	0.007
1	H	3	103	104	4.105	23.066	35.31	3.48	5.59	55.62	0.25	0.18	0.57	0.75	3.008	0.030	1.080	0.011	3.052	0.031	2.657	0.097	1.478	0.056	1.108	0.069	0.938	0.035	0.092	0.003	0.148	0.006
1	H	3	108	109	4.155	23.381	37.36	3.75	5.55	53.34	0.32	0.14	0.54	0.68	2.682	0.027	1.077	0.011	3.578	0.036	3.554	0.169	1.896	0.092	1.289	0.090	1.328	0.065	0.133	0.006	0.197	0.010
1	H	3	113	114	4.205	23.697	35.63	4.33	5.60	54.45	0.28	0.23	0.49	0.72	2.855	0.029	1.179	0.012	3.127	0.031	3.054	0.136	1.663	0.076	1.197	0.081	1.088	0.050	0.132	0.006	0.171	0.008
1	H	3	118	119	4.255	24.012	31.49	4.45	5.12	58.95	0.18	0.44	0.38	0.82	2.804	0.028	1.407	0.014	3.659	0.037	3.802	0.245	2.241	0.146	1.838	0.151	1.197	0.078	0.169	0.011	0.195	0.013
1	H	3	123	124	4.305	24.822	36.14	4.10	5.64	54.11	0.21	0.43	0.36	0.79	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999
1	H	3	128	129	4.355	25.633	32.39	4.36	5.44	57.80	0.19	0.53	0.28	0.81	2.852	0.029	1.266	0.013	3.638	0.036	3.494	0.193	2.019	0.113	1.636	0.123	1.132	0.063	0.152	0.009	0.190	0.011
1	H	3	133	134	4.405	26.443	34.58	3.99	5.72	55.71	0.18	0.53	0.29	0.82	2.937	0.029	1.280	0.013	3.012	0.030	2.987	0.144	1.664	0.082	1.364	0.096	1.033	0.051	0.119	0.006	0.171	0.008
1	H	3	138	139	4.455	27.254	35.84	3.64	5.42	55.11	0.19	0.48	0.33	0.81	2.895	0.029	1.179	0.012	3.209	0.032	3.077	0.143	1.695	0.081	1.373	0.095	1.102	0.053	0.112	0.005	0.167	0.008
1	H	3	143	144	4.505	28.064	40.33	3.58	5.87	50.22	0.20	0.44	0.36	0.80	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999
1	H	3	148	149	4.555	28.874	38.08	4.14	6.43	51.35	0.23	0.48	0.29	0.77	3.052	0.031	1.225	0.012	3.676	0.037	3.092	0.153	1.588	0.080	1.223	0.087	1.178	0.059	0.128	0.006	0.199	0.010
1	H	4	1	2	4.635	30.171	36.04	3.70	6.17	54.08	0.20	0.44	0.36	0.80	3.088	0.031	1.203	0.012	3.761	0.038	3.074	0.151	1.663	0.083	1.330	0.094	1.108	0.056	0.114	0.006	0.190	0.010
1	H	4	6	7	4.685	30.679	34.19	4.71	5.72	55.39	0.19	0.49	0.32	0.81	3.099	0.031	1.342	0.013	3.414	0.034	3.007	0.159	1.666	0.089	1.349	0.099	1.028	0.055	0.141	0.008	0.172	0.009
1	H	4	11	12	4.735	31.111	34.84	3.72	5.73	55.70	0.19	0.48	0.33	0.81	2.909	0.029	1.166	0.012	3.812	0.038	3.533	0.195	1.968	0.110	1.594	0.120	1.231	0.069	0.131	0.007	0.203	0.011
1	H	4	16	17	4.785	31.543	32.75	4.26	6.04	56.95	0.21	0.50	0.29	0.79	3.417	0.034	1.453	0.015	3.908	0.039	2.788	0.150	1.588	0.087	1.254	0.093	0.913	0.050	0.119	0.006	0.168	0.009
1	H	4	21	22	4.835	31.975	39.79	3.74	6.40	50.08	0.21	0.53	0.26	0.79	3.287	0.033	1.109	0.011	4.223	0.042	2.888	0.130	1.446	0.067	1.143	0.078	1.149	0.053	0.108	0.005	0.185	0.009
1	H	4	26	27	4.885	32.407	33.79	4.22	6.38	55.62	0.25	0.52	0.23	0.75	3.408	0.034	1.172	0.012	3.712	0.037	2.500	0.102	1.390	0.059	1.043	0.068	0.845	0.036	0.105	0.004	0.159	0.007
1	H	4	31	32	4.935	32.839	36.88	3.78	6.18	53.15	0.24	0.56	0.20	0.76	3.219	0.032	1.145	0.011	4.489	0.045	3.271	0.172	1.739	0.093	1.321	0.097	1.207	0.065	0.124	0.007	0.202	0.011
1	H	4	36	37	4.985	33.271	36.48	5.28	6.31	51.92	0.28	0.29	0.43	0.72	3.305	0.033	1.293	0.013	3.828	0.038	2.831	0.142	1.470	0.075	1.058	0.076	1.033	0.053	0.149	0.008	0.179	0.009
1	H	4	41	42	5.035	33.703	35.76	5.33	5.82	53.09	0.23	0.29	0.48	0.77	2.694	0.027	1.287	0.013	3.328	0.033	4.064	0.283	2.158	0.152	1.661	0.144	1.453	0.102	0.217	0.015	0.236	0.017
1	H	4	46	47	5.085	34.135	36.91	5.75	6.06	51.28	0.23	0.37	0.40	0.77	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999
1	H	4	51	52	5.135	34.567	33.97	5.42	6.01	54.60	0.23	0.32	0.45	0.77	2.500	0.025	1.106	0.011	2.732	0.027	3.804	0.218	2.077	0.121	1.599	0.123	1.292	0.075	0.206	0.012	0.228	0.013
1	H	4	56	57	5.185	34.999	36.58	5.56	6.14	51.72	0.21	0.39	0.40	0.79	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999
1	H	4	61	62	5.235	35.431	34.54	5.14	5.99	54.34	0.22	0.37	0.41	0.78	2.697	0.027	1.205	0.012	3.245	0.032	3.862	0.247	2.099	0.136	1.637	0.134	1.334	0.086	0.198	0.013	0.231	0.015
1	H	4	66	67	5.285	35.863	36.42	5.15	6.08	52.35	0.22	0.47	0.31	0.78	2.877	0.029	1.307	0.013	2.913	0.029	3.182	0.182	1.666	0.097	1.299	0.099	1.159	0.067	0.164	0.010	0.193	0.011
1	H	4	71	72	5.335	36.295	35.95	5.47	6.06	52.52	0.22	0.41	0.37	0.78	2.669	0.027	1.120	0.011	3.155	0.032	3.748	0.220	1.968	0.117	1.535	0.120	1.347	0.080	0.205	0.012	0.227	0.014
1	H	4	76	77	5.385	36.727	37.53	4.95	6.39	51.13	0.22	0.44	0.34	0.78	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999
1	H	4	81	82	5.435	37.159	37.65	5.03	6.15	51.16	0.24	0.46	0.30	0.76	2.734	0.027	1.309	0.013	3.378	0.034	4.140	0.310	2.118	0.160	1.610	0.146	1.559	0.118	0.208	0.016	0.255	0.019
1	H	4	86	87	5.485	37.591	39.40	4.35	6.47	49.79	0.24	0.41	0.35	0.76	2.645	0.026	0.976	0.010	2.921	0.029	3.419	0.166	1.702	0.084	1.294	0.091	1.347	0.067	0.149	0.007	0.221	0.011
1	H	4	91	92	5.535	38.023	39.92	3.99	6.49	49.59	0.23	0.49	0.28	0.77	2.869	0.029	1.032	0.010	3.600	0.036	3.517	0.188	1.744	0.095	1.343	0.099	1.404	0.076	0.140	0.008	0.228	0.012
1	H	4	96	97	5.585	38.455	41.43	4.20	6.62	47.75	0.24	0.48	0.28	0.76	3.374	0.034	1.175	0.012	3.773	0.038	2.666	0.124	1.273	0.061	0.968	0.067	1.105	0.053	0.112	0.005	0.177	0.008
1	H	4	101	102	5.635	38.926	41.83	4.05	6.96	47.16	0.23	0.46	0.31	0.77	3.157	0.032	0.987	0.010	3.856	0.039	2.979	0.135	1.405	0.065	1.082	0.074	1.246	0.058	0.121	0.006	0.207	0.010
1	H	4	106	107	5.685	39.407	41.04	4.65	6.55	47.76	0.27	0.56	0.17	0.73	3.347	0.033	1.265	0.013	3.880	0.039	2.879	0.154	1.375	0.075	1.004	0.074	1.182	0.064	0.134	0.007	0.189	0.010
1	H	4	111	112	5.735	39.889	41.33	4.29	6.50	47.88	0.24	0.55	0.21	0.76	2.970	0.030	1.167	0.012	3.885	0.039	3.776	0.245	1.808	0.119	1.374	0.114	1.560	0.103	0.162	0.011	0.245	0.016
1	H	4	116	117	5.785	40.370	39.62	4.89	6.54	48.95	0.22	0.56	0.22	0.78	3.513	0.035	1.533	0.015	3.964	0.040	2.862	0.182	1.401	0.090	1.093	0.089	1.134	0.073	0.140	0.009	0.187	0.012
1	H	4	121	122	5.835	40.852	41.66	4.45	6.67	47.22	0.24	0.62	0.14	0.76	3.251	0.033	1.184	0.012	4.204	0.042	3.313	0.197	1.564	0.095	1.189	0.093	1.380	0.083	0.147	0.009	0.221	0.013
1	H	4	126	127	5.885	41.333	39.93	4.27	6.64	49.15	0.23	0.63	0.14	0.77	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999
1	H	4	131	132	5.935	41.814	40.14	4.89	6.49	48.47	0.23	0.70	0.07	0.77	3.265	0.033	1.105	0.011	3.901	0.039	2.949	0.150	1.429	0.074	1.101	0.079	1.184	0.061	0.144	0.007	0.192	0.010
1	H	4	136	137	5.985	42.296	40.40	4.49	6.82	48.28	0.28	0.67	0.05	0.72	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999
1	H	4	141	142	6.035	42.777	41.71	4.24	7.00	47.06	0.24	0.70	0.06	0.76	3.257	0.033	1.003	0.010	3.851	0.039	2.847	0.132	1.340	0.064	1.018	0.070	1.187	0.056	0.121	0.006	0.199	0.009
1	H	4	146	147	6.085	43.259	43.65	4.50	7.07	44.77	0.25	0.62	0.13	0.75	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999
1	H	4	150	151	6.125	43.644	44.57	4.01	7.60	43.82	0.26	0.71	0.03	0.74	3.604	0.036	1.083	0.011	3.745	0.037	2.279	0.093	0.999	0.042	0.739	0.048	1.016	0.042	0.091	0.004	0.173	0.007
1	H	5	2	3	6.155	43.933	43.96	4.28	7.57	44.19	0.29	0.70	0.01	0.71	3.469	0.035	0.987	0.010	4.068	0.041	2.606	0.113	1.152	0.051	0.818	0.055	1.146	0.051	0.112	0.005	0.197	0.009
1	H	5	7	8	6.205	44.414	45.26	4.25	7.33	43.16	0.27	0.67	0.06	0.73	3.754	0.038	1.070	0.011	3.867	0.039	2.146	0.083	0.926	0.037	0.676	0.043	0.971	0.039	0.091	0.004	0.157	0.006
1	H	5	12	13	6.255	44.895	39.87	4.34	6.88	48.91	0.26	0.51	0.23	0.74	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999
1	H	5	17	18	6.305	45.377	39.80	4.38	6.22	49.60	0.22	0.47	0.31	0.78	3.188	0.032	1.165	0.012	3.292	0.033	2.738	0.139	1.358	0.070	1.059	0.076	1.090	0.056	0.120	0.006	0.170	0.009
1	H	5	20	21	6.335	45.666	40.16	3.68	6.32	49.84	0.22	0.48	0.30	0.78	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999
1	H	CC	0	1	6.375	46.051	41.05	4.77	7.14	47.04	0.29	0.70	0.01	0.71	3.393	0.034	1.192	0.012	3.763	0.038	2.726	0.144	1.282	0.069	0.911	0.067	1.119	0.060	0.130	0.007	0.195	0.010
2	H	1	0	1	6.405	46.339	43.51	4.18	6.99	45.32	0.33	0.67	0.00	0.67	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999
2	H	1	5	6	6.455	46.821	40.24	5.09	6.85	47.82	0.28	0.72	0.00	0.72	3.196	0.032	1.097	0.011	3.536	0.035	2.875	0.149	1.375	0.073	0.990	0.072	1.157	0.061	0.146	0.008	0.197	0.010
2	H	1	10	11	6.505	47.302	44.28	4.95	7.50	43.26	0.36	0.64	0.00	0.64	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999
2	H	1	15	16	6.555	47.784	34.04	4.97	5.88	55.10	0.21	0.77	0.02	0.79	2.992	0.030	1.440	0.014	3.075	0.031	3.293	0.243	1.814	0.135	1.433	0.129	1.121	0.083	0.164	0.012	0.194	0.014
2	H	1	20	21	6.605	48.265	35.76	5.29	6.04	52.92	0.21	0.79	0.00	0.79	2.859	0.029	1.334	0.013	2.980	0.030	3.447	0.249	1.824	0.133	1.441	0.127	1.232	0.090	0.182	0.013	0.208	0.015
2	H	1	25	26	6.655	48.708	38.64	5.19	6.53	49.63	0.19	0.72	0.09	0.81	3.355	0.034	1.346	0.013	3.524	0.035	2.770	0.168	1.375	0.084	1.114	0.088	1.070	0.066	0.144	0.009	0.181	0.011
2	H	1	30	31	6.705	49.152	41.63	4.79	6.95	46.62	0.21	0.79	0.00	0.79	3.876	0.039	1.215	0.012	3.445	0.034	1.913	0.076	0.892	0.037	0.705	0.046	0.796	0.033	0.092	0.004	0.133	0.005
2	H	1	35	36	6.755	49.595	39.38	4.90	6.80	48.91	0.19	0.81	0.00	0.81	3.152	0.032	1.230	0.012	3.629	0.036	3.265	0.217	1.597	0.107	1.294	0.108	1.286	0.086	0.160	0.011	0.222	0.015
2	H	1	40	41	6.805	50.039	47.58	5.07	8.02	39.34	0.46	0.54	0.00	0.54	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999
2	H	1	45	46	6.855	50.482	47.36	5.50	8.39	38.75	0.48	0.52	0.00	0.52	3.983	0.040	1.075	0.011	3.954	0.040	1.965	0.076	0.761	0.030	0.396	0.025	0.931	0.037	0.108	0.004	0.165	0.007
2	H	1	50	51	6.905	50.926	49.12	5.57	9.05	36.26	0.50	0.50	0.00	0.50	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999
2	H	1	55	56	6.955	51.369	49.65	5.57	8.72	36.06	0.50	0.50	0.00	0.50	3.932	0.039	1.087	0.011	3.666	0.037	1.901	0.072	0.685	0.027	0.343	0.022	0.944	0.037	0.106	0.004	0.166	0.006
2	H	1	60	61	7.005	51.813	46.41	6.08	8.20	39.31	0.51	0.49	0.00	0.49	3.520	0.035	1.123	0.011	3.312	0.033	2.221	0.098	0.873	0.039	0.428	0.029	1.031	0.046	0.135	0.006	0.182	0.008
2	H	1	65	66	7.055	52.256	43.55	6.39	8.70	41.36	0.48	0.52	0.00	0.52	3.367	0.034	1.045	0.010	3.751	0.038	2.746	0.142	1.136	0.060	0.591	0.043	1.196	0.063	0.175	0.009	0.239	0.013
2	H	1	70	71	7.105	52.699	43.96	6.05	8.38	41.61	0.39	0.61	0.00	0.61	4.467	0.045	1.105	0.011	3.436	0.034	1.437	0.044	0.598	0.019	0.365	0.022	0.632	0.020	0.087	0.003	0.120	0.004
2	H	1	75	76	7.155	53.143	43.30	5.63	8.41	42.66	0.41	0.59	0.00	0.59	3.583	0.036	1.187	0.012	3.758	0.038	2.472	0.128	1.054	0.056	0.622	0.045	1.070	0.057	0.139	0.007	0.208	0.011
2	H	1	80	81	7.205	53.586	38.33	5.03	6.47	50.16	0.19	0.75	0.06	0.81	2.949	0.029	1.299	0.013	2.734	0.027	2.931	0.186	1.470	0.095	1.191	0.097	1.124	0.072	0.147	0.009	0.190	0.012
2	H	1	85	86	7.255	54.030	32.07	4.99	5.25	57.69	0.16	0.84	0.00	0.84	2.738	0.027	1.414	0.014	2.586	0.026	3.469	0.279	2.001	0.162	1.681	0.160	1.112	0.090	0.173	0.014	0.182	0.015
2	H	1	90	91	7.305	54.473	30.98	5.10	5.33	58.59	0.18	0.82	0.00	0.82	2.425	0.024	1.493	0.015	2.262	0.023	4.298	0.445	2.518	0.262	2.065	0.238	1.331	0.138	0.219	0.023	0.229	0.024
2	H	1	95	96	7.355	54.905	36.90	5.06	6.24	51.80	0.22	0.78	0.00	0.78	2.624	0.026	1.178	0.012	2.785	0.028	3.895	0.302	2.017	0.158	1.574	0.146	1.437	0.112	0.197	0.015	0.243	0.019
2	H	1	99	100	7.395	55.241	45.25	4.61	7.45	42.70	0.28	0.72	0.00	0.72	3.198	0.032	1.215	0.012	2.960	0.030	2.557	0.139	1.092	0.060	0.786	0.059	1.157	0.064	0.118	0.006	0.190	0.011
2	H	1	106	107	7.465	55.829	43.07	4.57	7.04	45.33	0.32	0.68	0.00	0.68	3.224	0.032	1.323	0.013	3.010	0.030	2.625	0.158	1.190	0.073	0.809	0.064	1.131	0.069	0.120	0.007	0.185	0.011
2	H	1	110	111	7.505	56.165	45.04	4.94	6.66	43.36	0.30	0.70	0.00	0.70	3.186	0.032	1.372	0.014	2.901	0.029	2.639	0.165	1.144	0.072	0.801	0.065	1.188	0.075	0.130	0.008	0.176	0.011
2	H	1	115	116	7.555	56.584	42.62	5.14	6.73	45.51	0.28	0.72	0.00	0.72	3.130	0.031	1.414	0.014	3.016	0.030	2.909	0.206	1.324	0.095	0.953	0.083	1.240	0.089	0.150	0.011	0.196	0.014
2	H	1	120	121	7.605	57.004	48.04	4.84	7.54	39.59	0.42	0.58	0.00	0.58	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999
2	H	1	125	126	7.655	57.424	48.85	4.06	7.95	39.14	0.54	0.46	0.00	0.46	3.270	0.033	1.074	0.011	3.427	0.034	2.734	0.150	1.070	0.060	0.492	0.037	1.335	0.074	0.111	0.006	0.217	0.012
2	H	1	130	131	7.705	57.844	49.73	4.44	8.57	37.26	0.55	0.45	0.00	0.45	4.358	0.044	1.198	0.012	3.483	0.035	1.521	0.054	0.567	0.021	0.255	0.016	0.757	0.028	0.068	0.002	0.130	0.005
2	H	1	135	136	7.755	58.264	50.06	4.43	8.18	37.33	0.52	0.48	0.00	0.48	3.660	0.037	1.233	0.012	3.488	0.035	2.213	0.113	0.826	0.043	0.397	0.029	1.108	0.057	0.098	0.005	0.181	0.009
2	H	1	140	141	7.805	58.684	35.77	4.53	7.83	51.87	0.42	0.58	0.00	0.58	3.332	0.033	1.298	0.013	3.179	0.032	2.555	0.153	1.325	0.081	0.769	0.061	0.914	0.056	0.116	0.007	0.200	0.012
2	H	1	145	146	7.855	59.104	45.29	4.83	7.10	42.79	0.37	0.63	0.00	0.63	3.228	0.032	1.145	0.011	3.276	0.033	2.748	0.161	1.176	0.070	0.741	0.057	1.244	0.074	0.133	0.008	0.195	0.012
2	H	1	150	151	7.905	59.524	42.43	5.24	7.06	45.27	0.36	0.64	0.00	0.64	3.389	0.034	1.238	0.012	3.070	0.031	2.333	0.124	1.056	0.057	0.676	0.050	0.990	0.054	0.122	0.007	0.165	0.009
2	H	2	2	3	7.955	59.943	43.07	5.71	6.73	44.48	0.34	0.61	0.05	0.66	3.001	0.030	1.136	0.011	3.238	0.032	3.310	0.231	1.472	0.104	0.972	0.084	1.426	0.100	0.189	0.013	0.223	0.016
2	H	2	7	8	8.005	60.363	41.31	5.64	6.46	46.59	0.31	0.46	0.23	0.69	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999
2	H	2	12	13	8.055	60.783	40.73	5.53	6.08	47.65	0.30	0.48	0.22	0.70	2.656	0.027	1.082	0.011	2.478	0.025	3.191	0.202	1.521	0.097	1.064	0.086	1.300	0.083	0.177	0.011	0.194	0.012
2	H	2	17	18	8.105	61.203	41.17	5.20	5.98	47.65	0.22	0.40	0.38	0.78	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999
2	H	2	22	23	8.155	61.623	38.74	5.51	5.88	49.86	0.22	0.45	0.33	0.78	2.677	0.027	1.147	0.011	2.517	0.025	3.252	0.223	1.622	0.112	1.265	0.108	1.260	0.087	0.179	0.012	0.191	0.013
2	H	2	27	28	8.205	62.043	40.35	5.20	5.65	48.81	0.21	0.28	0.51	0.79	2.767	0.028	1.012	0.010	2.748	0.027	3.175	0.195	1.550	0.096	1.224	0.098	1.281	0.080	0.165	0.010	0.179	0.011
2	H	2	32	33	8.255	62.463	39.85	4.66	5.74	49.76	0.22	0.33	0.45	0.78	2.643	0.026	1.019	0.010	3.221	0.032	4.823	0.455	2.400	0.228	1.872	0.201	1.922	0.182	0.225	0.021	0.277	0.026
2	H	2	37	38	8.305	62.883	44.46	4.57	6.13	44.84	0.21	0.33	0.46	0.79	3.197	0.032	1.133	0.011	3.245	0.032	2.787	0.172	1.250	0.078	0.987	0.079	1.239	0.077	0.127	0.008	0.171	0.011
2	H	2	42	43	8.355	63.302	41.63	4.75	5.63	47.98	0.20	0.38	0.42	0.80	3.225	0.032	1.107	0.011	3.428	0.034	2.917	0.187	1.400	0.091	1.120	0.092	1.215	0.079	0.139	0.009	0.164	0.011
2	H	2	47	48	8.405	63.722	39.24	4.59	5.89	50.28	0.19	0.28	0.53	0.81	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999
2	H	2	52	53	8.455	64.142	39.26	4.05	5.54	51.14	0.18	0.15	0.67	0.82	2.587	0.026	1.163	0.012	2.333	0.023	3.229	0.128	1.651	0.067	1.354	0.087	1.268	0.052	0.131	0.005	0.179	0.007
2	H	2	57	58	8.505	64.562	39.84	4.36	5.97	49.83	0.23	0.66	0.11	0.77	3.063	0.031	1.330	0.013	2.479	0.025	2.399	0.081	1.195	0.042	0.920	0.056	0.956	0.034	0.105	0.004	0.143	0.005
2	H	2	62	63	8.555	64.982	38.39	4.29	5.60	51.72	0.19	0.55	0.26	0.81	2.778	0.028	1.168	0.012	2.888	0.029	3.545	0.286	1.834	0.149	1.485	0.142	1.361	0.111	0.152	0.012	0.198	0.016
2	H	2	67	68	8.605	65.402	39.22	4.23	5.76	50.80	0.22	0.71	0.07	0.78	2.898	0.029	1.158	0.012	2.391	0.024	2.504	0.142	1.272	0.073	0.992	0.076	0.982	0.057	0.106	0.006	0.144	0.008
2	H	2	72	73	8.655	65.822	40.74	4.52	6.16	48.57	0.29	0.71	0.00	0.71	3.344	0.033	1.239	0.012	2.935	0.029	2.257	0.126	1.096	0.062	0.778	0.059	0.919	0.052	0.102	0.006	0.139	0.008
2	H	2	77	78	8.705	66.242	41.68	4.39	6.14	47.78	0.28	0.72	0.00	0.72	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999	-999
2	H	2	82	83	8.755	66.662	45.19	4.00	6.72	44.09	0.29	0.62	0.09	0.71	3.205	0.032	1.232	0.012	2.819	0.028	2.387	0.141	1.052	0.063	0.747	0.058	1.078	0.065	0.096	0.006	0.160	0.010
2	H	2	87	88	8.805	67.081	45.50	3.97	6.40	44.13	0.25	0.46	0.29	0.75	2.967	0.030	1.199	0.012	2.798	0.028	2.852	0.195	1.259	0.087	0.944	0.081	1.298	0.090	0.113	0.008	0.182	0.013