# Western North Atlantic Basin 8,000 Year Paleotempestology Database 
#----------------------------------------------------------------------- 
#                World Data Service for Paleoclimatology, Boulder 
#                                  and 
#                     NOAA Paleoclimatology Program 
#             National Centers for Environmental Information (NCEI)
#----------------------------------------------------------------------- 
# Template Version 2.0
# NOTE: Please cite Publication, and Online_Resource and date accessed when using these data. 
# If there is no publication information, please cite Investigators, Title, and Online_Resource and date accessed. 
#
# Online_Resource: https://www.ncdc.noaa.gov/paleo/study/21391 
# Online_Resource: http://www1.ncdc.noaa.gov/pub/data/paleo/contributions_by_author/oliva2017/oliva2017events.txt
#
# Original_Source_URL: 
# 
# Description/Documentation lines begin with #
# Data lines have no #
#
# Archive: Other Collections
#
# Parameter_Keywords: 
#--------------------
# Contribution_Date
#	Date: 2017-01-16
#--------------------
# Title
#	Study_Name: Western North Atlantic Basin 8,000 Year Paleotempestology Database 
#--------------------
# Investigators
# 	Investigators: Oliva, F.; Peros, M.; Viau, A. 
#--------------------
# Description_and_Notes
#	Description: Summary of published paleotempestological studies for the western North Atlantic Basin.
#	Note:  This file updated 9-March-2018 
#	Provided Keywords: Paleotempestology, hydroclimatology, tropical cyclones, X-ray fluorescence core scanning, geochemistry
#
#	Definitions:
# Table	Field	Definition	Values	Type
# Events	Author	Author Name	varies	String
# Events	Event_ID	"Unique Event ID.  Prefix A (for article), followed by article ID (leading zero),  followed by "E" (for event), followed by event number  (01-99, leading zero)"	A01E01 to A59Exx	String
# Events	Event_Proxy	"Flag to indicate if proxy is from a physical sample (core), or from observation (instrumental or historical record).  Majority of events identified from cores."	"Core, Observation"	String
# Events	Dating_Media	"Description from article of physical sample used for radiocarbon analysis.  "na" if no data."	varies	String
# Events	Proxy_ID	"Identification from article of sample name from which the event was inferred (typically the borehole ID). "na" if no data"	varies	String
# Events	Age_uncal_data	"0 if there is no uncalibrated data, but there is calibrated data.  1 if there is uncalibrated data and calibrated data. 2 if there is no calibrated data, JUST uncalibrated data (e.g. liu & fearn 1993)"	"0,1,2"	Integer
# Events	Age_uncal_BP	Event age in years before present (1950) - or 14C radiocarbon age.  0 if there is no data with Age_uncal_data flag of 0.	660-7050	Integer
# Events	Age_uncal_BP_error_neg	"Negative uncalibrated age error, in years BP"	30-50	Integer
# Events	Age_uncal_BP_error_pos	"Positive uncalibrated age error, in years BP"	30-50	Integer
# Events	Age_cal_BP	"Dating model calibrated age, in years BP (1950)"	Dec-10	Integer
# Events	Age_cal_BP_error_neg	"Negative calibrated age error, in years BP"	0-444	Integer
# Events	Age_cal_BP_error_pos	"Positive calibrated age error, in years BP"	0-444	Integer
# Events	Data_Source	"Source of data within the article (e.g. table or figure number, section number)"	varies	string
# Events	Calendar_Year_Min	"Calibrated calendar year minimum of range.  Incorporates age error estimate.  Negative values are from calendar year 0 (e.g. -4,000 is 4,000 years BC)."	-6010 to 1938	Integer
# Events	Calendar_Year_Max	"Calibrated calendar year maximum of range.  Incorporates age error estimate.  Negative values are from calendar year 0 (e.g. -4,000 is 4,000 years BC)."	-5875 to 1938	Integer
# Events	Wind_Speed_ktmax	Maximum wind speed in knots.  Zero if no data.	"0, 29-82"	Integer
# Events	LF_Lat_dec_deg_N	"Latitude of individual sample location, if available, decimal"	varies	Integer
# Events	LF_Lon_dec_deg_W	"Longitude of individual sample location, if available, decimal"	varies	Integer
# Events	Cat	Category of hurricane event.  Zero if no data	"0,1,2,3,4,5"	Integer
# 
#--------------------
# Publication 
#	Authors: Frank Oliva, Matthew Peros, Andre Viau
#	Published_Date_or_Year: 2017-01-10
#	Published_Title: A review of the spatial distribution of and analytical techniques used in paleotempestological studies in the western North Atlantic Basin 
#	Journal_Name: Progress in Physical Geography
#	Volume: 41
#	Edition: 
#	Issue: 1
#	Pages: 
#	Report_Number: 
#	DOI: 10.1177/0309133316683899
#	Online_Resource: http://journals.sagepub.com/doi/10.1177/0309133316683899
#	Full_Citation: 
#	Abstract: Paleotempestology, the study of past tropical cyclones (TCs) using geological proxy techniques, is a growing discipline that utilizes data from a broad range of sources. Most paleotempestological studies have been conducted using "established proxies," such as grain-size analysis, loss-on-ignition, and micropaleontological indicators. More recently, however, researchers have been applying more advanced geochemical analyses, such as X-ray fluorescence core scanning and stable isotopic geochemistry, to generate new paleotempestological records. In this paper we begin by providing a list of paleotempestological studies for the western North Atlantic Basin and illustrate the spatial coverage of these studies. We then review the premises behind both established and new proxies and discuss their strengths and limitations at resolving past hurricane activity. Lastly, we suggest future directions for paleotempestological research based on our review of the literature that we argue will ultimately lead to a better understanding of TC dynamics under future climate change scenarios.
#------------------
# Funding_Agency 
#	Funding_Agency_Name: Canada Research Chairs
#	Grant: 
#------------------
# Funding_Agency 
#	Funding_Agency_Name: NSERC
#	Grant: 
#------------------																
# Site_Information 
#	Site_Name: Western North Atlantic
#	Location: Ocean>Atlantic Ocean>North Atlantic Ocean
#	Country:  
#	Northernmost_Latitude: 50.0
#	Southernmost_Latitude: 10.0
#	Easternmost_Longitude: -50.0
#	Westernmost_Longitude: -100
#	Elevation: 0 m  
#------------------
# Data_Collection   
#	Collection_Name: Oliva2017events
#	Earliest_Year: 8000
#	Most_Recent_Year: -50
#	Time_Unit: Cal. Year BP
#	Core_Length: m
#	Notes: 
#------------------
# Chronology_Information
#	Chronology: 
# 
#----------------
# Variables 
#
# Data variables follow are preceded by "##" in columns one and two.
# Data line variables format:  Variables list, one per line, shortname-tab-longname-tab-longname components (9 components: what, material, error, units, seasonality, archive, detail, method, C or N for Character or Numeric data) 
#
#
#----------------
# Data:
# Data lines follow (have no #)
# Data line format - tab-delimited text, variable short name as header
# Missing Values:  
#
Article	Author	Event_ID	Age_uncal_data	Age_uncal_BP	Age_uncal_BP_error_neg	Age_uncal_BP_error_pos	Age_cal_BP_range	Age_cal_BP_error_neg	Age_cal_BP_error_pos	Data_Source	Calendar_Year_Min	Calendar_Year_Max	Wind_Speed_ktmax	LF_Lat_dec_deg_N	LF_Lon_dec_deg_W	Cat
1	Adomat and Gischler	A01E01	1	7050	40	40	7875	85	85	Table 4	-6010	-5840	0	17.117	-88.300	0
1	Adomat and Gischler	A01E02	1	6950	40	40	7910-7770	10 - 90	10 - 90	Table 4	-5970	-5875	0	17.117	-88.300	0
1	Adomat and Gischler	A01E03	1	6160	30	30	7055	105	105	Table 4	-5210	-5020	0	17.117	-88.300	0
1	Adomat and Gischler	A01E04	1	4530	30	30	5295 - 5085	25 - 30	25 - 30	Table 4	-3370	-3260	0	17.117	-88.300	0
1	Adomat and Gischler	A01E05	1	4500	30	30	4945	105	105	Table 4	-3100	-2910	0	16.900	-88.267	0
1	Adomat and Gischler	A01E06	1	1820	30	30	1585	95	95	Table 4	270	450	0	16.900	-88.267	0
1	Adomat and Gischler	A01E07	1	1140	30	30	925	65	65	Table 4	960	1110	0	16.883	-88.284	0
1	Adomat and Gischler	A01E08	1	2810	30	30	2780	70	70	Table 4	-900	-745	0	16.883	-88.284	0
1	Adomat and Gischler	A01E09	1	1860	30	30	1675	105	105	Table 4	170	360	0	16.883	-88.284	0
1	Adomat and Gischler	A01E10	1	3540	30	30	3610	90	90	Table 4	-1750	-1575	0	17.200	-88.300	0
1	Adomat and Gischler	A01E11	1	2200	30	30	2070	90	90	Table 4	-210	-35	0	17.050	-88.250	0
1	Adomat and Gischler	A01E12	1	4080	30	30	4780-4460	20	20	Table 4	-2850	-2745	0	16.900	-88.283	0
1	Adomat and Gischler	A01E13	1	3130	30	30	2780	70	70	Table 4	-900	-760	0	16.883	-88.284	0
1	Adomat and Gischler	A01E14	1	2220	30	30	1675	105	105	Table 4	170	380	0	16.883	-88.284	0
2	Aharon and Lambert	A02E01	1	660	0	30	380	85	90	Table	1570	1570	0	30.260	-87.664	0
2	Aharon and Lambert	A02E02	1	1350	0	50	880	85	90	Table	1070	1070	0	30.260	-87.664	0
4	Boldt et al.	A04E07	0	0	0	0	1920	50	70	"Figure 10, 3.88in = 2000yrs"	-40	90	0	41.652	-70.787	0
4	Boldt et al.	A04E08	0	0	0	0	1910	50	60	"Figure 10, 3.88in = 2000yrs"	-20	90	0	41.652	-70.787	0
4	Boldt et al.	A04E09	0	0	0	0	1860	60	70	"Figure 10, 3.88in = 2000yrs"	20	150	0	41.652	-70.787	0
4	Boldt et al.	A04E10	0	0	0	0	1680	75	45	"Figure 10, 3.88in = 2000yrs"	220	340	0	41.652	-70.787	0
4	Boldt et al.	A04E11	0	0	0	0	1680	65	30	"Figure 10, 3.88in = 2000yrs"	240	340	0	41.652	-70.787	0
4	Boldt et al.	A04E12	0	0	0	0	1580	75	20	"Figure 10, 3.88in = 2000yrs"	350	440	0	41.652	-70.787	0
4	Boldt et al.	A04E13	0	0	0	0	1540	80	20	"Figure 10, 3.88in = 2000yrs"	390	490	0	41.652	-70.787	0
4	Boldt et al.	A04E14	0	0	0	0	1380	70	20	"Figure 10, 3.88in = 2000yrs"	550	640	0	41.652	-70.787	0
4	Boldt et al.	A04E15	0	0	0	0	1180	60	60	"Figure 10, 3.88in = 2000yrs"	720	840	0	41.652	-70.787	0
4	Boldt et al.	A04E16	0	0	0	0	1140	60	80	"Figure 10, 3.88in = 2000yrs"	730	870	0	41.652	-70.787	0
4	Boldt et al.	A04E17	0	0	0	0	1130	50	95	"Figure 10, 3.88in = 2000yrs"	730	870	0	41.652	-70.787	0
4	Boldt et al.	A04E18	0	0	0	0	900	20	95	"Figure 10, 3.88in = 2000yrs"	960	1070	0	41.652	-70.787	0
4	Boldt et al.	A04E19	0	0	0	0	850	20	95	"Figure 10, 3.88in = 2000yrs"	1000	1120	0	41.652	-70.787	0
4	Boldt et al.	A04E20	0	0	0	0	810	20	90	"Figure 10, 3.88in = 2000yrs"	1050	1160	0	41.652	-70.787	0
4	Boldt et al.	A04E21	0	0	0	0	750	35	80	"Figure 10, 3.88in = 2000yrs"	1120	1240	0	41.652	-70.787	0
4	Boldt et al.	A04E22	0	0	0	0	680	50	50	"Figure 10, 3.88in = 2000yrs"	1220	1320	0	41.652	-70.787	0
4	Boldt et al.	A04E23	0	0	0	0	540	40	15	"Figure 10, 3.88in = 2000yrs"	1400	1450	0	41.652	-70.787	0
4	Boldt et al.	A04E24	0	0	0	0	520	15	15	"Figure 10, 3.88in = 2000yrs"	1420	1450	0	41.652	-70.787	0
4	Boldt et al.	A04E25	0	0	0	0	51	15	15	"Figure 10, 3.88in = 2000yrs"	1430	1460	0	41.652	-70.787	0
4	Boldt et al.	A04E26	0	0	0	0	450	15	15	"Figure 10, 3.88in = 2000yrs"	1490	1520	0	41.652	-70.787	0
4	Boldt et al.	A04E27	0	0	0	0	420	15	15	"Figure 10, 3.88in = 2000yrs"	1510	1540	0	41.652	-70.787	0
4	Boldt et al.	A04E28	0	0	0	0	410	15	15	"Figure 10, 3.88in = 2000yrs"	1530	1560	0	41.652	-70.787	0
4	Boldt et al.	A04E29	0	0	0	0	290	15	15	"Figure 10, 3.88in = 2000yrs"	1650	1680	0	41.652	-70.787	0
4	Boldt et al.	A04E30	0	0	0	0	210	15	15	"Figure 10, 3.88in = 2000yrs"	1730	1760	0	41.652	-70.787	0
5	Brandon et al.	A05E01	0	0	0	0	440	0	0	"Graph, 1in = 1000 years"	1510	1510	0	30.098	-84.341	1
5	Brandon et al.	A05E02	0	0	0	0	490	0	0	"Graph, 1in = 1000 years"	1460	1460	0	30.098	-84.341	1
5	Brandon et al.	A05E03	0	0	0	0	570	0	0	"Graph, 1in = 1000 years"	1380	1380	0	30.098	-84.341	5
5	Brandon et al.	A05E04	0	0	0	0	610	0	0	"Graph, 1in = 1000 years"	1340	1340	0	30.098	-84.341	3
5	Brandon et al.	A05E05	0	0	0	0	750	0	0	"Graph, 1in = 1000 years"	1200	1200	0	30.098	-84.341	3
5	Brandon et al.	A05E06	0	0	0	0	840	0	0	"Graph, 1in = 1000 years"	1110	1110	0	30.098	-84.341	2
5	Brandon et al.	A05E07	0	0	0	0	880	0	0	"Graph, 1in = 1000 years"	1070	1070	0	30.098	-84.341	3
5	Brandon et al.	A05E08	0	0	0	0	970	0	0	"Graph, 1in = 1000 years"	980	980	0	30.098	-84.341	3
5	Brandon et al.	A05E09	0	0	0	0	1020	0	0	"Graph, 1in = 1000 years"	940	940	0	30.098	-84.341	3
5	Brandon et al.	A05E10	0	0	0	0	1130	0	0	"Graph, 1in = 1000 years"	820	820	0	30.098	-84.341	2
5	Brandon et al.	A05E11	0	0	0	0	1310	0	0	"Graph, 1in = 1000 years"	640	640	0	30.098	-84.341	3
5	Brandon et al.	A05E12	0	0	0	0	1410	0	0	"Graph, 1in = 1000 years"	540	540	0	30.098	-84.341	3
5	Brandon et al.	A05E13	0	0	0	0	290	0	0	"Graph, 1in = 1000 years"	1660	1660	0	30.098	-84.341	2
5	Brandon et al.	A05E14	0	0	0	0	550	0	0	"Graph, 1in = 1000 years"	1400	1400	0	30.098	-84.341	1
5	Brandon et al.	A05E15	0	0	0	0	1390	0	0	"Graph, 1in = 1000 years"	560	560	0	30.098	-84.341	1
5	Brandon et al.	A05E16	0	0	0	0	1480	0	0	"Graph, 1in = 1000 years"	470	470	0	30.098	-84.341	4
5	Brandon et al.	A05E17	0	0	0	0	1550	0	0	"Graph, 1in = 1000 years"	400	400	0	30.098	-84.341	3
5	Brandon et al.	A05E18	0	0	0	0	1630	0	0	"Graph, 1in = 1000 years"	320	320	0	30.098	-84.341	2
5	Brandon et al.	A05E19	0	0	0	0	260	0	0	"Graph, 1in = 1000 years"	1690	1690	0	30.098	-84.341	1
5	Brandon et al.	A05E20	0	0	0	0	440	0	0	"Graph, 1in = 1000 years"	1510	1510	0	30.098	-84.341	1
5	Brandon et al.	A05E21	0	0	0	0	400	0	0	"Graph, 1in = 1000 years"	1550	1550	0	30.098	-84.341	1
5	Brandon et al.	A05E22	0	0	0	0	310	0	0	"Graph, 1in = 1000 years"	1640	1640	0	30.098	-84.341	2
5	Brandon et al.	A05E23	0	0	0	0	250	0	0	"Graph, 1in = 1000 years"	1700	1700	0	30.098	-84.341	1
5	Brandon et al.	A05E24	0	0	0	0	220	0	0	"Graph, 1in = 1000 years"	1730	1730	0	30.098	-84.341	1
5	Brandon et al.	A05E25	0	0	0	0	190	0	0	"Graph, 1in = 1000 years"	1760	1760	0	30.098	-84.341	1
5	Brandon et al.	A05E26	0	0	0	0	160	0	0	"Graph, 1in = 1000 years"	1790	1790	0	30.098	-84.341	2
5	Brandon et al.	A05E27	0	0	0	0	150	0	0	"Graph, 1in = 1000 years"	1800	1800	0	30.098	-84.341	2
5	Brandon et al.	A05E28	0	0	0	0	120	0	0	"Graph, 1in = 1000 years"	1830	1830	0	30.098	-84.341	2
5	Brandon et al.	A05E29	0	0	0	0	2010	0	0	"Graph, 1in = 1000 years"	-60	-60	0	30.098	-84.341	1
5	Brandon et al.	A05E30	0	0	0	0	110	5	5	"Graph, 1in = 80 years"	1850	1850	0	30.098	-84.341	2
5	Brandon et al.	A05E31	0	0	0	0	90	5	5	"Graph, 1in = 80 years"	1860	1860	0	30.098	-84.341	2
5	Brandon et al.	A05E32	0	0	0	0	60	6	6	"Graph, 1in = 80 years"	1890	1890	0	30.098	-84.341	2
5	Brandon et al.	A05E33	0	0	0	0	50	5	5	"Graph, 1in = 80 years"	1900	1900	0	30.098	-84.341	3
5	Brandon et al.	A05E34	0	0	0	0	10	11	11	"Graph, 1in = 80 years"	1940	1940	0	30.098	-84.341	2
6	Brandon et al.	A06E01	0	0	0	0	90	25	10	"Graph, 1in = 236 years"	1870	1870	0	40.520	-74.190	0
6	Brandon et al.	A06E02	0	0	0	0	130	29	61	"Graph, 1in = 236 years"	1820	1820	29	40.520	-74.190	0
6	Brandon et al.	A06E03	0	0	0	0	160	57	68	"Graph, 1in = 236 years"	1790	1790	57	40.520	-74.190	0
6	Brandon et al.	A06E04	0	0	0	0	260	82	113	"Graph, 1in = 236 years"	1690	1690	82	40.520	-74.190	0
9	Buynevich and Donnelly	A09E01	0	0	0	0	12	0	0	Figure 2	1938	1938	0	41.570	-70.640	0
9	Buynevich and Donnelly	A09E02	0	0	0	0	81	0	0	Figure 2	1869	1869	0	41.570	-70.640	0
9	Buynevich and Donnelly	A09E03	0	0	0	0	135	0	0	Figure 2	1815	1815	0	41.570	-70.640	0
9	Buynevich and Donnelly	A09E04	0	0	0	0	315	0	0	Figure 2	1635	1635	0	41.570	-70.640	0
9	Buynevich and Donnelly	A09E05	0	0	0	0	395	45	45	Figure 2	1510	1600	0	41.570	-70.640	0
9	Buynevich and Donnelly	A09E06	0	0	0	0	990	45	45	Figure 2	915	1005	0	41.570	-70.640	0
10	Buynevich et al.	A10E01	0	0	0	0	153	17	17	Figure 2A	1780	1814	0	43.740	-69.790	0
10	Buynevich et al.	A10E02	0	0	0	0	287	27	27	Figure 2A	1636	1690	0	43.740	-69.790	0
10	Buynevich et al.	A10E03	0	0	0	0	391	36	36	Figure 2A	1523	1595	0	43.740	-69.790	0
10	Buynevich et al.	A10E04	0	0	0	0	1545	170	170	Figure 2A	235	575	0	43.740	-69.790	0
12	Cochran et al.	A12E01	0	0	0	0	660	0	0	text	1290	1290	0	14.650	-84.240	0
12	Cochran et al.	A12E02	0	0	0	0	370	0	0	text	1580	1580	0	14.650	-84.240	0
12	Cochran et al.	A12E03	0	0	0	0	170	0	0	text	1780	1780	0	14.650	-84.240	0
18	Donnelly et al. 	A18E01	0	0	0	0	592	80	80	text	1278	1438	0	39.410	-74.360	3
18	Donnelly et al. 	A18E02	0	0	0	0	129	0	0	text	1821	1821	0	39.410	-74.360	3
19	Donnelly et al. 	A19E01	0	0	0	0	599	56	56	text	1295	1407	0	41.540	-70.630	0
19	Donnelly et al. 	A19E02	0	0	0	0	521	17	18	text	1411	1446	0	41.540	-70.630	0
19	Donnelly et al. 	A19E03	0	0	0	0	315	0	0	text	1635	1635	0	41.380	-71.520	0
19	Donnelly et al. 	A19E04	0	0	0	0	312	0	0	text	1638	1638	0	41.380	-71.520	0
19	Donnelly et al. 	A19E05	0	0	0	0	135	0	0	text	1815	1815	0	41.380	-71.520	0
20	Donnelly et al. 	A20E01	0	0	0	0	975	425	425	text	550	1400	0	39.190	-74.660	0
20	Donnelly et al. 	A20E02	0	0	0	0	1350	100	100	text	500	700	0	39.190	-74.660	0
24	Gischler et al.	A24E01	0	0	0	0	1305	0	0	text	645	645	0	17.310	-87.550	0
24	Gischler et al.	A24E02	0	0	0	0	1185	0	0	text	765	765	0	17.310	-87.550	0
24	Gischler et al.	A24E03	0	0	0	0	1155	0	0	text	795	795	0	17.310	-87.550	0
24	Gischler et al.	A24E04	0	0	0	0	1065	0	0	text	885	885	0	17.310	-87.550	0
24	Gischler et al.	A24E05	0	0	0	0	900	0	0	text	1050	1050	0	17.310	-87.550	0
24	Gischler et al.	A24E06	0	0	0	0	700	0	0	text	1250	1250	0	17.310	-87.550	0
24	Gischler et al.	A24E07	0	0	0	0	640	0	0	text	1310	1310	0	17.310	-87.550	0
24	Gischler et al.	A24E08	0	0	0	0	620	0	0	text	1330	1330	0	17.310	-87.550	0
24	Gischler et al.	A24E09	0	0	0	0	485	0	0	text	1465	1465	0	17.310	-87.550	0
24	Gischler et al.	A24E10	0	0	0	0	435	0	0	text	1515	1515	0	17.310	-87.550	0
24	Gischler et al.	A24E11	0	0	0	0	420	0	0	text	1530	1530	0	17.310	-87.550	0
24	Gischler et al.	A24E12	0	0	0	0	258	0	0	text	1692	1692	0	17.310	-87.550	0
24	Gischler et al.	A24E13	0	0	0	0	221	0	0	text	1729	1729	0	17.310	-87.550	0
24	Gischler et al.	A24E14	0	0	0	0	165	0	0	text	1785	1785	0	17.310	-87.550	0
27	Hippensteel and Garcia	A27E01	0	0	0	0	475	25	25	text	1450	1500	0	34.700	-76.683	0
27	Hippensteel and Garcia	A27E02	0	0	0	0	800	0	0	text	1150	1150	0	34.700	-76.683	0
39	Liu et al.	A39E01	0	0	0	0	166	0	0	text	1784	1784	0	30.289	-87.606	3
39	Liu et al.	A39E02	0	0	0	0	332	0	0	text	1618	1618	0	30.289	-87.606	3
39	Liu et al.	A39E03	0	0	0	0	583	0	0	text	1367	1367	0	30.289	-87.606	3
39	Liu et al.	A39E04	0	0	0	0	666	0	0	text	1284	1284	0	30.289	-87.606	3
39	Liu et al.	A39E05	0	0	0	0	1010	0	0	text	940	940	0	30.289	-87.606	3
39	Liu et al.	A39E06	1	920	50	50	860	140	80	table 1 + text	1010	1230	0	30.289	-87.606	4
39	Liu et al.	A39E07	1	1250	50	50	1170	110	110	table 1 + text	670	890	0	30.289	-87.606	4
47	Nikitina et al.	A47E01	0	0	0	0	50	25	25	section 5.1.1	1875	1925	0	39.328	-75.336	0
47	Nikitina et al.	A47E02	0	0	0	0	142	19	20	section 5.1.1	1788	1827	0	39.328	-75.336	0
47	Nikitina et al.	A47E03	0	0	0	0	365	58	59	section 5.1.1	1526	1643	0	39.328	-75.336	0
47	Nikitina et al.	A47E04	0	0	0	0	956	444	444	section 5.1.1	550	1438	0	39.328	-75.336	0
47	Nikitina et al.	A47E05	0	0	0	0	1652	83	84	section 5.1.1	214	381	0	39.328	-75.336	0
51	Scott et al. 	A51E01	0	0	0	0	-4	0	0	table 2	1954	1954	0	33.760	-78.790	0
51	Scott et al. 	A51E02	0	0	0	0	-39	0	0	table 2	1989	1989	0	33.760	-78.790	0
51	Scott et al. 	A51E03	0	0	0	0	520	0	0	table 2	1430	1430	0	33.760	-78.790	0
51	Scott et al. 	A51E04	0	0	0	0	667	0	0	table 2	1283	1283	0	33.760	-78.790	0
51	Scott et al. 	A51E05	0	0	0	0	738	0	0	table 2	1212	1212	0	33.760	-78.790	0
51	Scott et al. 	A51E06	0	0	0	0	927	0	0	table 2	1023	1023	0	33.760	-78.790	0
51	Scott et al. 	A51E07	0	0	0	0	1298	0	0	table 2	652	652	0	33.760	-78.790	0
51	Scott et al. 	A51E08	0	0	0	0	1727	0	0	table 2	223	223	0	33.760	-78.790	0
51	Scott et al. 	A51E09	0	0	0	0	2972	0	0	table 2	-1022	-1022	0	33.760	-78.790	0
51	Scott et al. 	A51E10	0	0	0	0	3179	0	0	table 2	-1229	-1229	0	33.760	-78.790	0
51	Scott et al. 	A51E11	0	0	0	0	5667	0	0	table 2	-3717	-3717	0	33.760	-78.790	0
56	Williams	A56E01	0	0	0	0	201	102	103	table 3	1646	1851	0	29.760	-93.600	3
56	Williams	A56E02	0	0	0	0	234	102	103	table 3	1613	1818	0	29.760	-93.600	3
56	Williams	A56E03	0	0	0	0	414	102	103	table 3	1433	1638	0	29.760	-93.600	3