# Celestun Lagoon, Yucatan 5300 Year Foraminifera Census and Geochemistry
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# Online_Resource: https://www.ncdc.noaa.gov/paleo/study/29171 
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# Online_Resource: https://www1.ncdc.noaa.gov/pub/data/paleo/contributions_by_author/hardage2021/hardage2021foram.txt 
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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: 10.25921/qkc1-yw35
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# Parameter_Keywords: age control, carbon isotopes, geochemistry, population abundance, trace metals in carbonates, reconstruction
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# Contribution_Date
#    Date: 2021-11-08
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# File_Last_Modified_Date
#    Date: 2021-11-08
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# Title
#    Study_Name: Celestun Lagoon, Yucatan 5300 Year Foraminifera Census and Geochemistry
#---------------------------------------
# Investigators
#      Investigators: Hardage, K.; Street, J.; Herrera-Silveira, J.A.; Oberle, F.K.J.; Paytan, A.
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# Description_Notes_and_Keywords
#        Description: Foraminifera assemblage and geochemistry data from marginal marine estuary (Celestun Lagoon, Yucatan, Mexico) for reconstruction of paleoecology and paleoclimate
#         Provided Keywords: Holocene, Paleoecology, Paleoclimate, Foraminifera, Submarine Groundwater Discharge
#---------------------------------------
# Publication     
# Authors: Kyle Hardage, Joseph Street, Jorge A. Herrera-Silveira, Ferdinand K.J. Oberle, Adina Paytan 
# Published_Date_or_Year: 2022-02-01
# Published_Title: Late Holocene environmental change in Celestun Lagoon, Yucatan, Mexico
# Journal_Name: Journal of Paleolimnology
# Volume: 67
# Edition: 
# Issue: 2
# Pages: 131-162
# Report Number: 
# DOI: 10.1007/s10933-021-00227-4
# Online_Resource: https://link.springer.com/article/10.1007/s10933-021-00227-4
# Full_Citation: 
# Abstract: Epikarst estuary response to hydroclimate change remains poorly understood, despite the well-studied link between climate and karst groundwater aquifers. The influence of sea-level rise and coastal geomorphic change on these estuaries obscures climate signals, thus requiring careful development of paleoenvironmental histories to interpret the paleoclimate archives. We used foraminifera assemblages, carbon stable isotope ratios (d13C) and carbon:nitrogen (C:N) mass ratios of organic matter in sediment cores to infer environmental changes over the past 5300 years in Celestun Lagoon, Yucatan, Mexico. Specimens (> 125 um) from modern core top sediments revealed three assemblages: (1) a brackish mangrove assemblage of agglutinated Miliammina and Ammotium taxa and hyaline Haynesina (2) an inner-shelf marine assemblage of Bolivina, Hanzawaia, and Rosalina, and (3) a brackish assemblage dominated by Ammonia and Elphidium. Assemblages changed along the lagoon channel in response to changes in salinity and vegetation, i.e. seagrass and mangrove. In addition to these three foraminifera assemblages, lagoon sediments deposited since 5300 cal yr BP are comprised of two more assemblages, defined by Archaias and Laevipeneroplis, which indicate marine Thalassia seagrasses, and Trichohyalus, which indicates restricted inland mangrove ponds. Our data suggest that Celestun Lagoon displayed four phases of development: (1) an inland mangrove pond (5300 BP) (2) a shallow unprotected coastline with marine seagrass and barrier island initiation (4900 BP) (3) a protected brackish lagoon (3000 BP), and (4) a protected lagoon surrounded by mangroves (1700 BP). Stratigraphic (temporal) changes in core assemblages resemble spatial differences in communities across the modern lagoon, from the southern marine sector to the northern brackish region. Similar temporal patterns have been reported from other Yucatan Peninsula lagoons and from cenotes (Nichupte, Aktun Ha), suggesting a regional coastal response to sea level rise and climate change, including geomorphic controls (longshore drift) on lagoon salinity, as observed today. Holocene barrier island development progressively protected the northwest Yucatan Peninsula coastline, reducing mixing between seawater and rain-fed submarine groundwater discharge. Superimposed on this geomorphic signal, assemblage changes that are observed reflect the most severe regional wet and dry climate episodes, which coincide with paleoclimate records from lowland lake archives (Chichancanab, Salpeten). Our results emphasize the need to consider coastal geomorphic evolution when using epikarst estuary and lagoon sediment archives for paleoclimate reconstruction and provide evidence of hydroclimate changes on the Yucatan Peninsula.
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# Funding_Agency
#    Funding_Agency_Name: US National Science Foundation
#    Grant: Graduate Research Fellowship Program
#---------------------------------------
# Funding_Agency
#    Funding_Agency_Name: UC MEXUS
#    Grant: Faculty Grants
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# Funding_Agency
#    Funding_Agency_Name: Geological Society of America
#    Grant: Graduate Student Research Grants
#---------------------------------------
# Site Information
# Site_Name: Celestun Lagoon
# Location: North America>Mexico
# Country: Mexico
# Northernmost_Latitude: 20.9641
# Southernmost_Latitude: 20.7167
# Easternmost_Longitude: -90.3296
# Westernmost_Longitude: -90.4178
# Elevation: -1
#---------------------------------------
# Data_Collection
#   Collection_Name: Hardage2021foram
#   First_Year: 5330
#   Last_Year: -59
#   Time_Unit: cal yr BP
#   Core_Length: 2.69
#   Notes: FLAM-CEL09 includes multiple core sites with a primary (A) and secondary (B) core (1A, 2A, 3A, 3B, 4A, 4B, 5A, 6A, 6B, 7A, 7B, 8A, 9A). Ages derived from Bayesian R package 'rbacon' v.2.3.8 using IntCal13 of 14C and 210Pb.
#---------------------------------------
# Chronology_Information 
# Chronology: 
# 
# Labcode	depth_top	depth_bottom	mat.dated	14C.raw	14C.raw_err	datemeth	reservoir	delta-R	delta-R_err_lo	delta-R_err_up	calib.14C  	calib.14C_2sig_lo	calib.14C_2sig_up	calib_method            	rejected 	notes	
# CAMS #177919	30	31	macro organics	1485	30	14C AMS	NaN  NaN	NaN	NaN	369	153	697	IntCal13 in rBacon v.2.3.8	YES	core 4A-1P-1	
# CAMS #150117	60	61	macro organics	1865	25	14C AMS	NaN  NaN	NaN	NaN	1795	1652	1893	IntCal13 in rBacon v.2.3.8	NO	core 4A-1P-1	
# CAMS #150118	90	91	macro organics	1730	90	14C AMS	NaN  NaN	NaN	NaN	2184	1947	2444	IntCal13 in rBacon v.2.3.8	NO	core 4A-1P-1	
# CAMS #150119	148	149	macro organics	3170	25	14C AMS	NaN  NaN	NaN	NaN	3273	3034	3457	IntCal13 in rBacon v.2.3.8	NO	core 4A-1P-1	
# CAMS #150120	165	166	macro organics	3035	35	14C AMS	NaN  NaN	NaN	NaN	3425	3253	3633	IntCal13 in rBacon v.2.3.8	NO	core 4A-2B-1	
# CAMS #177920	193	194	macro organics	3550	35	14C AMS	NaN  NaN	NaN	NaN	3878	3709	4068	IntCal13 in rBacon v.2.3.8	NO	core 4A-2B-1	
# CAMS #147318	231	232	macro organics	4555	30	14C AMS	NaN  NaN	NaN	NaN	5018	4776	5181	IntCal13 in rBacon v.2.3.8	NO	core 4A-2B-1	
# CAMS #147319	265	266	macro organics	4060	40	14C AMS	NaN  NaN	NaN	NaN	5355	5244	5562	IntCal13 in rBacon v.2.3.8	NO	core 4A-3L-1	
# CAMS #150121	141	142	macro organics	4250	30	14C AMS	NaN  NaN	NaN	NaN	3150	2876	3381	IntCal13 in rBacon v.2.3.8	NO	core 4B-2B-1	
# CAMS #147320	236	237	macro organics	4655	30	14C AMS	NaN  NaN	NaN	NaN	5149	4986	5257	IntCal13 in rBacon v.2.3.8	NO	core 4B-3L-1	
# CAMS #147321	269	270	macro organics	4515	35	14C AMS	NaN  NaN	NaN	NaN	5383	5280	5614	IntCal13 in rBacon v.2.3.8	NO	core 4B-3L-1	
# CAMS #128506	96	97	macro organics	2820	35	14C AMS	NaN  NaN	NaN	NaN	2950	2823	3112	IntCal13 in rBacon v.2.3.8	NO	core UL-5	
# CAMS #128505	125	126	macro organics	3650	50	14C AMS	NaN  NaN	NaN	NaN	3925	3696	4099	IntCal13 in rBacon v.2.3.8	NO	core UL-5	
# CAMS #128504	178	179	macro organics	4410	35	14C AMS	NaN  NaN	NaN	NaN	4934	4549	5108	IntCal13 in rBacon v.2.3.8	NO	core UL-5	
# CAMS #128503	199	200	macro organics	4000	35	14C AMS	NaN  NaN	NaN	NaN	5216	4784	5516	IntCal13 in rBacon v.2.3.8	NO	core UL-5	
# CEL-5SPC_0-2cm	0	2	bulk sediment	NaN  NaN	210Pb Gamma	NaN	NaN	NaN	NaN	0.28	1.624	NaN	Constant rate of supply	YES	210Pb excess (dpm g-1)	
# CEL-5SPC_2-4cm	2	4	bulk sediment	NaN  NaN	210Pb Gamma	NaN	NaN	NaN	NaN	1.605	1.076	NaN	Constant rate of supply	YES	210Pb excess (dpm g-1)	
# CEL-5SPC_4-6cm	4	6	bulk sediment	NaN  NaN	210Pb Gamma	NaN	NaN	NaN	NaN	1.097	1.018	NaN	Constant rate of supply	YES	210Pb excess (dpm g-1)	
# CEL-5SPC_6-8cm	6	8	bulk sediment	NaN  NaN	210Pb Gamma	NaN	NaN	NaN	NaN	1.836	0.972	NaN	Constant rate of supply	NO	210Pb excess (dpm g-1)	
# CEL-5SPC_8-10cm	8	10	bulk sediment	NaN  NaN	210Pb Gamma	NaN	NaN	NaN	NaN	1.512	1.191	NaN	Constant rate of supply	NO	210Pb excess (dpm g-1)	
# CEL-5SPC_10-12cm	10	12	bulk sediment	NaN  NaN	210Pb Gamma	NaN	NaN	NaN	NaN	0.962	1.336	NaN	Constant rate of supply	NO	210Pb excess (dpm g-1)	
# CEL-5SPC_12-14cm	12	14	bulk sediment	NaN  NaN	210Pb Gamma	NaN	NaN	NaN	NaN	0.517	0.927	NaN	Constant rate of supply	NO	210Pb excess (dpm g-1)	
# 
#---------------------------------------
# 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_cm	depth,,,centimeter,,Paleoceanography,composited,gamma ray densitometry; magnetic susceptibility measurement with point or surface sensor,N,composite depth compiled from lithology and pwave velocity
## age_yrBP	age,,,calendar year before present,,Paleoceanography,resampled,accelerator mass spectrometry; Bayesian inference; Monte Carlo simulation,N,age derived from R package rBacon v.2.3.8
## age_lo	age,,95% confidence interval lower bound,calendar year before present,,Paleoceanography,resampled,accelerator mass spectrometry; Bayesian inference; Monte Carlo simulation,N,age derived from R package rBacon v.2.3.8
## age_up	age,,95% confidence interval upper bound,calendar year before present,,Paleoceanography,resampled,accelerator mass spectrometry; Bayesian inference; Monte Carlo simulation,N,age derived from R package rBacon v.2.3.8
## lat	latitude,,,degree north,,Paleoceanography,,,N,decimal degree
## long	longitude,,,degree west,,Paleoceanography,,,N,decimal degree
## sec_ID	sample identification,,,,,Paleoceanography,,,C,core section ID
## int_start	depth at sample start,,,centimeter,,Paleoceanography,raw,,N,
## int_end	depth at sample end,,,centimeter,,Paleoceanography,raw,,N,
## A_park	identified foraminifer,calcareous benthic foraminifer,,count,,Paleoceanography,raw,optical microscopy,N,Ammonia parkinsoniana
## A_tep	identified foraminifer,calcareous benthic foraminifer,,count,,Paleoceanography,raw,optical microscopy,N,Ammonia tepida
## A_pauc	identified foraminifer,calcareous benthic foraminifer,,count,,Paleoceanography,raw,optical microscopy,N,Ammonia pauciloculata
## E_poey	identified foraminifer,calcareous benthic foraminifer,,count,,Paleoceanography,raw,optical microscopy,N,Elphidium poeyanum
## E_gunt	identified foraminifer,calcareous benthic foraminifer,,count,,Paleoceanography,raw,optical microscopy,N,Elphidium gunteri
## E_galv	identified foraminifer,calcareous benthic foraminifer,,count,,Paleoceanography,raw,optical microscopy,N,Elphidium galvestonense
## E_lan	identified foraminifer,calcareous benthic foraminifer,,count,,Paleoceanography,raw,optical microscopy,N,Elphidium lanieri
## E_disc	identified foraminifer,calcareous benthic foraminifer,,count,,Paleoceanography,raw,optical microscopy,N,Elphidium discoidale
## H_germ	identified foraminifer,calcareous benthic foraminifer,,count,,Paleoceanography,raw,optical microscopy,N,Haynesina germanic
## D_agua	identified foraminifer,calcareous benthic foraminifer,,count,,Paleoceanography,raw,optical microscopy,N,Discorinopsis aguayoi
## T_trig	identified foraminifer,calcareous benthic foraminifer,,count,,Paleoceanography,raw,optical microscopy,N,Triloculina trigonula
## T_linn	identified foraminifer,calcareous benthic foraminifer,,count,,Paleoceanography,raw,optical microscopy,N,Triloculina linneiana
## Triloculina	identified foraminifer,calcareous benthic foraminifer,,count,,Paleoceanography,raw,optical microscopy,N,Triloculina sp.
## Q_bic	identified foraminifer,calcareous benthic foraminifer,,count,,Paleoceanography,raw,optical microscopy,N,Quinqueloculina bicarinata
## Q_linn	identified foraminifer,calcareous benthic foraminifer,,count,,Paleoceanography,raw,optical microscopy,N,Quinqueloculina linneiana
## Q_laev	identified foraminifer,calcareous benthic foraminifer,,count,,Paleoceanography,raw,optical microscopy,N,Quinqueloculina laevigata
## H_con	identified foraminifer,calcareous benthic foraminifer,,count,,Paleoceanography,raw,optical microscopy,N,Hanzawaia concentrica
## Rosalina	identified foraminifer,calcareous benthic foraminifer,,count,,Paleoceanography,raw,optical microscopy,N,Rosalina sp.
## C_invo	identified foraminifer,calcareous benthic foraminifer,,count,,Paleoceanography,raw,optical microscopy,N,Cornuspira involvens
## Bolivina	identified foraminifer,calcareous benthic foraminifer,,count,,Paleoceanography,raw,optical microscopy,N,Bolivina sp.
## L_pro	identified foraminifer,calcareous benthic foraminifer,,count,,Paleoceanography,raw,optical microscopy,N,Laevipeneroplis proteus
## A_ang	identified foraminifer,calcareous benthic foraminifer,,count,,Paleoceanography,raw,optical microscopy,N,Archaias angulatus
## Agglut	identified foraminifer,agglutinated foraminifer,,count,,Paleoceanography,raw,optical microscopy,N,Agglutinated sp.
## Other	identified foraminifer,calcareous benthic foraminifer,,count,,Paleoceanography,raw,optical microscopy,N,other foraminifers
## sum	total benthic foraminifers,,,count,,Paleoceanography,raw,optical microscopy,N,
## sed_mg	carbonate,dry sediment,,milligram,,Paleoceanography,raw,,N,
## d13C_org	delta 13C,organic matter; peat,,per mil VPDB,,Paleoceanography,averaged,dual-inlet isotope ratio mass spectrometry,N,decarbonated bulk sediment
## CN_org	carbon/nitrogen,organic matter; peat,,dimensionless,,Paleoceanography,averaged,dual-inlet isotope ratio mass spectrometry,N,decarbonated bulk sediment
#
#------------------------
# Data
# Data lines follow (have no #)
# Data line format - tab-delimited text, variable short name as header
# Missing Value: -999
depth_cm	age_yrBP	age_lo	age_up	lat	long	sec_ID	int_start	int_end	A_park	A_tep	A_pauc	E_poey	E_gunt	E_galv	E_lan	E_disc	H_germ	D_agua	T_trig	T_linn	Triloculina	Q_bic	Q_linn	Q_laev	H_con	Rosalina	C_invo	Bolivina	L_pro	A_ang	Agglut	Other	sum	sed_mg	d13C_org	CN_org
1.5	-49	-51	-47	20.91572	-90.35133	2-SPC	1	2	32	4	0	16	27	0	0	0	0	0	5	0	0	2	2	178	0	0	0	0	0	0	77	0	343	13.9	-23.74	9.5
3.5	-34	-39	-29	20.91572	-90.35133	2-SPC	3	4	42	6	0	19	35	0	0	0	5	0	4	0	0	0	0	153	0	0	0	0	0	0	50	0	314	17.4	-22.92	9.5
5.5	-21	-27	-14	20.91572	-90.35133	2-SPC	5	6	30	2	0	29	30	0	0	0	5	0	6	1	0	0	0	143	0	0	0	0	0	0	59	0	305	23.9	-22.92	9.5
1	-52.7	-53.8	-51.6	20.89378	-90.35576	5-SPC	0	2	49	6	1	17	24	5	0	0	9	0	1	0	0	5	2	97	0	0	0	0	0	0	88	0	304	-999	-22.46	9.9
3	-39	-42.3	-35.7	20.89378	-90.35576	5-SPC	2	4	75	8	0	39	55	0	0	0	13	0	2	0	0	8	1	171	0	0	0	0	0	0	60	0	432	-999	-22.46	9.9
5.5	-25	-30	-19	20.87832	-90.35671	1A-1P-1	5	6	59	9	1	35	63	0	0	0	19	0	7	2	0	0	0	133	0	0	0	0	0	0	35	0	363	29	-22.92	10.3
10.5	3	-10	16	20.87832	-90.35671	1A-1P-1	10	11	76	8	1	46	33	0	0	0	1	0	6	0	0	0	0	83	0	0	0	0	0	0	48	0	302	34.3	-22.14	10.3
3.5	-51.9	-56.3	-47.5	20.95005	-90.33698333	FIC15-1	3	4	39	20	0	34	31	0	0	0	7	0	2	0	0	0	0	189	0	0	0	0	0	0	37	0	359	17.2	-22.14	8.9
4.5	-48	-999	-999	20.95005	-90.33698333	FIC15-1	4	5	37	10	0	40	34	0	0	0	6	0	2	0	0	0	0	161	0	0	0	0	0	0	36	0	326	18.9	-23.64	8.9
5.5	-44.4	-51.3	-37.5	20.95005	-90.33698333	FIC15-1	5	6	65	16	0	28	30	0	0	0	5	0	2	0	0	0	0	142	0	0	0	0	0	0	25	0	313	21.3	-23.64	8.9
1.5	-59.4	-61.3	-57.5	20.83918333	-90.38801667	FIC15-5	1	2	78	6	0	49	48	7	0	0	1	0	42	0	0	5	6	87	0	0	1	0	0	0	0	0	330	103.6	-23.64	11.1
3.5	-51.9	-56.3	-47.5	20.83918333	-90.38801667	FIC15-5	3	4	169	12	0	64	124	0	0	0	13	0	157	1	0	0	12	62	0	0	2	0	0	0	1	0	617	12.1	-21.32	11.1
5.5	-44.4	-51.3	-37.5	20.83918333	-90.38801667	FIC15-5	5	6	107	4	0	38	85	0	0	0	3	0	74	0	1	0	5	27	1	0	0	0	0	0	0	0	345	17.3	-21.32	11.1
2.5	-55	-999	-999	20.85218333	-90.38348333	FIC15-6	2	3	68	4	2	33	57	0	0	0	8	0	85	10	4	0	5	28	1	1	0	2	0	0	1	0	309	5.1	-21.32	10.8
3.5	-51.9	-56.3	-47.5	20.85218333	-90.38348333	FIC15-6	3	4	85	8	0	33	64	0	0	3	14	0	71	5	0	1	0	18	1	0	1	0	0	0	0	1	305	4.8	-21.59	10.8
5.5	-44.4	-51.3	-37.5	20.85218333	-90.38348333	FIC15-6	5	6	222	0	0	23	168	0	0	1	0	0	65	0	0	1	0	9	0	0	0	0	0	0	0	0	489	8.5	-21.59	10.8
2.5	-55	-999	-999	20.86073333	-90.37615	FIC15-7	2	3	85	5	0	42	64	0	0	0	12	0	81	0	0	2	0	22	0	0	0	0	0	0	1	0	314	8.8	-21.59	10.6
3.5	-51.9	-56.3	-47.5	20.86073333	-90.37615	FIC15-7	3	4	75	4	0	41	67	0	0	0	8	0	74	6	1	2	3	15	0	0	0	0	0	0	0	8	304	14.2	-21.77	10.6
5.5	-44.4	-51.3	-37.5	20.86073333	-90.37615	FIC15-7	5	6	70	5	0	33	72	0	0	0	7	0	72	3	0	0	0	21	0	0	0	0	0	0	0	17	300	20.1	-21.77	10.6
2.5	-55	-999	-999	20.87176667	-90.36655	FIC15-8	2	3	171	11	0	52	43	0	0	0	5	0	74	4	0	0	0	36	0	0	0	0	0	0	0	17	413	27.7	-21.77	10.4
3.5	-51.9	-56.3	-47.5	20.87176667	-90.36655	FIC15-8	3	4	175	0	0	9	54	0	0	0	1	0	46	0	0	0	0	28	0	0	0	0	0	0	9	10	332	13.3	-22	10.4
5.5	-44.4	-51.3	-37.5	20.87176667	-90.36655	FIC15-8	5	6	123	8	0	43	31	0	0	0	9	0	34	0	0	1	2	57	0	0	0	0	0	0	22	0	330	20.4	-22	10.4
2.5	-48	-54	-43	20.81873	-90.39037	7A-1P-1	2	3	126	1	0	14	100	0	0	0	1	0	35	0	0	0	0	19	0	2	2	0	0	0	0	6	306	11.6	-22	11.5
7.5	-35	-43	-25	20.81873	-90.39037	7A-1P-1	7	8	182	7	0	55	159	7	0	0	16	0	55	4	0	0	1	14	0	3	1	0	0	0	0	0	504	13.7	-20.89	11.5
3.5	-40	-44	-37	20.87307	-90.367	8A-1P-1	3	4	87	11	0	31	54	0	0	0	14	0	38	5	0	0	0	57	0	0	0	0	0	0	26	0	323	25	-20.89	10.4
7.5	-17	-23	-10	20.87307	-90.367	8A-1P-1	7	8	96	6	0	29	55	0	0	0	6	0	43	0	0	3	0	51	0	0	0	0	0	0	17	0	306	25.8	-22.03	10.4
5.5	-20	-27	-14	20.95478	-90.33543	4A-1P-1	5	6	35	2	0	50	8	0	0	0	10	0	4	0	0	0	0	187	0	0	0	0	0	0	18	0	314	15.8	-24.04	8.4
12.5	30	9	53	20.95478	-90.33543	4A-1P-1	12	13	51	6	0	17	14	0	0	0	18	0	0	0	0	0	0	228	0	0	0	0	0	0	14	0	348	9.1	-24.09	8.1
17.5	101	35	220	20.95478	-90.33543	4A-1P-1	17	18	73	16	0	44	21	0	0	0	0	0	4	0	0	1	0	127	0	0	0	0	0	0	26	0	312	14.5	-24.15	7.6
24.5	251	83	529	20.95478	-90.33543	4A-1P-1	24	25	128	3	0	23	43	0	0	0	0	0	1	0	0	0	0	58	0	0	0	0	0	0	45	0	301	24.3	-24.11	7
27.5	317	120	613	20.95478	-90.33543	4A-1P-1	27	28	83	2	1	30	47	0	0	0	0	0	0	0	0	0	0	66	0	0	0	0	0	0	77	0	306	13.7	-24.11	7.1
33.5	448	162	922	20.95478	-90.33543	4A-1P-1	33	34	221	2	4	14	35	0	0	0	0	0	0	0	0	0	0	4	0	0	0	0	0	0	29	0	309	27.3	-24.05	6.9
37.5	1313	786	1648	20.95478	-90.33543	4A-1P-1	37	38	175	0	2	13	68	1	0	0	0	0	0	0	0	0	0	5	0	0	0	0	0	0	41	0	305	28.7	-23.76	7
45.5	1488	1100	1739	20.95478	-90.33543	4A-1P-1	45	46	53	1	1	11	24	1	0	0	0	0	6	0	0	0	0	54	0	0	0	0	0	0	162	0	313	26.7	-23.57	7.9
55.5	1693	1452	1850	20.95478	-90.33543	4A-1P-1	55	56	74	2	1	9	15	6	0	0	0	0	7	0	0	0	0	47	0	0	0	0	0	0	166	0	327	17.3	-23.27	7.9
65.5	1864	1707	2004	20.95478	-90.33543	4A-1P-1	65	66	183	1	2	15	62	33	0	0	0	0	2	0	0	0	1	26	0	0	0	0	0	0	53	0	378	25	-23.01	7.9
75.5	1989	1799	2189	20.95478	-90.33543	4A-1P-1	75	76	224	0	3	14	74	80	0	0	0	0	2	0	0	0	1	3	0	0	0	0	0	0	23	0	424	27.8	-22.27	8.9
85.5	2115	1898	2332	20.95478	-90.33543	4A-1P-1	85	86	159	1	0	16	66	45	0	0	0	0	2	0	0	0	0	19	0	0	0	0	0	0	3	0	311	19.1	-21.56	9.7
95.5	2263	2008	2517	20.95478	-90.33543	4A-1P-1	95	96	112	1	3	23	61	37	0	0	0	0	12	0	0	0	0	57	0	0	0	0	0	0	3	0	309	14.5	-21.45	9.3
105.5	2460	2164	2754	20.95478	-90.33543	4A-1P-1	105	106	291	1	1	29	128	68	0	0	0	0	1	0	0	9	0	19	2	0	0	0	0	0	7	0	556	21.9	-21.44	8.6
109.5	2538	2229	2855	20.95478	-90.33543	4A-1P-1	109	110	256	1	2	5	161	68	0	0	0	0	0	0	0	2	0	4	0	0	0	0	0	0	3	0	502	30.5	-21.33	8.4
120.5	2751	2431	3047	20.95478	-90.33543	4A-1P-1	120	121	172	1	0	26	108	29	0	0	0	0	2	0	0	0	0	4	0	0	0	0	0	0	1	0	343	49.6	-21.3	7.8
128.5	2904	2605	3170	20.95478	-90.33543	4A-1P-1	128	129	295	2	0	30	155	46	0	0	0	0	0	0	0	0	0	4	0	0	0	0	0	0	6	0	538	26.5	-21.24	7.4
140.5	3128	2833	3376	20.95478	-90.33543	4A-1P-1	140	141	178	2	0	119	43	12	1	0	1	0	10	0	0	3	0	9	1	0	0	3	0	0	4	0	386	16.8	-20.29	7.9
145.5	3223	2966	3434	20.95478	-90.33543	4A-1P-1	145	146	205	1	0	47	30	9	0	0	1	0	0	0	0	1	0	3	2	0	0	8	0	0	7	0	314	14.2	-19.82	8.4
150.5	3301	3062	3483	20.95478	-90.33543	4A-1P-1	150	151	292	2	0	39	28	10	1	1	3	0	7	1	0	0	1	1	2	0	0	1	0	0	0	0	389	26.5	-19.27	9.2
153.5	3328	3098	3514	20.95478	-90.33543	4A-2B-1	2	3	177	0	0	27	83	13	0	0	1	0	10	0	0	2	0	0	0	0	0	1	0	0	0	0	314	25.8	-19.38	8.9
161.5	3392	3204	3594	20.95478	-90.33543	4A-2B-1	10	11	290	0	0	16	28	9	0	0	1	0	0	0	0	0	0	0	0	0	0	0	0	1	0	0	345	46.3	-19.43	8.2
171.5	3489	3334	3697	20.95478	-90.33543	4A-2B-1	20	21	172	3	0	308	28	4	1	1	9	0	22	2	17	2	26	22	0	0	0	29	0	0	2	0	648	28.1	-19.61	7.8
181.5	3663	3477	3869	20.95478	-90.33543	4A-2B-1	30	31	185	0	0	23	18	5	0	0	1	0	0	0	0	0	0	1	0	0	0	0	0	0	0	0	233	30.5	-19.72	7.3
190.5	3819	3634	4009	20.95478	-90.33543	4A-2B-1	39	40	49	4	0	123	12	4	0	2	3	0	41	3	13	1	12	23	2	0	0	13	0	1	1	0	307	10	-19.64	7.5
196.5	3935	3790	4118	20.95478	-90.33543	4A-2B-1	45	46	37	3	1	132	18	8	0	0	1	0	27	1	15	4	19	5	3	0	1	12	0	0	1	0	288	9.7	-19.59	7.8
206.5	4230	3990	4538	20.95478	-90.33543	4A-2B-1	55	56	63	2	1	81	8	2	0	0	0	0	69	2	8	2	44	15	1	1	2	11	0	0	0	0	312	16.6	-19.38	8.2
216.5	4550	4216	4887	20.95478	-90.33543	4A-2B-1	65	66	178	3	2	75	24	10	0	0	2	0	17	0	4	0	22	5	0	0	0	0	0	0	0	0	342	29.5	-19.5	8.6
222.5	4735	4391	5015	20.95478	-90.33543	4A-2B-1	71	72	271	1	0	9	11	12	0	0	0	0	0	0	0	0	0	0	0	0	0	0	0	0	1	7	312	134	-20.34	9
229.5	4952	4637	5152	20.95478	-90.33543	4A-2B-1	78	79	327	8	8	108	57	55	4	1	0	16	4	1	0	1	1	5	0	0	0	0	7	17	2	0	622	0	-22.25	13.6
234.5	5116	4945	5224	20.95478	-90.33543	4A-2B-1	83	84	44	0	0	78	2	0	0	0	0	79	8	0	0	0	2	0	0	0	0	0	0	0	0	28	241	126.1	-23.54	16.6
241.5	5195	5032	5309	20.95478	-90.33543	4A-2B-1	90	91	46	14	0	37	0	0	0	0	0	61	21	0	0	0	0	7	0	0	0	0	0	0	0	70	256	129.1	-25.05	20.8
250.5	5256	5111	5416	20.95478	-90.33543	4A-2B-1	99	100	23	9	0	24	0	0	0	0	0	141	38	0	0	0	0	3	0	0	0	0	0	0	0	12	250	123.4	-26.84	26.4
256.5	5296	5161	5476	20.95478	-90.33543	4A-2B-1	105	106	1	2	0	2	0	0	0	0	0	293	15	0	0	0	0	43	0	0	0	0	0	0	1	30	387	70.8	-27.25	24.3
261.5	5330	5211	5526	20.95478	-90.33543	4A-3L-1	3	4	19	3	0	2	0	0	0	0	0	225	13	0	0	0	0	9	0	0	0	0	0	0	0	4	275	51.3	-27.96	20.2