tab delimited	contribution
id	version	timestamp	contributor	data_model_version	reference	description
14689	2	2006-12-19T08:06:16.000Z	@magic	3.0	10.1016/0012-821X(84)90177-8	Upgraded to MagIC Data Model 3.0 by the MagIC Database Team
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tab delimited	locations
location	location_type	result_name	result_type	method_codes	citations	geologic_classes	lithologies	geological_province_sections	lat_s	lat_n	lon_w	lon_e	continent_ocean	country	region	age_low	age_high	age_unit	dir_tilt_correction	dir_dec	dir_inc	dir_alpha95	dir_k	dir_k_ratio	dir_n_sites	dir_n_samples	fold_test_significance	fold_test	conglomerate_test	contact_test	reversal_test	pole_lat	pole_lon	pole_dp	pole_dm	pole_reversed_perc	description	rock_magnetic_test
Red Mountain Formation	Outcrop	724	i	 DE-DI : LT-AF-Z : LT-CHEM : LT-T-Z:LP-DC3 	This study	Sedimentary	hematiticsandstone	Red Mountain Formation	33.8	33.8	273.8	273.8	North America	U.S.A.	Alabama	299	318	Ma	100	150	20	3.5	64	4.57	27	228	99	F+	G-	ND	ND	38	132	1.9	3.7	100	Clinton-type iron ores. Deformation CU-PL Alleghenian orogeny. Char. comp. removed in first leaching, but high temp, high coer. . IRM (sat. 5T, but some sat. 0. 2T). Magnetization CRM acquired in CU from APWP. Conglomerate Test Parameters: 22 pebbles have k=170. . Conglomerate Test Significance: NO.	M
Red Mountain Formation	Outcrop	724	i	 DE-DI : LT-AF-Z : LT-CHEM : LT-T-Z:LP-DC3 	This study	Sedimentary	hematiticsandstone	Red Mountain Formation	33.8	33.8	273.8	273.8	North America	U.S.A.	Alabama	299	318	Ma	0	152	30		14		27		99	F+	G-	ND	ND	38	132	1.9	3.7	100	Clinton-type iron ores. Deformation CU-PL Alleghenian orogeny. Char. comp. removed in first leaching, but high temp, high coer. . IRM (sat. 5T, but some sat. 0. 2T). Magnetization CRM acquired in CU from APWP. Conglomerate Test Parameters: 22 pebbles have k=170. . Conglomerate Test Significance: NO.	M
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tab delimited	ages
location	age_low	age_high	age_unit	timescale_eon	timescale_era	timescale_period	timescale_epoch	method_codes	timescale_citations	citations
Red Mountain Formation	423	444	Ma	Phanerozoic	Paleozoic	Silurian	Llandovery : Wenlock	GM-FOSSIL	Gradstein et al. 2004	This study