tab	contribution
id	doi	version	timestamp	magic_version	contributor	author	description
4290	Klootwijk et al. (1982)	1	2006-12-19T08:13:42.000Z	2.2	@magic		
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tab delimited	er_locations
er_location_name	location_type	location_begin_lat	location_begin_lon	location_end_lat	location_end_lon	continent_ocean	country	region	terrane	geological_province_section	location_class	location_lithology	location_description	er_citation_names
Blaini Limestone	Outcrop	30.2	78.4	30.2	78.4	Asia	India	Garhwal Himalaya	India	Blaini Limestone	Sedimentary	Limestone : shales	Krol Belt sedimentary sequence. Extent Thickness 14m. Strike 83-93/Dip 73-81S.	This study
Krol Belt sedimentary sequence, Post-folding	Outcrop	30.2	78.4	30.2	78.4	Asia	India	Garhwal Himalaya	India	Krol Belt	Sedimentary	Limestone : hales : diamictites	S-SW dips 54-97 degrees. .	This study
Krol Belt sedimentary sequence, Pre-folding	Outcrop	30.2	78.4	30.2	78.4	Asia	India	Garhwal Himalaya	India	Krol Belt	Sedimentary	Limestone : shales : diamictites	S-SW dips 54-97 degrees. .	This study
Krol-A Limestone	Outcrop	30.2	78.4	30.2	78.4	Asia	India	Garhwal Himalaya	India	Krol-A Limestone	Sedimentary	Limestone	Krol Belt sedimentary sequence. Extent Thickness 15. 5m. Strike 120-125/Dip 85S.	This study
Lower Blaini Diamictite	Outcrop	30.2	78.4	30.2	78.4	Asia	India	Garhwal Himalaya	India	Lower Blaini Diamictite	Sedimentary	Diamictite	Krol Belt sedimentary sequence. Extent Thickness 11. 5m. Strike 140-145/Dip 92-97 SW.	This study
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tab delimited	er_ages
er_location_name	age_range_low	age_range_high	age_unit	timescale_eon	timescale_era	timescale_period	timescale_epoch	magic_method_codes	er_timescale_citation_names	er_citation_names
Krol-A Limestone	200	299	Ma	Phanerozoic	Paleozoic : Mesozoic	Permian : Triassic	Cisuralian : Late Triassic	GM-CC-STRAT	Gradstein et al. 2004	This study
Blaini Limestone	271	318	Ma	Phanerozoic	Paleozoic	Carboniferous : Permian	Pennsylvanian : Cisuralian	GM-CC-STRAT	Gradstein et al. 2004	This study
Lower Blaini Diamictite	271	318	Ma	Phanerozoic	Paleozoic	Carboniferous : Permian	Pennsylvanian : Cisuralian	GM-CC-STRAT	Gradstein et al. 2004	This study
Krol Belt sedimentary sequence, Post-folding	65	318	Ma	Phanerozoic	Paleozoic : Mesozoic	Carboniferous : Cretaceous	Pennsylvanian : Late Cretaceous	GM-CC-STRAT	Gradstein et al. 2004	This study
Krol Belt sedimentary sequence, Pre-folding	65	318	Ma	Phanerozoic	Paleozoic : Mesozoic	Carboniferous : Cretaceous	Pennsylvanian : Late Cretaceous	GM-CC-STRAT	Gradstein et al. 2004	This study
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tab delimited	er_citations	MAGIC00392391
er_citation_name	long_authors	year	title	citation_type	journal	volume	pages	book_title	book_editors	publisher	city	iaga_database	iaga_ref_no
This study	Klootwijk, C.T., Jain, A.K. and Khorana, R.	1982	Palaeomagnetic constraints on allochthony and age of the Krol Belt sequence, Garhwal Himalaya, India	Journal	J.Geophys.	50	127-136					GPMDB	1502
Collinson 1983	Collinson, D.W.	1983		Book			503	Methods in rock magnetism and Paleomagnetism: Techniques and instrumentation		Chapman and Hall	London		
Cox & Doell 1960	Cox, A. and Doell, R.R.	1960	Review of paleomagnetism	Journal	Geological Society of America Bulletin	71	645						
Gradstein et al. 2004	Gradstein, F.M., Ogg, J.G. and Smith, A.G.	2004		Book			588	A Geologic Time Scale		Cambridge University Press	Cambridge		
McElhinny & McFadden 2000	McElhinny, M.W. and McFadden, P.L.	2000		Serial Book	International Geophysics Series	73	1-1	Paleomagnetism: continents and oceans	Dmowska, R., Holton, J.R. and Rossby, H.T.	Academic Press	San Diego		
Wilson 1961	Wilson, R.L.	1961	Palaeomagnetism in Northern Ireland, Part I. The thermal demagnetization of natural magnetic moments in rocks	Journal	Geophysical Journal London	5	45-58						
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tab delimited	pmag_results
pmag_result_name	er_location_names	data_type	fold_test	conglomerate_test	contact_test	reversal_test	rock_magnetic_test	pole_comp_name	average_lat	average_lon	average_age_low	average_age_high	average_age_unit	average_inc	average_dec	average_alpha95	average_n	average_nn	average_k	vgp_lat	vgp_lon	vgp_dp	vgp_dm	tilt_correction	percent_reversed	antipodal	normal_inc	normal_dec	normal_n	normal_k	normal_alpha95	reversed_inc	reversed_dec	reversed_n	reversed_k	reversed_alpha95	iaga_database	iaga_res_no	result_description	magic_method_codes	er_citation_names
770	Krol-A Limestone	i	ND	ND	ND	Ro	ND		30.2	78.4	200	299	Ma	-67.5	306.5	15	1	14	8	-3.5	289.5	21	25	100	57	166.4	-61	317	6	6	30	71.5	115	8	10	18.5	GPMDB	770	Thermal to 670C.	LP-DC4 : DE-DI : LT-T-Z	This study
771	Blaini Limestone	i	ND	ND	ND	Rc	ND		30.2	78.4	271	316	Ma	74.5	89.5	7.5	1	62	7	-26.5	291	12.5	13.5	100	76	170	-67	270	15	8.5	14	77	89.5	47	6.5	9	GPMDB	771	Thermal to 670C.	LP-DC4 : DE-DI : LT-T-Z	This study
772	Lower Blaini Diamictite	i	ND	ND	ND	Ro	ND		30.2	78.4	271	318	Ma	-72	354	12	1	23	7	2.5	261.5	18.5	21	100	48	158.2	-79	321	12	7	18	62	187.5	11	8.5	16.5	GPMDB	772	Thermal to 670C.	LP-DC4 : DE-DI : LT-T-Z	This study
773	Krol Belt sedimentary sequence, Post-folding	i	ND	ND	ND	Ro	ND	Post-folding	30.2	78.4	2	25	Ma	38	16	7	5	142	97	73	196	5	8.5	0	200												GPMDB	773	Post-folding. Thermal to 670C. Secondary component 'Late Tertiary age'. .	LP-DC4 : DE-DI : LT-T-Z	This study
774	Krol Belt sedimentary sequence, Pre-folding	i	ND	ND	ND	Ro	ND	Pre-folding	30.2	78.4	25	65	Ma	22.5	27	10	6	147	45	59	199	5.5	10.5	100	200												GPMDB	774	Prefolding. Thermal to 670C. Secondary component 'Middle to Early Tertiary age'. .	LP-DC4 : DE-DI : LT-T-Z	This study
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tab delimited	magic_methods
magic_method_code	method_type	method_definition	method_description	method_iaga7	method_url_tauxe	er_citation_names
DE-DI	Direction Estimation	Pole latitude and longitude calculation from mean declination-inclination		Ptype D		Cox & Doell 1960
GM-CC-STRAT	Geochronology Method	Correlation chronology: Stratigraphic succession				
LP-DC4	Lab Protocol	Principal component analysis carried out from analysis of Zijderveld diagrams		DC4	http://earthref.org/MAGIC/books/Tauxe/2005/lecture.16.htm#IAGA7	McElhinny & McFadden 2000
LT-T-Z	Lab Treatment	Specimen cooling: In zero field	Heating the specimen to the desired temperature step and then cooling in zero ambient magnetic field.	T	http://earthref.org/MAGIC/books/Tauxe/2005/lecture.09.htm#LT-TZ	Wilson 1961 : Collinson 1983