NGDC cited data catalogue

A list of all the formally cited datasets held by the NGDC showing the title, author(s) and the DOI which links to the landing page with metadata links and direct access to the data where appropriate.

Dataset title Dataset author(s) Digital Object Identifer
Biosphere Isotope Domains GB (V1): Interactive Website British Geological Survey: Jane Evans 10.5285/3b141dce-76fc-4c54-96fa-c232e98010ea
Biosphere Isotope Domain Map GB (V1): sulphur isotope data British Geological Survey: Carolyn Chenery 10.5285/d023376c-08e3-451b-9d57-de13f14726bd
Biosphere Isotope Domain Map GB (V1): strontium isotope data British Geological Survey: Jane Evans 10.5285/ba36de6f-5a20-476b-965d-48182166114a
Large river confluence numerical model output Professor Greg Sambrook Smith, University of Birmingham 10.5285/94da442e-2027-4ee0-b664-9f251eec681f
Bangladesh river bathymetry and seismic surveys Professor Greg Sambrook Smith, University of Birmingham 10.5285/21394db3-89db-4dd3-bec7-f25913edc919
Mississippian Bowland Shale dataset: from Hind Clough, Marl Hill 4 (MHD4) and Cominco S9 (Craven Basin, UK). Iron Speciation, total organic carbon and selected major and trace element geochemical data. Joseph F. Emmings (University of Leicester, British Geological Survey) 10.5285/f4dacd24-795b-482c-877f-0e4fda6fe6da
IODP Exp. 353 Site U1446 Indian Summer Monsoon proxies across Termination II Katrina Nilsson-Kerr, Open University 10.5285/061d77af-a805-4cf0-b969-0b8f042fae74
Bowland Shale dataset: field and sample photographs, sample descriptions, microphotographs, x-ray fluorescence, LECO elemental analysis, x-ray diffraction and RockEval pyrolysis from Hind Clough, MHD4 and Cominco S9 University of Leicester, British Geological Survey 10.5285/9ceadcad-a93c-4bab-8ca1-07b0de2c5ed0
Model output presented in the manuscript "Ocean circulation drifts in multi-millennial climate simulations: the role of salinity corrections and climate feedbacks" by Dentith et al. (2018) Jennifer Dentith, University of Leeds 10.5285/fce574c4-1a57-4559-9190-d20de085e55e
FIB-SEM and X-ray micro-tomographic images of carbonate rock dissolution during reactive CO2-saturated brine injection under reservoir conditions Kamaljit Singh (Qatar Carbonates and Carbon Storage Research Centre, Imperial College London)
Benaiah U. Anabaraonye (Qatar Carbonates and Carbon Storage Research Centre, Imperial College London)
Martin J Blunt (Qatar Carbonates and Carbon Storage Research Centre, Imperial College London)
John Crawshaw (Qatar Carbonates and Carbon Storage Research Centre, Imperial College London)
10.5285/31a77ab1-8f21-4a10-8540-034da0dece1e
Calcium looping pilot plant experimental data for UKCCSRC Call 2 project C2-209 'UK Demonstration of Enhanced Calcium Looping, and a First Global Demonstration of Advanced Doping Techniques' Edward Anthony, Cranfield University
Michal Jeremias, Cranfield University
10.5285/f9768ed8-c89c-4f4a-812b-cfe85926086a
Zeta potential measurements of the fluorcarbonate mineral parisite Camilla Owens, University of Exeter 10.5285/3c145498-37b5-4935-b5fe-baae2db64054
Experimental data from brine-CO2 flow-through test on a 45% porosity synthetic sandstone under shallow storage reservoirs conditions Ismael Falcon Suarez, National Oceanography Centre
Angus Ian Best, National Oceanography Centre
10.5285/739bf229-1f63-4ef9-ad90-3fb2cf5e2ad2
Lake Tana Seistec Boomer Data Dei G Huws, Bangor University

Richard Bates, University of St Andrews
10.5285/046d06dd-ecaf-4f4c-8ba1-2f0254549c5c
Lake Tana core XRF data Henry Lamb, Aberystwyth University 10.5285/6d51a239-1ea3-4271-9118-fb9a3757e7b5
2017 High frequency magnetic field induction coil data from Eskdalemuir Observatory, UK British Geological Survey 10.5285/25de906d-a3cd-4d64-8644-77f98aafeba6
2016 High frequency magnetic field induction coil data from Eskdalemuir Observatory, UK British Geological Survey 10.5285/aaf20915-1c3e-40f3-bc00-dafe593ff9e5
2015 High frequency magnetic field induction coil data from Eskdalemuir Observatory, UK British Geological Survey 10.5285/c09b051d-94ac-4aec-a49f-34d8b4cd1327
2014 High frequency magnetic field induction coil data from Eskdalemuir Observatory, UK British Geological Survey 10.5285/397aa96c-3377-4039-a417-3111f1522214
2013 High frequency magnetic field induction coil data from Eskdalemuir Observatory, UK British Geological Survey 10.5285/6c18b97e-860a-4c47-8872-bedbe953c2ab
2012 High frequency magnetic field induction coil data from Eskdalemuir Observatory, UK British Geological Survey 10.5285/6dcca520-47f2-45bd-9fd1-61354450d17d
Neoproterozoic carbonate geochemistry data: Svalbard and Scotland Ian Fairchild, University of Birmingham 10.5285/41ac1fb3-0fec-46ab-a0ee-7798c1ed2a89
High-resolution synchrotron X-ray micro-tomography datasets of multiphase fluid flow in carbonate rocks at reservoir pressure conditions Kamaljit Singh [Imperial College London]

Martin J Blunt [Imperial College London]
10.5285/4097dcae-a37e-4636-8711-a68f497e8826
UKCCSRC: Experimental data from brine-CO2 flow-through test on an Utsira Sand core sample at Sleipner reservoirs conditions Ismael Falcon Suarez [National Oceanography Centre]

Angus Ian Best [National Oceanography Centre]
10.5285/8e9bf6ce-de4d-45b1-9b09-a8b37f914eea
The BGS Lexicon of Named Rock Units (September 2017) British Geological Survey 10.5285/c683034e-8f52-4a9a-9913-83a065228e99
Calculating concentrations of geochemical tracers for monitoring CO2 stores Jennifer Roberts, University of Strathclyde 10.5285/e54b24cb-3f6a-4c41-a685-f8940f094589
Fracture interaction data supporting Thomas et al. 2017, ‘Quantification of fracture interaction using stress intensity factor variation maps’, JGR: Solid Earth Thomas R. N., Paluszny A., Zimmerman R. W. 10.5285/1c36b573-4c63-4d5b-8372-534843d2454a
Input data from the EARTHTIME uranium and lead (U–Pb) isotope tracer calibration experiment British Geological Survey 10.5285/a483a041-170a-4072-844e-c2c5d070a3e3
GeoSure Extra: Debris Flow Susceptibility Model for Great Britain (version 6.0) British Geological Survey 10.5285/6f46c720-cab3-4c2e-8dad-8bd2f8f1b4ae
Climate model data presented in manuscript "The 8.2 ka cooling event caused by Laurentide ice saddle collapse" by Matero et al. (2017) Ilkka Matero, School of Earth and Environment, University of Leeds 10.5285/0c40db60-6b1e-4564-9613-95a34a2ec3d9
Qatar Carbonates and Carbon Storage Research Centre: Doddington Sandstone Computed Tomography Rock Scan - 6.4µm - 161213 Qatar Carbonates and Carbon Storage Research Centre 10.5285/7d81fb72-4f0c-4221-a217-433fd88f0422
UKCCSRC Call 2 project data: Performance of Flow Meters with Dense Phase CO2 and CCS Recovery Streams Mercedes Maroto-valer, Heriot-Watt University

Mahmoud Nazerighojogh, Heriot-Watt University
10.5285/81ae6d10-8e06-4ba7-b596-ce1141527193
UK in-situ stress field orientation from borehole breakouts and drilling induced tensile fractures identified using borehole imaging British Geological Survey 10.5285/cb9c22d8-53f1-489f-b4d3-5d008d2a7841
BGS Geology - 50k (DiGMapGB-50) Superficial version 8 British Geological Survey 10.5285/5c2ffe0f-c37c-4c44-9dc3-64b9014326bc
BGS Geology - 50k (DiGMapGB-50) Mass Movement version 8 British Geological Survey 10.5285/33938fa8-16b1-44fd-baf2-5d2197a37e41
BGS Geology - 50k (DiGMapGB-50) Linear version 8 British Geological Survey 10.5285/df063ba2-008a-49f7-8727-176eb25fa65c
BGS Geology - 50k (DiGMapGB-50) version 8 British Geological Survey 10.5285/88d90a50-3e48-4501-8760-883af95f060f
BGS Geology - 50k (DiGMapGB-50) Bedrock version 8 British Geological Survey 10.5285/455f9151-61ae-479f-9916-f01d612ab66a
BGS Geology - 50k (DiGMapGB-50) Artificial version 8 British Geological Survey 10.5285/4ab5857b-713c-4ce0-bfe3-eaeef2f74b85
Experimental data from brine-CO2 flow-through test on a 26% porosity synthetic sandstone under shallow storage reservoirs conditions Ismael Falcon Suarez, National Oceanography Centre

Angus Ian Best, National Oceanography Centre
10.5285/d0e540c2-762c-4683-9b3e-3777e839b557
Experimental data from brine-CO2 flow-through test and geomechanical assessment test on a 38% porosity synthetic sandstone under shallow storage reservoirs conditions Ismael Falcon Suarez, National Oceanography Centre

Angus Ian Best, National Oceanography Centre
10.5285/c4a8bd9a-524c-4800-aaea-54b8859497bf
Data Accompanying: Stream and Slope Weathering Effects on Organic-rich Mudstone Geochemistry and Implications for Hydrocarbon Source Rock Assessment: A Bowland Shale Case Study Joe Emmings, University of Leicester

Sarah Davies, University of Leicester

Christopher Vane, British Geological Survey

Melanie Leng, NERC Isotopes Geosciences Facilities

Vicky Moss-Hayes, British Geological Survey

Michael Stephenson, British Geological Survey

Gawen Jenkin, University of Leicester
10.5285/c39a32b2-1a30-4426-8389-2fae21ec60ad
Cartogram and Choropleth communicative effectiveness – participant test results 2015 Holbrook, H W, and Cartwright, C E 10.5285/3be3b51f-f8ad-45a8-86b0-8a239de11994
North Sea Interactive Heriot-Watt University (individual datasets within created by BGS, NOC, Oil and Gas UK, DECC, OSPAR) 10.5285/f9c724ab-006b-4256-8553-928f23736ab2
3d laser scan of British Geological Survey GSM 118410, Plesiosaurus megacephalus; detail of flipper British Geological Survey doi:10.5285/c0261ad5-e4aa-409c-8cb7-7d56c4810d48
3d laser scan of British Geological Survey GSM 118410, Plesiosaurus megacephalus; detail of detachable section of rostrum British Geological Survey doi:10.5285/c10f5502-93fc-426a-91e0-7cb13a16e52c
3d laser scan of British Geological Survey GSM 118410, Plesiosaurus megacephalus; detail of underside of skull British Geological Survey doi:10.5285/224dfa9f-d793-43ad-a454-6bd95f8b6eb2
National Bedrock Fence Diagram of Great Britain — GB3D_v2012 British Geological Survey doi:10.5285/f60c6923-0bd2-4469-bc7a-9c0775453ac8
National Bedrock Fence Diagram of Great Britain — GB3D_v2014 British Geological Survey doi:10.5285/4d866cd2-c907-4ce2-b070-084ca9779dc2
Tellus South West airborne geophysical data (2014) British Geological Survey doi:10.5285/73848363-57c1-480a-a64e-c732e15c4b37
Rheology of three-phase suspensions J M Truby, University of Durham doi:10.5285/e729d509-a616-4787-bb41-44c1169685b6
Digital Geological Map Data of Great Britain — 10k (DiGMapGB-10) version 2 British Geological Survey doi:10.5285/f47d6d8f-a542-4637-b27f-8e77a5de8cec
Digital Geological Map Data of Great Britain — 10k (DiGMapGB-10) Artificial version 2 British Geological Survey doi:10.5285/a0a9d1ed-e0ac-45c9-8e14-d773ae9e8840
Digital Geological Map Data of Great Britain — 10k (DiGMapGB-10) Bedrock version 2 British Geological Survey doi:10.5285/56b53bf5-73c6-49f3-ba1d-96a82585f404
Digital Geological Map Data of Great Britain — 10k (DiGMapGB-10) Linear version 2 British Geological Survey doi:10.5285/5e3438e5-1aae-45f5-a366-36eaf9dda7c1
Digital Geological Map Data of Great Britain — 10k (DiGMapGB-10) Mass Movement version 2 British Geological Survey doi:10.5285/f77af33c-7358-453f-b60b-4fa078cbe976
Digital Geological Map Data of Great Britain — 10k (DiGMapGB-10) Superficial version 2 British Geological Survey doi:10.5285/c32d881e-180c-41f4-92c9-6aaf7044c66a
Digital Geological Map Data of Great Britain — 25k (DiGMapGB-25) version 2 British Geological Survey doi:10.5285/f2c8a5e8-ff09-4cd0-bef1-abed7db44fba
Digital Geological Map Data of Great Britain — 25k (DiGMapGB-25) Artificial version 2 British Geological Survey doi:10.5285/a20a72a4-3099-4065-ac24-e8bdb20f5e3f
Digital Geological Map Data of Great Britain — 25k (DiGMapGB-25) Bedrock version 2 British Geological Survey doi:10.5285/813f8f6b-af04-4c3b-8012-053382a6fb28
Digital Geological Map Data of Great Britain — 25k (DiGMapGB-25) Linear version 2 British Geological Survey doi:10.5285/3d907df9-1d85-4f8f-8a4f-8d2a78f7c2e7
Digital Geological Map Data of Great Britain — 25k (DiGMapGB-25) Mass Movement version 2 British Geological Survey doi:10.5285/bff65f7e-cbca-4016-82e5-40896fbb637c
Digital Geological Map Data of Great Britain — 25k (DiGMapGB-25) Superficial version 2 British Geological Survey doi:10.5285/93371485-5b34-4636-a825-151832fdef21
Digital Geological Map Data of Great Britain — 50k (DiGMapGB-50) version 7 British Geological Survey doi:10.5285/33054628-1276-4487-b9bd-cd5faa8a395c
Digital Geological Map Data of Great Britain — 50k (DiGMapGB-50) Artificial version 7 British Geological Survey doi:10.5285/60eab296-9af1-446a-9545-3a0fff8d17ad
Digital Geological Map Data of Great Britain — 50k (DiGMapGB-50) Bedrock version 7 British Geological Survey doi:10.5285/0155194d-e7cc-4ec5-97a4-5cbf536c46d7
Digital Geological Map Data of Great Britain — 50k (DiGMapGB-50) Linear version 7 British Geological Survey doi:10.5285/9659e97d-26d8-4805-b74a-44864c93a44f
Digital Geological Map Data of Great Britain — 50k (DiGMapGB-50) Mass Movement version 7 British Geological Survey doi:10.5285/29472019-7a32-42ef-b1be-b979b3527de4
Digital Geological Map Data of Great Britain — 50k (DiGMapGB-50) Superficial version 7 British Geological Survey doi:10.5285/19e8bfb4-1461-460a-ad24-932deaca6295
Digital Geological Map Data of Great Britain — 250k (DiGMapGB-250) version 4 British Geological Survey doi:10.5285/42e3e1b0-9c89-4337-a7e9-cdd6659d381c
Digital Geological Map Data of Great Britain — 250k (DiGMapGB-250) Bedrock version 4 British Geological Survey doi:10.5285/0f5ca600-96d8-41f1-8f7d-11bdf580f66a
Digital Geological Map Data of Great Britain — 250k (DiGMapGB-250) Linear version 4 British Geological Survey doi:10.5285/583cfc0a-8619-4002-bfb6-a105bad16a4c
Digital Geological Map Data of Great Britain — 625k (DiGMapGB-625) 2008 British Geological Survey doi:10.5285/d9c6923b-a339-48f7-b1cf-5c9bbb664ef5
Digital Geological Map Data of Great Britain — 625k (DiGMapGB-625) Bedrock Version 5 British Geological Survey doi:10.5285/e1a2ebc7-fe66-4deb-836c-f201f0f96a5b
Digital Geological Map Data of Great Britain — 625k (DiGMapGB-625) Dykes version 5 British Geological Survey doi:10.5285/c92967eb-0272-4d54-a290-4afb260e0ded
Digital Geological Map Data of Great Britain — 625k (DiGMapGB-625) Linear version 5 British Geological Survey doi:10.5285/170bae4c-dd20-4899-96be-299880e7f972
Digital Geological Map Data of Great Britain — 625k (DiGMapGB-625) Superficial version 4 British Geological Survey doi:10.5285/4124aa40-e77c-4856-b7bf-95daa34cd6f5