Geological Survey of Denmark and Greenland Bulletin 38, 2017, 1-8 1 GEOLOGICAL SURVEY OF DENMARK AND GREENLAND BULLETIN 38 • 2017 Review of Survey activities 2016 Edited by Adam A. Garde and Ole Bennike GEOLOGICAL SURVEY OF DENMARK AND GREENLAND DANISH MINISTRY OF ENERGY, UTILITIES AND CLIMATE 22 Geological Survey of Denmark and Greenland Bulletin 38 Key words Geological Survey of Denmark and Greenland, survey organisations, current research, Denmark, Greenland. Cover photographs from left to right 1. The traditional spear auger remains a principal tool in mapping Danish quaternary deposits, but can now be combined with short-range electromagnetic methods for specific purposes such as 3D delineation of contaminated landfill sites. Photograph: Jakob Lautrup 2. Elevation map around the stream of Hagens Møllebæk in north-west Jylland with the positions of measuring stations to determine the nitrate runoff from agricultural fields at different times of the year. 3. The monitoring of the surface conditions of the Greenland ice sheet by GEUS is an important tool fo understanding global climate change. Photograph: Baptiste Vandecrux. 4. Rescuing primary seismic data from the North Sea obtained by private exploration companies to a national electronic database at GEUS. Photograph: Peter Warna-Moors. Frontispiece: facing page Surface of Qagssimiut ice lobe ablation area, southern Greenland ice sheet, after a period of extended clear sky conditions that enabled a strong dark ice algal bloom registered in satellite imagery presented in Box et al. (2017, this volume). Aerial oblique photo near 61°11.006́ N, 46°42.333´W, 820 m elevation. Photo: Jason E. Box, 23 August 2014. Chief editor of this series: Adam A. Garde Editorial board of this series: John A. Korstgård, Department of Geoscience, Aarhus University; Minik Rosing, Geological Museum, University of Copenhagen; Finn Surlyk, Department of Geosciences and Natural Resource Management, University of Copenhagen Scientific editors: Adam A. Garde and Ole Bennike Editorial secretary: Jane Holst Referees (numbers refer to first page of reviewed article): Nicolaj K. Larsen & Lars Nielsen, DK (9); Anonymous & Ole Silkjær, DK (13); Peter K. Engesgaard & Bo V. Iversen, DK (17); John Korstgård & Lars Nielsen, DK (21); Thomas Balstrøm & Nicolaj K. Larsen, DK (25), Niels Balling & Reinhard Kirsch, DK (29); Anonymous & Allan Mahler, DK (33); Mikael Erlström, SE & Maciej I. Kotarba, PL (37); Jakob Keiding, NO & Vesa Nykänen, FI (41); Christopher Harrison, CA & Martin Sønderholm, DK (45); Michael K. Engkilde & Ida L. Fabricius, DK (49); Xavier Fettwis, BE & Teruo Aoki, JP (53); James H. Lever, US & Christopher J. Ries, DK (57); Anonymous & Jacob C. Yde, NO (61); Asger K. Pedersen, DK & Daniel Sopher, SE (65); Christian Holmegaard, DK & Martin L. Nayembil, UK (69); Jens Havskov, NO & Christopher J. Ries, DK (73). Illustrations: Benny M. Schark, Allan Lindy, Stefan Sølberg and Susanne Rømer Layout and graphic production: Jane Holst and Carsten E. Thuesen Printer: Rosendahls-Schultz Grafisk A/S, Albertslund, Denmark Manuscripts received: 12 January – 28 March 2017 Final versions approved: 15 March – 19 May 2017 Printed: 31 July 2017 ISSN (print) 1604-8156, ISBN (print) 978-87-7871-469-5 ISSN (online) 1904-4666, ISBN (online) 978-87-7871-470-1 Citation of the name of this series It is recommended that the name of this series is cited in full, viz. Geological Survey of Denmark and Greenland Bulletin. If abbreviation of this volume is necessary, the following form is suggested: Geol. Surv. Den. Green. Bull. 38, 76 pp. Available from Geological Survey of Denmark and Greenland (GEUS), Øster Voldgade 10, DK-1350 Copenhagen K, Denmark Phone: +45 38 14 20 00, fax: +45 38 14 20 50, e-mail: geus@geus.dk and at www.geus.dk/publications/bull © De Nationale Geologiske Undersøgelser for Danmark og Grønland (GEUS), 2017 For the full text of the GEUS copyright clause, please refer to www.geus.dk/publications/bull 3 44 25 Karst sinkhole mapping using GIS and digital terrain models P.B. Sørensen, H. Lykke-Andersen, P. Gravesen and B. Nilsson 29 Towards a geothermal exploration well in the Gassum Formation in Copenhagen H. Vosgerau, U. Gregersen, L. Kristensen, S. Lindström, A. Mathiesen, C.M. Nielsen, M. Olivarius and L.H. Nielsen 33 Pre-drilling geothermal assessment of porosity and permeability of the Bunter Sandstone Formation, onshore Denmark M.L. Hjuler and L. Kristensen 37 Generation and origin of natural gas in Lower Palaeozoic shales from southern Sweden N.H. Schovsbo and A.T. Nielsen Thailand Bangladesh Vietnam Cambodia Greenland Kenya Ethiopia Nigeria Cameroon Malawi Tanzania Denmark SwedenIceland Russia Ghana 7 Review of Survey activities 2016 F.G. Christiansen 9 Optimising geological mapping of glacial deposits using high-resolution electromagnetic induction data K.E.S. Klint, I. Møller, P.K. Maurya and A.V. Christiansen 13 Buried valleys in Denmark and their impact on the subsurface geological architecture P.B.E. Sandersen and F. Jørgensen 17 Nitrate transport pathways in riparian zones of the Hagens Møllebæk catchment, northern Denmark B. Nilsson, A.L. Højberg and P. Jensen 21 Structures and stratigraphy of Danian limestone, eastern Sjælland, Denmark P.R. Jakobsen, M.M. Rohde and E. Sheldon 5 Dark grey indicates countries where GEUS has ongoing or recently completed projects. Orange indicates countries with GEUS projects described in this volume. 41 Prospectivity mapping for orogenic gold in South- East Greenland B.H. Heincke and B.M. Stensgaard 45 Inversion structures as potential petroleum exploration targets on Nuussuaq and northern Disko, onshore West Greenland E.V. Sørensen, J.R. Hopper, G.K. Pedersen, H. Nøhr-Hansen, P. Guarnieri, A.K. Pedersen and F.G. Christiansen 49 Potential hydrocarbon reservoirs of Albian– Paleocene age in the Nuussuaq Basin, West Greenland M.L. Hjuler, N.H. Schovsbo, G.K. Pedersen and J.R. Hopper 53 Greenland, Canadian and Icelandic land-ice albedo grids (2000–2016) J.E. Box, D. van As, K. Ste�en and the PROMICE project team 57 New programme for climate monitoring at Camp Century, Greenland W. Colgan, S.B. Andersen, D. van As, J.E. Box and S. Gregersen 61 Asynchronous ice-sheet development along the central East Greenland margin: a GLANAM project contribution L.F. Pérez and T. Nielsen 65 �e rescue of seismic �eld data from exploration activities in the Danish North Sea M.M. Hansen and N. Rinds 69 An integrated public database for geology, groundwater and drinking water in Denmark M. Hansen and C.T. �omsen 73 Arctic geopolitics and the beginning of earthquake monitoring in Denmark and Greenland A.L.L. Jacobsen Thailand Bangladesh Vietnam Cambodia Greenland Kenya Ethiopia Nigeria Cameroon Malawi Tanzania Denmark SwedenIceland Russia Ghana 66 7 Review of Survey activities 2016 Flemming G. Christiansen Deputy Director 2016 was a year of transition in the international geological society. Like previous years, it was still a period with lots of reorganisation and cut-backs in the energy and mineral industry but also with obvious signs of an even more com- plex business pattern where well-organised geological data and easy access to geological knowledge will be strongly needed. Compared to the industry, and also to some of the authorities that are regulating the use of natural re- sources, GEUS has a high degree of continuity of both activities and personnel; in these years with strong focus on key strategic goals. This creates and develops a corpo- rate memory that can be easily applied even with sudden shifts of a political or business agenda. This also establishes GEUS as the starting point for getting access to geologi- cal information from Denmark and Greenland, and makes GEUS a natural collaboration partner nationally as well as internationally. Publication of results, both internationally and in our own series is a key factor for keeping a high scientific stand- ard and for documentation of this towards society, authori- ties and industry. This issue of GEUS’ Review of Survey activities shows like in previous years a broad spectrum with a total of 17 papers covering many different activi- ties. The papers give a good overview in their own right but with systematic references to background reports and other papers, they also provide an easy way to dig deep into the important work that GEUS is carrying out. Eight pa- pers are on Denmark, six on Greenland and three on other themes. Activities in Denmark GEUS works on many different – and often closely interre- lated – topics in Denmark such as the use of water, energy, and mineral resources, protection of nature under signifi- cant climatic changes, and by making up-to-date geologi- cal and geophysical data and information easily available for all sorts of purposes. The use of groundwater is very important for Denmark, and GEUS carries out many studies on water resources and their protection in connection with climate changes, environmental impact and domestic use. Systematic geo- logical and geophysical studies provide not only specific water data, but also give a much better understanding of the geological models that can be used to predict resources and regulate their use. One paper with a case study from Samsø describes how traditional geological mapping can be optimised by using high-resolution electromagnetic induction data. Another paper gives an overview of bur- ied valleys in Denmark, their geological architecture and very significant length, which has great implications for the groundwater resources in many parts of Denmark. A third paper gives a detailed description of nitrate transport pathways in one catchment area in northern Jylland where results from year-around monitoring can be used for plan- ning and regulating to meet the demands of the EU Water Framework Directive. In many areas in Denmark, chalk and limestone are directly exposed or found near terrain surface with only a thin cover of Quaternary deposits. Such deposits are im- portant as a mineral resource for many different purposes and due to their groundwater resources and they may also control structures in overlying sediments. One paper docu- ments the structures and stratigraphy of Danian limestone on eastern Sjælland, whereas another study uses GIS and digital terrain models to map karst sinkholes in areas of Jyl- land and to interpret the geological and climatic conditions and anthropogenic activities that influence their develop- ment. Denmark has a large potential for subsurface geother- mal energy and for heat and energy storage. Following the recent launching of the Geothermal WebGIS portal with all geological and geophysical data relevant for geothermal exploration, GEUS has continued with more detailed stud- ies of specific areas and on specific parameters. One pa- per gives a summary of a EUDP-supported project on the planning of exploration in urban areas of Copenhagen by targeting on shallower reservoirs in the Gassum Formation and by using smaller drilling rigs. Another paper has focus on the porosity and permeability variation of the Bunter Sandstone Formation that is a potential geothermal reser- voir in large onshore areas of southern Denmark. Shale-gas production has been a major game changer in the energy sector for quite some years, and we have seen © 2017 GEUS. Geological Survey of Denmark and Greenland Bulletin 38, 7–8. Open access: www.geus.dk/publications/bull 88 many studies of the resource potential and some explora- tion in Europe, including Denmark and southern Sweden. One paper gives a detailed description of the gas compo- sition and discuss biogenic versus thermogenic origin of gas in Lower Palaeozoic shales from scientific core holes in southern Sweden. Activities in Greenland Once again there was a high level of geological and gla- ciological activities in Greenland in 2016, both traditional studies with focus on the mineral and petroleum potential and exploration studies as well as monitoring and research related to climate changes and their effect. GEUS has been active with regional mapping and re- search in South-East Greenland for quite some years, and some of the geo-datasets are important for identifying ex- ploration targets. One paper argues for the possibility of orogenic gold deposits by using aeromagnetic and stream sediment geochemistry data in a minerals systems model. A large number of data and proxies maps have been applied to construct a final prospectivity map pointing towards the most interesting possibilities in the Tasiilaq area. The Nuussuaq Basin in West Greenland has served as an analogue geological model for offshore petroleum ex- ploration for decades but there may also be an onshore po- tential. As preparation for both off- and onshore licensing rounds, GEUS has compiled key data in a GIS model and re-studied especially the large-scale structures in more de- tail using photogrammetric mapping. One paper describes a very large inversion anticline on central Nuussuaq that could be an interesting drilling target. A revised migration pathway model is proposed; this could explain distribution of both oil and gas seeps outside the traditional area with common seepage. Another paper describes the reservoir properties of quite a number of sedimentary and volcanic successions of Aptian to Paleocene age in the Nuussuaq basin. Monitoring programmes of the Greenland ice sheet and research based on local ground truth data from stations on the ice – and from fjords and nearby offshore areas – are very important contributions from GEUS to global climate models. One paper gives an example of albedo grids meas- ured from satellite and checked with local data to give a much better de-noising and bias correlation. Another paper outlines a new climate monitoring and radar mapping pro- gramme in the Camp Century area in northern Greenland that will be managed by GEUS; some historical informa- tion and background models are also presented. A third paper describes the ice-sheet development along the cen- tral East Greenland margin in late Miocene to recent time where thick and different types of glacigenic deposits are interpreted using seismic data. Other themes As the national geological data center GEUS has a strong obligation to make all data available to authorities, edu- cational and research institutes and to private enterprises. The ever accelerating changes in technology make this a great challenge in terms of competence, capacity and eco- nomic resources, both for collection and quality control of the actual data and for the database and distribution systems. The value for society is, however, very high and there is a strong focus on digitalisation strategy in Den- mark these years. One paper describes the tremendous effort that was made to rescue most of the seismic field data from exploration activities in the 1980s and 1990s in the Danish North Sea and how successfully this worked in collaboration with the operators. Another paper introduces Jupiter, the integrated public database for geology, groundwater and drinking water in Denmark, and describes the data systems, agree- ments and management behind it. Finally, the last paper presents the early history of earth- quake monitoring in Denmark and Greenland, and dis- cusses how this was as geopolitically important more than a century ago as it is today.