Dr David Jordan teaches surveying, GIS, geophysics, remote-sensing, soil science, sensor technology, excavation skills, field science skills, numerical modelling, ground contamination science, ground-water dynamics and science communication on undergraduate and postgraduate programmes in Forensic Anthropology, Forensic Science, Geography, Civil Engineering and Journalism.
2010, University of Reading, United Kingdom, PhD Geophysics
1984, University of Aberdeen, United Kingdom, MSc Soil Science
1983, University of Bradford, United Kingdom, BSc Archaeological Science
Visiting Professor, Department of Archaeology and Tourism, University of Jordan, 2012 - 2014
Research Group Leader, Archaeological Prospection, Institute of Earth Sciences, Johannes Gutenberg University of Mainz, 2009 - 2014
Lecturer in Geoarchaeology, Institute of Archaeology, University of Bern, 2006 - 2009
Visiting Lecturer and Research Fellow, University of Birmingham, 1999 - 2005
Visiting Lecturer and Research Fellow, University of Wales, Trinity Saint David, 1997 - 2000
Visiting Lecturer and Research Fellow, Department of Geography, University of Hertfordshire, 1987 - 1993
Abdulredha MAA, Al Khaddar R, Kot P, Jordan D, Abdulridha A. 2018. Benchmarking of the Current Solid Waste Management System in Karbala, Iraq, Using Wasteaware Benchmark Indicators https://ascelibrary.org/doi/10.1061/9780784481417.004, World Environmental and Water Resources Congress >DOI
Abdulredha MAA, Al Khaddar R, Jordan D, Al-Attabi A, Alzeyadi A. 2017. Public participation in solid waste management during mega festivals: A pilot study WCST World Congress on Sustainable Technologies Proceedings 2017, World Congress on Sustainable Technologies :38-41
Choi Y, Lampel J, Jordan DW, Fiedler S, Wagner T. 2017. Identification of archaeological features through spectroscopic analysis. Geophysical Research Abstracts, European Geosciences Union General Assembly 2017 19 :10213-10213
Choi Y, Lampel J, Jordan D, Fiedler S, Wagner T. 2016. Detection of ‘archaeological features’ among reflectance spectra of natural soils and archaeological soils using principal component analysis Geophysical Research Abstracts, EGU 2016 18 :12933-12933
Koçak M, Mahler K-U, Berger F, Thierry-Hildenbrand B, Jordan DW. 2015. Studies on the Nabataean culture I : refereed proceedings of the International Conference on the Nabataean Culture : The Jordanian-German excavation in Petra 2012 - Methods and preliminary results Studies on the Nabataean culture I : refereed proceedings of the International Conference on the Nabataean Culture, International Conference on the Nabataean Culture
Choi Y, Lampel J, Jordan DW, Fiedler S, Wagner T. Distinguishing archaeological and non-archaeological signatures using principal component analysis Geophysical Research Abstracts, EGU 2018
Abdulredha MAA, AL khaddar RAFID, Jordan DAVID, Al-attabi A. Facing up to waste: how can hotel managers in Kerbala, Iraq, help the city deal with its waste problem? Creative Construction Conference 2017
Abdulredha MAA, AL khaddar RAFID, Jordan DAVID. Hoteliers’ attitude towards solid waste source separation through mega festivals: A pilot study in Karbala 3rd Doctoral Research Conference
Abdulredha MAA, AL khaddar RAFID, Jordan DAVID, Hashim KHALID. The development of a waste management system in Kerbala during major pilgrimage events: determination of solid waste composition Creative Construction Conference 2017
Foley SF, Gronenborn D, Andreae MO, Kadereit JW, Esper J, Scholz D, Pöschl U, Jacob DE, Schöne BR, Schreg R, Vött A, Jordan D, Lelieveld J, Weller CG, Alt KW, Gaudzinski-Windheuser S, Bruhn K-C, Tost H, Sirocko F, Crutzen PJ. 2013. The Palaeoanthropocene – The beginnings of anthropogenic environmental change Anthropocene, 3 :83-88 >DOI
Heinzelmann M, Jordan D, Murer C. 2010. Amiternum and the upper Aterno valley: a Sabine-Roman town and its territory Journal of Roman Archaeology, 23 :55-83 >DOI
Jordan DW. 2009. How effective is geophysical survey? A regional review Archaeological Prospection, 16 :77-90 >DOI
Abdulredha M, Al Khaddar R, Jordan DW, Kot P, Abdulridha A, Hashim K. Estimating solid waste generation by hospitality industry during major festivals: a quantification model based on multiple regression Waste Management,
Davenport P, Poole C, Jordan D. 2007. Archaeology in Bath Excavations at the New Royal Baths (the Spa) and Bellott's Hospital 1998-1999
Jordan DW, Haddon-Reece D, Bayliss A. 1994. Radiocarbon dates: from samples funded by English Heritage and dated before 1981 English Heritage. London 9781850744719
Jordan DW. 1987. The Resistivity Survey, Vilauba, Banyoles Excavaciones en la Villa Romana de Vilauba, Camos Diputacio Provincial de Girona. Girona
Jordan DW. 1983. Geophysical surveys at the site of the Villa Rustica at Vilauba and the Kiln site at Armadas, Ampurdan, Spain Geophysical Surveys 1982 University of Bradford, Department of Archaeological Sciences. Bradford, UK
Engagement & Impact
The Internet of the environment: new sensor technologies to address serious environmental problems., IEEE Workshop on IoT: Sensor Technologies, Applications & Entrepreneurship, Sensor City, Liverpool, Lecture and supporting Poster 17/10/2017
19th Annual Conference of the British Association for Biological Anthropology and Osteoarchaeology, Member of Scientific Committee, Session Chair and Session Co-convener., https://www.ljmu.ac.uk/conferences/babao
Fieldwork as Therapy: An international conference., Convener and Co-organiser
Fieldwork as Therapy: A workshop to develop national Good Practice guidelines., Co-organiser
Formby Floodwatch, Formby Parish Council, Technical advisor, http://www.formbyflood.uk/
Megger Ltd, Collaborative project to repurpose commercial electrical test equipment, of which Megger is a leading manufacturer, for environmental survey purposes. Megger instruments lead the field in the testing of electric power distribution systems. But they can also be used for other purposes, such as mapping buried infrastructure in advance of new construction. In this collaboration Dr Jordan is exploring with Megger the potential to spin-out a related business which will create new markets for Megger and provide training for LJMU students.
Skan Chronographs and Merseyside Police (collaboration partners)., Developing systems for the accreditation of projectile velocity measurements. Police laboratories are now required to gain accreditation for their own forensic measurements. There is, however, no agreed method to accredit the measurements provided by the standard Projectile Chronographs - instruments used to measure the velocity of projectiles from guns. In this project Dr Jordan has created a method to accredit the devices using the precise radio-timing signal transmitted by the National Physics Laboratory. This is in current development to first supplement and then replace a method developed by the manufacturer with his assistence, now being tested at LJMU. The work has led Dr Jordan to a new Chronograph design which is more robust, more precise and inherently self-calibrating against NPL standards. The next step will be to develop this device to prototype for testing.
Alstom UK, Electrical Systems collaborative development. This is a project, in actice development, to help Alstom improve various aspects of their railway power systems. Dr Jordan originally proposed a new system to collect power from 3rd-rail pickups and, separately, to map electrical resistivity distributions for railway sub-stations. The project now also includes new approaches to the power and velocity control of train driving bogies., http://www.alstom.com/uk
Membership of professional bodies:
Fellow of the Geological Society of London, The Geological Society of London, https://www.geolsoc.org.uk/
Member of the British Society of Soil Science, The British Society of Soil Science, http://www.soils.org.uk/
Member of the Chartered Institute of Field Archaeologists, The Chartered Institute of Field Archaeologists, http://www.archaeologists.net/
Other invited event:
Sub-surface Security for the Government of Jordan, KADDB, Amman, Jordan, A lecture and field workshop on current and future sub-surface threat detection which Dr Jordan gave to the Jordanian Armed Forces at the invitation of General Atef Tell and Colonel Dr. Hamdan. Dr Jordan remains in touch with JAF for the purpose of future collaborations.
Other Professional Activity:
School STEM subject outreach. Dr Jordan has a close working relationship with the teaching of STEM subjects at Formby High School. In 2017 he hosted a 6th-form student who held a Nuffield Foundation grant, studying soil chemistry and plant nutrition in the laboratory at LJMU. A further Nuffield placement will be offered in 2018.
Research collaboration with UCLAN at the TRACES research facility. In order to strengthen the baseline for research at the TRACES body-farm facility Dr Jordan carried out the first series of soil test pits and geophysical data recovery to build an initial model of soil functioning. This was very successful, revealing unexpected behaviours of significance to the interpretation of past research as well as the planning of future campaigns. Further survey will take place in 2018 and the site equiped for real-time soil water physical and chemical analysis using the new sensors systems which Dr Jordan has developed.
Environmental monitoring initiative. This is a major UK national and international initiative which Dr Jordan is leading, based on his own sensor development work. It has the potential to have an unusually large social and scientific impact worldwide. Dr Jordan is building a growing network of collaborators who are starting to make use of a new generation of environmental sensors which he has invented and which he is actively developing for testing and use. At present the partners include: UK Environment Agency, UK National Flood Forum, Nottingham University, Mahidol University, Royal Irrigation Department of the Government of Thailand and the UK Centre for Ecology & Hydrology (NERC). The new devices make it possible to monitor essential environmental parameters - especially the amount and behaviour of water in the ground - at very low cost and using designs which can be assembled by people with very little technical expertise anywhere in the world. The initial design of soil saturation depth sensors are already under test in Thailand as well as in the UK. The next generation will be installed in large numbers to monitor peat-bog survival and reconstruction in Malaysia. Further developments of the wider range of devices is underway with a range of funding sources both local (Formby Parish Council, Sefton Borough Council) and national (research funding council grants - equipment purchase funding, Environment Agency ...).