Dr Simon M Hutchinson
Senior Lecturer in Environmental Science
Graduating from the University of Liverpool with a First Class Honours degree, my research career has focused on the exploitation of the environmental archives held in sedimentary deposits from lake sediments, peat bogs and flood plains to salt marshes and the intertidal zone. This theme now also extends to cave deposits including guano. Through post graduate and post doctoral (NERC Research Fellowship) posts in the UK and overseas my research has concentrated on the reconstruction and interpretation of human impacts and recent environmental change in particular, and has often included an applied dimension to its outputs e.g., research for Natural England planning the restoration of an important lake (e.g., Aqualate Mere) where an assessment of it’s sediments’ changing origins was required.
More recently I have developed active research links in Eastern Europe including the Czech Republic, Hungary and Romania where fieldwork has taken me to high mountain lakes and those created by landsliding in the Carpathian Mountains. Research in Romania also includes the investigation of both longer term (the last 50,000 to 15,000 years) and very recent (the last 50 years) environmental changes at sites in Transylvania. Previous research links have also developed a strong collaborative partnership in research and teaching with environmental scientists working on pollution related issues in the coastal zone of the Yangtze Estuary near Shanghai, China. I have also undertaken research and curriculum development projects in Australia, the Russian Federation and Switzerland.
My teaching expertise ranges across the Geography and Wildlife programs delivering modules from the Foundation Year Earth Studies module to Final Year optional modules such as Environmental Monitoring Techniques where a key element is linking both field and lab work to material delivered in the lecture room. I supervise both undergraduate and post graduate (MSc) research students, including those visiting through the ERASMUS program.
I also act as Placement Tutor for the Wildlife programs (an integrated part of the BSc (Hons) Wildlife and Practical Conservation and Wildlife Conservation with Zoo Biology programs) placing students annually in a range of organisations (e.g., conservation bodies, environmental charities, animal sanctuaries, game reserves, aquaria and zoos) across the UK and worldwide (e.g., Australia, Canada, China, Costa Rica, Ecuador, Ireland, Kenya, the Netherlands, New Zealand, South Africa, Spain, Tanzania, Thailand, USA).
My key research interests are in palaeolimnology; using sediment-based depositional records to reconstruct the impacts of environmental changes driven by both human and natural agents at timescales from the last full glacial, to the Holocene and the post industrial period (e.g., from the last 50,000 to the most recent 50 years). In little studied high mountain lakes in the Carpathian Mountains, this approach has helped to provide a record of human impacts via atmospheric deposition in an apparently pristine environment since the Industrial Revolution. It has also highlighted the legacy of some of the environment management challenges in this part of Eastern Europe inherited from the previous political regime, and on-going issues such as (sometimes illegal) forest clearance. This is particularly significant because of the high biodiversity and conservation potential of the region.
Working with specialists such as pollen experts, longer term lake sediment and peat studies have also provided important information about the relative importance of people and climate in determining how the landscape looks today. A 12,000 year record of environmental change from a lake in the Transylvanian Depression has allowed us to compare the sediment record and climatic model data. Potentially, this will allow us to better understand the impacts of future climate conditions on habitats. Sometimes these sedimentary archives of environmental change are relatively sparse and careful geomorphological research is required to find suitable sites e.g., peat accumulations trapped behind landslides in the east of the Czech Republic are currently being investigated.
I am also interested in the geomorphological impacts of human activities and their implications in terms of environmental management. Past human activities can both directly and indirectly leave a legacy of pollutants on earth surfaces. So-called legacy pollutants can provide important geoarchaeological information about past activities (e.g. metal smelting) and they can also effectively ‘tag’ soils and sediments allowing us to trace their movement through the landscape e.g., via soil erosion and through river systems. On-going research in the southern Pennines has employed atmospherically deposited lead (Pb) as marker for peat erosion. This has provided a useful tool for mapping small scale variations erosion (linked to high resolution maps created using remote sensing) at the restoration site on Bleaklow (Peak National Park) helping us to understand the patterns of both peat loss and deposition across the peat hags.
Legacy pollutants can be problematic when pollution levels exceed guidelines in areas used by people (especially when they are unaware of the soil’s contamination levels, as evidence of past industrial activity may be hard to detect). This is a particular issue when contamination affects floodplains and flood events remobilise these deposits. (This may become more of an issue if future climate change leads to an increase in such events). In the Mersey Estuary the planned use of selected areas around the site of the new bridge (near Runcorn-Widnes) for conservation are being carefully studied to ensure any contaminant (e.g., heavy metals deposited due to previous industrial activities) held in salt marsh sediments are not impacted by the use of cattle grazing as an environmental management tool.
In the field we use a range of coring equipment to sample sediments from lake beds and peat bogs, to floodplains and salt marshes. Short lake sediment cores can be quickly taken from a boat, but in certain environments it may be more convenient to sample from a frozen lake surface. This is certainly the case when the core is nearly 9 m in length! In the lab we employ a range of techniques to determine the physical characteristics of soils, peats and sediments and to determine a range of other parameters such as pollutants e.g., environmental magnetism, geochemistry, radioactivity and FTIR. In terms of communicating the results of these and other analyses, I have also worked with other specialists exploring the use of a range immersive environments (e.g., VR) to assist in the delivery of key messages and environmental awareness.
Qualifications and Memberships
PhD, University of Liverpool (1990)
BA (Hons) Geography, University of Liverpool (1986)
Quaternary Research Association
Romanian Limnological Association (Scientific and Technical Committee Member)
Editorial Board Member; Scientific Annals of Stefan Cel Mare University Suceava Geography Series
Haliuc, A., Veres, D., Brauer, A., Hubay, K., Hutchinson, S.M., Begy, R. Braun, M. (2017) Palaeohydrological changes during the mid and late Holocene in the Carpathian area, central-eastern Europe. Global and Planetary Change. DOI: 10.1016/j.gloplacha.2017.02.010
Florescu, G., Hutchinson, S.M., Kern, Z., Mîndrescu, M., Cristea, I.A., Mihaila, M. Lokas,E. Feurdean, A. (2017) Last 1000years of environmental history in Southern Bucovina, Romania: A high resolution multi-proxy lacustrine archive. Palaeogeography Palaeoclimatology Palaeoecology. DOI: 10.1016/j.palaeo.2017.01.047
Shuttleworth, E.J., Clay, G.D., Evans, M.G., Hutchinson, S.M., Rothwell, J.J. (2017) Contaminated sediment dynamics in peatland headwater catchments. Journal of Soils and Sediments. DOI: 10.1007/s11368-017-1674-8
Galka, M., Auninab, L., Feurdean, A., Hutchinson, S.M., Kolaczeka, P., Apolinarska, K. (2017) Rich fen development in CE Europe, resilience to climate change and human impact over the last ca. 3500 years. Palaeogeography Palaeoclimatology Palaeoecology 473, 1 57–72. DOI: 10.1016/j.palaeo.2017.02.030
Panait, A., Diaconu, A., Galka, M., Grindean, R., Hutchinson, S.M., Hickler, T., Lamentowicz, M., Mulch, A. Tantau, I., Werner, C., Feurdean, A. (2017) Hydrological conditions and carbon accumulation rates reconstructed from a mountain raised bog in the Carpathians: A multi-proxy approach. Catena152, 57–68. DOI: 10.1016/j.catena.2016.12.023
Feurdean, A., Florescu, G., Vannière, B., Tantau, I., O‘Hara,R.B., Pfeiffer, M., Hutchinson, S.M., Galka, M. Moskal-del Hoyo, M., Hickler, T. (2017) Fire has been an important driver of forest dynamics in the Carpathian Mountains during the Holocene. Forest Ecology and Management 389, 15–26. DOI: 10.1016/j.foreco.2016.11.046
Feurdean, A., Muntean, C., Kuemmerle, T., Nielsen, A.B., Hutchinson, S.M., Ruprecht, E., Parr, C.L., Persoiu, A., Hickler, T. (2016) Long-term land-cover/use change in a traditional farming landscape in Romania inferred from pollen data, historical maps and satellite images. Regional Environmental Change. DOI 10.1007/s10113-016-1063-7
Chudanicová, M., Hutchinson, S.M. (2016) Magnetic signature of overbank sediment in industry impacted floodplains identified by data mining methods. Geophysical Journal International 207, 2, 1106-1121.DOI: 10.1093/gji/ggw321
Chudanicová, M., Hutchinson, S.M., Hradecký, J.,Sedlácek, J.(2016) Environmental magnetism as a dating proxy for recent overbank sediments of (peri)-industrial regions in the Czech Republic and UK. Catena 142, 21–35. DOI: 10.1016/j.catena.2016.02.008
Haliuc, A., Hutchinson, S.M., Florescu, G. Feurdean, A. (2016) The role of fire in landscape dynamics: An example of two sediment records from the Rodna Mountains, northern Romanian Carpathians. Catena 137:432-440. DOI: 10.1016/j.catena.2015.10.021
Feurdean, A., Galka, M., Tantau, I., Geanta, A., Hutchinson, S.M., Hickler, T. (2016)
Tree and timberline shifts in the northern Romanian Carpathians during the Holocene and the responses to environmental changes. Quaternary Science Reviews 134,100-113. DOI: 10.1016/j.quascirev.2015.12.020
Vocadlová, K., Petr, L., Žácková, P., Krížek, M., Krížová, L., Hutchinson, S.M., Šobr, M. (2015) The Lateglacial and Holocene in Central Europe: A multi-proxy environmental record from the Bohemian Forest, Czech Republic. Catena.DOI: 10.1016/j.catena.2015.10.021
Feurdean, A., Galka, M.,Kuske, E., Tantau, I., Lamentowicz, M., Florescu, G., Liakka, J., Hutchinson, S.M., Mulch, A. Hickler, T. (2015) Last Millennium hydro-climate variability in Central-Eastern Europe (Northern Carpathians, Romania). The Holocene 25, 7, 1-14. DOI: 10.1177/0959683615580197
Hutchinson, S.M., Akinyemi, F.O., Mîndrescu, M., Begy, R., Feurdean, A. (2015) Recent sediment accumulation rates in contrasting lakes in the Carpathians (Romania): impacts of shifts in socio-economic regime. Regional Environmental Change 16, 2, 501-513. DOI: 10.1007/s10113-015-0764-7
Onac, B.P., Hutchinson, S.M., Geanta, A., Forray, F.L., Wynn, J.G., Giurgiu, A.M., Coroiu, I. (2015) A 2500-yr late Holocene multi-proxy record of vegetation and hydrologic changes from a cave guano-clay sequence in SW Romania. Quaternary Research, 83, 3, 437-448. DOI: 10.1016/j.yqres.2015.01.007.
Feurdean, A., Marinova, E., Nielsen, A.B., Liakka, J., Veres, D., Hutchinson, S.M., Braun, M., Timar-Gabor, A., Astalos, C., Mosburgger, V., Hickler, T. (2015) Origin of the forest steppe and exceptional grassland diversity in Transylvania (central-eastern Europe) Journal of Biogeography, 42, 5. DOI:10.1111/jbi.12468.
Shuttleworth, E.L., Evans, M.G., Hutchinson, S.M., Rothwell, J.J. (2015) Peatland restoration: controls on sediment production and reductions in carbon and pollutant export. Earth Surface Processes and Landforms 40, 4, 459-472.
Geanta, A., Galka, M., Tantau, I., Hutchinson, S. M., Mîndrescu, M. & Feurdean, A. (2014) High mountain region of the Northern Romanian Carpathians responded sensitively to Holocene climate and land use changes: a multi-proxy analysis. The Holocene 24, 8, 944-956.
Shuttleworth, E.L., Evans, M.G., Hutchinson, S.M., Rothwell, J.J. (2014) Assessment of lead contamination in peatlands using field portable XRF. Water, Air & Soil Pollution 225, 2.
Fitria, D., Scholz, M., Swift, G.M. & Hutchinson, S.M. (2014) Impact of Sludge Floc Size Composition on Dewaterability. Chemical Engineering & Technology 37, 3, 471–477.
Feurdean, A. Liakka, J., Vanniere, B., Marinova-Wolff, E., Hutchinson S.M., Mosburgger V. & Hickler, T. (2013) 12,000-years of fire regime drivers in the lowlands of Transylvania (Central Eastern-Europe): a data-model approach. Quaternary Science Reviews 81, 1 48–61.
Mîndrescu, M., Cristea A.I., Hutchinson, S.M., Florescu, G. & Feurdean, A. (2013) Interdisciplinary investigations of the first reported laminated lacustrine sediments in Romania. Quaternary International 293, 219-230.
Akinyemi, F.O., Hutchinson, S.M., Mîndrescu, M. & Rothwell, J.J. (2013) Lake sediment records of atmospheric pollution in the Romanian Carpathians. Quaternary International 293, 105-113.
Mîndrescu, M. & Hutchinson, S.M. (2012) Interdisciplinary cooperation and studies in geoscience in the Carpathian Basin. Georeview. 21, 1-7. doi:0.4316/GEOREVIEW.2012.21.1.51
Mîndrescu, M., Cristea, I.A. & Hutchinson, S.M. (2010) Bathymetric and sedimentological changes of glacial Lake Stiol, Rodna Massif. Carpathian Journal of Earth and Environmental Sciences, 5, 1, 57-65.
Hutchinson, S.M. & Armitage, R.P. (2009) A peat profile record of recent environmental events in the south Pennines (UK). Water, Air & Soil Pollution, 199, 1-4, 247-259.
Hutchinson, S.M. & Rothwell, J.J. (2008) Mobilisation of sediment-associated metals from historical Pb working sites on the River Sheaf, Sheffield, UK. Environmental Pollution, 155, 1, 61-71.