Your search keyword '"Thomas G. Sim"' showing total 15 results

1. Recent climate change has driven divergent hydrological shifts in high-latitude peatlands

Author

Hui Zhang, Minna Väliranta, Graeme T. Swindles, Marco A. Aquino-López, Donal Mullan, Ning Tan, Matthew Amesbury, Kirill V. Babeshko, Kunshan Bao, Anatoly Bobrov, Viktor Chernyshov, Marissa A. Davies, Andrei-Cosmin Diaconu, Angelica Feurdean, Sarah A. Finkelstein, Michelle Garneau, Zhengtang Guo, Miriam C. Jones, Martin Kay, Eric S. Klein, Mariusz Lamentowicz, Gabriel Magnan, Katarzyna Marcisz, Natalia Mazei, Yuri Mazei, Richard Payne, Nicolas Pelletier, Sanna R. Piilo, Steve Pratte, Thomas Roland, Damir Saldaev, William Shotyk, Thomas G. Sim, Thomas J. Sloan, Michał Słowiński, Julie Talbot, Liam Taylor, Andrey N. Tsyganov, Sebastian Wetterich, Wei Xing, and Yan Zhao

Subjects

Science

Abstract

A recent synthesis study found 54% of the high-latitude peatlands have been drying and 32% have been wetting over the past centuries, illustrating their complex ecohydrological dynamics and highly uncertain responses to a warming climate.

Published

2022

2. Ecology of peatland testate amoebae in Svalbard and the development of transfer functions for reconstructing past water-table depth and pH

Author

Thomas G. Sim, Graeme T. Swindles, Paul J. Morris, Andy J. Baird, Dan J. Charman, Matthew J. Amesbury, Dave Beilman, Alex Channon, and Angela V. Gallego-Sala

Subjects

Testate amoebae, Transfer function, High Arctic, Palaeohydrology, Ecology, Trophic gradient, QH540-549.5

Abstract

Peatlands are valuable archives of information about past environmental conditions and represent a globally-important carbon store. Robust proxy methods are required to reconstruct past ecohydrological dynamics in high-latitude peatlands to improve our understanding of change in these carbon-rich ecosystems. The High Arctic peatlands in Svalbard are at the northern limit of current peatland distribution and have experienced rapidly rising temperatures of 0.81 °C per decade since 1958. We examine the ecology of peatland testate amoebae in surface vegetation samples from permafrost peatlands on Spitsbergen, the largest island of the Svalbard archipelago, and develop new transfer functions to reconstruct water-table depth (WTD) and pH that can be applied to understand past peatland ecosystem dynamics in response to climate change. These transfer functions are the first of their kind for peatlands in Svalbard and the northernmost developed to date. Multivariate statistical analysis shows that WTD and pore water pH are the dominant controls on testate amoeba species distribution. This finding is consistent with results from peatlands in lower latitudes with regard to WTD and supports work showing that when samples are taken across a long enough trophic gradient, peatland trophic status is an important control on the distribution of testate amoebae. No differences were found between transfer functions including and excluding the taxa with weak idiosomic tests (WISTs) that are most susceptible to decay. The final models for application to fossil samples therefore excluded these taxa. The WTD transfer function demonstrates the best performance (R2LOO = 0.719, RMSEPLOO = 3.2 cm), but the pH transfer function also performs well (R2LOO = 0.690, RMSEPLOO = 0.320). The transfer functions were applied to a core from western Spitsbergen and suggest drying conditions ~1750 CE, followed by a trend of recent wetting and increasing pH from ~1920 CE. These new transfer functions allow the reconstruction of past peatland WTD and pH in Svalbard, thereby enabling a greater understanding of long-term ecohydrological dynamics in these rapidly changing ecosystems.

Published

2021

3. A multi-proxy long-term ecological investigation into the development of a late Holocene calcareous spring-fed fen ecosystem (Raganu Mire) and boreal forest at the SE Baltic coast (Latvia)

Author

Mariusz Gałka, Angelica Feurdean, Thomas G. Sim, Kazimierz Tobolski, Liene Aunina, and Karina Apolinarska

Subjects

Climate change, Peatland, Plant macrofossils, Mollusc, Fire, Plant succession, Ecology, QH540-549.5

Abstract

The calcareous substrate of spring-fed fens makes them unique islands of biodiversity, hosting endangered, vulnerable, and protected vascular plants. Hence, spring-fed fens ecosystems require special conservation attention because many of them are destroyed (e.g. drained, forested) and it is extremely difficult or even impossible to restore the unique hydrogeological and geochemical conditions enabling their function. The long-term perspective of paleoecological studies allows indication of former wetland ecosystem states and provides understanding of their development over millennia. To examine the late Holocene dynamics of a calcareous spring-fed fen (Raganu Mire) ecosystem on the Baltic Sea coast (Latvia) in relation to environmental changes, substrate and human activity, we have undertaken high-resolution analyses of plant macrofossils, pollen, mollusc, stable carbon (δ13C) and oxygen (δ18O) isotopes combined with radiocarbon dating (AMS) in three coring locations. Our study revealed that peat deposits began accumulating ca. 7000 cal. yr BP and calcareous deposits (tufa) from 1450 cal. yr BP, coinciding with regional hydrological changes. Several fire events occurred between 4000 and 1600 cal. yr BP, which appeared to have had a limited effect on local vegetation. The most significant changes in the forest and peatland ecosystems were at 3200 cal. yr BP associated with a dry climate stage and high fire activity, and then between 1400 and 500 cal. yr BP potentially associated with temperature changes during the Medieval Climate Anomaly (MCA) and Little Ice Age. Hydrological disturbances in the peatland catchment from 1400 cal. yr BP were most likely strengthened by human activity (deforestation) in this region. The relationship between the development of this peatland and changes in its catchment area, such as land cover changes or fluctuations in groundwater levels, suggest that protection and restoration of spring-fed fen ecosystems should also include the surrounding catchment. The presence of calcareous sediments, as well as appropriate temperature and local hydrological conditions appear to be the most crucial factors controlling Cladium marisus populations in our site - currently at the eastern limit of its distribution in Europe.

Published

2021

4. Divergent responses of permafrost peatlands to recent climate change

Author

Thomas G Sim, Graeme T Swindles, Paul J Morris, Andy J Baird, Claire L Cooper, Angela V Gallego-Sala, Dan J Charman, Thomas P Roland, Werner Borken, Donal J Mullan, Marco A Aquino-López, and Mariusz Gałka

Subjects

permafrost, peatlands, climate change, hydrology, carbon, Environmental technology. Sanitary engineering, TD1-1066, Environmental sciences, GE1-350, Science, Physics, QC1-999

Abstract

Permafrost peatlands are found in high-latitude regions and store globally-important amounts of soil organic carbon. These regions are warming at over twice the global average rate, causing permafrost thaw, and exposing previously inert carbon to decomposition and emission to the atmosphere as greenhouse gases. However, it is unclear how peatland hydrological behaviour, vegetation structure and carbon balance, and the linkages between them, will respond to permafrost thaw in a warming climate. Here we show that permafrost peatlands follow divergent ecohydrological trajectories in response to recent climate change within the same rapidly warming region (northern Sweden). Whether a site becomes wetter or drier depends on local factors and the autogenic response of individual peatlands. We find that bryophyte-dominated vegetation demonstrates resistance, and in some cases resilience, to climatic and hydrological shifts. Drying at four sites is clearly associated with reduced carbon sequestration, while no clear relationship at wetting sites is observed. We highlight the complex dynamics of permafrost peatlands and warn against an overly-simple approach when considering their ecohydrological trajectories and role as C sinks under a warming climate.

Published

2021

5. Regional variability in peatland burning at mid-to high-latitudes during the Holocene

Author

Thomas G. Sim, Graeme T. Swindles, Paul J. Morris, Andy J. Baird, Angela V. Gallego-Sala, Yuwan Wang, Maarten Blaauw, Philip Camill, Michelle Garneau, Mark Hardiman, Julie Loisel, Minna Vӓliranta, Lysanna Anderson, Karina Apolinarska, Femke Augustijns, Liene Aunina, Joannie Beaulne, Přemysl Bobek, Werner Borken, Nils Broothaerts, Qiao-Yu Cui, Marissa A. Davies, Ana Ejarque, Michelle Farrell, Ingo Feeser, Angelica Feurdean, Richard E. Fewster, Sarah A. Finkelstein, Marie-José Gaillard, Mariusz Gałka, Liam Heffernan, Renske Hoevers, Miriam Jones, Teemu Juselius-Rajamäki, Edgar Karofeld, Klaus-Holger Knorr, Atte Korhola, Dmitri Kupriyanov, Malin E. Kylander, Terri Lacourse, Mariusz Lamentowicz, Martin Lavoie, Geoffrey Lemdahl, Dominika Łuców, Gabriel Magnan, Alekss Maksims, Claudia A. Mansilla, Katarzyna Marcisz, Elena Marinova, Paul J.H. Mathijssen, Dmitri Mauquoy, Yuri A. Mazei, Natalia Mazei, Julia McCarroll, Robert D. McCulloch, Alice M. Milner, Yannick Miras, Fraser J.G. Mitchell, Elena Novenko, Nicolas Pelletier, Matthew C. Peros, Sanna R. Piilo, Louis-Martin Pilote, Guillaume Primeau, Damien Rius, Vincent Robin, Mylène Robitaille, Thomas P. Roland, Eleonor Ryberg, A. Britta K. Sannel, Karsten Schittek, Gabriel Servera-Vives, William Shotyk, Michał Słowiński, Normunds Stivrins, Ward Swinnen, Gareth Thompson, Alexei Tiunov, Andrey N. Tsyganov, Eeva-Stiina Tuittila, Gert Verstraeten, Tuomo Wallenius, Julia Webb, Debra Willard, Zicheng Yu, Claudio Zaccone, Hui Zhang, Helsinki Institute of Sustainability Science (HELSUS), Ecosystems and Environment Research Programme, Environmental Change Research Unit (ECRU), and Environmental Sciences

Subjects

1171 Geosciences, Archeology, Climate Research, Bos- en Landschapsecologie, Data analysis, Palaeoenvironments, Carbon balance, Klimatforskning, Palaeofire, SDG 13 - Climate Action, Patagonia, Forest and Landscape Ecology, 1172 Environmental sciences, Vegetatie, Ecology, Evolution, Behavior and Systematics, SDG 15 - Life on Land, Ekologi, Global and Planetary Change, Vegetation, Ecology, Drought, Geology, Fire, Europe, Fire, Charcoal, Palaeofire, Palaeoenvironments, Data analysis, North America, Europe, Patagonia, Carbon balance, Drought, Archaeology, Charcoal, North America, Vegetatie, Bos- en Landschapsecologie, Vegetation, Forest and Landscape Ecology

Abstract

Northern peatlands store globally-important amounts of carbon in the form of partly decomposed plant detritus. Drying associated with climate and land-use change may lead to increased fire frequency and severity in peatlands and the rapid loss of carbon to the atmosphere. However, our understanding of the patterns and drivers of peatland burning on an appropriate decadal to millennial timescale relies heavily on individual site-based reconstructions. For the first time, we synthesise peatland macrocharcoal re-cords from across North America, Europe, and Patagonia to reveal regional variation in peatland burning during the Holocene. We used an existing database of proximal sedimentary charcoal to represent regional burning trends in the wider landscape for each region. Long-term trends in peatland burning appear to be largely climate driven, with human activities likely having an increasing influence in the late Holocene. Warmer conditions during the Holocene Thermal Maximum (similar to 9e6 cal. ka BP) were associated with greater peatland burning in North America's Atlantic coast, southern Scandinavia and the Baltics, and Patagonia. Since the Little Ice Age, peatland burning has declined across North America and in some areas of Europe. This decline is mirrored by a decrease in wider landscape burning in some, but not all sub-regions, linked to fire-suppression policies, and landscape fragmentation caused by agricultural expansion. Peatlands demonstrate lower susceptibility to burning than the wider landscape in several instances, probably because of autogenic processes that maintain high levels of near-surface wetness even during drought. Nonetheless, widespread drying and degradation of peatlands, particularly in Europe, has likely increased their vulnerability to burning in recent centuries. Consequently, peatland restoration efforts are important to mitigate the risk of peatland fire under a changing climate. Finally, we make recommendations for future research to improve our understanding of the controls on peatland fires.(c) 2023 The Authors. Published by Elsevier Ltd. This is an open access article under the CC BY license (http://creativecommons.org/licenses/by/4.0/).

Published

2023

6. Palaeoenvironmental conditions and human activity in the vicinity of the Grodzisko fortified settlement (central Europe, Poland) from the late‐Neolithic to the Roman period

Author

Mariusz Gałka, Piotr Kołaczek, Thomas G. Sim, Klaus‐Holger Knorr, Przemysław Niedzielski, Agnieszka Lewandowska, and Grzegorz Szczurek

Subjects

Archeology, Earth and Planetary Sciences (miscellaneous)

Published

2021

7. Cortical beta oscillations help synchronise muscles during static posture holding in healthy motor control

Author

Thomas G. Simpson, William Godfrey, Flavie Torrecillos, Shenghong He, Damian M. Herz, Ashwini Oswal, Muthuraman Muthuraman, Alek Pogosyan, and Huiling Tan

Subjects

Beta oscillation, Posture holding, High-density EEG, EMG, Corticomuscular coherence, Intermuscular coherence, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

How cortical oscillations are involved in the coordination of functionally coupled muscles and how this is modulated by different movement contexts (static vs dynamic) remains unclear. Here, this is investigated by recording high-density electroencephalography (EEG) and electromyography (EMG) from different forearm muscles while healthy participants (n = 20) performed movement tasks (static and dynamic posture holding, and reaching) with their dominant hand. When dynamic perturbation was applied, beta band (15–35 Hz) activities in the motor cortex contralateral to the performing hand reduced during the holding phase, comparative to when there was no perturbation. During static posture holding, transient periods of increased cortical beta oscillations (beta bursts) were associated with greater corticomuscular coherence and increased phase synchrony between muscles (intermuscular coherence) in the beta frequency band compared to the no-burst period. This effect was not present when resisting dynamic perturbation. The results suggest that cortical beta bursts assist synchronisation of different muscles during static posture holding in healthy motor control, contributing to the maintenance and stabilisation of functional muscle groups. Theoretically, increased cortical beta oscillations could lead to exaggerated synchronisation in different muscles making the initialisation of movements more difficult, as observed in Parkinson's disease.

Published

2024

8. Ecology of peatland testate amoebae in Svalbard and the development of transfer functions for reconstructing past water-table depth and pH

Author

Dave Beilman, Dan J. Charman, Andrew Baird, Graeme T. Swindles, Thomas G. Sim, Alex Channon, Angela V. Gallego-Sala, Paul J. Morris, and Matthew J. Amesbury

Subjects

Peat, High Arctic, General Decision Sciences, Climate change, Permafrost, Peatlands, SDG 13 - Climate Action, Ecosystem, Testate amoebae, Ecology, Evolution, Behavior and Systematics, QH540-549.5, Trophic level, Decision Sciences(all), Ecology, Transfer function, Vegetation, Arctic, Environmental science, Palaeohydrology, Trophic gradient

Abstract

Peatlands are valuable archives of information about past environmental conditions and represent a globally-important carbon store. Robust proxy methods are required to reconstruct past ecohydrological dynamics in high-latitude peatlands to improve our understanding of change in these carbon-rich ecosystems. The High Arctic peatlands in Svalbard are at the northern limit of current peatland distribution and have experienced rapidly rising temperatures of 0.81 °C per decade since 1958. We examine the ecology of peatland testate amoebae in surface vegetation samples from permafrost peatlands on Spitsbergen, the largest island of the Svalbard archipelago, and develop new transfer functions to reconstruct water-table depth (WTD) and pH that can be applied to understand past peatland ecosystem dynamics in response to climate change. These transfer functions are the first of their kind for peatlands in Svalbard and the northernmost developed to date. Multivariate statistical analysis shows that WTD and pore water pH are the dominant controls on testate amoeba species distribution. This finding is consistent with results from peatlands in lower latitudes with regard to WTD and supports work showing that when samples are taken across a long enough trophic gradient, peatland trophic status is an important control on the distribution of testate amoebae. No differences were found between transfer functions including and excluding the taxa with weak idiosomic tests (WISTs) that are most susceptible to decay. The final models for application to fossil samples therefore excluded these taxa. The WTD transfer function demonstrates the best performance (R2LOO = 0.719, RMSEPLOO = 3.2 cm), but the pH transfer function also performs well (R2LOO = 0.690, RMSEPLOO = 0.320). The transfer functions were applied to a core from western Spitsbergen and suggest drying conditions ~1750 CE, followed by a trend of recent wetting and increasing pH from ~1920 CE. These new transfer functions allow the reconstruction of past peatland WTD and pH in Svalbard, thereby enabling a greater understanding of long-term ecohydrological dynamics in these rapidly changing ecosystems.

Published

2021

9. A new approach for measuring surface hydrological connectivity

Author

Andrew Baird, Mark W. Smith, Thomas G. Sim, and Joshua M. Wolstenholme

Subjects

010504 meteorology & atmospheric sciences, Flood myth, Hydraulics, 0207 environmental engineering, Hydrograph, Soil science, 02 engineering and technology, Surface finish, 01 natural sciences, law.invention, Infiltration (hydrology), Photogrammetry, law, Surface roughness, Environmental science, 020701 environmental engineering, Surface runoff, 0105 earth and related environmental sciences, Water Science and Technology

Abstract

The development of surface hydrological connectivity is a key determinant of flood magnitude in drylands. Thresholds in runoff response may be reached when isolated runoff‐generating areas connect with each other to form continuous links to river channels, enabling these areas to contribute to flood hydrographs. Such threshold behaviour explains observed nonlinearities and scale dependencies of dryland rainfall–runoff relationships and complicates attempts at flood prediction. However, field methods for measuring the propensity of a surface to transmit water downslope are lacking, and conventional techniques of infiltration measurement are often inappropriate for use on non‐agricultural drylands. Here, we argue for a reconceptualization of the dryland surface runoff process, suggesting that the downslope transfer of water should be considered alongside surface infiltration; that is, there is a need for the “aggregated” measurement of infiltration and overland flow hydraulics. Surface application of a set volume of water at a standardized rate generates runoff that travels downslope; the distance it travels downslope is determined by infiltration along the flow, integration of flow paths, and flow resistance. We demonstrate the potential of such a combined measurement system coupled with structure‐from‐motion photogrammetry to identify surface controls on runoff generation and transfer on dryland hillslopes, with vegetation, slope, surface stone cover, and surface roughness all having a significant effect. The measurement system has been used on slopes up to 37° compared with the flat surface typically required for infiltration methods. On average, the field workflow takes ~10–15 min, considerably quicker than rainfall simulation. A wider variety of surfaces can be sampled with relative ease, as the method is not restricted to stone and vegetation‐free land. We argue that this aggregated measurement represents surface connectivity and dryland runoff response better than standard hydrological approaches and can be applied on a much greater variety of dryland surfaces.

Published

2019

10. Late Glacial and early Holocene development of an oxbow lake in Central Europe (Poland) based on plant macrofossil and geochemical data

Author

Graeme T. Swindles, Mariusz Gałka, Agnieszka Lewandowska, Thomas G. Sim, Przemysław Niedzielski, and Grzegorz Szczurek

Subjects

Archeology, Global and Planetary Change, geography, geography.geographical_feature_category, Peat, Ecology, Paleontology, Macrofossil, Climate change, Wetland, Ecological succession, Ecosystem, Physical geography, Glacial period, Holocene, Geology, Earth-Surface Processes

Abstract

Sediments from an oxbow lake located in the Prosna River valley (Poland) were analysed to investigate the developmental history of the wetland ecosystem and any response to abrupt climatic changes. High resolution plant macrofossil analysis and radiocarbon dating were undertaken on two cores, with lower resolution geochemical analysis conducted on one of these cores. We provide evidence of a palaeolake with a late Glacial origin (older than 12,500 years). Abundant fossil presence of macrophytes (e.g. multiple Potamogeton species) in the studied palaeomeander may indicate that the north–south orientation of the Prosna valley made it an important route for the spreading of aquatic plants during the late Glacial. Chara sp., Batrachium sp. and Potamogeton spp. were the pioneer plants that colonised cold water with a high Ca2+ content. Early Holocene warming trigged a decrease in water level at the oxbow lake and facilitated the expansion of thermophilous water plants, for example, Ceratophyllum demersum, Typha sp. and Lemna trisulca, which usually occur in shallow water. A decreasing water level resulted in the gradual isolation of the study site from the influence of groundwater, leading to acidification of the habitat and the development of a Sphagnum population, with S. contortum and S. teres as dominant species. The presence of S. contortum (the oldest occurrence in the European lowlands) and S. teres during the early Holocene may indicate that river valleys and the peatlands that developed in this region acted as an important habitats (and possibly refugia) for some minerotrophic Sphagnum species.

Published

2019

11. Divergent responses of permafrost peatlands to recent climate change

Author

Donal Mullan, Paul J. Morris, Claire L Cooper, Graeme T. Swindles, Thomas P. Roland, Andrew Baird, Dan J. Charman, Marco A. Aquino-López, Angela V. Gallego-Sala, Mariusz Gałka, Thomas G. Sim, and Werner Borken

Subjects

Peat, Climate change, hydrology, Carbon sequestration, Atmospheric sciences, Permafrost, SDG 3 - Good Health and Well-being, Environmental Science(all), SDG 13 - Climate Action, SDG 7 - Affordable and Clean Energy, peatlands, General Environmental Science, Resistance (ecology), Renewable Energy, Sustainability and the Environment, carbon, Public Health, Environmental and Occupational Health, Soil carbon, Vegetation, climate change, Greenhouse gas, Environmental science, permafrost

Abstract

Permafrost peatlands are found in high-latitude regions and store globally-important amounts of soil organic carbon. These regions are warming at over twice the global average rate, causing permafrost thaw, and exposing previously inert carbon to decomposition and emission to the atmosphere as greenhouse gases. However, it is unclear how peatland hydrological behaviour, vegetation structure and carbon balance, and the linkages between them, will respond to permafrost thaw in a warming climate. Here we show that permafrost peatlands follow divergent ecohydrological trajectories in response to recent climate change within the same rapidly warming region (northern Sweden). Whether a site becomes wetter or drier depends on local factors and the autogenic response of individual peatlands. We find that bryophyte-dominated vegetation demonstrates resistance, and in some cases resilience, to climatic and hydrological shifts. Drying at four sites is clearly associated with reduced carbon sequestration, while no clear relationship at wetting sites is observed. We highlight the complex dynamics of permafrost peatlands and warn against an overly-simple approach when considering their ecohydrological trajectories and role as C sinks under a warming climate.

Published

2021

12. Quantifying the effect of testate amoeba decomposition on peat-based water-table reconstructions

Author

Edward A. D. Mitchell, Michelle M. McKeown, Graeme T. Swindles, Thomas P. Roland, Mariusz Lamentowicz, Matthew J. Amesbury, Thomas G. Sim, and Richard E. Fewster

Subjects

0301 basic medicine, Taphonomy, Peat, Water table, Ombrotrophic, 030108 mycology & parasitology, Biology, Microbiology, 03 medical and health sciences, Soil, 030104 developmental biology, Taxon, Paleoecology, Physical geography, Hydrology, Testate amoebae, Amoeba, Groundwater

Abstract

Testate amoebae are a widely-used tool for palaeohydrological reconstruction from peatlands. However, it has been observed that weak idiosomic siliceous tests (WISTs) are common in uppermost peats, but very rarely found as subfossils deeper in the peat profile. This taphonomic problem has been noted widely and it has been established that WISTs disaggregate and/or dissolve in the low pH condition of ombrotrophic peatlands. Here we investigate the effect of this taphonomic problem on water-table reconstructions from thirty European peatlands through the comparison of reconstructions based on all taxa and those with WISTs removed. In almost all cases the decomposition of WISTs does not introduce discernible bias to peatland water-table reconstructions. However, some discrepancy is apparent when large abundances of Corythion-Trinema type are present (9−12 cm deviation with 50–60% abundance of this particular taxon). We recommend that WISTs should be removed before carrying out water-table reconstructions, and that the minimum count of testate amoebae per sample should exclude WISTs to ensure the development of robust reconstructions.

Published

2019

13. Widespread drying of European peatlands in recent centuries

Author

Donal Mullan, Kristian Schoning, Dmitri Mauquoy, Edgar Karofeld, Graeme T. Swindles, Thomas P. Roland, Elena Novenko, Łukasz Lamentowicz, Antony Blundell, Sophie M. Green, Marjolein van der Linden, T. Edward Turner, Frank M. Chambers, Mariusz Lamentowicz, Minna Väliranta, Katarzyna Kajukało, Richard J. Payne, Angelica Feurdean, Michelle M. McKeown, Katarzyna Marcisz, Ülle Sillasoo, Paul J. Morris, Peter G. Langdon, Iestyn D. Barr, Gill Plunkett, Barry G. Warner, Thomas G. Sim, Andrey N. Tsyganov, Jennifer M. Galloway, Atte Korhola, Helen Roe, Yuri Mazei, Maarten Blaauw, Matthew J. Amesbury, Dan J. Charman, Edward A. D. Mitchell, Angela V. Gallego-Sala, and Mariusz Gałka

Subjects

Peat, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Global warming, Climate change, Wetland, 010502 geochemistry & geophysics, GF, 01 natural sciences, Natural (archaeology), Geography, Hydrology (agriculture), Paleoecology, Period (geology), SDG 13 - Climate Action, General Earth and Planetary Sciences, Physical geography, S900_Conservation, 0105 earth and related environmental sciences

Abstract

Climate warming and human impacts are thought to be causing peatlands to dry,\ud potentially converting them from sinks to sources of carbon. However, it is unclear\ud whether the hydrological status of peatlands has moved beyond their natural envelope.\ud Here we show that European peatlands have undergone substantial, widespread drying\ud during the last ~300 years. We analyse testate amoeba-derived hydrological\ud reconstructions from 31 peatlands across Britain, Ireland, Scandinavia and continental\ud Europe to examine changes in peatland surface wetness during the last 2000 years.\ud 60% of our study sites were drier during the period CE 1800-2000 than they have been\ud for the last 600 years; 40% of sites were drier than they have been for 1000 years; and\ud 24% of sites were drier than they have been for 2000 years. This marked recent\ud transition in the hydrology of European peatlands is concurrent with compound\ud pressures including climatic drying, warming and direct human impacts on peatlands,\ud although these factors vary between regions and individual sites. Our results suggest\ud that the wetness of many European peatlands may now be moving away from natural\ud baselines. Our findings highlight the need for effective management and restoration of\ud European peatlands.

Published

2019

14. Pathways for Ecological Change in Canadian High Arctic Wetlands Under Rapid Twentieth Century Warming

Author

Thomas G. Sim, Paul J. Morris, Graeme T. Swindles, Donal Mullan, Mariusz Gałka, and Jennifer M. Galloway

Subjects

Peat, 010504 meteorology & atmospheric sciences, Climate change, Growing season, Wetland, 010502 geochemistry & geophysics, 01 natural sciences, Mire, Ecosystem, growing degree days, 0105 earth and related environmental sciences, geography, geography.geographical_feature_category, Ecology, food and beverages, Vegetation, testate amoebae, Geophysics, climate change, Arctic, General Earth and Planetary Sciences, Environmental science, shrubification, geographic locations, Arctic geese grazing, permafrost peatlands

Abstract

The response of Arctic wetland ecosystems and their associated organic carbon stores to future warming is uncertain. For the first time in the Canadian High Arctic I use a multi-proxy palaeoecological approach to test how organic-rich wetlands have responded to pronounced warming since the mid-twentieth century. This approach enables ecological analysis on a timescale beyond that of contemporary studies. An ice-wedge polygon mire was a dual-state system with the raised centre mound showing no response to recent warming, but ~AD 2000 the surrounding trough exhibited a shift to wetter conditions and a transition from sedge and herb-dominated to brown moss-dominated vegetation. The accumulation of this vegetation layer may have the effect of insulating ice-wedges and provide a negative ecological feedback to permafrost degradation, mitigating potential carbon losses. In a valley fen, an increase in growing degree days above 0°C (GDD0) since ~AD 1950 is linked to greater inundation from increased snow and ice melt early in the growing season, coupled with increased drying towards the end of the growing season from elevated evapotranspiration. This may have initiated a pathway to wetland desiccation – although wetland persistence is likely to be determined by future Arctic precipitation patterns. In a coastal fen, greater GDD0 combined with isostatic uplift induced shrubification ~AD 1950 and led to rapid carbon accumulation. After this, increasing bird grazing pressures from ~AD 2000 may have affected vegetation and carbon accumulation. My results illustrate a variety of pathways for change in High Arctic wetlands in response to rapid warming. The results of this study suggest that predictions of the future extent and carbon accumulation rates of northern peatlands should consider the marked, yet complex response of High Arctic wetlands to warming alongside external non-climatic factors such as increased bird grazing pressures.

Published

2019

15. Vikings, peat formation and settlement abandonment: a multi-method chronological approach from Shetland

Author

Catherine M. Batt, Graeme T. Swindles, Anthony Newton, Zoe Outram, Thomas G. Sim, Gordon Cook, Elizabeth J. Watson, Julie M. Bond, Derek Hamilton, Mike J. Church, and Andrew J. Dugmore

Subjects

Shetland, 010506 paleontology, Archeology, Global and Planetary Change, Peat, 010504 meteorology & atmospheric sciences, Geology, Context (language use), 01 natural sciences, Archaeology, law.invention, Geography, law, Absolute dating, Radiocarbon dating, Tephrochronology, Ecology, Evolution, Behavior and Systematics, 0105 earth and related environmental sciences, Chronology, Archaeomagnetic dating

Abstract

Understanding the chronology of Norse settlement is crucial for deciphering the archaeology of many sites across the North Atlantic region and developing a timeline of human-environment interactions. There is ambiguity in the chronology of settlements in areas such as the Northern Isles of Scotland, arising from the lack of published sites that have been scientifically dated, the presence of plateaus in the radiocarbon calibration curve, and the use of inappropriate samples for dating. This novel study uses four absolute dating techniques (AMS radiocarbon, tephrochronology, spheroidal carbonaceous particles and archaeomagnetism) to date a Norse house (the “Upper House”), Underhoull, Unst, Shetland Isles and to interpret the chronology of settlement and peat which envelops the site. Dates were produced from hearths, activity surfaces within the structure, and peat accumulations adjacent to and above the structure. Stratigraphic evidence was used to assess sequences of dates within a Bayesian framework, constraining the chronology for the site as well as providing modelled estimates for key events in its life, namely the use, modification and abandonment of the settlement. The majority of the absolute dating methods produced consistent and coherent datasets. The overall results show that occupation at the site was not a short, single phase, as suggested initially from the excavated remains, but instead a settlement that continued throughout the Norse period. The occupants of the site built the longhouse in a location adjacent to an active peatland, and continued to live there despite the encroachment of peat onto its margins. We estimate that the Underhoull longhouse was constructed in the period cal. AD 805–1050 (95% probability), and most probably in cal. AD 880–1000 (68% probability). Activity within the house ceased in the period cal. AD 1230–1495 (95% probability), and most probably in cal. AD 1260–1380 (68% probability). The Upper House at Underhoull provides important context to the expansion and abandonment of Norse settlement across the wider North Atlantic region.

Published

2019