TY  - JOUR
A1  - Wolter, Juliane
A1  - Lantuit, Hugues
A1  - Wetterich, Sebastian
A1  - Rethemeyer, Janet
A1  - Fritz, Michael
T1  - Climatic, geomorphologic and hydrologic perturbations as drivers for mid- to late Holocene development of ice-wedge polygons in the western Canadian Arctic
JF  - Permafrost and Periglacial Processes
N2  - Ice-wedge polygons are widespread periglacial features and influence landscape hydrology and carbon storage. The influence of climate and topography on polygon development is not entirely clear, however, giving high uncertainties to projections of permafrost development. We studied the mid- to late Holocene development of modern ice-wedge polygon sites to explore drivers of change and reasons for long-term stability. We analyzed organic carbon, total nitrogen, stable carbon isotopes, grain size composition and plant macrofossils in six cores from three polygons. We found that ail sites developed from aquatic to wetland conditions. In the mid-Holocene, shallow lakes and partly submerged ice-wedge polygons existed at the studied sites. An erosional hiatus of ca 5000 years followed, and ice-wedge polygons re-initiated within the last millennium. Ice-wedge melt and surface drying during the last century were linked to climatic warming. The influence of climate on ice-wedge polygon development was outweighed by geomorphology during most of the late Holocene. Recent warming, however, caused ice-wedge degradation at all sites. Our study showed that where waterlogged ground was maintained, low-centered polygons persisted for millennia. Ice-wedge melt and increased drainage through geomorphic disturbance, however, triggered conversion into high-centered polygons and may lead to self-enhancing degradation under continued warming.
KW  - carbon
KW  - lowland coasts
KW  - permafrost degradation
KW  - plant macrofossil analysis
KW  - tundra vegetation
KW  - western Canadian Arctic
Y1  - 2018
U6  - https://doi.org/10.1002/ppp.1977
SN  - 1045-6740
SN  - 1099-1530
VL  - 29
IS  - 3
SP  - 164
EP  - 181
PB  - Wiley
CY  - Hoboken
ER  - 
TY  - JOUR
A1  - Palagushkina, Olga V.
A1  - Wetterich, Sebastian
A1  - Schirrmeister, Lutz
A1  - Nazarova, Larisa B.
T1  - Modern and fossil diatom assemblages from Bol’shoy Lyakhovsky Island (New Siberian Archipelago, Arctic Siberia)
JF  - Contemporary Problems of Ecology
N2  - This article discusses the results of a taxonomic and ecological investigation of diatoms from polygonal ponds and Quaternary permafrost deposits of Bol’shoy Lyakhovsky Island (New Siberian Archipelago) and the reconstruction of climatic changes on the Island during late Pleistocene/Holocene transition using fossil diatom assemblages from the permafrost deposits. The taxonomic list of diatoms includes 159 diatom species. The main ecological factors that determine the distribution of diatoms in the investigated data set are mean July air temperature, рН, electrical conductivity, water depth, and concentrations of Si4+ and Al3+. An increase in water depth and stable lacustrine conditions in the Lateglacial–Holocene in the ancient thermokarst lake relate to Lateglacial warming before 11860 ± 160 years BP and during the early Holocene between 11210 ± 160 and 7095 ± 60 years BP.
KW  - Pleistocene
KW  - Holocene
Y1  - 2017
U6  - https://doi.org/10.1134/S1995425517040060
SN  - 1995-4255
SN  - 1995-4263
VL  - 10
SP  - 380
EP  - 394
PB  - Pleiades Publ.
CY  - New York
ER  - 
TY  - JOUR
A1  - Fritz, Michael
A1  - Unkel, Ingmar
A1  - Lenz, Josefine
A1  - Gajewski, Konrad
A1  - Frenzel, Peter
A1  - Paquette, Nathalie
A1  - Lantuit, Hugues
A1  - Körte, Lisa
A1  - Wetterich, Sebastian
T1  - Regional environmental change versus local signal preservation in Holocene thermokarst lake sediments
BT  - a case study from Herschel Island, Yukon (Canada)
JF  - Journal of paleolimnolog
N2  - Thermokarst lakes cover nearly one fourth of ice-rich permafrost lowlands in the Arctic. Sediments from an athalassic subsaline thermokarst lake on Herschel Island (69°36′N; 139°04′W, Canadian Arctic) were used to understand regional changes in climate and in sediment transport, hydrology, nutrient availability and permafrost disturbance. The sediment record spans the last ~ 11,700 years and the basal date is in good agreement with the Holocene onset of thermokarst initiation in the region. Electrical conductivity in pore water continuously decreases, thus indicating desalinization and continuous increase of lake size and water level. The inc/coh ratio of XRF scans provides a high-resolution organic-carbon proxy which correlates with TOC measurements. XRF-derived Mn/Fe ratios indicate aerobic versus anaerobic conditions which moderate the preservation potential of organic matter in lake sediments. The coexistence of marine, brackish and freshwater ostracods and foraminifera is explained by (1) oligohaline to mesohaline water chemistry of the past lake and (2) redeposition of Pleistocene specimens found within upthrusted marine sediments around the lake. Episodes of catchment disturbance are identified when calcareous fossils and allochthonous material were transported into the lake by thermokarst processes such as active-layer detachments, slumping and erosion of ice-rich shores. The pollen record does not show major variations and the pollen-based climate record does not match well with other summer air temperature reconstructions from this region. Local vegetation patterns in small catchments are strongly linked to morphology and sub-surface permafrost conditions rather than to climate. Multidisciplinary studies can identify the onset and life cycle of thermokarst lakes as they play a crucial role in Arctic freshwater ecosystems and in the global carbon cycle of the past, present and future.
KW  - Arctic
KW  - Permafrost
KW  - Athalassic subsaline lake
KW  - XRF scanning
KW  - Pore-water hydrochemistry
KW  - Ostracoda
Y1  - 2018
U6  - https://doi.org/10.1007/s10933-018-0025-0
SN  - 0921-2728
SN  - 1573-0417
VL  - 60
IS  - 1
SP  - 77
EP  - 96
PB  - Springer
CY  - Dordrecht
ER  -