Your search keyword '"Hiemstra, A."' showing total 8 results

1. Permafrost, thermal conditions and vegetation patterns since the mid-20 th century: A remote sensing approach applied to Jotunheimen, Norway.

Author

Hallang, Helen, Los, Sietse O, and Hiemstra, John F

Subjects

VEGETATION patterns, REMOTE sensing, PERMAFROST, LAND surface temperature, TIMBERLINE

Abstract

Northern high-alpine regions are currently experiencing rapid warming, which often results in the degradation of sub-surface permafrost and the upslope advancement of vegetation. The present study combines remotely sensed MODIS Land Surface Temperatures (LSTs) and the Normalised Difference Vegetation Index (NDVI) with observed air temperatures to model the thermal and vegetational dynamics in NE Jotunheimen (Norway) for the period 1957–2019. An altitudinal transect on the north-facing slope of Galdhøpiggen was used for ground truthing. Results indicate a substantial warming trend since the late 1950s, accompanied by increased NDVI. The spatial and temporal patterns of observed change were not uniform. Winter surface temperatures increased most rapidly, by 2.4–2.8°C at mid- and low altitudes (600–1500 m a.s.l.). The highest increases in NDVI (by ∼0.1) were detected during the growing season (April–September) and over the mid-range altitudes (1050–1500 m a.s.l.), that is, above the tree line on Galdhøpiggen. We attribute this to increased shrubification at these altitudes. Our results confirm that the surface temperatures near the previously estimated lower altitudinal limit of permafrost (∼1450 m a.s.l.) have continued to increase during the past decade, likely facilitating further permafrost degradation. Finally, we demonstrate that mapping remotely sensed mean growing season LSTs below 0°C can be used to identify areas suitable for continuous sub-surface permafrost, and mean June–September LSTs above 7°C can detect areas suitable for tree (Betula pubescens) growth in NE Jotunheimen. [ABSTRACT FROM AUTHOR]

Published

2022

2. Interrogating glacier mass balance response to climatic change since the Little Ice Age: reconstructions for the Jotunheimen region, southern Norway.

Author

Hiemstra, John F., Young, Giles H. F., Loader, Neil J., and Gordon, Penny R.

Subjects

*LITTLE Ice Age, *MASS budget (Geophysics), *CLIMATE change, *GLACIERS, *METEOROLOGICAL stations, *TEMPERATURE control, *TREE-rings

Abstract

Developing a long‐term understanding of the cryosphere is important in the study of past climatic change. Here we used a nested approach combining diverse instrumental (monthly meteorological data from four weather stations, as well as gridded data) and proxy data (based on blue intensity measurements from local tree ring records) to create a reconstruction of past summer temperature for the central Jotunheimen area in southern Norway. This record was then used to reconstruct annual glacier mass balance from 1962, the start of the yearly measurements, back to 1722, immediately prior to the regional Little Ice Age maximum. Our reconstruction of the 'average' Jotunheimen cumulative glacier mass balance is based on three representative glaciers (Storbreen, Hellstugubreen and Gråsubreen) that were synthesized into one composite record which we term 'Gjennomsnittsbreen' ('mean glacier' in Norwegian) to filter out localized controls on the behaviour of individual glaciers. While not ignoring the role of precipitation on glacier mass balance, our reconstruction demonstrates that glaciers in this region exhibit a strong summer temperature control and appear to have been declining more or less continuously since the mid‐18th century. However, it also shows that this long‐term trend of overall retreat in Jotunheimen is punctuated by relatively short‐lived periods of neutral or occasionally positive glacier mass balance, signifying periods of stillstand or small‐scale glacier advance. These periods or 'events' in our reconstruction were compared with an independent record of 12 moraine‐building events developed using lichenometry. A minimum of 10 of the moraine‐building events identifiable in our reconstruction were also identifiable in the lichenometric data which affords confidence in the performance of our interrogative model. A critical implication of this successful glacier mass balance reconstruction based on just summer temperature is that for Jotunheimen – in contrast to Norwegian maritime glaciers further to the west – there is no need (as was proposed in some previous studies) to invoke large, prolonged increases in winter snowfall to explain glacier advances, not even for events such as the Little Ice Age. [ABSTRACT FROM AUTHOR]

Published

2022

3. Tree line shifts, changing vegetation assemblages and permafrost dynamics on Galdhøpiggen (Jotunheimen, Norway) over the past ~4400 years.

Author

Hallang, Helen, Froyd, Cynthia A, Hiemstra, John F, and Los, Sietse O

Subjects

TIMBERLINE, PERMAFROST, FOSSIL pollen, VEGETATION dynamics, SCOTS pine, CLIMATE change

Abstract

An environmental reconstruction based on palynological evidence preserved in peat was carried out to examine late-Holocene alpine tree line dynamics in the context of past climatic changes on Galdhøpiggen (Jotunheimen, southern Norway). We analysed a peat core taken from a mire at the present-day tree line (1000 m a.s.l.), c. 450 m downslope from the lower limit of sporadic permafrost. We adopted a combination of commonly used indicators of species' local presence to reconstruct past vegetation assemblages, such as the relative pollen abundance (%), pollen accumulation rate (PAR), and presence of indicator species. Additionally, fossil pollen from the peat sequence was compared to modern pollen from a surface moss polster to establish a modern analogue. The results were compared with studies covering the late-Holocene climatic changes in the area. The reconstruction demonstrates that a pine-dominated woodland reached above the present-day tree line at c. 4300 cal. yr BP, suggesting a warmer climate suitable for Scots pine (Pinus sylvestris) growth at this altitude. Scots pine retreated to lower altitudes between c. 3400 and 1700 cal. yr BP, accompanied by the descent of the low-alpine shrub-dominated belt, in response to cooling climatic conditions. The colder period covered c. 1700–170 cal. yr BP, and an open downy birch (Betula pubescens) woodland became widespread at 1000 m a.s.l., whilst pine remained sparse at this altitude. From c. 170 cal. yr BP onwards, warming allowed pine to re-establish its local presence alongside downy birch at 1000 m a.s.l. [ABSTRACT FROM AUTHOR]

Published

2022

4. Carbon dioxide emissions from periglacial patterned ground under changing permafrost conditions and shrub encroachment in an alpine landscape, Jotunheimen, Norway.

Author

Hallang, Helen, Hiemstra, John F., Los, Sietse O., Matthews, John A., and Froyd, Cynthia A.

Subjects

PERMAFROST, CARBON dioxide, TUNDRAS, MOUNTAIN ecology, WEATHER, GROWING season, SHRUBS

Abstract

Whether Arctic and alpine ecosystems will act as a future net sink or source of carbon remains uncertain. The present study investigates ways in which ecosystem (soil and vegetation) and geomorphological (cryogenic disturbance) factors may control or affect the future release of carbon in an alpine permafrost landscape. Rates of ecosystem respiration (Re) were examined using a portable gas analyzer across an altitudinal transect ranging from mid‐ to high‐alpine vegetation zones underlain by discontinuous to continuous permafrost on Galdhøpiggen (Norway). Measurements were made of Re during the peak growing season on active and relict sorted circles exhibiting varying levels of frost disturbance and shrub encroachment. Re was found to be controlled more strongly by soil microclimate and plant growth forms than by geomorphic indicators of cryoturbation in thawing permafrost or by atmospheric conditions. The results indicate that increasing shrub cover leads to elevated Re, while an increase in surface disturbance has the potential to lower Re. We conclude that vegetation is likely to colonize frost‐disturbed surfaces at progressively higher altitudes as freeze–thaw processes slow down or cease, and this will result in increased Re. [ABSTRACT FROM AUTHOR]

Published

2020

5. Snow-avalanche boulder fans in Jotunheimen, southern Norway: Schmidt-hammer exposure-age dating, geomorphometrics, dynamics and evolution.

Author

Matthews, John A., Haselberger, Stefan, Hill, Jennifer L., Owen, Geraint, Winkler, Stefan, Hiemstra, John F., and Hallang, Helen

Subjects

BOULDERS, PERIGLACIAL processes, YOUNGER Dryas, SUBMARINE fans, AVALANCHES, PERMAFROST, MASS-wasting (Geology)

Abstract

Eleven snow-avalanche boulder fans were dated from two high-alpine sites in Jotunheimen using Schmidt-hammer exposure-age dating (SHD) and lichenometry. Average exposure ages of the surface boulders ranged from 2285 ± 725 to 7445 ± 1020 years and demonstrate the potential of SHD for dating active landforms and diachronous surfaces. Application of GIS-based morphometric analyses showed that the volume of rock material within 10 of the fans is accounted for by 16–68% of the combined volume of their respective bedrock chutes and transport zones. It is inferred that the fans were deposited entirely within the Holocene, mainly within the early- to mid Holocene, by frequent avalanches carrying very small debris loads. Relatively small transport-zone volumes are consistent with avalanches of low erosivity. Excess chute volumes appear to represent subaerial erosion in the Younger Dryas and possibly earlier. Debris supply to the fans was likely enhanced by early-Holocene paraglacial processes following deglaciation, and by later permafrost degradation associated with the mid-Holocene Thermal Maximum. The latter, together with the youngest SHD age from one of the fans, may presage a similar increase in geomorphic activity in response to current warming trends. [ABSTRACT FROM AUTHOR]

Published

2020

6. Age and development of active cryoplanation terraces in the alpine permafrost zone at Svartkampan, Jotunheimen, southern Norway.

Author

Matthews, John A., Wilson, Peter, Winkler, Stefan, Mourne, Richard W., Hill, Jennifer L., Owen, Geraint, Hiemstra, John F., Hallang, Helen, and Geary, Andrew P.

Subjects

CLIFFS, ACTIVE aging, PERMAFROST, LAST Glacial Maximum, TERRACING, GROUNDWATER flow, TUNDRAS, SOLIFLUCTION

Abstract

Schmidt-hammer exposure-age dating (SHD) of boulders on cryoplanation terrace treads and associated bedrock cliff faces revealed Holocene ages ranging from 0 ± 825 to 8890 ± 1185 yr. The cliffs were significantly younger than the inner treads, which tended to be younger than the outer treads. Radiocarbon dates from the regolith of 3854 to 4821 cal yr BP (2σ range) indicated maximum rates of cliff recession of ~0.1 mm/yr, which suggests the onset of terrace formation before the last glacial maximum. Age, angularity, and size of clasts, together with planation across bedrock structures and the seepage of groundwater from the cliff foot, all support a process-based conceptual model of cryoplanation terrace development in which frost weathering leads to parallel cliff recession and, hence, terrace extension. The availability of groundwater during autumn freezeback is viewed as critical for frost wedging and/or the growth of segregation ice during prolonged winter frost penetration. Permafrost promotes cryoplanation by providing an impermeable frost table beneath the active layer, focusing groundwater flow, and supplying water for sediment transport by solifluction across the tread. Snow beds are considered an effect rather than a cause of cryoplanation terraces, and cryoplanation is seen as distinct from nivation. [ABSTRACT FROM AUTHOR]

Published

2019

7. LANDSLIDE-GLACIER INTERACTION IN A NEOPARAGLACIAL SETTING AT TVERRBYTNEDE, JOTUNHEIMEN, SOUTHERN NORWAY.

Author

OWEN, GERAINT, HIEMSTRA, JOHN F., MATTHEWS, JOHN A., and MCEWEN, LINDSEY J.

Subjects

*LANDSLIDES, *ROCK glaciers, *PERIGLACIAL processes, *BOULDERS, *MORAINES, *GLACIOLOGY

Abstract

A tongue-like, boulder-dominated deposit in Tverrbytnede, upper Visdalen, Jotunheimen, southern Norway, is interpreted as the product of a rock avalanche (landslide) due to its angular to subangular boulders, surface morphology with longitudinal ridges, down-feature coarsening, and cross-cutting relationship to 'Little Ice Age' moraines. The rock avalanche fell onto glacier ice, probably channelled along a furrow between two glaciers, and stopped on the glacier foreland, resulting in its elongated shape and long runout distance. Its distal margin may have become remobilized as a rock glacier, but a rock glacier origin for the entire landform is discounted due to lack of source debris, presence of matrix, lack of transverse ridges, and sparcity of melt-out collapse pits. Lichenometric dating of the deposit indicates an approximate emplacement age of 1900. Analysis highlights the interaction of rock-slope failures and glaciers during deglacierization in a neoparaglacial setting, with reduced slope stability due to debuttressing and permafrost degradation, and enhanced landslide mobility due to flow over a glacier and topographic channelling. Implications for the differentiation of relict landslides, moraines and rock glaciers are discussed and interrelationships between these landforms are considered in terms of an ice-debris process continuum. [ABSTRACT FROM AUTHOR]

Published

2010

8. Late Holocene development of a Norwegian alpine alluvial fan affected by proximal glacier variations, episodic distal undercutting, and colluvial activity

Author

McEwen, Lindsey J., Owen, Geraint, Matthews, John A., and Hiemstra, John F.

Subjects

*GEOMORPHOLOGY, *HOLOCENE stratigraphic geology, *ALLUVIAL fans, *GLACIERS, *RIVER sediments, *LANDFORMS, *PLEISTOCENE stratigraphic geology, *SEDIMENTOLOGY

Abstract

Abstract: The late-Holocene, especially post-Little Ice Age, evolution of Nystølen alluvial fan, Langedalen, Jostedalsbreen region, southern Norway, is investigated using a combination of evidence from surface morphology, recent aerial photography, lichenometric dating, hydrological reconstruction, stratigraphy, and sedimentology. The fan is of predominantly fluvial origin, but it was effectively influenced by variations in the extent of the Nystølsbreen glacier, which advanced onto the fan apex at its Little Ice Age maximum about A.D. 1750, by colluvial activity (primarily snow avalanche) and by the Langedøla River undercutting the fan toe. The fluvial signature is evident in the pattern of distributary channels, lobate boulder berms on the proximal fan surface, three characteristic sedimentary facies associations, and a general down-fan fining identified within stratigraphical sections. The glacier influenced fan development through inputs of sediment (till and glaciofluvial material) and by modification of the flood regime. Snow avalanches added volumetrically small quantities of characteristically coarse and angular colluvial sedimentary material, but debris flows were unimportant. Episodic undercutting of the fan toe initiated a sequence of events consequent on the fall in the local base level, which rendered the distal fan susceptible to headward erosion of box-sided gullies during flood events and their subsequent infilling by the coarse-grained sediment. The evidence is used to develop a new dynamic evolutionary model that reflects these spatial and temporal complexities of glacier-fed, alpine alluvial fan development and incorporates submodels of process interaction, sedimentary architecture, and gully erosion. [Copyright &y& Elsevier]

Published

2011