Pastures Lost? A Dental Microwear Study of Ovicaprine Diet and Management in Norse Greenland

Mainland, Ingrid L.

January 2006

No

Greenland

Sheep

Goat

Microwear

Palaeodiet

Overgrazing

Statistical Analysis of the Atmospheric Sulfate Hisotory Recorded in Greenland Ice cores

Wei, Lijia

16 September 2008

No description available.

Atmosphere

sulfate aerosols

ice cores

Greenland

Changes in the Marine-Terminating Glaciers of Central East Greenland, 2000-2010, and Potential Connections to Ocean Circulation

Walsh, Kaitlin M.

25 July 2011

No description available.

Earth

Geophysical

Remote Sensing

Greenland

glacier dynamics

Temporal and spatial characteristics of Greenland ice sheet net snow accumulation (1781–2008)

Jung, Jihoon

29 August 2012

No description available.

Climate Change

Greenland

Accumulation

temporal

spatial

American Arctic Exploration: A Social and Cultural History, 1890-1930

Lukens, Robert Douglas

January 2011

The Arctic has long held power over the American imagination as a place of otherworldly beauty, life-threatening elements, and dangerous wildlife. Nearing the end of the nineteenth century, in a time of great anxiety about the direction of American society, the region took on new significance. As a new frontier, the Arctic was a place where explorers could establish a vigorous and aggressive type of American manhood through their exploits. Publications, lectures, newspaper accounts, and other media brought the stories of these explorers to those at home. Through such accounts, the stories of brave explorers counteracted the perceived softening of men and American society in general. Women played a crucial role in this process. They challenged the perceived male-only nature of the Arctic while their depiction in publications and the press contradictorily claimed that they retained their femininity. American perceptions of the Arctic were inextricably intertwined with their perceptions of the Inuit, the indigenous peoples that called the region home. In the late-nineteenth-century, Americans generally admired the Inuit as an exceptional race that embodied characteristics that were accepted in American Society as representing ideal manhood. Over time the image of the Arctic in American society shifted from a terrifying yet conquerable place to an accessible and open place by the 1920s. This "friendly Arctic" - a term coined by anthropologist Vilhjalmur Stefansson - appeared to be a less threatening and intimidating place. Due to new technologies and geographical accomplishments, the Arctic appeared to become more accessible and useable. As the Arctic's depiction in American society gradually shifted towards a more "friendly Arctic," the role of women in the Arctic shifted as well. Women increasingly participated in this new friendly Arctic. While still claiming that their femininity remained, both fictional and non-fictional female explorers participated in a wide array of Arctic activities. The image of the Inuit, too, underwent a transformation. Americans viewed the Inuit with less respect than in prior decades. Open Arctic theories and rising technological advancements contributed to this change. The decline in respect also stemmed from beliefs that the indigenous northerners were set on a course of extinction or assimilation. Ultimately, the late-nineteenth- and early-twentieth-century relationship between Americans and the Arctic laid the foundation for present-day views of the region and the Inuit. / History

American History

Arctic

Exploration

Greenland

Inuit

Polar

Investigating fast flow of the Greenland Ice Sheet

Young, Tun Jan

January 2018

The dynamic response of a faster-flowing Greenland Ice Sheet to climate change is modulated by feedbacks between ice flow and surface meltwater delivery to the basal environment. While supraglacial melt processes have been thoroughly examined and are well constrained, the response of the englacial and subglacial environment to these seasonal perturbations still represent the least-studied, understood, and parameterised processes of glacier dynamics due to a paucity of direct observation. To better understand these processes in the wake of a changing climate, novel in-situ geophysical experiments were undertaken on Store Glacier in west Greenland to quantify rates of englacial deformation and basal melting. The records produced from these experiments yield new insights into the thermodynamic setting of a major outlet glacier, and the physical mechanisms underlying and resulting from fast glacier motion. The deployment of autonomous phase-sensitive radio-echo sounders (ApRES) $\SI{30}{\kilo\metre}$ from the calving terminus of Store Glacier between 2014 and 2016 revealed high rates of both englacial deformation and basal melting, driven primarily by the dynamic response of the basal hydrological system to seasonal surface meltwater influxes. Thermodynamic modelling of this process revealed a convergence of large-scale basal hydrological pathways that aggregated large amounts of water towards the field site. The warm, turbulent water routed from surface melt contained and dissipated enough energy at the ice-bed interface to explain the observed high melt rates. Simultaneously, changes in the local strain field, involving seasonal variations in the morphology of internal layers, were found to be the result of far-field perturbations in downstream ice flow which propagated tens of kilometres upglacier through longitudinal stress coupling. When observed in multiple dimensions, the layer structure revealed complex internal reflection geometries, demonstrating ApRES as not just a monitor of depth changes in ice thickness, but also as an imaging instrument capable of characterising the subsurface environment within and beneath ice sheets. Altogether, the observations and analyses comprising this thesis provide new and significant insight and understanding into the structural, thermal, and mechanical processes tied to Store Glacier and its fast, complex, and dynamic ice flow.

Remote sensing of supraglacial lakes on the Greenland Ice Sheet

Selmes, Nick

January 2011

The dynamic mass loss from the Greenland Ice Sheet has prompted considerable research into the role of supraglacial lakes in causing dynamic thinning. These lakes can drain through 1000 m of ice to the bed and are thought to play an important role in connecting the surface and basal hydrologies of the ice sheet, allowing water to reach the bed and cause the ice to accelerate. Despite this apparent importance little research has been carried out on lakes outside of SVV Greenland, and no research has examined the occurrence of lake drainage over the whole of Greenland. The aim of this thesis is to discover where lakes occur for the entire Greenland ice Sheet, and how these lakes drain. New remote sensing techniques for monitoring lakes through the melt season were developed and tested. The evolution of 2600 lakes (those lakes larger than > 0.125 km2) was studied over five years (2005-2009) using 3704 MODIS images. Lakes were discovered to either drain fast to the bed, more slowly over the surface, or to freeze at the end of the melt season. There were 263 fast lake drainages per year of which 61% were in the SW region and a further 17% in the NE, both regions where mass loss is mainly due to surface mass balance. In the dynamically thinning SE region there were only three fast lake drainages per year along a 1300 km coastline. In the NW, fast lake drainage did not occur on five of the ten glaciers with the most rapid dynamic thinning. The results of this thesis show that the drainage of supraglacial lakes cannot have been responsible for dynamic mass loss from the Greenland Ice Sheet.

550

The Economies of Sheep and Goat Husbandry in Norse Greenland.

Mainland, Ingrid L., Halstead, P.

January 2005

No / Insight into the relative importance of sheep and goat herding and of the economic significance of each species (i.e., milk vs. meat vs. wool) in Medieval Greenland is obtained through the application of Halstead et al.¿s (2002) criteria for the identification of adult ovicaprine mandibles to faunal assemblages from three Norse farmsteads: Sandnes, V52a, and Ø71S. The economic strategies identified are broadly comparable between the two species and the Eastern and Western Settlement sites examined, and are suggestive of the subsistence production of meat and milk. Comparison with farmsteads elsewhere in Greenland indicates that socio-economic status and/or farmstead size interacted with geographical location in determining the economic strategies employed by the Norse farmers. A broader use of resources and a more varied diet are evident at larger farmsteads in Greenland and this paper suggests that such sites would have been better able than their smaller counterparts to withstand environmental deterioration during the early Middle Ages. These analyses have also confirmed that goats were relatively more common in Norse sites in Greenland than in Norse sites in Iceland, Orkney, or Shetland.

Sheep and goat herding

Mediaeval Greenland

Norse Greenland

Farmstead economics

Mediaeval farming economics

Oceanographic controls on glaciers in southeast Greenland

Goldsack, Anne Elizabeth

January 2013

No description available.

550

Temporal fluctuations in the motion of Arctic ice masses from satellite radar interferometry

Palmer, Steven J.

January 2010

This thesis considers the use of Interferometric Synthetic Aperture Radar (InSAR) for surveying temporal fluctuations in the velocity of glaciers in the Arctic region. The aim of this thesis is to gain a broader understanding of the manner in which the flow of both land- and marine-terminating glaciers varies over time, and to asses the ability of InSAR to resolve flow changes over timescales which provide useful information about the physical processes that control them. InSAR makes use of the electromagnetic phase difference between successive SAR images to produce interference patterns (interferograms) which contain information on the topography and motion of the Earth's surface in the direction of the radar line-of-sight. We apply established InSAR techniques (Goldstein et al., 1993) to (i) the 925 km2 LangjÖkull Ice Cap (LIC) in Iceland, which terminates on land (ii) the 8 500 km2 Flade Isblink Icecap (FIIC) in Northeast Greenland which has both land- and marine-terminating glaciers and (iii) to a 7 000 km2 land-terminating sector of the Western Greenland Ice Sheet (GrIS). It is found that these three regions exhibit velocity variations over contrasting timescales. At the LIC, we use an existing ice surface elevation model and dual-look SAR data acquired by the European Remote Sensing (ERS) satellite to estimate ice velocity (Joughin et al., 1998) during late-February in 1994. A comparison with direct velocity measurements determined by global positioning system (GPS) sensors during the summer of 2001 shows agreement (r2 = 0.86), suggesting that the LIC exhibits moderate seasonal and inter-annual variations in ice flow. At the FIIC, we difference pairs of interferograms (Kwok and Fahnestock, 1996) formed using ERS SAR data acquired between 15th August 1995 and 3rd February 1996 to estimate ice velocity on four separate days. We observe that the flow of 5 of the 8 outlet glaciers varies in latesummer compared with winter, although flow speeds vary by up to 20 % over a 10 day period in August 1995. At the GrIS, we use InSAR (Joughin et al., 1996) and ERS SAR data to reveal a detailed pattern of seasonal velocity variations, with ice speeds in latesummer up to three times greater than wintertime rates. We show that the degree of seasonal speedup is spatially variable and correlated with modeled runoff, suggesting that seasonal velocity changes are controlled by the routing of water melted at the ice sheet surface. The overall conclusion of this work is that the technique of InSAR can provide useful information on fluctuations in ice speed across a range of timescales. Although some ice masses exhibit little or no temporal flow variability, others show marked inter-annual, seasonal and even daily variations in speed. We observe variations in seasonality in ice flow over distances of ~ 10 km and over time periods of ~10 days during late-summer. With the aid of ancillary meteorological data, we are able to establish that rates of flow in western Greenland are strongly moderated by the degree of surface melting, which varies seasonally and secularly. Although the sampling of our data is insufficiently frequent and spans too brief a period for us to derive a general relationship between climate and seasonality of flow, we show that production of meltwater at the ice surface and its delivery to the ice bed play an important role in the modulation of horizontal flow speeds. We suggest that a similarly detailed investigation of other ice masses is required to reduce the uncertainty in predictions of the future Arctic land-ice contribution to sea level in a warming world.

551.4