Ruth Mottram

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Ruth Mottram
Born (1978-02-09) 9 February 1978 (age 46)
Alma mater University of St. Andrews
University of Edinburgh
Scientific career
Institutions Danish Meteorological Institute
Shell plc
Thesis Processes of crevasse formation and the dynamics of calving glaciers : a study at Breiđamerkurjökull  (2008)
Website https://sternaparadisaea.net/

Ruth Mottram (born 9 February 1978) is a British climate scientist who is a researcher at the Danish Meteorological Institute. Her research considers the development of climate models and the dynamics of glaciers and ice sheets in the climate system.

Contents

Early life and education

Mottram studied geography at the University of Edinburgh.[ citation needed ] She earned a master's degree in 2000 before starting a master's of research in the natural environment. Her master's research considered tor formation and the exposure history of the Cairngorm Plateau. She made use of Cosmogenic Beryllium-10 and Aluminium-26. [1] Cosmogenic nuclides can be used to date terrestrial landforms. It allowed Mottram to test hypotheses by quantifying rates of bedrock erosion, the formation of regoliths and the ages of bedrock surfaces. [2] She joined Shell, where she was a graduate trainee in exploration, before leaving to start a doctorate in glaciology. Her PhD research tested ideas about crevasse formation on glaciers and led to the development of a widely used parameterisation for the calving of glaciers in ice sheet models. [3]

Research and career

Mottram uses the regional atmospheric climate model HIRHAM5. HIRHAM combines HIRLAM (High Resolution Limited Area Model, a short-range weather forecasting system), and ECHAM, a global climate model. She is based at the Danish Meteorological Institute where she primarily carries out research into the interactions between atnmosphere and ice sheet. [4] but also contributes to the WCRP's CORDEX initiative, making regional climate simulations in the polar regions.[ citation needed ]

Recently[ when? ] she has been part of the HCLIM consortium, developing one of a new generation of flexible atmospheric climate models that can be applied at scales ranging from tens of kilometres down to hundreds of metres.[ citation needed ]

Mottram is part of the Polar Portal team that carries out near real-time monitoring of the Arctic cryosphere, including live updates of satellite datasets of sea ice, icebergs, permafrost and Greenland ice sheet surface mass balance. She is also part of the European Space Agency's climate change initiative for the Greenland ice sheet, under which she has contributed to IMBIE, a large international initiative aimed at quantifying the loss of the ice sheet, and published several articles comparing satellite data with climate models. Her work also aims to run climate models to assess the likely future evolution of both the Greenland ice sheet, [5] [6] and the Antarctic ice sheet. She is frequently cited in the media [7] [8] on topics related to Arctic climate change and the Greenland ice sheet and contributes an annual update on the state of the ice sheet to the Carbon Brief news site. She is also interested in glacier processes and her research testing numerical models of crevasse depths directly led to a well-used technique to estimate the frequency of calving in ice sheet models.[ citation needed ]

She has said, "The sea ice surrounding Greenland is also changing. It is thinner, it breaks up earlier, and opens up more frequently,". [9] The ice sheet is the world's second largest ice body and has a considerable impact on global climate. Mottram studied the Kangiata Nunaata Sermia, a large tidewater glacier in Greenland, as part of a wider team of scientists. Such glaciers are not constrained to the lab and extend to the ocean or sea, and calve to form icebergs. [10] They made observations of the tidewater glacier, identifying sedimentary sequences and identifying that during the 12th century the glacier advanced 15 km. [10] She looks to understand the long-term glacial dynamics of the Greenland ice sheet.

Selected publications

Related Research Articles

<span class="mw-page-title-main">Glacier</span> Persistent body of ice that is moving under its own weight

A glacier is a persistent body of dense ice that is constantly moving under its own weight. A glacier forms where the accumulation of snow exceeds its ablation over many years, often centuries. It acquires distinguishing features, such as crevasses and seracs, as it slowly flows and deforms under stresses induced by its weight. As it moves, it abrades rock and debris from its substrate to create landforms such as cirques, moraines, or fjords. Although a glacier may flow into a body of water, it forms only on land and is distinct from the much thinner sea ice and lake ice that form on the surface of bodies of water.

<span class="mw-page-title-main">Cryosphere</span> Those portions of Earths surface where water is in solid form

The cryosphere is an all-encompassing term for the portions of Earth's surface where water is in solid form, including sea ice, lake ice, river ice, snow cover, glaciers, ice caps, ice sheets, and frozen ground. Thus, there is a wide overlap with the hydrosphere. The cryosphere is an integral part of the global climate system. It also has important feedbacks on the climate system. These feedbacks come from the cryosphere's influence on surface energy and moisture fluxes, clouds, the water cycle, atmospheric and oceanic circulation.

<span class="mw-page-title-main">Glaciology</span> Scientific study of ice and natural phenomena involving ice

Glaciology is the scientific study of glaciers, or, more generally, ice and natural phenomena that involve ice.

<span class="mw-page-title-main">Ice shelf</span> Large floating platform of ice caused by glacier flowing onto ocean surface

An ice shelf is a large platform of glacial ice floating on the ocean, fed by one or multiple tributary glaciers. Ice shelves form along coastlines where the ice thickness is insufficient to displace the more dense surrounding ocean water. The boundary between the ice shelf (floating) and grounded ice is referred to as the grounding line; the boundary between the ice shelf and the open ocean is the ice front or calving front.

<span class="mw-page-title-main">Crevasse</span> A deep crack, or fracture, in an ice sheet or glacier

A crevasse is a deep crack that forms in a glacier or ice sheet. Crevasses form as a result of the movement and resulting stress associated with the shear stress generated when two semi-rigid pieces above a plastic substrate have different rates of movement. The resulting intensity of the shear stress causes a breakage along the faces.

<span class="mw-page-title-main">Ice sheet</span> Large mass of glacial ice

In glaciology, an ice sheet, also known as a continental glacier, is a mass of glacial ice that covers surrounding terrain and is greater than 50,000 km2 (19,000 sq mi). The only current ice sheets are the Antarctic ice sheet and the Greenland ice sheet. Ice sheets are bigger than ice shelves or alpine glaciers. Masses of ice covering less than 50,000 km2 are termed an ice cap. An ice cap will typically feed a series of glaciers around its periphery.

<span class="mw-page-title-main">Byrd Polar and Climate Research Center</span>

The Byrd Polar and Climate Research Center (BPCRC) is a polar, alpine, and climate research center at Ohio State University founded in 1960.

<span class="mw-page-title-main">Greenland ice sheet</span> Vast body of ice in Greenland, Northern Hemisphere

The Greenland ice sheet is an ice sheet which forms the second largest body of ice in the world. It is an average of 1.67 km (1.0 mi) thick, and over 3 km (1.9 mi) thick at its maximum. It is almost 2,900 kilometres (1,800 mi) long in a north–south direction, with a maximum width of 1,100 kilometres (680 mi) at a latitude of 77°N, near its northern edge. The ice sheet covers 1,710,000 square kilometres (660,000 sq mi), around 80% of the surface of Greenland, or about 12% of the area of the Antarctic ice sheet. The term 'Greenland ice sheet' is often shortened to GIS or GrIS in the scientific literature.

<span class="mw-page-title-main">Moulin (geomorphology)</span> Shaft within a glacier or ice sheet which water enters from the surface

A moulin is a roughly circular, vertical well-like shaft formed where a surface meltstream exploits a weakness in the ice. The term is derived from the French word for mill.

<span class="mw-page-title-main">Jakobshavn Glacier</span> Glacier in Greenland

Jakobshavn Glacier, also known as Ilulissat Glacier, is a large outlet glacier in West Greenland. It is located near the Greenlandic town of Ilulissat and ends at the sea in the Ilulissat Icefjord.

<span class="mw-page-title-main">Retreat of glaciers since 1850</span> Shortening of glaciers by melting

The retreat of glaciers since 1850 is well documented and is one of the effects of climate change. The retreat of mountain glaciers, notably in western North America, Asia, the Alps and tropical and subtropical regions of South America, Africa and Indonesia, provide evidence for the rise in global temperatures since the late 19th century. The acceleration of the rate of retreat since 1995 of key outlet glaciers of the Greenland and West Antarctic ice sheets may foreshadow a rise in sea level, which would affect coastal regions. Excluding peripheral glaciers of ice sheets, the total cumulated global glacial losses over the 26-year period from 1993 to 2018 were likely 5500 gigatons, or 210 gigatons per yr.

<span class="mw-page-title-main">Glacier morphology</span> Geomorphology of glaciers

Glacier morphology, or the form a glacier takes, is influenced by temperature, precipitation, topography, and other factors. The goal of glacial morphology is to gain a better understanding of glaciated landscapes and the way they are shaped. Types of glaciers can range from massive ice sheets, such as the Greenland ice sheet, to small cirque glaciers found perched on mountain tops. Glaciers can be grouped into two main categories:

<span class="mw-page-title-main">Tidewater glacier cycle</span> Behavior of glaciers that terminate at the sea

The tidewater glacier cycle is the typically centuries-long behavior of tidewater glaciers that consists of recurring periods of advance alternating with rapid retreat and punctuated by periods of stability. During portions of its cycle, a tidewater glacier is relatively insensitive to climate change.

In climate modelling, Ice-sheet models use numerical methods to simulate the evolution, dynamics and thermodynamics of ice sheets, such as the Greenland ice sheet, the Antarctic ice sheet or the large ice sheets on the northern hemisphere during the last glacial period. They are used for a variety of purposes, from studies of the glaciation of Earth over glacial–interglacial cycles in the past to projections of ice-sheet decay under future global warming conditions.

<span class="mw-page-title-main">Ice calving</span> Breaking of ice chunks from the edge of a glacier

Ice calving, also known as glacier calving or iceberg calving, is the breaking of ice chunks from the edge of a glacier. It is a form of ice ablation or ice disruption. It is the sudden release and breaking away of a mass of ice from a glacier, iceberg, ice front, ice shelf, or crevasse. The ice that breaks away can be classified as an iceberg, but may also be a growler, bergy bit, or a crevasse wall breakaway.

<span class="mw-page-title-main">Petermann Glacier</span> Glacier in Greenland

Petermann Glacier is a large glacier located in North-West Greenland to the east of Nares Strait. It connects the Greenland ice sheet to the Arctic Ocean at 81°10' north latitude, near Hans Island.

Jane Kathryn Willenbring is an American geomorphologist and professor at Stanford University. She is best known for using cosmogenic nuclides to investigate landscape changes and dynamics. She has won multiple awards including the Antarctica Service Medal and the National Science Foundation CAREER Award.

<span class="mw-page-title-main">Guðfinna Aðalgeirsdóttir</span> Icelandic academic

Guðfinna 'Tollý' Aðalgeirsdóttir is professor in Geophysics at the Faculty of Earth Sciences, University of Iceland.

Jacob Sebastian Haugaard Mernild is a Danish professor in climate change, glaciology and hydrology, who is the pro-vice-chancellor of the University of Southern Denmark. Mernild has been an Intergovernmental Panel on Climate Change (IPCC) author for the United Nations since 2010. Initially a contributing author on the IPCC Fifth Assessment Report, he was lead author on the IPCC Sixth Assessment Report.

Twila Moon is a scientist at the National Snow and Ice Data Center known for her work on the Greenland ice sheet.

References

  1. Phillips, William M.; Hall, Adrian M.; Mottram, Ruth; Fifield, L. Keith; Sugden, David E. (February 2006). "Cosmogenic 10Be and 26Al exposure ages of tors and erratics, Cairngorm Mountains, Scotland: Timescales for the development of a classic landscape of selective linear glacial erosion". Geomorphology. 73 (3–4): 222–245. Bibcode:2006Geomo..73..222P. doi:10.1016/j.geomorph.2005.06.009.
  2. Desilets, Darin; Zreda, Marek (1 November 2001). "On scaling cosmogenic nuclide production rates for altitude and latitude using cosmic-ray measurements". Earth and Planetary Science Letters. 193 (1–2): 213–225. Bibcode:2001E&PSL.193..213D. doi:10.1016/S0012-821X(01)00477-0. ISSN   0012-821X.
  3. Mottram, Ruth; University of St. Andrews (2008). Processes of crevasse formation and the dynamics of calving glaciers: a study at Breiđamerkurjökull (Thesis). University of St Andrews. hdl:10023/775. OCLC   1064564093.
  4. "RUM: Research". research.dmi.dk. Retrieved 18 September 2022.
  5. "Guest post: How the Greenland ice sheet fared in 2021". Carbon Brief. 16 November 2021. Retrieved 5 July 2022.
  6. "Walloped by heat wave, Greenland sees massive ice melt". AP NEWS. 20 April 2021. Retrieved 5 July 2022.
  7. "New data reveals extraordinary global heating in the Arctic". the Guardian. 15 June 2022. Retrieved 18 September 2022.
  8. "Photograph lays bare reality of melting Greenland sea ice". the Guardian. 17 June 2019. Retrieved 18 September 2022.
  9. "Scientists raise alarm on Greenland's ice-sheet loss". EUobserver. 15 October 2021. Retrieved 5 July 2022.
  10. 1 2 "Rapid glacial advance reconstructed during the time of Norse occupation in Greenland". ScienceDaily. Retrieved 5 July 2022.
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