Katharine Giles | |
---|---|
Born | Katharine Anne Giles March 22, 1978 |
Died | April 8, 2013 35) | (aged
Education | The Hertfordshire and Essex High School [1] |
Alma mater | University College London (MSci, PhD) |
Scientific career | |
Institutions | University College London |
Thesis | Radar and laser altimeter measurements over Arctic sea ice (2005) |
Doctoral advisor | Seymour Laxon [2] |
Katharine Anne Giles (22 March 1978 - 8 April 2013) was a British climate scientist. Her research considered sea ice cover, ocean circulation and wind patterns. She was a passionate science communicator, and since 2015, the Association of British Science Writers has held a science communication award in her honour.
Giles was educated at The Hertfordshire and Essex High School, completing GCE A Levels in design technology, maths and physics. [1] She was awarded first class honours for her degree in earth and space science at University College London. [1] She volunteered at the Science Museum during her undergraduate studies. [1] She earned her PhD for research supervised by Seymour Laxon in 2005. [2] She performed the first ground-based experiments to show how to monitor sea ice thickness using satellite altimetery. [3] An altimeter monitors electromagnetic waves reflected from the surface of ice. [4]
After completing her PhD, Giles remained at University College London as a postdoctoral researcher, studying the thickness of Arctic Ice. [4] Giles demonstrated that sea ice floes could be used to demonstrate how winds affected the newly exposed Arctic Ocean. [5] She was awarded a Natural Environment Research Council (NERC) fellowship to study wind patterns in the Arctic at the Centre for Polar Observation and Modelling. Giles showed that fresh water in the Arctic Ocean was due to an intensifying of the winds in Beaufort Gyre. [6] [7] [8] [9] To prove this, Giles used the European Remote-Sensing Satellite and Envisat. [6] She calculated that the sea surface in the Western Arctic rose by 15 cm between 2002 and 2012, and sea water had increased by 8000 cubic kilometres. [6] By using the European Space Agency CryoSat-2, Giles identified that thick sea ice had disappeared from Greenland, the Canadian Archipelago and Svalbard. [10] She found that between 2003 and 2012 the arctic sea ice volume in the winter had decreased by 9%. [11] [12] The findings confirmed the predictions of the Pan-Arctic Ice-Ocean Modelling & Assimilation System (PIOMAS). [13]
Giles was killed whilst cycling in 2013. [1] [14] She had just been appointed as a lecturer at University College London. [1] Peter Wadhams believed that the death could have been an assassination, as Giles' colleagues Seymour Laxon and Tim Boyd all died within the first few months of 2013. [15] In 2016 it was proposed to name the new Natural Environment Research Council (NERC) research vessel (RV) /Royal Research Ship (RRS) Katharine Giles. [16] [17] (The vessel was finally named the RRS Sir David Attenborough).
On 3 December 2020, the Government of the British Antarctic Territory named Giles Bay, between Weaver Point and Tula Point at the northern end of Renaud Island, Biscoe Islands for Katharine Giles. [18]
The Association of British Science Writers (ABSW) awards the Dr Katharine Giles science communication prize each year for the best popular article written by a scientist or engineer. As well as a cash award, the Fund offers free media training to winners. [19] The prize is funded by the Dr Katharine Giles Fund. It has been awarded to:
Giles's great, great grandfather was Edward Walter Maunder whose solar research, and in particular the period of rare sunspot activity, the Maunder Minimum, has been linked to historical variations in climate. [29]
Sea ice arises as seawater freezes. Because ice is less dense than water, it floats on the ocean's surface. Sea ice covers about 7% of the Earth's surface and about 12% of the world's oceans. Much of the world's sea ice is enclosed within the polar ice packs in the Earth's polar regions: the Arctic ice pack of the Arctic Ocean and the Antarctic ice pack of the Southern Ocean. Polar packs undergo a significant yearly cycling in surface extent, a natural process upon which depends the Arctic ecology, including the ocean's ecosystems. Due to the action of winds, currents and temperature fluctuations, sea ice is very dynamic, leading to a wide variety of ice types and features. Sea ice may be contrasted with icebergs, which are chunks of ice shelves or glaciers that calve into the ocean. Depending on location, sea ice expanses may also incorporate icebergs.
In oceanography, a gyre is any large system of circulating ocean surface currents, particularly those involved with large wind movements. Gyres are caused by the Coriolis effect; planetary vorticity, horizontal friction and vertical friction determine the circulatory patterns from the wind stress curl (torque).
CryoSat is an ESA programme to monitor variations in the extent and thickness of polar ice through use of a satellite in low Earth orbit. The information provided about the behaviour of coastal glaciers that drain thinning ice sheets will be key to better predictions of future sea level rise. The CryoSat-1 spacecraft was lost in a launch failure in 2005, however the programme was resumed with the successful launch of a replacement, CryoSat-2, launched on 8 April 2010.
The North Atlantic Gyre of the Atlantic Ocean is one of five great oceanic gyres. It is a circular ocean current, with offshoot eddies and sub-gyres, across the North Atlantic from the Intertropical Convergence Zone to the part south of Iceland, and from the east coasts of North America to the west coasts of Europe and Africa.
An ice shove is a surge of ice from an ocean or large lake onto the shore. Ice shoves are caused by ocean currents, strong winds, or temperature differences pushing ice onto the shore, creating piles up to 12 metres high. Ice shoves can be caused by temperature fluctuations, wind action, or changing water levels and can cause devastation to coastal Arctic communities. Cyclical climate change will also play a role in the formation and frequency of ice shove events; a rise in global temperatures leads to more open water to facilitate ice movement. Low pressure systems will destabilize ice sheets and send them shoreward. Also referred to as "landfast ice", it is an essential component to the coastal sea ice system, including the sediment dynamics. Arctic peoples utilize these ice shoves to travel and hunt. Ringed seals, an important prey for polar bears, are specifically adapted to maintain breathing holes in ice shoves, which lack the same openings usually used by marine mammals in drifting ice packs. The mere fact that the Ringed seal is uniquely adapted to utilizing ice shoves for breathing holes, and that polar bears have adapted to this behaviour for hunting, as well as the fact that the Iñupiat have a distinct term for the phenomena, indicates that ice shoves are a regular and continuing phenomena in the Arctic.
The Ross Gyre is one of three gyres that exists within the Southern Ocean around Antarctica, the others being the Weddell Gyre and Balleny Gyre. The Ross Gyre is located north of the Ross Sea, and rotates clockwise. The gyre is formed by interactions between the Antarctic Circumpolar Current and the Antarctic Continental Shelf. The Ross Gyre is bounded by the Polar Front of the Antarctic Circumpolar Current to the north, the Antarctic Slope Current to the south, the Balleny Gyre to the west, and a variable boundary to the east from semiannual changes in sea surface height (SSH) in the Amundsen Sea. Circulation in the Ross Gyre has been estimated to be 20 ± 5 Sverdrup (Sv) and plays a large role in heat exchange in this region.
The Centre for Polar Observation & Modelling (CPOM) is a Natural Environment Research Council (NERC) Centre of Excellence that studies processes in the Earth's polar environments. CPOM conducts research on sea ice, land ice, and ice sheets using satellite observations and numerical models.
Sir Duncan John Wingham is a British physicist who is Professor of Climate Physics at University College London, and was the first Director of the Centre for Polar Observation & Modelling. He is chief executive of the Natural Environment Research Council and Principal Scientist for the CryoSat Satellite Mission.
The Arctic Ocean is the smallest and shallowest of the world's five oceanic divisions. It spans an area of approximately 14,060,000 km2 (5,430,000 sq mi) and is the coldest of the world's oceans. The International Hydrographic Organization (IHO) recognizes it as an ocean, although some oceanographers call it the Arctic Mediterranean Sea. It has also been described as an estuary of the Atlantic Ocean. It is also seen as the northernmost part of the all-encompassing world ocean.
CryoSat-2 is a European Space Agency (ESA) Earth Explorer Mission that launched on April 8, 2010. CryoSat-2 is dedicated to measuring polar sea ice thickness and monitoring changes in ice sheets. Its primary objective is to measure the thinning of Arctic sea ice, but has applications to other regions and scientific purposes, such as Antarctica and oceanography.
The Beaufort Gyre is one of the two major ocean currents in the Arctic Ocean. It is roughly located north of the Alaskan and Canadian coast. In the past, Arctic sea-ice would circulate in the Beaufort gyre up to several years, leading to the formation of very thick multi-year sea-ice. Due to warming temperatures in the Arctic, the gyre has lost an extensive amount of ice, practically turning what used to be a nursery for sea-ice to mature and grow into the thickest and oldest ice of the Arctic Ocean into a "graveyard" for older ice.
Measurement of sea ice is important for safety of navigation and for monitoring the environment, particularly the climate. Sea ice extent interacts with large climate patterns such as the North Atlantic oscillation and Atlantic Multidecadal Oscillation, to name just two, and influences climate in the rest of the globe.
CryoSat-1, also known as just CryoSat, was a European Space Agency satellite which was lost in a launch failure in 2005. The satellite was launched as part of the European Space Agency's CryoSat mission, which aims to monitor ice in the high latitudes. The second mission satellite, CryoSat-2, was successfully launched in April 2010.
The Arctic ice pack is the sea ice cover of the Arctic Ocean and its vicinity. The Arctic ice pack undergoes a regular seasonal cycle in which ice melts in spring and summer, reaches a minimum around mid-September, then increases during fall and winter. Summer ice cover in the Arctic is about 50% of winter cover. Some of the ice survives from one year to the next. Currently, 28% of Arctic basin sea ice is multi-year ice, thicker than seasonal ice: up to 3–4 m (9.8–13.1 ft) thick over large areas, with ridges up to 20 m (65.6 ft) thick. Besides the regular seasonal cycle there has been an underlying trend of declining sea ice in the Arctic in recent decades as well.
Claire Lucille Parkinson is an American Earth scientist and climatologist at NASA's Goddard Space Flight Center.
Tuvaijuittuq Marine Protected Area is a marine protected area located off the northwest coast of Ellesmere Island in Nunavut, Canada. The goal of the marine protected area is to protect the rich biodiversity and dynamism of the High Arctic sea ice ecosystem. Covering an area of 319,411 square kilometres (123,325 sq mi), Tuvaijuittuq is the largest protected area in Canada and among the largest protected areas in the world. It is part of a large oceanic region referred to as the Last Ice Area, located adjacent to the coasts of northern Greenland and the Canadian Arctic Archipelago, which contain and accumulate the oldest remaining sea ice in the Arctic.
Atlantification is the increasing influence of Atlantic water in the Arctic. Warmer and saltier Atlantic water is extending its reach northward into the Arctic Ocean. The Arctic Ocean is becoming warmer and saltier and sea-ice is disappearing as a result. The process can be seen on the figure on the far right, where the sea surface temperature change in the past 50 years is shown, which is up to 5 degrees in some places. This change in the Arctic climate is most prominent in the Barents Sea, a shallow shelf sea north of Scandinavia, where sea-ice is disappearing faster than in any other Arctic region, impacting the local and global ecosystem.
Marika Holland is a scientist at the National Center for Atmospheric Research known for her work on modeling sea ice and its role in the global climate.
Mary-Louise Elizabeth Timmermans is a marine scientist known for her work on the Arctic Ocean. She is the Damon Wells Professor of Earth and Planetary Sciences at Yale University.
Sinéad Louise Farrell is a British-American space scientist who is Professor of Geographic Sciences at the University of Maryland, College Park. Her research considers remote sensing and climate monitoring. She was science lead for the ICESat-2 Mission, which used laser altimetry to make height maps of Earth.