Marilyn Raphael

Last updated
Marilyn Raphael
Born
Alma mater
Scientific career
Fields Climatology, environmentalism, geography
Institutions University of California, Los Angeles

Marilyn N. Raphael is a Trinidadian climatologist, best known for her work on climate change and variability in the high latitude southern hemisphere. She is a professor and former chair of the Department of Geography at UCLA, has authored an award-winning text, and sits in leadership positions on a number of international polar research initiatives. [1] [2]

Contents

In 2023, she was elected to the American Philosophical Society. [3]

Early life and education

Raphael was born and grew up in Trinidad and Tobago. She obtained a Bachelor of Arts in Geography from McMaster University in 1984, [4] and a Master of Arts and PhD in Geography (1990) from Ohio State University. [1] Her PhD work focused on atmospheric circulation and sensible heat flux in the Northern Hemisphere. [5]

Career

Raphael's research interests are global climate change and variability, specifically climate dynamics in the middle and high latitude of the Southern Hemisphere and the interaction between Antarctic sea ice and the atmosphere. [1] [6] Her research uses global climate models and also large-scale observational databases. [7]

Raphael has been teaching at UCLA since 1998 and spent time as departmental chair (2010-2013). Notable courses include: Climatology, Environmental Impact Analysis, Seminar - Environmental Studies, Tropical Climatology, and Issues in Geographical Inquiry. [1] [4]

Influences

Growing up, education was of the utmost importance for Raphael. Her mother was one of the key driving factors for pushing an education because she saw that education was the key to advancing in life. Raphael's path to climatology specifically was internally driven; however, she had people in her life that served as role models and mentors. Her high school teacher as well as her undergraduate adviser were both very encouraging of her pursuits into the geosciences. Raphael's interest in the Southern Hemisphere specifically came about when she was pursuing her PhD in Geography.

Positions and accomplishments

Marilyn N. Raphael is a professor in the Department of Geography at UCLA and is a former chair of the department, serving between 2010 and 2013. [8]

Raphael is a co-chair of the Science Committee of Antarctic Research (SCAR) expert group Antarctic Sea Ice Processes and Climate (ASPeCt). She is also a co-lead of the World Climate Research Programme's Polar Climate Predictability Initiative. [7] Raphael has also served on the National Research Council’s Committees on Future Science Opportunities in Antarctica and the Southern Ocean and Stabilization Targets for Atmospheric Greenhouse Gas Concentrations. [8]

Raphael's co-authored book, The Encyclopedia of Weather and Climate Change: A Complete Visual Guide , received an Atmospheric Science Librarians International (ASLI) Choice Award in 2010. [9] [10]

Selected bibliography

Related Research Articles

<span class="mw-page-title-main">Climate variability and change</span> Change in the statistical distribution of climate elements for an extended period

Climate variability includes all the variations in the climate that last longer than individual weather events, whereas the term climate change only refers to those variations that persist for a longer period of time, typically decades or more. Climate change may refer to any time in Earth's history, but the term is now commonly used to describe contemporary climate change, often popularly referred to as global warming. Since the Industrial Revolution, the climate has increasingly been affected by human activities.

<span class="mw-page-title-main">William Connolley</span> Software engineer, climatologist, writer, blogger

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<span class="mw-page-title-main">Low-pressure area</span> Area with air pressures lower than adjacent areas

In meteorology, a low-pressure area, low area or low is a region where the atmospheric pressure is lower than that of surrounding locations. Low-pressure areas are commonly associated with inclement weather, while high-pressure areas are associated with lighter winds and clear skies. Winds circle anti-clockwise around lows in the northern hemisphere, and clockwise in the southern hemisphere, due to opposing Coriolis forces. Low-pressure systems form under areas of wind divergence that occur in the upper levels of the atmosphere (aloft). The formation process of a low-pressure area is known as cyclogenesis. In meteorology, atmospheric divergence aloft occurs in two kinds of places:

<span class="mw-page-title-main">Ocean gyre</span> Any large system of circulating ocean surface currents

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).

<span class="mw-page-title-main">Geophysical Fluid Dynamics Laboratory</span> American physics research center

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<span class="mw-page-title-main">Antarctic oscillation</span> Climatic cycle over the Southern Ocean

The Antarctic oscillation, also known as the Southern Annular Mode (SAM), is a low-frequency mode of atmospheric variability of the southern hemisphere that is defined as a belt of strong westerly winds or low pressure surrounding Antarctica which moves north or south as its mode of variability.

<span class="mw-page-title-main">Polar vortex</span> Persistent cold-core low-pressure area that circles one of the poles

A circumpolar vortex, or simply polar vortex, is a large region of cold, rotating air; polar vortices encircle both of Earth's polar regions. Polar vortices also exist on other rotating, low-obliquity planetary bodies. The term polar vortex can be used to describe two distinct phenomena; the stratospheric polar vortex, and the tropospheric polar vortex. The stratospheric and tropospheric polar vortices both rotate in the direction of the Earth's spin, but they are distinct phenomena that have different sizes, structures, seasonal cycles, and impacts on weather.

The World Ocean Circulation Experiment (WOCE) was a component of the international World Climate Research Program, and aimed to establish the role of the World Ocean in the Earth's climate system. WOCE's field phase ran between 1990 and 1998, and was followed by an analysis and modeling phase that ran until 2002. When the WOCE was conceived, there were three main motivations for its creation. The first of these is the inadequate coverage of the World Ocean, specifically in the Southern Hemisphere. Data was also much more sparse during the winter months than the summer months, and there was—and still is to some extent—a critical need for data covering all seasons. Secondly, the data that did exist was not initially collected for studying ocean circulation and was not well suited for model comparison. Lastly, there were concerns involving the accuracy and reliability of some measurements. The WOCE was meant to address these problems by providing new data collected in ways designed to "meet the needs of global circulation models for climate prediction."

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<span class="mw-page-title-main">Polar amplification</span>

Polar amplification is the phenomenon that any change in the net radiation balance tends to produce a larger change in temperature near the poles than in the planetary average. This is commonly referred to as the ratio of polar warming to tropical warming. On a planet with an atmosphere that can restrict emission of longwave radiation to space, surface temperatures will be warmer than a simple planetary equilibrium temperature calculation would predict. Where the atmosphere or an extensive ocean is able to transport heat polewards, the poles will be warmer and equatorial regions cooler than their local net radiation balances would predict. The poles will experience the most cooling when the global-mean temperature is lower relative to a reference climate; alternatively, the poles will experience the greatest warming when the global-mean temperature is higher.

Sverdrup Gold Medal Award – is the American Meteorological Society's award granted to researchers who make outstanding contributions to the scientific knowledge of interactions between the oceans and the atmosphere.

<span class="mw-page-title-main">Subtropical Indian Ocean Dipole</span> Oscillation of sea surface temperatures

The Subtropical Indian Ocean Dipole (SIOD) is featured by the oscillation of sea surface temperatures (SST) in which the southwest Indian Ocean i.e. south of Madagascar is warmer and then colder than the eastern part i.e. off Australia. It was first identified in the studies of the relationship between the SST anomaly and the south-central Africa rainfall anomaly; the existence of such a dipole was identified from both observational studies and model simulations .

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<span class="mw-page-title-main">Antarctic sea ice</span> Sea ice of the Southern Ocean

Antarctic sea ice is the sea ice of the Southern Ocean. It extends from the far north in the winter and retreats to almost the coastline every summer. Sea ice is frozen seawater that is usually less than a few meters thick. This is the opposite of ice shelves, which are formed by glaciers; they float in the sea, and are up to a kilometre thick. There are two subdivisions of sea ice: fast ice, which are attached to land; and ice floes, which are not.

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<span class="mw-page-title-main">Pacific Meridional Mode</span> Climate mode in the North Pacific

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References

  1. 1 2 3 4 "UCLA Department of Geography". www.geog.ucla.edu. Archived from the original on 2018-02-12. Retrieved 2016-07-25.
  2. "Polar Climate Predictability Initiative". www.climate-cryosphere.org. 26 June 2014. Retrieved 2016-07-29.
  3. "The American Philosophical Society Welcomes New Members for 2023". www.amphilsoc.org.
  4. 1 2 "UCLA Department of Geography". www.geog.ucla.edu. Retrieved 2016-07-25.
  5. Raphael, Marilyn N. (1990). Atmospheric circulation and poleward sensible heat flux variations associated with the recent Northern hemisphere warming / (Thesis). The Ohio State University.
  6. Raphael, Marilyn N.; Hobbs, Will (2014-07-28). "The influence of the large-scale atmospheric circulation on Antarctic sea ice during ice advance and retreat seasons". Geophysical Research Letters. 41 (14): 2014GL060365. Bibcode:2014GeoRL..41.5037R. doi: 10.1002/2014GL060365 . ISSN   1944-8007.
  7. 1 2 "Committee Membership - Antarctic Sea Ice Variability in the Southern Climate-Ocean System: A Workshop". dels.nas.edu. Retrieved 2016-07-29.
  8. 1 2 "Marilyn Raphael". Institute of the Environment and Sustainability at UCLA. 2016-09-22. Retrieved 2019-10-17.
  9. "2010 ASLI Choice Awards". 2011-11-08. Retrieved 2016-07-25.
  10. Wong, Kate. "Recommended: The Encyclopedia of Weather and Climate Change: A Complete Visual Guide".{{cite journal}}: Cite journal requires |journal= (help)