Paola Malanotte Rizzoli

Last updated
Paola Malanotte Rizzoli
Alma mater Scripps Institution of Oceanography
University of Padua
Scientific career
InstitutionsMassachusetts Institute of Technology

Paola Malanotte Rizzoli is an Italian physical oceanographer known for her research on ocean circulation and sea level rise, especially with respect to flooding conditions in Venice.

Contents

Education and career

As a child growing up in Venice, Malanotte Rizzoli had a passion for music and by age eleven learned La Traviata while considering a future as an opera singer. [1] However, math prevailed and she earned a B.S. in physics and mathematics from Lyceum “Benedetti” Italy. [2] In 1968 she completed a Ph.D. at the University of Padua with a dissertation titled “Quantum-mechanical structure of biologically important molecules. Investigation of the complex molecules of nucleic acids”. [2] She spent one year as a postdoctoral fellow in Padua and then joined a study initiated by the Italian National Research Council to look at the issues surrounding Venice and the surrounding lagoon. [3] Starting in 1971 she traveled between Scripps Institution of Oceanography and Venice working on oceanographic studies of Venice. [3] Starting in 1972, she was also a research associate at Istituto Studio Dinamica Grande Masse (Institute for the Study of Great Masses), where she received tenure in 1976 and remained until 1981. In 1978 she completed a second Ph.D. at Scripps Institution of Oceanography with a dissertation titled “Solitary Rossby Waves Over Variable Relief and Their Stability Properties”. [4] [5] [6] At the time, she was the only woman in the physical oceanography department. [7] She remained at Scripps as a Cecil and Ida Green scholar from 1978 until 1980 at which point she moved to the Massachusetts Institute of Technology (MIT), [8] and again was the only woman in physical oceanography. [7] In 1987, Malanotte Rizzoli became the first woman in MIT's Earth, Atmospheric, and Planetary Sciences department to earn tenure. [8] In 1994, Malanotte Rizzoli was one of 16 women faculty in the School of Science at MIT who drafted and co-signed a letter to the then-Dean of Science (now Chancellor of Berkeley) Robert Birgeneau, which started a campaign to highlight and challenge gender discrimination at MIT. [9]

From 1997 until 2009, Malanotte Rizzoli led the MIT component of the MIT/Woods Hole Oceanographic Institution Joint Program in Oceanography and Applied Ocean Science and Engineering, and has been the main advisor for 22 students in the program. [7]

Research

Malanotte Rizzoli has worked in multiple research topics, which she describes as her “renewal time” of 5–7 years. [7] In 1982 she started a program focusing on the physical oceanography of the eastern Mediterranean, the POEM project, where she led research into the circulation of water in the region. [10] As increasing amounts of data become available for oceanographic research, she has expanded her use of data assimilation, [11] with a focus on its applications to oceanographic questions. [12] [13] Geographically, she has considered the formation of the rings of the Gulf Stream In the Atlantic Ocean [14] [15] and she has also worked on the exchange of heat, water, and salt in tropical oceans. [16] In the early 2000s, Malanotte Rizzoli began work on climate science through a project that led to the development of a coupled ocean-atmosphere model in Southeast Asia where the Indonesian Throughflow allows passage of water from the Pacific to the Indian Ocean. [17] She was one of the contributing authors on the 2007 chapter on "Observations: Oceanic Climate Change and Sea Level" which was published by the Intergovernmental Panel on Climate Change. [18]

Climate science, with its daunting complexity, is arguably the greatest challenge presently facing not only oceanography but the earth sciences in general

Paola Malanotte Rizzoli, [7]

Malanotte Rizzoli grew up in Venice and remembers the 1966 Venice flood [19] and in 2017 she considered how her connections to Venice influenced her career arc. [7] The storm surge in Venice, the Acqua alta, has been the focus of her work and from 1995 until 2013, she was a consultant for Consorzio Venezia Nuova, the group tasked with the building the barriers designed to block the flow of water into the Venetian lagoon, the MOdulo Sperimentale Elettromeccanico (MOSE) project. [20] [7] [21] In 2021, Malanotte-Rizzoli created an exhibit on the resilience of Venice with Laura Fregolent for the 17th International Venice Biennale of Architecture. [22] [23]

Selected publications

Awards and honors

Personal life

Malanotte-Rizzoli is married to Peter Stone who is also a professor at Massachusetts Institute of Technology. In 2021 they endowed the Peter H. Stone and Paola Malanotte Stone chair whose first recipient is Arlene Fiore. [8]

Related Research Articles

<span class="mw-page-title-main">Amphidromic point</span> Location at which there is little or no tide

An amphidromic point, also called a tidal node, is a geographical location where there is little or no difference in sea height between high tide and low tide; it has zero tidal amplitude for one harmonic constituent of the tide. The tidal range for that harmonic constituent increases with distance from this point, though not uniformly. As such, the concept of amphidromic points is crucial to understanding tidal behaviour. The term derives from the Greek words amphi ("around") and dromos ("running"), referring to the rotary tides which circulate around amphidromic points. It was first discovered by William Whewell, who extrapolated the cotidal lines from the coast of the North Sea and found that the lines must meet at some point.

<span class="mw-page-title-main">Carl-Gustaf Rossby</span> Swedish-born American meteorologist

Carl-Gustaf Arvid Rossby was a Swedish-born American meteorologist who first explained the large-scale motions of the atmosphere in terms of fluid mechanics. He identified and characterized both the jet stream and the long waves in the westerlies that were later named Rossby waves.

<span class="mw-page-title-main">Strait of Sicily</span> The strait between Sicily and Tunisia

The Strait of Sicily is the strait between Sicily and Tunisia. The strait is about 145 kilometres (90 mi) wide and divides the Tyrrhenian Sea and the western Mediterranean Sea, from the eastern Mediterranean Sea. The maximum depth is 316 meters (1,037 ft). The island of Pantelleria lies in the middle of the strait.

<span class="mw-page-title-main">Jule Gregory Charney</span> US meteorologist

Jule Gregory Charney was an American meteorologist who played an important role in developing numerical weather prediction and increasing understanding of the general circulation of the atmosphere by devising a series of increasingly sophisticated mathematical models of the atmosphere. His work was the driving force behind many national and international weather initiatives and programs.

<span class="mw-page-title-main">Florida Current</span> Thermal ocean current

The Florida Current is a thermal ocean current that flows from the Straits of Florida around the Florida Peninsula and along the southeastern coast of the United States before joining the Gulf Stream Current near Cape Hatteras. Its contributing currents are the Loop Current and the Antilles Current. The current was discovered by Spanish explorer Juan Ponce de León in 1513.

The MIT General Circulation Model (MITgcm) is a numerical computer code that solves the equations of motion governing the ocean or Earth's atmosphere using the finite volume method. It was developed at the Massachusetts Institute of Technology and was one of the first non-hydrostatic models of the ocean. It has an automatically generated adjoint that allows the model to be used for data assimilation. The MITgcm is written in the programming language Fortran.

<span class="mw-page-title-main">Anna Wåhlin</span> Swedish Antarctic oceanographer

Anna Wåhlin is a Swedish researcher on the Antarctic and the polar seas. She is a professor of physical oceanography at the University of Gothenburg and co-chair of the Southern Ocean Observing System.

<span class="mw-page-title-main">Michael Ghil</span>

Michael Ghil is an American and European mathematician and physicist, focusing on the climate sciences and their interdisciplinary aspects. He is a founder of theoretical climate dynamics, as well as of advanced data assimilation methodology. He has systematically applied dynamical systems theory to planetary-scale flows, both atmospheric and oceanic. Ghil has used these methods to proceed from simple flows with high temporal regularity and spatial symmetry to the observed flows, with their complex behavior in space and time. His studies of climate variability on many time scales have used a full hierarchy of models, from the simplest ‘toy’ models all the way to atmospheric, oceanic and coupled general circulation models. Recently, Ghil has also worked on modeling and data analysis in population dynamics, macroeconomics, and the climate–economy–biosphere system.

Ann Pearson is the PVK Professor of Arts and Sciences and Murray and Martha Ross Professor of Environmental Sciences at Harvard University and former chair of the Department of Earth and Planetary Sciences. Her research in the area of organic geochemistry is focused on applications of analytical chemistry, isotope geochemistry, and microbiology to biogeochemistry and Earth history.

Cindy Lee is a retired Distinguished Professor known for her research characterizing the compounds that comprise marine organic matter.

Open ocean convection is a process in which the mesoscale ocean circulation and large, strong winds mix layers of water at different depths. Fresher water lying over the saltier or warmer over the colder leads to the stratification of water, or its separation into layers. Strong winds cause evaporation, so the ocean surface cools, weakening the stratification. As a result, the surface waters are overturned and sink while the "warmer" waters rise to the surface, starting the process of convection. This process has a crucial role in the formation of both bottom and intermediate water and in the large-scale thermohaline circulation, which largely determines global climate. It is also an important phenomena that controls the intensity of the Atlantic Meridional Overturning Circulation (AMOC).

Ann Gargett is a Canadian oceanographer known for her research on measuring turbulence and its impact on biological processes in marine ecosystems.

Sarah Gille is a physical oceanographer at Scripps Institution of Oceanography known for her research on the role of the Southern Ocean in the global climate system.

Delia Wanda Oppo is an American scientist who works on paleoceanography where she focuses on past variations in water circulation and the subsequent impact on Earth's climate system. She was elected a fellow of the American Geophysical Union in 2014.

Phyllis Jean Stabeno is a physical oceanographer known for her research on the movement of water in polar regions. She has led award-winning research projects in the Arctic and was noted for a distinguished scientific career by the National Oceanic and Atmospheric Administration.

Lisa M. Beal is a professor at the University of Miami known for her work on the Agulhas Current. She is the editor-in-chief of the Journal of Geophysical Research: Oceans.

Rebecca Woodgate is a professor at the University of Washington known for her work on ocean circulation in polar regions.

<span class="mw-page-title-main">North Brazil Current Retroflection</span> Ocean current retroflection phenomenon

The North Brazil Current (NBC) retroflects north-eastwards and merges into the North Equatorial Counter Current (NECC). The retroflection occurs in a seasonal pattern when there is strong retroflection from late summer to early winter. There is weakened or no retroflection during other times of the year. Just like in the Agulhas Current, the retroflection also sheds some eddies that make their way to the Caribbean Sea through the Lesser Antilles.

<span class="mw-page-title-main">Lofoten Vortex</span> Physical oceanographic feature

The Lofoten Vortex, also called Lofoten Basin Vortex or Lofoten Basin Eddy, is a permanent oceanic anticyclonic eddy, located in the northern part of the Norwegian Sea, off the coast of the Lofoten archipelago. It was documented for the first time in the 1970s.

Kendra Lee Daly is an oceanographer known for her work on zooplankton, particularly in low oxygen regions of the ocean. She is a professor at the University of South Florida, and an elected fellow of the American Association for the Advancement of Science.

References

  1. Salimbeni, Stefano (December 5, 2014). "MIT's Oceanographer Paola Malanotte – Bostoniano (Inglese) | Vocazione: REPORTER" . Retrieved 2021-07-26.
  2. 1 2 "CV Malanotte Rizzoli" (PDF). Retrieved 23 July 2021.
  3. 1 2 "Autobiographical Sketches of Women in Oceanography". Oceanography. 18 (1): 199. March 2005.
  4. Rizzoli, P. Malanotte (1978). Solitary Rossby waves over variable relief and their stability properties. OCLC   1083431359.
  5. Malanotte Rizzoli, Paola; Hendershott, Myrl C. (1980-04-01). "Solitary Rossby waves over variable relief and their stability. Part I: The analytical theory". Dynamics of Atmospheres and Oceans. 4 (4): 247–260. Bibcode:1980DyAtO...4..247M. doi:10.1016/0377-0265(80)90030-5. ISSN   0377-0265.
  6. Malanotte Rizzoli, Paola (1980-04-01). "Solitary rossby waves over variable relief and their stability. Part II: numerical experiments". Dynamics of Atmospheres and Oceans. 4 (4): 261–294. Bibcode:1980DyAtO...4..261M. doi:10.1016/0377-0265(80)90031-7. ISSN   0377-0265.
  7. 1 2 3 4 5 6 7 Malanotte-Rizzoli, Paola (2017-01-03). "Venice and I: How a City Can Determine the Fate of a Career". Annual Review of Marine Science. 9 (1): 1–29. Bibcode:2017ARMS....9....1M. doi: 10.1146/annurev-marine-010816-060632 . ISSN   1941-1405. PMID   27575741.
  8. 1 2 3 Hinkel, Lauren; McBride, Alice (June 11, 2021). "Malanotte-Rizzoli and Stone shape the future of climate and ocean science | MIT Department of Earth, Atmospheric and Planetary Sciences". eapsweb.mit.edu. Retrieved 2021-07-27.
  9. Zernike, Kate (2023). The Exceptions: Nancy Hopkins, MIT, and the Fight for Women in Science. New York, NY: Scribner. ISBN   978-1-9821-3183-8.
  10. Malanotte-Rizzoli, P.; Artale, V.; Borzelli-Eusebi, G. L.; Brenner, S.; Crise, A.; Gacic, M.; Kress, N.; Marullo, S.; Ribera d'Alcalà, M.; Sofianos, S.; Tanhua, T. (2014-05-06). "Physical forcing and physical/biochemical variability of the Mediterranean Sea: a review of unresolved issues and directions for future research". Ocean Science. 10 (3): 281–322. Bibcode:2014OcSci..10..281M. doi: 10.5194/os-10-281-2014 . hdl: 1721.1/88033 . ISSN   1812-0792.
  11. Ghil, Michael; Malanotte-Rizzoli, Paola (1991-01-01). "Data Assimilation in Meteorology and Oceanography". Advances in Geophysics. 33: 141–266. Bibcode:1991AdGeo..33..141G. doi:10.1016/S0065-2687(08)60442-2. ISBN   9780120188338. ISSN   0065-2687.
  12. Malanotte-Rizzoli, Paola; Tziperman, Eli (1996-01-01). The Oceanographic Data Assimilation Problem: Overview, Motivation and Purposes. Elsevier Oceanography Series. Vol. 61. pp. 3–17. doi:10.1016/S0422-9894(96)80003-1. ISBN   9780444820792. ISSN   0422-9894.
  13. LERMUSIAUX, PIERRE F.J.; MALANOTTE-RIZZOLI, PAOLA; STAMMER, DETLEF; CARTON, JAMES; CUMMINGS, JAMES; MOORE, ANDREW M. (2006). "Progress and Prospects of U.S. Data Assimilation in Ocean Research". Oceanography. 19 (1): 172–183. doi: 10.5670/oceanog.2006.102 . ISSN   1042-8275. JSTOR   43925736.
  14. Malanotte-Rizzoli, Paola; Young, Roberta E. (1997-12-01). "Gulf Stream System Assimilation Experiments: A Sensitivity Study". Journal of Atmospheric and Oceanic Technology. 14 (6): 1392–1408. Bibcode:1997JAtOT..14.1392M. doi: 10.1175/1520-0426(1997)014<1392:GSSAEA>2.0.CO;2 . ISSN   0739-0572.
  15. Malanotte-Rizzoli, Paola (1984-06-01). "Boundary-Forced Nonlinear Planetary Radiation". Journal of Physical Oceanography. 14 (6): 1032–1046. Bibcode:1984JPO....14.1032M. doi: 10.1175/1520-0485(1984)014<1032:BFNPR>2.0.CO;2 . ISSN   0022-3670.
  16. Goni, G. J.; Rizzoli, P. M. (2003-11-12). Interhemispheric Water Exchange in the Atlantic Ocean. Elsevier. ISBN   978-0-08-053489-3.
  17. Wei, Jun; Malanotte-Rizzoli, Paola; Eltahir, Elfatih A. B.; Xue, Pengfei; Xu, Danya (2014-09-01). "Coupling of a regional atmospheric model (RegCM3) and a regional oceanic model (FVCOM) over the maritime continent". Climate Dynamics. 43 (5): 1575–1594. Bibcode:2014ClDy...43.1575W. doi:10.1007/s00382-013-1986-3. hdl: 1721.1/87722 . ISSN   1432-0894. S2CID   6549524.
  18. "IPCC Authors (beta)". archive.ipcc.ch. Retrieved 2021-07-26..
  19. McHugh, Josh (August 1, 2003). "The Lost City of Venice". Wired. ISSN   1059-1028 . Retrieved 2021-07-26.
  20. Rossi, Marcello (April 5, 2018). "Will a Huge New Flood Barrier Save Venice?". Wired. ISSN   1059-1028 . Retrieved 2021-07-26.
  21. "Paola Malanotte-Rizzoli". 2010-08-12. Retrieved 2021-07-26.
  22. "Biennale Architettura 2021 -- Laura Fregolent; Paola Malanotte-Rizzoli". La Biennale di Venezia. 2020-04-15. Retrieved 2021-07-27.
  23. Dizikes, Peter (July 8, 2021). "At the Venice Biennale, an architecture exhibition to meet the moment". MIT News | Massachusetts Institute of Technology. Retrieved 2021-07-27.
  24. "Masi Foundation, Roll of Honour of Masi Prize Winners". www.fondazionemasi.com. Retrieved 2021-07-27.
  25. "List of Fellows". American Meteorological Society. Retrieved 23 July 2021.
  26. "Rizzoli". Honors Program.
  27. "Rachel Carson Lecture | AGU". www.agu.org. Retrieved 23 July 2021.
  28. "Marchi Lecture 2018, 22 Giugno (Catania) - presentazioni e foto | GRUPPO iTALIANO DI iDRAULICA". www.gii-idraulica.net (in Italian). Retrieved 23 July 2021.
This page is based on this Wikipedia article
Text is available under the CC BY-SA 4.0 license; additional terms may apply.
Images, videos and audio are available under their respective licenses.