A global three-dimensional model of the circulation and chemistry of long-lived atmospheric species

Golombek, Amram

January 1982

Thesis (Ph.D.)--Massachusetts Institute of Technology, Dept. of Meteorology and Physical Oceanography, 1982. / Microfiche copy available in Archives and Science / Bibliography: leaves 194-201. / by Amram Golombek. / Ph.D.

Meteorology and Physical Oceanography.

Air Pollution Mathematical models

Tracers (Chemistry)

A numerical model of equatorial waves with application to the seasonal upwelling in the Gulf of Guinea

Patton, Randall J

January 1981

Thesis (M.S.)--Massachusetts Institute of Technology, Dept. of Meteorology and Physical Oceanography, 1981. / MICROFICHE COPY AVAILABLE IN ARCHIVES AND LINDGREN. / Bibliography: leaves 118-120. / by Randall J. Patton. / M.S.

Meteorology and Physical Oceanography.

Intertropical convergence zone

Arctic Ocean circulation in an idealized numerical model

Sugimura, Peter Joseph

January 2008

Thesis (S.M.)--Joint Program in Physical Oceanography (Massachusetts Institute of Technology, Dept. of Earth, Atmospheric, and Planetary Sciences; and the Woods Hole Oceanographic Institution), 2008. / Includes bibliographical references (p. 57-58). / The mid-to-deep Arctic Ocean is generally characterized by a cyclonic circulation, contained along shelves and ridges. Here we analyze the general Arctic circulation using an idealized numerical model consisting of a circular basin with two channels acting as inflow and outflow. We analyze the circulation (direction, strength and sensitivity) for wind forcing with and without bathymetry (ridges), and with and without stratification. We find that the circulation is modified drastically by both bathymetry and wind direction, where an altered wind field can change both the direction of the horizontal basin circulation as well as the strength of the inflow and outflow. The idealized circulations imply that the Arctic circulation, and the associated export of freshwater, can easily switch states in a changing climate. / by Peter Joseph Sugimura. / S.M.

Joint Program in Physical Oceanography.

Woods Hole Oceanographic Institution.

Ocean circulation Arctic Ocean

Computer simulation

Turbulent convection in the anelastic rotating sphere : a model for the circulation on the giant planets

Kaspi, Yohai

January 2008

Thesis (Ph. D.)--Joint Program in Physical Oceanography (Massachusetts Institute of Technology, Dept. of Earth, Atmospheric, and Planetary Sciences; and the Woods Hole Oceanographic Institution), 2008. / Includes bibliographical references (p. 207-221). / This thesis studies the dynamics of a rotating compressible gas sphere, driven by internal convection, as a model for the dynamics on the giant planets. We develop a new general circulation model for the Jovian atmosphere, based on the MITgcm dynamical core augmenting the nonhydrostatic model. The grid extends deep into the planet's interior allowing the model to compute the dynamics of a whole sphere of gas rather than a spherical shell (including the strong variations in gravity and the equation of state). Different from most previous 3D convection models, this model is anelastic rather than Boussinesq and thereby incorporates the full density variation of the planet. We show that the density gradients caused by convection drive the system away from an isentropic and therefore barotropic state as previously assumed, leading to significant baroclinic shear. This shear is concentrated mainly in the upper levels and associated with baroclinic compressibility effects. The interior flow organizes in large cyclonically rotating columnar eddies parallel to the rotation axis, which drive upgradient angular momentum eddy fluxes, generating the observed equatorial superrotation. Heat fluxes align with the axis of rotation, contributing to the observed flat meridional emission. We show the transition from weak convection cases with symmetric spiraling columnar modes similar to those found in previous analytic linear theory, to more turbulent cases which exhibit similar, though less regular and solely cyclonic, convection columns which manifest on the surface in the form of waves embedded within the superrotation. We develop a mechanical understanding of this system and scaling laws by studying simpler configurations and the dependence on physical properties such as the rotation period, bottom boundary location and forcing structure. These columnar cyclonic structures propagate eastward, driven by dynamics similar to that of a Rossby wave except that the restoring planetary vorticity gradient is in the opposite direction, due to the spherical geometry in the interior. / (cont.) We further study these interior dynamics using a simplified barotropic annulus model, which shows that the planetary vorticity radial variation causes the eddy angular momentum flux divergence, which drives the superrotating equatorial flow. In addition we study the interaction of the interior dynamics with a stable exterior weather layer, using a quasigeostrophic two layer channel model on a beta plane, where the columnar interior is therefore represented by a negative beta effect. We find that baroclinic instability of even a weak shear can drive strong, stable multiple zonal jets. For this model we find an analytic nonlinear solution, truncated to one growing mode, that exhibits a multiple jet meridional structure, driven by the nonlinear interaction between the eddies. Finally, given the density field from our 3D convection model we derive the high order gravitational spectra of Jupiter, which is a measurable quantity for the upcoming JUNO mission to Jupiter. / by Yohai Kaspi. / Ph.D.

Joint Program in Physical Oceanography.

Woods Hole Oceanographic Institution.

Sphere Mathematical models

Planets Mathematical models

Persistent anomalies of the extratropical Northern Hemisphere wintertime circulation

Dole, Randall M

January 1982

Thesis (Ph.D.)--Massachusetts Institute of Technology, Dept. of Meteorology and Physical Oceanography, 1982. / Microfiche copy available in Archives and Science. / Vita. / Bibliography: leaves 218-225. / by Randall M. Dole. / Ph.D.

Meteorology and Physical Oceanography.

Long-range weather forecasting

Synoptic climatology

Blocking (Meteorology)

Eddy flux

Heat budget (Geophysics)

Circulation and convection in the Irminger Sea

Våge, Kjetil

January 2010

Thesis (Ph. D.)--Joint Program in Physical Oceanography (Massachusetts Institute of Technology, Dept. of Earth, Atmospheric, and Planetary Sciences; and the Woods Hole Oceanographic Institution), 2010. / Cataloged from PDF version of thesis. / Includes bibliographical references (p. 131-149). / Aspects of the circulation and convection in the Irminger Sea are investigated using a variety of in-situ, satellite, and atmospheric reanalysis products. Westerly Greenland tip jet events are intense, small-scale wind phenomena located east of Cape Farewell, and are important to circulation and convection in the Irminger Sea. A climatology of such events was used to investigate their evolution and mechanism of generation. The air parcels constituting the tip jet are shown to have a continental origin, and to exhibit a characteristic deflection and acceleration around southern Greenland. The events are almost invariably accompanied both by a notable coherence of the lower-level tip jet with an overlying upper-level jet stream, and by a surface cyclone located in the lee (east) of Greenland. It is argued that the tip jet arises from the interplay of the synopticscale flow evolution and the perturbing effects of Greenland's topography upon the flow. The Irminger Gyre is a narrow, cyclonic recirculation confined to the southwest Irminger Sea. While the gyre's existence has been previously documented, relatively little is known about its specific features or variability. The mean strength of the gyre's circulation between 1991 and 2007 was 6.8 ± 1.8 Sv. It intensified at a rate of 4.3 Sv per decade over the observed period despite declining atmospheric forcing. Examination of the temporal evolution of the LSW layer thickness across the Irminger Basin suggests that local convection formed LSW during the early 1990s within the Irminger Gyre. In contrast, LSW appeared outside of the gyre in the eastern part of the Irminger Sea with a time lag of 2-3 years, consistent with transit from a remote source in the Labrador Sea. In the winter of 2007-08 deep convection returned to both the Labrador and Irminger seas following years of shallow overturning. The transition to a convective state took place abruptly, without going through a preconditioning phase, which is contrary to general expectations. Changes in the hemispheric air temperature, tracks of storms, flux of freshwater to the Labrador Sea, and distribution of pack ice all conspired to enhance the air-sea heat flux, resulting in the deep overturning. / Kjetil Våge. / Ph.D.

Joint Program in Physical Oceanography.

Woods Hole Oceanographic Institution.

Hydrography Irminger Sea

Ocean circulation Irminger Sea

"O impacto dos gases estufa nas variáveis de superfície ar-mar através de um modelo acoplado de circulação geral" / The impacts of greenhouse gases on sea-air variables through a coupled general circulation model

Taschetto, Andréa Sardinha

13 December 2001

Há evidências de que o clima vem sendo alterado pela ação humana desde a época da Revolução Industrial devido à crescente emissão de gases estufa na atmosfera. Inúmeras curvas da variação da temperatura média anual têm sido publicadas com uma característica comum: o crescimento da temperatura durante o último século, totalizando aproximadamente 0,5ºC. Acredita-se que o aumento na concentração atmosférica dos gases responsáveis pelo efeito estufa tenha influência direta na tendência da temperatura dos últimos 100 anos. Este trabalho foi realizado com o intuito de estudar as mudanças no comportamento sazonal e anual da temperatura da superfície do mar (TSM), pressão atmosférica ao nível do mar (PNM) e transporte barotrópico (TB) devido ao aumento na concentração dos gases estufa. Foram utilizadas duas simulações do modelo acoplado NCAR CCSM sob as condições atmosféricas do período pré-industrial e pós-industrial. Os resultados revelam que, na média anual, as variáveis estudadas sofreram intensificação do período pré para o pós-industrial. A temperatura da superfície do mar mostrou aumento no período pós-industrial, principalmente durante o inverno e primavera, quando ocorre um aquecimento superior a 2,5ºC ao sul do continente sul-americano. A pressão atmosférica ao nível do mar na maior parte da região de estudo apresentou aumento no verão e outono e diminuição nas demais estações do ano, indicando uma intensificação no padrão sazonal dessa variável durante o período pós-industrial em relação ao pré-industrial. O transporte barotrópico revelou diferenças significativas entre os dois experimentos, mostrando maiores valores no período pós-industrial. A média da região apresentou um ciclo anual com diferenças de 2,5Sv ao longo do ano entre os dois períodos, com aumento para o pós-industrial. Esse aumento deve-se basicamente à intensificação do transporte barotrópico da Corrente Circumpolar Antártica durante todas as estações do ano. O Giro Subtropical também sofreu aumento de transporte, de menor intensidade, durante o período pós-industrial. Essa mudança no comportamento do transporte barotrópico sugere uma intensificação no padrão do Giro Subtropical e no transporte da Corrente Circumpolar Antártica para o período pós-industrial. As maiores mudanças entre os dois períodos simulados ocorreram nas latitudes mais altas. / The main objective of this research is to study the impacts of the increase in greenhouse gases concentration on variables behavior at the sea-air interface. For this the NCAR CCSM coupled model is used by two climate conditions: the first one to pre-industrial period and the second one, to present day levels. Annual and seasonal climatology differences are analyzed for the of the following variables: air temperature, sea surface temperature, sea level pressure, wind stress, latent and sensible heat fluxes and barotropic transport. Statistics methods such as Empirical Ortoghonal Functions (EOF), Singular Value Decomposition (SVD) and Multi-Taper Method (MTM) are used to analyze changes in interannual behavior of these variables. The main results show that these surface variable are intensified from one period to the next. The air temperature and sea surface temperature showed increase in the pos-industrial period, mainly during the winter and spring. The sea level pressure also showed an increase on the annual mean. The wind stress revealed that the trade winds are intensified in autumn and the meridional wind component increases over the South Atlantic during winter. The winds adjacent to the South American continent also increased. Latent and sensible heat fluxes also increase, but not much, over some regions and decrease over others. Barotropic transport shows significant differences between the two experiments. There was increase of barotropic transport associated with the Subtropical Gyre and on Antartic Circumpolar Current. EOF, SVD and MTM analysis showed significant differences with respect to spatial patterns, behavior of the expansion coeficients time series and their variability.

aquecimento global

Atlântico Sul

climate changes

global warming

interação oceano-atmosfera

mudanças climáticas

ocean-atmosphere interaction

oceanografia física

physical oceanography

South Atlantic

"O impacto dos gases estufa nas variáveis de superfície ar-mar através de um modelo acoplado de circulação geral" / The impacts of greenhouse gases on sea-air variables through a coupled general circulation model

Andréa Sardinha Taschetto

13 December 2001

Há evidências de que o clima vem sendo alterado pela ação humana desde a época da Revolução Industrial devido à crescente emissão de gases estufa na atmosfera. Inúmeras curvas da variação da temperatura média anual têm sido publicadas com uma característica comum: o crescimento da temperatura durante o último século, totalizando aproximadamente 0,5ºC. Acredita-se que o aumento na concentração atmosférica dos gases responsáveis pelo efeito estufa tenha influência direta na tendência da temperatura dos últimos 100 anos. Este trabalho foi realizado com o intuito de estudar as mudanças no comportamento sazonal e anual da temperatura da superfície do mar (TSM), pressão atmosférica ao nível do mar (PNM) e transporte barotrópico (TB) devido ao aumento na concentração dos gases estufa. Foram utilizadas duas simulações do modelo acoplado NCAR CCSM sob as condições atmosféricas do período pré-industrial e pós-industrial. Os resultados revelam que, na média anual, as variáveis estudadas sofreram intensificação do período pré para o pós-industrial. A temperatura da superfície do mar mostrou aumento no período pós-industrial, principalmente durante o inverno e primavera, quando ocorre um aquecimento superior a 2,5ºC ao sul do continente sul-americano. A pressão atmosférica ao nível do mar na maior parte da região de estudo apresentou aumento no verão e outono e diminuição nas demais estações do ano, indicando uma intensificação no padrão sazonal dessa variável durante o período pós-industrial em relação ao pré-industrial. O transporte barotrópico revelou diferenças significativas entre os dois experimentos, mostrando maiores valores no período pós-industrial. A média da região apresentou um ciclo anual com diferenças de 2,5Sv ao longo do ano entre os dois períodos, com aumento para o pós-industrial. Esse aumento deve-se basicamente à intensificação do transporte barotrópico da Corrente Circumpolar Antártica durante todas as estações do ano. O Giro Subtropical também sofreu aumento de transporte, de menor intensidade, durante o período pós-industrial. Essa mudança no comportamento do transporte barotrópico sugere uma intensificação no padrão do Giro Subtropical e no transporte da Corrente Circumpolar Antártica para o período pós-industrial. As maiores mudanças entre os dois períodos simulados ocorreram nas latitudes mais altas. / The main objective of this research is to study the impacts of the increase in greenhouse gases concentration on variables behavior at the sea-air interface. For this the NCAR CCSM coupled model is used by two climate conditions: the first one to pre-industrial period and the second one, to present day levels. Annual and seasonal climatology differences are analyzed for the of the following variables: air temperature, sea surface temperature, sea level pressure, wind stress, latent and sensible heat fluxes and barotropic transport. Statistics methods such as Empirical Ortoghonal Functions (EOF), Singular Value Decomposition (SVD) and Multi-Taper Method (MTM) are used to analyze changes in interannual behavior of these variables. The main results show that these surface variable are intensified from one period to the next. The air temperature and sea surface temperature showed increase in the pos-industrial period, mainly during the winter and spring. The sea level pressure also showed an increase on the annual mean. The wind stress revealed that the trade winds are intensified in autumn and the meridional wind component increases over the South Atlantic during winter. The winds adjacent to the South American continent also increased. Latent and sensible heat fluxes also increase, but not much, over some regions and decrease over others. Barotropic transport shows significant differences between the two experiments. There was increase of barotropic transport associated with the Subtropical Gyre and on Antartic Circumpolar Current. EOF, SVD and MTM analysis showed significant differences with respect to spatial patterns, behavior of the expansion coeficients time series and their variability.

aquecimento global

Atlântico Sul

interação oceano-atmosfera

mudanças climáticas

oceanografia física

climate changes

global warming

ocean-atmosphere interaction

physical oceanography

South Atlantic

Empreinte de la variabilité intrinsèque océanique sur l'océan de surface : caractérisation et processus / Imprint of oceanic intrinsic variability at surface : characterization and processes

Sérazin, Guillaume

28 January 2016

Ces travaux de thèse s'intéressent à la variabilité océanique intrinsèque générée spontanément sous forçage atmosphérique saisonnier dans des simulations océaniques à haute-résolution (1/4 de degré et 1/12 de degré ), en présence de tourbillons de méso-échelle (environ 100 km). L'empreinte de la variabilité intrinsèque sur le niveau de la mer (SLA) et sur la température de surface (SST) est caractérisée dans plusieurs gammes d'échelles spatio-temporelles par des méthodes de filtrage. En particulier, il est montré que la variabilité petite-échelle inter-annuelle à décennale de SLA observée par les satellites altimétriques, a un caractère stochastique et est majoritairement intrinsèque. Aux échelles de temps multi-décennales, la variabilité intrinsèque de SLA dans les régions océaniques turbulentes est d'amplitude comparable à la variabilité interne simulée dans les modèles climatiques couplés (dénués de turbulence océanique), et pourrait constituer une source additionnelle d'incertitudes dans la détection de l'élévation régionale du niveau de la mer d'origine anthropique. Une analyse spectrale montre enfin que l'advection non-linéaire de vorticité relative transfère spontanément de l'énergie cinétique d'ondes frontales hautes-fréquences vers des tourbillons de méso-échelle plus lents, générant in fine de la variabilité intrinsèque basse-fréquence. Les diagnostiques ont été réalisés à l'aide d'outils développés pour traiter de façon optimale les données océaniques haute-résolution. Ces travaux témoignent plus généralement du caractère chaotique de l'océan turbulent, dont l'interaction avec l'atmosphère est encore mal comprise. / This work focuses on the intrinsic oceanic variability spontaneously generated under seasonal atmospheric forcing in high-resolution oceanic simulations (1/4 ? and 1/12 ? ) including mesoscale eddies (~ 100 km). The imprint of intrinsic variability on sea-level (SLA) and sea surface temperature (SST) is characterized in various spatio-temporal ranges using filtering methods. In particular, the small-scale interannual-to-decadal SLA variability observed by satellite altimetry, is stochastic and mostly intrinsic. At multi-decadal timescales, SLA intrinsic variability is comparable to the internal climate variability simulated in climate coupled models (devoid of oceanic turbulence), and may yield additional uncertainties in the detection of human-induced regional sea-level change. A spectral analysis eventually shows that non-linear advection of relative vorticity spontaneously transfers kinetic energy from high-frequency frontal waves to slower mesoscale eddies, ultimately generating low-frequency intrinsic variability. The analyses have been performed using tools developed for optimal processing of high-resolution oceanic dataset. This work generally provides evidence of the chaotic behavior of the turbulent ocean, whose interaction with the atmosphere is still poorly-known.

Océanographie physique

Variabilité climatique

Modélisation

Niveau de la mer

Processus non-linéaires

Turbulence géostrophique

Physical oceanography

Climate variability

Modeling

Sea-level

Non-linear processes

Geostrophic turbulence

Submesoscale coherent vortices in the deep Brazil Basin

Kassis, Patricia

January 2000

Thesis (S.M.)--Joint Program in Physical Oceanography (Massachusetts Institute of Technology, Dept. of Earth, Atmospheric, and Planetary Sciences and the Woods Hole Oceanographic Institution), 2000. / Includes bibliographical references (p. 65-67). / With Lagrangian and hydrographic data taken in the deep Brazil Basin, we identify several submesoscale coherent vortices (SCVs). These features contrast with SCV paradigms in that float data indicate approximately equal populations of cyclonic and anticyclonic vortices, and hydrographic data suggest that roughly half exhibit the convex lens shape generally associated with SCVs, while half are instead shaped like a concave lens, with isopycnal surfaces pinched together. There is some evidence that the vortex cores may be enriched in warm, salty North Atlantic Deep Water, suggesting formation in the north or northwest regions of the basin. Data is available from 153 floats which were ballasted for 2500 and 4000 db pressures. They tracked 34 eddies, which are believed to be roughly 30 km in diameter, and rotate with apparent periods of about 30 days. Many floats experienced formation or entrainment events, and destruction or detrainment events, near seamounts. / by Patricia Kassis. / S.M.

Joint Program in Physical Oceanography.

Woods Hole Oceanographic Institution.

GC7.8 .K37

Eddies South Atlantic Ocean

Vortex-motion South Atlantic Ocean