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DTSTART:20171105T020000
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RDATE:20181104T020000
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DTSTART:20180311T020000
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BEGIN:VEVENT
UID:h4sofbi5ibsgevrin97kepp44k@google.com
DTSTAMP:20180503T075350Z
CATEGORIES;LANGUAGE=en-US:MIT Seminar | PAOC Oceanography and Climate Sack 
 Lunch
CONTACT:
DESCRIPTION:Abstract: A major question in how we approach climate change an
 d its impact on the carbon cycle is at what level of granularity must we u
 nderstand phytoplankton diversity. The phytoplankton that mediate CO2 upta
 ke in the marine biosphere are tremendously diverse\, non-homogeneously di
 stributed and oftentimes physiologically ill-characterized. Additionally\,
  they live among non-photosynthetic microbes from the three domains of lif
 e – creating a complex network of chemical exchanges and physical interact
 ions. Microbial oceanographers frequently employ genome and environmental 
 sequence analyses to tackle these topics\, and yet many genes and features
  of genomes expressed in nature are of unknown function. By investigating 
 this material in the lab and field we are discovering key\, previously uni
 dentified environmental controls and responses of phytoplankton as well as
  distributional information. Here\, we will explore phytoplankton diversit
 y and factors for bloom development at three levels of granularity – basic
  growth requirements in the context of microbial networks (in this case vi
 tamins)\, evolutionary divergence (in connection to nutrient limitation)\,
  and population connectivity through deep ocean currents (using repetitive
 \, gene-interrupting sequences). Through iterative modeling\, lab\, and fi
 eld experiments it should be possible to test and integrate ecologically r
 elevant levels of microbial diversity to understand primary production in 
 transitioning ecosystems.
DTSTART;TZID=America/New_York:20150506T121000
DTEND;TZID=America/New_York:20150506T130000
LOCATION:54-915
SEQUENCE:0
SUMMARY:SLS – Alex Worden (Monterey Bay Aquarium Research Institute) Phytop
 lankton\, microbial networks and the global carbon cycle
URL:http://oceans.mit.edu/event/sls-alex-worden-monterey-bay-aquarium-resea
 rch-institute-phytoplankton-microbial-networks-and-the-global-carbon-cycle
END:VEVENT
BEGIN:VEVENT
UID:e0lr5udf6dcsor5o2cbs9fui2o@google.com
DTSTAMP:20180503T075350Z
CATEGORIES;LANGUAGE=en-US:MIT Seminar | PAOC Oceanography and Climate Sack 
 Lunch
CONTACT:
DESCRIPTION:The Antarctic Slope Front (ASF) almost completely encircles the
  Antarctic continent\, separating cold shelf waters from relatively warm C
 ircumpolar Deep Water (CDW) at mid-depth offshore. Exchanges across the AS
 F transport CDW toward marine-terminating glaciers\, and export Antarctic 
 Bottom Water (AABW) to the abyssal ocean. Recent studies indicate that thi
 s exchange may be modulated by mesoscale eddies\, which facilitate cross-s
 lope exchanges via stirring along isopycnals and eddy bolus transports. In
  this seminar I will discuss physical controls over the rates of cross-slo
 pe water mass exchange\, and examine the dynamical balances governing cros
 s-slope eddy transfer. \n\nI will first present a recently-developed eddy-
 resolving process model of the Antarctic continental shelf and slope. The 
 model enforces realistic offshore ocean stratification over idealized shel
 f/slope bathymetry\, in order to provide a realistic representation of the
  water masses in a configuration that can be analyzed cleanly. The model f
 orcing includes a westward wind stress over the continental slope and buoy
 ancy loss on the continental shelf\, consistent with prevailing Antarctic 
 easterly winds and brine rejection in coastal polynyas.\n\nI will use this
  model to explore the sources of eddy kinetic energy (EKE) over the contin
 ental slope\, and its resulting impact on the cross-slope transport of mas
 s and tracers. I will show that the upper-ocean dynamics resemble the Anta
 rctic Circumpolar Current\, with wind-driven northward shoaling of the pyc
 nocline resisted by baroclinic conversion of potential energy to EKE. By c
 ontrast\, close to the ocean bed (at the CDW/AABW interface) potential ene
 rgy is removed by both the wind-driven mean overturning and the generation
  of baroclinic eddies\, and is instead sourced from the buoyancy loss on t
 he continental shelf. This EKE source turns out to be sensitive to variati
 ons in the model surface forcing and bathymetry. Consequently\, relatively
  small changes in the forcing and geometry can produce a substantial rearr
 angement of the water mass pathways and volume transports across the conti
 nental slope. These findings suggest that shoreward eddy transport of CDW 
 should be localized to a few favorable locations around the Antarctic shel
 f break\, and that future changes in the easterly wind strength or coastal
  polynya productivity could significantly alter the shoreward heat transpo
 rt and  the properties of the outflowing AABW.
DTSTART;TZID=America/New_York:20150513T121000
DTEND;TZID=America/New_York:20150513T130000
LOCATION:54-915
SEQUENCE:0
SUMMARY:SLS – Andrew Stewart (UCLA) – Eddy transport and mixing across the 
 Antarctic continental slope
URL:http://oceans.mit.edu/event/sls-andrew-stewart-ucla-eddy-transport-and-
 mixing-across-the-antarctic-continental-slope
END:VEVENT
BEGIN:VEVENT
UID:fifj494qb1lu2nt5j49v9jala0@google.com
DTSTAMP:20180503T075350Z
CATEGORIES;LANGUAGE=en-US:MIT Seminar | PAOC Oceanography and Climate Sack 
 Lunch
CONTACT:
DESCRIPTION:Abstract: Fixed nitrogen availability can regulate atmospheric 
 carbon dioxide concentrations and climate as a whole. Its loss via two ana
 erobic microbial processes – anammox and denitrification – only occurs whe
 re oxygen is sufficiently depleted. Field experiments in the tropical Paci
 fic oxygen minimum zone resolve two long-standing debates critical to unde
 rstanding global climate. While very low oxygen concentrations are require
 d for fixed nitrogen loss by either anammox or denitrification\, organic m
 atter quantity and quality determine the magnitudes of these rates and the
  partitioning between the two pathways. Dissolved oxygen concentrations al
 so decouple the denitrification steps\, allowing for net production of nit
 rous oxide and accentuating the importance of the oxygen and nitrogen cycl
 es in regulating climate.
DTSTART;TZID=America/New_York:20150514T133000
DTEND;TZID=America/New_York:20150514T143000
LOCATION:54-915
SEQUENCE:0
SUMMARY:SLS – Andrew Babbin (MIT) Anaerobic cycling of marine nitrogen
URL:http://oceans.mit.edu/event/sls-andrew-babbin-mit-anaerobic-cycling-of-
 marine-nitrogen
END:VEVENT
BEGIN:VEVENT
UID:g3ehmberbdu54vh6631pnu10ug@google.com
DTSTAMP:20180503T075350Z
CATEGORIES;LANGUAGE=en-US:MIT Seminar | PAOC Oceanography and Climate Sack 
 Lunch
CONTACT:
DESCRIPTION:Abstract: During the termination of the last ice age\, atmosphe
 ric CO2 increased by ~30% and global temperature rose by several degrees\,
  yet the mechanism(s) driving these major changes remain elusive. Marine a
 nd terrestrial records indicate that the amount of CO2 stored in the deep 
 sea is greater during glacial periods than interglacial periods. The impli
 ed net transfer of carbon into and out of the ocean is likely the result o
 f changes in ocean circulation and/or the efficiency of the biologic pump.
  The resulting atmospheric CO2 fluctuations may play some role in amplifyi
 ng temperature shifts across ice age cycles. In this study\, we reconstruc
 t past variations in seawater carbonate ion concentration in order to gain
  insight into the relative roles of different oceanic CO2 storage mechanis
 ms and to place constraints on the timing\, magnitude\, and location of su
 bsequent deep ocean ventilation. Our reconstruction is based on the trace 
 element and stable isotopic composition of calcite shells of the epi-benth
 ic foraminifer Cibicidoides wuellerstorfi from a sediment core in New Zeal
 and's Bay of Plenty. The sediment core site (1\,627 m water depth) lies wi
 thin the upper limit of modern Circumpolar Deep Water (CDW)\, ~500 m below
  the local Antarctic Intermediate Water (AAIW) salinity minimum. A record 
 of ΔCO32- derived from the foraminiferal boron to calcium ratio (B/Ca) pro
 vides evidence for greater ice-age storage of respired CO2 and also reveal
 s abrupt deglacial shifts in inorganic carbon chemistry up to 30 µmol/kg (
 5 times larger than the difference between average LGM and Holocene values
 ). The rapidity of these deglacial changes in the ocean interior suggests 
 1) fluctuations in the intermediate-deep water boundary near the core site
 \, and/or 2) rapid changes in deep water composition. Additional records a
 re currently being reconstructed to probe these possibilities.
DTSTART;TZID=America/New_York:20150520T121000
DTEND;TZID=America/New_York:20150520T130000
LOCATION:54 915
SEQUENCE:0
SUMMARY:SLS – Katherine Allen (Rutgers University) The Ocean’s Role in Endi
 ng an Ice Age: A View from the South Pacific
URL:http://oceans.mit.edu/event/sls-katherine-allen-rutgers-university-the-
 oceans-role-in-ending-an-ice-age-a-view-from-the-south-pacific
END:VEVENT
BEGIN:VEVENT
UID:vvbkd9tl87kjotiqupdb4ao140@google.com
DTSTAMP:20180503T075350Z
CATEGORIES;LANGUAGE=en-US:MIT Seminar | PAOC Oceanography and Climate Sack 
 Lunch
CONTACT:
DESCRIPTION:
DTSTART;TZID=America/New_York:20150527T121000
DTEND;TZID=America/New_York:20150527T130000
LOCATION:54-915
SEQUENCE:0
SUMMARY:SLS
URL:http://oceans.mit.edu/event/sls-4
END:VEVENT
BEGIN:VEVENT
UID:ff8acuj0ouic1ga8g808v7meo0@google.com
DTSTAMP:20180503T075350Z
CATEGORIES;LANGUAGE=en-US:MIT Seminar | PAOC Oceanography and Climate Sack 
 Lunch
CONTACT:
DESCRIPTION:
DTSTART;TZID=America/New_York:20150603T121000
DTEND;TZID=America/New_York:20150603T130000
LOCATION:54-915
SEQUENCE:0
SUMMARY:SLS
URL:http://oceans.mit.edu/event/sls-3
END:VEVENT
BEGIN:VEVENT
UID:tjt8djodhuj2o0rs2n05q2ncn0@google.com
DTSTAMP:20180503T075350Z
CATEGORIES;LANGUAGE=en-US:MIT Seminar | PAOC Oceanography and Climate Sack 
 Lunch
CONTACT:
DESCRIPTION:The abyssal ocean during the last glacial period is widely beli
 eved to have been\ncomparatively strongly salt stratified and close to the
  freezing point of sea water. Much\nof the support for that view is based 
 on the work of McDuff\, Schrag\, Adkins\, M. Miller\nand several others wh
 o analyzed the chlorinity and oxygen isotope ratios from the pore\nwaters 
 of deep sea cores. The data represent what\, in terms of control theory\, 
 is termed a\n'terminal constraint'. That theoretical framework is used to 
 revisit the inferences about\nthe LGM abyssal properties\, and in particul
 ar\, to understand the degree to which they are\nrobust to sometimes plaus
 ible assumptions about the data.
DTSTART;TZID=America/New_York:20150916T121000
DTEND;TZID=America/New_York:20150916T130000
LOCATION:54-915
SEQUENCE:0
SUMMARY:SLS – Carl Wunsch (MIT)- Salinity and Temperature of the Abyssal Oc
 ean at the Last Glacial Maximum (LGM)
URL:http://oceans.mit.edu/event/sls-carl-wunsch-mit-salinity-and-temperatur
 e-of-the-abyssal-ocean-at-the-last-glacial-maximum-lgm
END:VEVENT
BEGIN:VEVENT
UID:sp1de2gn36rb15tpcgt2vona9k@google.com
DTSTAMP:20180503T075350Z
CATEGORIES;LANGUAGE=en-US:MIT Seminar | PAOC Oceanography and Climate Sack 
 Lunch
CONTACT:
DESCRIPTION:
DTSTART;TZID=America/New_York:20150923T121000
DTEND;TZID=America/New_York:20150923T131000
LOCATION:54-915
SEQUENCE:0
SUMMARY:SLS – Trevor McDougall (UNSW) – The thermodynamics of the turbulent
  ocean and of ice\; what we know and what things are still a puzzle
URL:http://oceans.mit.edu/event/sls-trevor-mcdougall-unsw-the-thermodynamic
 s-of-the-turbulent-ocean-and-of-ice-what-we-know-and-what-things-are-still
 -a-puzzle
END:VEVENT
BEGIN:VEVENT
UID:cro8mu7efln5cf3lqf30ma4u34@google.com
DTSTAMP:20180503T075350Z
CATEGORIES;LANGUAGE=en-US:MIT Seminar | PAOC Oceanography and Climate Sack 
 Lunch
CONTACT:
DESCRIPTION:The   Brazil   Current   (BC)   is probably the least known and
  explored of the western boundary currents of the world ocean. In this tal
 k\, we offer a brief overview of the research carried out at the   Oceanog
 raphic Institute of the University of São Paulo (IOUSP) on this current  s
 ystem's   general  pattern\, water masses and meridionally changing vertic
 al structure. We focus here on the latitude range (21S­26S) at which the B
 C vertical structure   very closely approaches the one predicted in the se
 minal work by Henry Stommel (1965). We explore the spatial­ temporal varia
 bility and  conduct some first­order dynamical   studies of this 'Stommeli
 an' BC by blending quasi­synoptic data sets\, mooring data and simple proc
 ess oriented modeling.
DTSTART;TZID=America/New_York:20150930T121000
DTEND;TZID=America/New_York:20150930T131000
LOCATION:54-915
SEQUENCE:0
SUMMARY:SLS – Ilson Carlos Almeida da Silveira (LaDO)  –  A “Stommelian” Br
 azil Current at 21S-26S: vertical structure and mesoscale variability
URL:http://oceans.mit.edu/event/sls-ilson-carlos-almeida-da-silveira-lado-a
 -stommelian-brazil-current-at-21s-26s-vertical-structure-and-mesoscale-var
 iability
END:VEVENT
BEGIN:VEVENT
UID:hsqb5mfg6baavv7utsoo79kv20@google.com
DTSTAMP:20180503T075350Z
CATEGORIES;LANGUAGE=en-US:MIT Seminar | PAOC Oceanography and Climate Sack 
 Lunch
CONTACT:
DESCRIPTION:With the explosion of exoplanet discoveries and atmospheric cha
 racterization over the last decade\, there is now the hope that in the nea
 r future\, it will be possible to study the atmospheres of low mass\, poss
 ibly Earthlike exoplanets. Interpreting these observations will be a grand
  challenge\, because the diversity of rocky planet climates is likely to b
 e enormous. Here I discuss the role that theory and idealized modeling can
  play in advancing our understanding of the possibilities. I present resul
 ts on two key problems in exoplanet climate evolution: the loss of a plane
 t’s water to space and the circulation (and possible nightside collapse) o
 f atmospheres on tidally locked planets. I show that in both cases\, scali
 ng analysis allows the fundamentals of the problem to be understood in a r
 obust and general way. I discuss the implications of these results for exo
 planet habitability and the future search for biosignatures by groundand s
 pacebased telescopes.
DTSTART;TZID=America/New_York:20151007T121000
DTEND;TZID=America/New_York:20151007T131000
LOCATION:54-915
SEQUENCE:0
SUMMARY:SLS – Robin Woodsworth (Harvard) – What can theory teach us about t
 he climates of low-mass exoplanets?
URL:http://oceans.mit.edu/event/sls-robin-woodsworth-harvard-what-can-theor
 y-teach-us-about-the-climates-of-low-mass-exoplanets
END:VEVENT
BEGIN:VEVENT
UID:q08g85divlio3s4ek47ihnfoog@google.com
DTSTAMP:20180503T075350Z
CATEGORIES;LANGUAGE=en-US:MIT Seminar | PAOC Oceanography and Climate Sack 
 Lunch
CONTACT:
DESCRIPTION:In situ cosmogenic nuclides are produced in surface materials e
 xposed to cosmic radiation - cover a landscape with ice and production cea
 ses\; erode down into a landscape and nuclide concentrations quickly decre
 ase. We used these simple observations to explore a new proxy for reconstr
 ucting past ice sheet variability- the 10Be concentration of sand in marin
 e sediments adjacent to glaciated continents\, which should reflect the ex
 posure and erosion history on land before the sediment was deposited in th
 e deep sea. \nThis talk will present cosmogenic nuclide records from two O
 cean Drilling Program cores off east Greenland and the ANDRILL-1B core nex
 t to the East Antarctic Ice Sheet spanning the past 8 Myr\, as well as 10B
 e measurements on contemporary sediments emanating from the southern Green
 land Ice Sheet today. Notable features of the Greenland record include a 5
 0-fold long-term decline in 10Be concentration reflecting late Cenozoic ic
 e-sheet growth\, pronounced 10Be dips coincident with major ice-rafted deb
 ris pulses\, considerable variability during the early Pleistocene\, and l
 ow concentrations indistinguishable from contemporary sediments throughout
  the past 1 Myr. The Antarctic record\, on the other hand\, exhibits very 
 low 10Be concentrations over its entire length\, suggesting little to no s
 ubaerial exposure of land where the sediment was sourced from during the p
 ast 8 Myr.
DTSTART;TZID=America/New_York:20151014T121000
DTEND;TZID=America/New_York:20151014T131000
LOCATION:54-915
SEQUENCE:0
SUMMARY:SLS – Jeremy Shakun (Boston College)- Using cosmogenic isotopes in 
 marine sediment cores to decipher long-term Greenland and Antarctic Ice Sh
 eet behavior
URL:http://oceans.mit.edu/event/sls-jeremy-shakun-boston-college-using-cosm
 ogenic-isotopes-in-marine-sediment-cores-to-decipher-long-term-greenland-a
 nd-antarctic-ice-sheet-behavior
END:VEVENT
BEGIN:VEVENT
UID:j02i76ignm8l356jekcpoq13i8@google.com
DTSTAMP:20180503T075350Z
CATEGORIES;LANGUAGE=en-US:MIT Seminar | PAOC Oceanography and Climate Sack 
 Lunch
CONTACT:
DESCRIPTION:Many aspects of how natural phytoplankton communities change th
 rough time remain poorly understood\, in large part because traditional or
 ganism-level sampling strategies are not amenable to high frequency\, long
  duration application. To overcome aspects of this limitation\, we develop
 ed the FlowCytobot series of automated submersible flow cytometers capable
  of rapid\, unattended analysis of individual plankton cells for long peri
 ods of time. FlowCytobot and Imaging FlowCytobot use a combination of lase
 r-based scattering and fluorescence measurements and video imaging of indi
 vidual particles to enumerate and characterize cells ranging from picocyan
 obacteria to chaining-forming diatoms. When combined with automated proces
 sing and image classification\, these observations make it possible to cha
 racterize taxonomic composition of plankton communities with unprecedented
  temporal resolution\, ranging from hours to years. Multi-year time series
  from FlowCytobot and Imaging FlowCytobot are now being used to study bloo
 m dynamics and community structure in US coastal waters. The high temporal
  resolution observations of single cell properties make it possible not on
 ly to characterize taxonomic composition and size structure\, but also to 
 quantify taxon-specific growth rates. Emerging results provide a wide rang
 e of insights including links between climate factors and interannual vari
 ability in seasonal blooms\, decadal-scale shifts in community composition
 \, ecologically important roles for taxon-specific parasites\, and detecti
 on and characterization of harmful algal blooms.
DTSTART;TZID=America/New_York:20151021T121000
DTEND;TZID=America/New_York:20151021T131000
LOCATION:54-915
SEQUENCE:0
SUMMARY:SLS – Heidi Sosik (WHOI) – Bloom dynamics to climate change: Multi-
 scale observations of phytoplankton with autonomous flow cytometry
URL:http://oceans.mit.edu/event/sls-heidi-sosik-whoi-bloom-dynamics-to-clim
 ate-change-multi-scale-observations-of-phytoplankton-with-autonomous-flow-
 cytometry
END:VEVENT
BEGIN:VEVENT
UID:vm82n0tt1i4ag6ja9dn5eut410@google.com
DTSTAMP:20180503T075350Z
CATEGORIES;LANGUAGE=en-US:MIT Seminar | PAOC Oceanography and Climate Sack 
 Lunch
CONTACT:
DESCRIPTION:Fjords form a key link in the climate system by connecting glac
 iers of the Greenland Ice Sheet to the ocean. They are the gateways for im
 porting oceanic heat to melt ice and for exporting meltwater into the ocea
 n. Submarine melting in fjords has been implicated as a driver of dynamic 
 glacier changes in the past several decades. However\, there are no direct
  measurements of this melting\, and little is known about the fjord proces
 ses that modulate melt rates and export meltwater. Here\, we explore the d
 rivers of fjord circulation and heat transport in Sermilik Fjord\, near th
 e terminus of Helheim Glacier. We investigate the competing roles of buoya
 ncy forcing from the glacier and remote forcing from the shelf. Building o
 n estuarine studies of salt fluxes\, we assess the fluxes of heat and salt
  through the fjord and develop a new framework for inferring submarine mel
 t rates from glacial fjord budgets.
DTSTART;TZID=America/New_York:20151028T121000
DTEND;TZID=America/New_York:20151028T131000
LOCATION:54-915
SEQUENCE:0
SUMMARY:SLS – Rebecca Jackson (MIT/WHOI) – Ocean-glacier interactions in Gr
 eenland: fjord dynamics and heat transport
URL:http://oceans.mit.edu/event/sls-rebecca-jackson-mitwhoi-ocean-glacier-i
 nteractions-in-greenland-fjord-dynamics-and-heat-transport
END:VEVENT
BEGIN:VEVENT
UID:npqli52ji7mdgvlfa620c1bg58@google.com
DTSTAMP:20180503T075350Z
CATEGORIES;LANGUAGE=en-US:MIT Seminar | PAOC Oceanography and Climate Sack 
 Lunch
CONTACT:
DESCRIPTION:During the daytime\, under conditions of relatively low winds a
 nd high solar insolation\, the nearsurface ocean warms. This stratified di
 urnal warm layer traps momentum from the wind near the surface\, generatin
 g shear across the layer. Horizontal advection associated with this diurna
 l warm layer shear is likely responsible for observed nearsurface fresheni
 ng in the upper meter of the ocean during the SPURSI field campaign.\n\nTh
 is shear associated with the diurnal warm layer\, a fractional depth of th
 e deeper mixed\nlayer\, horizontally displaces water near the surface duri
 ng the daytime converting horizontal gradients into vertical ones. At nigh
 t\, convection vertically mixes the horizontally displaced water throughou
 t the deeper mixed layer. This cycle of advection and then vertical mixing
  is a mechanism for effective submesoscale lateral diffusion on the scale 
 of 110 km. We will discuss a simplified representation of the mechanism\, 
 and estimates of effective submesoscale horizontal diffusivity for the mix
 ed layer. The calculated effective diffusivity associated with this mechan
 ism is 1100 m2/s\, depending on the advective timescale\, and depth and sp
 eed of the diurnal warm layer current.\n\nThe importance of the daily cycl
 e as a mechanism for smoothing lateral inhomogeneities within the mixed la
 yer will be considered. Additionally\, we examine how the advection associ
 ated with the diurnal warm layer may locally enhance or suppress the diurn
 al warming observed at a location. The frequency of occurrence of diurnal 
 warm layers and global perspectives will be discussed.
DTSTART;TZID=America/New_York:20151104T121000
DTEND;TZID=America/New_York:20151104T130000
LOCATION:54-915
SEQUENCE:0
SUMMARY:SLS – Alec Bogdanoff (MIT/WHOI)- Submesoscale lateral mixing by diu
 rnal warm layer shear
URL:http://oceans.mit.edu/event/sls-alec-bogdanoff-mitwhoi-submesoscale-lat
 eral-mixing-by-diurnal-warm-layer-shear
END:VEVENT
BEGIN:VEVENT
UID:9g2sb4helvoome98emc9t6fva8@google.com
DTSTAMP:20180503T075350Z
CATEGORIES;LANGUAGE=en-US:MIT Seminar | PAOC Oceanography and Climate Sack 
 Lunch
CONTACT:
DESCRIPTION:I will present a suite of records from a 950 m-depth sediment c
 ore from the western North Atlantic\, a site influenced by Antarctic Inter
 mediate Water (AAIW) in the modern ocean. The data suggest that northern s
 ourced waters dominated the water mass mixture during the LGM\, and that A
 AIW was shallower than ~850m. A d18O decrease early in Heinrich Stadial 1 
 (HS1) is attributed to the incorporation of deglacial meltwater into the n
 orthern sourced waters that continued to influence the site. Two interpret
 ations for the mid-to-late HS1 data will be discussed\, having opposite im
 plications for the vigor of the Atlantic Meridional Overturning Circulatio
 n (AMOC) during this interval. After HS1\, the data conform to the consens
 us view of AMOC variability – increased AAIW presence during the Bolling-A
 llerod and the Holocene\, when the AMOC was strong\, and reduced AAIW pres
 ence during the Younger Dryas when the AMOC was weak.
DTSTART;TZID=America/New_York:20151118T120000
DTEND;TZID=America/New_York:20151118T130000
LOCATION:54-915
SEQUENCE:0
SUMMARY:SLS – Delia Oppo (WHOI) – Deglacial Atlantic circulation:evidence f
 rom multiproxy records from shallow western north Atlantic sediment cores
URL:http://oceans.mit.edu/event/sls-delia-oppo-whoi-deglacial-atlantic-circ
 ulationevidence-from-multiproxy-records-from-shallow-western-north-atlanti
 c-sediment-cores
END:VEVENT
BEGIN:VEVENT
UID:8jlf3c11org5b01aqc8irt4u5g@google.com
DTSTAMP:20180503T075350Z
CATEGORIES;LANGUAGE=en-US:MIT Seminar | PAOC Oceanography and Climate Sack 
 Lunch
CONTACT:
DESCRIPTION:Diapycnal turbulent mixing in the Southern Ocean is believed to
  play a role in setting the rate of the ocean Meridional Overturning Circu
 lation (MOC)\, an important element of the global climate system. Whether 
 this role is important\, however\, depends on the strength of this mixing\
 , which remains poorly qualified on global scale. To address this question
 \, a passive tracer was released upstream of the Drake Passage in 2009 as 
 a part of the Diapycnal and Isopycnal Mixing Experiment in the Southern Oc
 ean (DIMES). While the mixing rates inferred from vertical dispersion of t
 he tracer are large and imply a key role played by mixing in setting the M
 OC\, those based on localized microstructure measurements seem to suggest 
 otherwise. In this work we use a high resolution numerical model of the Dr
 ake Passage region\, sampled in the DIMES experiment and tuned to its obse
 rvations\, to explain that the difference between the two estimates arise 
 from the large values of mixing encountered by the tracer when it flows cl
 ose to the bottom topography. We conclude that enhanced bottom mixing\, in
  combination with large lateral stirring and mixing by mesoscale eddies\, 
 is sufficiently strong to play an important role in setting the Southern O
 cean branch of the MOC below 2 km.
DTSTART;TZID=America/New_York:20151125T120000
DTEND;TZID=America/New_York:20151125T130000
LOCATION:54-915
SEQUENCE:0
SUMMARY:SLS – Ali Mashayek (MIT) – Topographic Enhancement of Vertical Mixi
 ng in the Southern Ocean
URL:http://oceans.mit.edu/event/sls-ali-mashayek-mit-topographic-enhancemen
 t-of-vertical-mixing-in-the-southern-ocean
END:VEVENT
BEGIN:VEVENT
UID:e6rv273dmrbnm36gt5jtusdf8o@google.com
DTSTAMP:20180503T075350Z
CATEGORIES;LANGUAGE=en-US:MIT Seminar | PAOC Oceanography and Climate Sack 
 Lunch
CONTACT:
DESCRIPTION:Using a dynamically consistent state estimate\, the vertical re
 distribution of oceanic heat is investigated over a 20-year period (1992-2
 011). The 20-year mean vertical heat flux shows strong variations both hor
 izontally and vertically\, consistent with the ocean being a dynamically a
 ctive and spatially complex heat exchanger. Between mixing and advection\,
  the two processes determining the vertical heat transport in the deep oce
 an\, advection plays a more important role in setting the spatial patterns
  of vertical heat exchange. The global integral of vertical heat flux show
 s an upward heat transport in the deep ocean\, suggesting an abyssal cooli
 ng trend over 1992-2011.  \n\nThe bidecadal change of the ocean vertical h
 eat flux is also examined and provides dynamical insights into the global 
 ocean heat content change. Preliminary results show that above 1500 m more
  heat is transported downward during 2002 2011 than 1992-2001. The spatial
  pattern of the vertical heat flux change shows consistent features with p
 revious studies\, such as more downward heat transport in the tropical Pac
 ific and the North Atlantic during the last decade. Whereas the spatial pa
 ttern of vertical heat flux change is closely related to the advection cha
 nge\, its global integral is largely determined by the change in mixing\, 
 indicating a crucial role of ocean mixing in explaining the long-term chan
 ge of ocean vertical heat exchange.
DTSTART;TZID=America/New_York:20151202T120000
DTEND;TZID=America/New_York:20151202T130000
LOCATION:54-915
SEQUENCE:0
SUMMARY:SLS – Xinfeng Liang  (MIT) – Global Ocean Vertical Heat Flux and It
 s Bidecadal
URL:http://oceans.mit.edu/event/sls-xinfeng-liang-mit-global-ocean-vertical
 -heat-flux-and-its-bidecadal
END:VEVENT
BEGIN:VEVENT
UID:depq9vqumhk21urf23fh7g7qbc@google.com
DTSTAMP:20180503T075350Z
CATEGORIES;LANGUAGE=en-US:MIT Seminar | PAOC Oceanography and Climate Sack 
 Lunch
CONTACT:
DESCRIPTION:There is considerable interest in determining how the full dist
 ribution of surface temperature changes with warming. Model ensembles proj
 ect that extratropical land temperature variability will decrease in the f
 uture\, consistent with simple physical arguments related to polar amplifi
 cation. However\, observational studies have thus far come to conflicting 
 conclusions. Several analytical pitfalls in interpreting observational rec
 ords lead to these discrepancies\, and highlight the importance of account
 ing for non-normality and the effects of filtering\, time-averaging\, grid
 ding\, and smoothing. I will present a set of methods designed to overcome
  these challenges\, which I apply to a large set of daily temperature obse
 rvations to show that a decrease in temperature variability is already rob
 ustly detectable in the extratropics.
DTSTART;TZID=America/New_York:20151209T121000
DTEND;TZID=America/New_York:20151209T131000
LOCATION:54-915
SEQUENCE:0
SUMMARY:SLS-  – Andy Rhines (UofWashington) – Observations and Dynamics of 
 Decreasing Variability of Winter Temperatures
URL:http://oceans.mit.edu/event/sls-andy-rhines-uofwashington-observations-
 and-dynamics-of-decreasing-variability-of-winter-temperatures
END:VEVENT
BEGIN:VEVENT
UID:f5lefkd12pr2nsoo70jpmp46ks@google.com
DTSTAMP:20180503T075350Z
CATEGORIES;LANGUAGE=en-US:MIT Seminar | PAOC Oceanography and Climate Sack 
 Lunch
CONTACT:
DESCRIPTION:The Southern Ocean is one of the most energetic regions of the 
 world ocean due to intense winds and storm forcing\, strong currents in th
 e form of the Antarctic Circumpolar Current (ACC) interacting with steep t
 opography\, and enhanced mesoscale activity. Consequently\, the Southern O
 cean is believed to be a hotspot for enhanced oceanic mixing. Previous wor
 k based on finestructure parameterizations has suggested that strong mixin
 g is also ubiquitous below the mixed layer. \n\nResults from a US/UK field
  program\, however\, showed that enhanced internal wave finestructure and 
 turbulence levels are not widespread\, but limited to frontal zones where 
 strong bottom currents collide with steep largeamplitude\ntopography. Dire
 ct measurements of turbulence showed that previous estimates of mixing rat
 es in the upper 1km are biased high by up to two orders of magnitude. Desp
 ite the prevalence of energetic wind events\, turbulence driven by downwar
 d propagating nearinertial wave shear is weak below the mixed layer. Ineff
 icient wind forcing at nearinertial frequencies and seasonally varying upp
 er ocean stratification likely contribute to the observed weak mixing rate
 s. Double diffusive processes and turbulence both contribute to buoyancy f
 lux\, elevating the effective mixing efficiency above the canonical value 
 of 0.2 in the upper 1km. Ultimately\, this work informs largescale modelin
 g efforts through parameterizations of mixing processes in the highly unde
 rsampled Southern Ocean.
DTSTART;TZID=America/New_York:20151216T121000
DTEND;TZID=America/New_York:20151216T131000
LOCATION:54-915
SEQUENCE:0
SUMMARY:Sophia Merrifield (MIT/WHOI) – Mechanisms for enhanced turbulence i
 n the Drake Passage region of the Southern Ocean
URL:http://oceans.mit.edu/event/sophia-merrifield-mitwhoi-mechanisms-for-en
 hanced-turbulence-in-the-drake-passage-region-of-the-southern-ocean
END:VEVENT
BEGIN:VEVENT
UID:a2ekjra8t0jbckpkddqqo1uvm4@google.com
DTSTAMP:20180503T075350Z
CATEGORIES;LANGUAGE=en-US:MIT Seminar | PAOC Oceanography and Climate Sack 
 Lunch
CONTACT:
DESCRIPTION:Quantitative and mechanistic understanding of the changes in at
 mospheric CO2 concentrations and ocean carbon content between glacial and 
 interglacial periods remains lacking. An increase in the efficiency of the
  biological pump has been hypothesized to contribute to higher ocean carbo
 n storage during glacial periods. Here we use a model of the ocean's bioge
 ochemical cycles that includes both carbon (13C) and nitrogen (15N) isotop
 es but no sediment interactions. We present results from one present day s
 imulation and six simulations of the Last Glacial Maximum (LGM\, ~20 ka be
 fore the present). The LGM simulations are idealized sensitivity experimen
 ts that explore effects of changes in maximum phytoplankton growth rates (
 mmax). Increasing mmax in the model leads to a more efficient biological p
 ump\, more carbon storage\, and lower d13CDIC and oxygen concentrations. T
 he resulting increase of denitrification stimulates additional nitrogen fi
 xation and increases the spatial variance of d15NNO3\, while decreasing th
 e ocean’s fixed nitrogen inventory. Increased nitrogen fixation lowers sur
 face d15NNO3 in most of the tropics. In the model’s Southern Ocean modest 
 increases in mmax result in higher d15NNO3 due to enhanced local nutrient 
 utilization\, consistent with reconstructions\, but larger mmax cause decl
 ining values there owing to the poleward transport of low tropical d15NNO3
 . Comparison to reconstructions from LGM sediments indicates that models w
 ith moderately increased mmax (by 16 - 33 %) fit both isotope data best\, 
 whereas large increases are inconsistent with nitrogen isotopes although t
 hey still fit the carbon isotopes reasonably well. The best fitting models
  reproduce major features of the glacial d13CDIC\, d15N\, and oxygen recon
 structions\, while simulating reduced carbon storage\, compared with the p
 re-industrial ocean\, due to lower preformed carbon concentrations. We con
 clude that the biological pump was more efficient during the LGM. However\
 , sediment interactions and whole ocean alkalinity changes may be required
  to increase ocean carbon storage. Our analysis illustrates interactions b
 etween the carbon and nitrogen cycles as well as the complementary constra
 ints provided by their isotopes.
DTSTART;TZID=America/New_York:20160203T120000
DTEND;TZID=America/New_York:20160203T130000
LOCATION:54-915
SEQUENCE:0
SUMMARY:SLS – Andreas Schmittner (Oregon State University) – Complementary 
 Constraints from Carbon (13C) and Nitrogen (15N) Isotopes on the Efficienc
 y of the Glacial Ocean’s Biological Pump
URL:http://oceans.mit.edu/event/sls-andreas-schmittner-oregon-state-univers
 ity-complementary-constraints-from-carbon-13c-and-nitrogen-15n-isotopes-on
 -the-efficiency-of-the-glacial-oceans-biological-pump
END:VEVENT
BEGIN:VEVENT
UID:uksifljdddbbdn74o6ph44l3pk@google.com
DTSTAMP:20180503T075351Z
CATEGORIES;LANGUAGE=en-US:MIT Seminar | PAOC Oceanography and Climate Sack 
 Lunch
CONTACT:
DESCRIPTION:The accuracy of ocean components of climate models is thought t
 o increase with resolution\, and we examine this associated change in util
 ity on a range of model fields. A 30-year integration (1978 to 2007) of th
 e NEMO model at 1o\, 1/4o and 1/12o is used to investigate the impact of m
 odelling choices associated with horizontal resolution. Changes in degrees
  of freedom associated with the increasing resolution allow alternative en
 ergy dissipation pathways and their impact is assessed.\n\nA distinct stre
 ngthening of the anti-clockwise component of the overturning is found in t
 he Southern Ocean\, primarily owing to the baroclinic component. The mixed
  layer does not change significantly with resolution\, with results compar
 able to observations. Minor changes with resolution are attributed to incr
 eased numbers of fronts with better resolution. In the interior\, steric h
 eight variability\, specifically its covariance between the surface (2000m
 ) does change owing to eddy effects not captured by the Gent-McWilliams pa
 rametrization. Topographic interactions are assessed in terms of vortex st
 retching in the bottom pressure torque term. Major changes are found in th
 e baroclinic component in the Southern Ocean. Low resolution appears appro
 priate for fields such as the mixed layer depth\, but higher resolution is
  increasingly required for large scale features through allowing eddy acti
 vity.
DTSTART;TZID=America/New_York:20160210T120000
DTEND;TZID=America/New_York:20160210T130000
LOCATION:54-915
SEQUENCE:0
SUMMARY:SLS- Maike Sonnewald (MIT) – Ocean model utility dependence on hori
 zontal resolution
URL:http://oceans.mit.edu/event/sls-maike-sonnewald-mit-ocean-model-utility
 -dependence-on-horizontal-resolution
END:VEVENT
BEGIN:VEVENT
UID:8fmq0u02dfbgsq7o8fasosd454@google.com
DTSTAMP:20180503T075351Z
CATEGORIES;LANGUAGE=en-US:MIT Seminar | PAOC Oceanography and Climate Sack 
 Lunch
CONTACT:
DESCRIPTION:We investigate how sea surface temperatures (SSTs) around Antar
 ctica respond to the Southern Annular Mode (SAM) on multiple timescales. T
 o that end we examine the relationship between SAM and SST within unforced
  preindustrial control simulations of coupled general circulation models (
 GCMs) included in the Climate Modeling Intercomparison Project phase 5 (CM
 IP5). We develop a technique to extract the response of the Southern Ocean
  SST to a hypothetical step increase in the SAM index. We demonstrate that
  in many GCMs\, the expected SST step response function is nonmonotonic in
  time. Following a shift to a positive SAM anomaly\, an initial cooling re
 gime can transition into surface warming around Antarctica. However\, ther
 e are large differences across the CMIP5 ensemble. In some models the step
  response function never changes sign and cooling persists\, while in othe
 r GCMs the SST anomaly crosses over from negative to positive values only 
 three years after a step increase in the SAM. This intermodel diversity ca
 n be related to differences in the models' climatological thermal ocean st
 ratification in the region of seasonal sea ice around Antarctica. Exploiti
 ng this relationship\, we use observational data for the time-mean meridio
 nal and vertical temperature gradients to constrain the real Southern Ocea
 n response to SAM on fast and slow timescales.
DTSTART;TZID=America/New_York:20160217T120000
DTEND;TZID=America/New_York:20160217T130000
LOCATION:54-915
SEQUENCE:0
SUMMARY:SLS- Yavor Kostov (MIT) – Fast and slow responses of Southern Ocean
  SST to SAM in coupled climate models
URL:http://oceans.mit.edu/event/sls-yavor-kostov-mit-fast-and-slow-response
 s-of-southern-ocean-sst-to-sam-in-coupled-climate-models
END:VEVENT
BEGIN:VEVENT
UID:rpqjccranqb6v7lfuffo3h6rm4@google.com
DTSTAMP:20180503T075351Z
CATEGORIES;LANGUAGE=en-US:MIT Seminar | PAOC Oceanography and Climate Sack 
 Lunch
CONTACT:
DESCRIPTION:
DTSTART;TZID=America/New_York:20160302T120000
DTEND;TZID=America/New_York:20160302T130000
LOCATION:54-915
SEQUENCE:0
SUMMARY:SLS-Lorenzo Polvani (Columbia)- zone extremes in the Arctic\, and t
 heir impact on surface climate
URL:http://oceans.mit.edu/event/sls-lorenzo-polvani-columbia-zone-extremes-
 in-the-arctic-and-their-impact-on-surface-climate
END:VEVENT
BEGIN:VEVENT
UID:u24hh7d4d0vvru16l1rum83b1k@google.com
DTSTAMP:20180503T075351Z
CATEGORIES;LANGUAGE=en-US:MIT Seminar | PAOC Oceanography and Climate Sack 
 Lunch
CONTACT:
DESCRIPTION:We describe and interpret in situ observations of tidally drive
 n turbulence that were obtained in the vicinity of a small channel that tr
 ansects the crest of the Mendocino Ridge in the north-eastern Pacific. Flo
 ws are funneled through the channel and have tidal excursion lengths compa
 rable to the width of the ridge crest. Once per day\, energetic turbulence
  is observed in the channel\, with overturns spanning almost half of the f
 ull water depth. A high resolution\, nonhydrostatic\, 2.5-dimensional simu
 lation is used to interpret the observations in terms of the advection of 
 a breaking tidal lee wave past the site location\, and subsequent developm
 ent of a hydraulic jump. During this phase of the tide the strong transpor
 ts were associated with full depth flows\, however\, during the weaker bea
 t of the tide transports were shallow and surface-confined\, generating ne
 gligible turbulence. A regional numerical model of the area finds that the
  subinertial K1 (diurnal) tidal constituent generates topographically trap
 ped waves which propagate anticyclonically around the ridge\, and are asso
 ciated with enhanced near-topographic K1 transports. The interaction of th
 e trapped waves with the M2 (semidiurnal) surface tide produces a baroclin
 ic tidal flow that is alternately surface confined and full depth. Consist
 ent with observations\, full depth flows are associated with the generatio
 n of a large amplitude tidal lee wave on the northward face of the ridge\,
  while surface confined flows are largely nonturbulent. The regional model
  demonstrates that nearfield dissipation over the entire ridge is diurnall
 y modulated\, despite the larger amplitude of the M2 tidal constituent\, i
 ndicating that the trapped wave modulates near-field dissipation and mixin
 g at this location.
DTSTART;TZID=America/New_York:20160309T120000
DTEND;TZID=America/New_York:20160309T130000
LOCATION:54-915
SEQUENCE:0
SUMMARY:SLS- Ruth Musgrave (MIT-MechE) – Tidally driven mixing: breaking le
 e waves\, hydraulic jumps and the influence of subinertial trapped interna
 l tides
URL:http://oceans.mit.edu/event/sls-ruth-musgrave-mit-meche-tidally-driven-
 mixing-breaking-lee-waves-hydraulic-jumps-and-the-influence-of-subinertial
 -trapped-internal-tides
END:VEVENT
BEGIN:VEVENT
UID:0ut5p5eqm7gvf41qhg299rrvf4@google.com
DTSTAMP:20180503T075351Z
CATEGORIES;LANGUAGE=en-US:MIT Seminar | PAOC Oceanography and Climate Sack 
 Lunch
CONTACT:
DESCRIPTION:Eddies in the ocean move westwards. Those shed by western bound
 ary currents must then interact with shelf-slope topography at the western
  boundary.\n\nThis simple picture is complicated by the presence of other 
 eddies and mean flows\, but satellite observations show that many western 
 boundary continental shelves are affected by mesoscale eddies translating 
 near the shelfbreak. In this SST image\, a Gulf Stream Warm Core Ring (ant
 icyclone) transports cold fresh shelf water offshore across the Mid-Atlant
 ic Bight shelfbreak. Using idealized numerical simulations\, I address thr
 ee questions:\n\n1. Does the eddy always get to the shelfbreak\, or can sl
 oping topography stop an eddy from crossing it?\n2. What is the magnitude 
 of offshore transport driven by these eddies?\n3. What is the effect of th
 e eddy on the shelf's flow field?
DTSTART;TZID=America/New_York:20160316T120000
DTEND;TZID=America/New_York:20160316T130000
LOCATION:54-915
SEQUENCE:0
SUMMARY:SLS- Deepak Cherian (MIT/WHOI) – Eddy vs. shelf-slope topography
URL:http://oceans.mit.edu/event/sls-deepak-cherian-mitwhoi-eddy-vs-shelf-sl
 ope-topography
END:VEVENT
BEGIN:VEVENT
UID:ofoqokjn4nk54q8ac5rmgrqbn4@google.com
DTSTAMP:20180503T075351Z
CATEGORIES;LANGUAGE=en-US:MIT Seminar | PAOC Oceanography and Climate Sack 
 Lunch
CONTACT:
DESCRIPTION:
DTSTART;TZID=America/New_York:20160323T120000
DTEND;TZID=America/New_York:20160323T130000
SEQUENCE:0
SUMMARY:no SLS – Spring break
URL:http://oceans.mit.edu/event/no-sls-spring-break-2
END:VEVENT
BEGIN:VEVENT
UID:vuc1onajs0fpct9nl84jltm95g@google.com
DTSTAMP:20180503T075351Z
CATEGORIES;LANGUAGE=en-US:MIT Seminar | PAOC Oceanography and Climate Sack 
 Lunch
CONTACT:
DESCRIPTION:Despite the major role played by mesoscale eddies in redistribu
 ting the energy of the large-scale circulation\, our understanding of thei
 r dissipation is still incomplete. This study investigates the generation 
 of internal waves by decaying eddies in the North Atlantic western boundar
 y. The eddy presence and decay are measured from the altimetric surface re
 lative vorticity associated with an array of full-depth current meters ext
 ending ~100 km offshore at 26.5N. In addition\, internal waves are analyse
 d over a topographic rise from 2-year high-frequency measurements of an Ac
 oustic Doppler Current Profiler (ADCP)\, which is located 13 km offshore i
 n 600 m deep water. Despite an apparent polarity independence of the eddy 
 decay observed from altimetric data\, the flow in the deepest 100 m is enh
 anced for anticyclones (25.2 cm/s) compared with cyclones (-4.7 cm/s). Acc
 ordingly\, the internal wave field is sensitive to this polarity-dependent
  deep velocity. This is apparent from the eddy-modulated enhanced dissipat
 ion rate\, which is obtained from a finescale parameterization and exceeds
  10^-9 W/kg for near-bottom flows greater than 8 cm/s. The present study u
 nderlines the importance of oceanic western boundaries for removing the en
 ergy of low-mode westward-propagating eddies to higher-mode internal waves
 .
DTSTART;TZID=America/New_York:20160330T120000
DTEND;TZID=America/New_York:20160330T130000
LOCATION:54-915
SEQUENCE:0
SUMMARY:SLS-LOUIS CLEMENT (LDEO) – Generation of internal waves by eddies i
 mpinging on the western boundary of the North Atlantic
URL:http://oceans.mit.edu/event/sls-louis-clement-ldeo-generation-of-intern
 al-waves-by-eddies-impinging-on-the-western-boundary-of-the-north-atlantic
END:VEVENT
BEGIN:VEVENT
UID:7f8gqhpvh8tmioqalvkb0i486k@google.com
DTSTAMP:20180503T075351Z
CATEGORIES;LANGUAGE=en-US:MIT Seminar | PAOC Oceanography and Climate Sack 
 Lunch
CONTACT:
DESCRIPTION:The ocean is populated by an intense geostrophic eddy field tha
 t is unresolved in most numerical ocean models used for climate prediction
 . A geometric framework for parameterising ocean eddy fluxes will be prese
 nted that is consistent with conservation of energy and momentum. The fram
 ework involves rewriting the residual-mean eddy force as the divergence of
  an eddy stress tensor. The magnitude of the eddy stress tensor is bounded
  by the eddy energy\, allowing its components to be rewritten in terms of 
 the eddy energy and non-dimensional parameters describing the mean 'shape'
  of the eddies\, analogous to “eddy ellipses” used in observational oceano
 graphy. These non-dimensional geometric parameters have strong connections
  with classical stability theory\, for example\, the new framework preserv
 es the functional form of the linear Eady growth rate and\, with one addit
 ional ingredient\, Arnold’s first stability theorem. This framework also l
 eads to a simple model of 'eddy saturation”: the relative insensitivity of
  the ocean circulation and stratification to the magnitude of the surface 
 wind stress in ocean models with explicit eddies. These results offer the 
 prospect of improved eddy parameterisations that both preserve the underly
 ing symmetries and conservation laws inherent in the unfiltered equations\
 , and reproduce empirical results that have been obtained with eddy-permit
 ting models.
DTSTART;TZID=America/New_York:20160406T120000
DTEND;TZID=America/New_York:20160406T130000
LOCATION:54-915
SEQUENCE:0
SUMMARY:SLS-David Marshall (Oxford) – A geometric interpretation of eddy-me
 an flow interaction in the ocean
URL:http://oceans.mit.edu/event/sls-david-marshall-oxford-a-geometric-inter
 pretation-of-eddy-mean-flow-interaction-in-the-ocean
END:VEVENT
BEGIN:VEVENT
UID:n46c0b7qi2hn84luvfnn1m0ho0@google.com
DTSTAMP:20180503T075351Z
CATEGORIES;LANGUAGE=en-US:MIT Seminar | PAOC Oceanography and Climate Sack 
 Lunch
CONTACT:
DESCRIPTION:The ocean is a major sink of anthropogenic CO2 emissions. In or
 der to predict future atmospheric CO2 levels and global climate\, we must 
 improve quantification of the ocean carbon pumps\, which sequester CO2 fro
 m the atmosphere on timescales from years to millennia. In this talk\, I w
 ill present field data from a quasi-Lagrangian cruise in Monterey Bay\, CA
  and use it to demonstrate how in situ measurements of dissolved gases can
  be used to quantify the biological and solubility pumps. In particular\, 
 O2 concentration and isotopic composition are tracers of gross and net pro
 ductivity. A persistent challenge in quantifying biological productivity f
 rom O2 measurements is the need to accurately parameterize the physical pr
 ocesses that also alter O2 concentration and isotopic composition (e.g.\, 
 bubble-mediated gas exchange\, diffusive gas exchange\, and mixing). Measu
 rements of multiple inert gases\, such as the noble gases\, are used to de
 velop parameterizations for these physical processes. These parameterizati
 ons are then applied to bioactive gases such as O2 and CO2\, thereby impro
 ving estimates of the ocean carbon pumps. Additionally\, I will compare in
  situ gas tracer methods for quantifying productivity with simultaneous in
 cubation- and sediment trap-based productivity estimates.
DTSTART;TZID=America/New_York:20160413T120000
DTEND;TZID=America/New_York:20160413T130000
LOCATION:54-915
SEQUENCE:0
SUMMARY:SLS – Cara Manning (MIT-WHOI) – What can oxygen and noble gases tea
 ch us about the ocean carbon pumps?
URL:http://oceans.mit.edu/event/sls-cara-manning-mit-whoi-what-can-oxygen-a
 nd-noble-gases-teach-us-about-the-ocean-carbon-pumps
END:VEVENT
BEGIN:VEVENT
UID:cvfe069npr1tlfqd734tmkb0o8@google.com
DTSTAMP:20180503T075351Z
CATEGORIES;LANGUAGE=en-US:MIT Seminar | PAOC Oceanography and Climate Sack 
 Lunch
CONTACT:
DESCRIPTION:The talk will address the implications of a warming Arctic Ocea
 n to the structure and ventilation of the Arctic halocline\, and to the ov
 erlying sea-ice cover.  In recent years\, atypically warm intrusions have 
 been observed in the halocline. These derive from intense summertime solar
  warming on outcropping isopycnals in expansive ice-free regions. Heat tha
 t is stored in the shallow halocline can be released in the fall and winte
 r by shear driven mixing\, and convective mixing by the release of dense p
 lumes during sea-ice growth. On the other hand\, deeper warm ocean layers 
 remain unaffected. I'll show that under continued warming\,  there exists 
 the possibility for a regime shift in halocline ventilation by these warm 
 waters\, and a subsequent cap on the storage of deep-ocean heat.
DTSTART;TZID=America/New_York:20160420T120000
DTEND;TZID=America/New_York:20160420T130000
LOCATION:54-915
SEQUENCE:0
SUMMARY:SLS – Mary-Louise Timmermans (Yale) – Summer heat overwinters in th
 e Arctic Ocean
URL:http://oceans.mit.edu/event/sls-mary-louise-timmermans-yale-summer-heat
 -overwinters-in-the-arctic-ocean
END:VEVENT
BEGIN:VEVENT
UID:3c7gkt0bk76i6jrn78o4tjl8qc@google.com
DTSTAMP:20180503T075351Z
CATEGORIES;LANGUAGE=en-US:MIT Seminar | PAOC Oceanography and Climate Sack 
 Lunch
CONTACT:
DESCRIPTION:Recent work has shown that turbulence in the ocean due to break
 ing internal gravity is one of the largest uncertainties in climate models
 .  Knowledge of the horizontal and vertical distribution of the turbulence
  is crucial\, which is challenging because internal waves can travel far f
 rom their sources and can break via a variety of mechanisms.  In this talk
  I will first introduce internal waves for non-specialists\, then walk thr
 ough an example in the South China Sea where waves can be tracked from the
 ir source to their breaking locations\, and a rough energy budget determin
 ed.  Then I’ll discuss recent progress in tracking internal wave energy fr
 om generation to cross-basin propagation to dissipation on the globe\, foc
 using on recent efforts to constrain 1) q\, the fraction of locally dissip
 ated energy and 2) the reflection coefficient which determines the partiti
 on of energy breaking over continental margins versus in the deep basins. 
  A key thread of these analyses is the constant interplay between observat
 ions and high-resolution models.
DTSTART;TZID=America/New_York:20160427T120000
DTEND;TZID=America/New_York:20160427T130000
LOCATION:54-915
SEQUENCE:0
SUMMARY:SLS – Matthew Alford (Scripps Institute of Oceanography) – Observin
 g the generation\, propagation and dissipation of internal waves in the oc
 ean
URL:http://oceans.mit.edu/event/sls-matthew-alford-scripps-institute-of-oce
 anography-observing-the-generation-propagation-and-dissipation-of-internal
 -waves-in-the-ocean
END:VEVENT
BEGIN:VEVENT
UID:dbe78mrro0f3pr2cs2afptun68@google.com
DTSTAMP:20180503T075351Z
CATEGORIES;LANGUAGE=en-US:MIT Seminar | PAOC Oceanography and Climate Sack 
 Lunch
CONTACT:
DESCRIPTION:
DTSTART;TZID=America/New_York:20160504T120000
DTEND;TZID=America/New_York:20160504T130000
LOCATION:54-915
SEQUENCE:0
SUMMARY:SLS – Stephanie Dutkiewicz – MIT (EAPS)
URL:http://oceans.mit.edu/event/sls-stephanie-dutkiewicz-mit-eaps
END:VEVENT
BEGIN:VEVENT
UID:086ehfu2ko34c7f70a5qn0m71k@google.com
DTSTAMP:20180503T075351Z
CATEGORIES;LANGUAGE=en-US:MIT Seminar | PAOC Oceanography and Climate Sack 
 Lunch
CONTACT:
DESCRIPTION:
DTSTART;TZID=America/New_York:20160511T120000
DTEND;TZID=America/New_York:20160511T130000
LOCATION:54-915
SEQUENCE:0
SUMMARY:SLS – Isabela Le Bras (MIT-WHOI)
URL:http://oceans.mit.edu/event/sls-isabela-le-bras-mit-whoi
END:VEVENT
BEGIN:VEVENT
UID:lgt54fubogv1d6gjt18ngh2f4o@google.com
DTSTAMP:20180503T075351Z
CATEGORIES;LANGUAGE=en-US:MIT Seminar | PAOC Oceanography and Climate Sack 
 Lunch
CONTACT:
DESCRIPTION:Does size matter for life in the ocean?
DTSTART;TZID=America/New_York:20160513T120000
DTEND;TZID=America/New_York:20160513T130000
LOCATION:MIT 54-915
SEQUENCE:0
SUMMARY:SLS – Adrian Martin (NOCS) – Does size matter for life in the ocean
 ?
URL:http://oceans.mit.edu/event/sls-adrian-martin-nocs-does-size-matter-for
 -life-in-the-ocean
END:VEVENT
BEGIN:VEVENT
UID:3dsmv53iq9qrj9rm821u916qvg@google.com
DTSTAMP:20180503T075351Z
CATEGORIES;LANGUAGE=en-US:MIT Seminar | PAOC Oceanography and Climate Sack 
 Lunch
CONTACT:
DESCRIPTION:Recent observations show that the Southern Ocean is dominating 
 anthropogenic ocean heat uptake. Southern Ocean heat uptake is large becau
 se the strong northward transport of the heat content anomaly limits warmi
 ng of the sea surface temperature in the uptake region. Using results from
  eddy-rich global climate simulations\, I will discuss the processes contr
 olling the northward heat transport away from the uptake region and the co
 nvergence of the heat content anomaly in the midlatitude Southern Ocean. H
 eat budget analyses reveal that different processes dominate to the north 
 and south of the main convergence region. The heat transport northward fro
 m the high-latitude uptake region is driven primarily by passive advection
  of the heat content anomaly by the existing time mean circulation\, with 
 a smaller contribution from enhanced upwelling. The heat anomaly builds up
  in the midlatitudes due to a convergent Ekman transport anomaly\, combine
 d with limited heat transport further northward into the mode waters. To t
 he north of the peak convergence region\, eddy processes drive the warming
  and account for nearly 80% of the northward heat transport anomaly.
DTSTART;TZID=America/New_York:20160525T120000
DTEND;TZID=America/New_York:20160525T125000
LOCATION:54-915
SEQUENCE:0
SUMMARY:SLS – Adele Morrison (Princeton) – Mechanisms of Southern Ocean hea
 t uptake and transport
URL:http://oceans.mit.edu/event/sls-adele-morrison-princeton-mechanisms-of-
 southern-ocean-heat-uptake-and-transport
END:VEVENT
BEGIN:VEVENT
UID:aaig83l8ph0piup82cpfhgudfk@google.com
DTSTAMP:20180503T075351Z
CATEGORIES;LANGUAGE=en-US:MIT Seminar | PAOC Oceanography and Climate Sack 
 Lunch
CONTACT:
DESCRIPTION:We present a new\, steady-state macromolecule-based model to st
 udy light-nutrient co-limitation of phytoplankton growth. The model is bas
 ed on simplified metabolic flux network and resolves key pools of macro-mo
 lecules\, each of which has different roles for cellular growth. The model
  is used to predict and interpret the variation of cellular stoichiometry 
 of fresh water Synechococcus sp. under different light and nutrient enviro
 nment over a range of dilution rates (averaged growth rates) in a steady s
 tate culture. The model explains the different response of cellular nitrog
 en and phosphorus quota to the various light-nutrient environments\, predi
 cting protein and RNA as most influential molecules on nitrogen and phosph
 orus quotas respectively. The model indicates that\, though total nitrogen
  storage is larger than phosphorus storage\,  relative to requirements\, m
 any times more phosphorus can be stored. It accurately predicts the maximu
 m possible growth rate based on the limits of resource allocation within t
 he cell. Finally\, the model predicts nutrient-light co-limitation of cell
  population density under different dilution rates. While the nutrient has
  a direct effect on the population density\, light impacts it by modifying
  the cellular stoichiometry. This steady-state\, macromolecule based model
  provides bases for predicting phytoplankton growth in different dynamic e
 nvironments
DTSTART;TZID=America/New_York:20160526T140000
DTEND;TZID=America/New_York:20160526T150000
SEQUENCE:0
SUMMARY:SLS – Keisuke Inomura (PAOC-MIT) – A macromolecular model of phytop
 lankton growth under light and nutrient co-limitation
URL:http://oceans.mit.edu/event/sls-keisuke-inomura-paoc-mit-a-macromolecul
 ar-model-of-phytoplankton-growth-under-light-and-nutrient-co-limitation
END:VEVENT
BEGIN:VEVENT
UID:ll80brjfgrjt197v2jusootht4@google.com
DTSTAMP:20180503T075351Z
CATEGORIES;LANGUAGE=en-US:MIT Seminar | PAOC Oceanography and Climate Sack 
 Lunch
CONTACT:
DESCRIPTION:
DTSTART;TZID=America/New_York:20160527T120000
DTEND;TZID=America/New_York:20160527T130000
LOCATION:54-915
SEQUENCE:0
SUMMARY:Special SLS – Joe LaCasce (U of Oslo) – The buoyancy-driven ocean c
 irculation in idealized and realistic basins
URL:http://oceans.mit.edu/event/special-sls-joe-lacasce-u-of-oslo-the-buoya
 ncy-driven-ocean-circulation-in-idealized-and-realistic-basins
END:VEVENT
BEGIN:VEVENT
UID:37pufqcsb1t2cohqvog41humpc@google.com
DTSTAMP:20180503T075351Z
CATEGORIES;LANGUAGE=en-US:MIT Seminar | PAOC Oceanography and Climate Sack 
 Lunch
CONTACT:
DESCRIPTION:Internal hydraulic jumps in flows with upstream shear are inves
 tigated\, motivated by applications such as the flow over sills in Knight 
 Inlet and Hood Canal.  The role of upstream shear has not previously been 
 thoroughly investigated\, although it is important in many natural flows\,
  including exchange flows and flows over topography.  Several two-layer th
 eories are extended to include upstream shear\, showing that solutions onl
 y exist for a limited range of upstream shear values. More realistic two-d
 imensional numerical simulations are guided by the two-layer theory predic
 tions\, and the results are used to evaluate the theories. The simulations
  also show the qualitative types of hydraulic transitions that occur\, inc
 luding undular bores\, fully turbulent jumps\, and conjugate state-like so
 lutions. Numerical simulations are also used to investigate the mixing\, a
 nd a few 3D numerical simulations are found to be consistent with the 2D r
 esults.\n\nWhen the upstream shear is increased and the basic two-layer th
 eories no longer exhibit solutions\, entrainment is required. Furthermore\
 , the downstream structure of the flow has an important effect on the jump
  properties. These factors are investigated by modifying a two-layer theor
 y to allow entrainment and account for the downstream vertical velocity st
 ructure.  The resulting theory indicates that entrainment and jump structu
 re become important factors that influence the jump height. However\, the 
 results are very sensitive to how the downstream vertical profiles of velo
 city and density are incorporated into the layered model\, highlighting th
 e limitations of the two-layer approximation when the shear is large.\n\nW
 hile these two layer theories provide insight into the types of jumps that
  can occur and the mixing that they cause\, jumps such as those that occur
  in Knight Inlet are significantly influenced by factors such as topograph
 y\, tidal forcing\, and three-dimensional effects.
DTSTART;TZID=America/New_York:20160601T121000
DTEND;TZID=America/New_York:20160601T131000
LOCATION:54-915
SEQUENCE:0
SUMMARY:Kelly Anne Ogden (MIT-WHOI) – Internal Hydraulic Jumps with Upstrea
 m Shear
URL:http://oceans.mit.edu/event/kelly-anne-ogden-mit-whoi-internal-hydrauli
 c-jumps-with-upstream-shear
END:VEVENT
BEGIN:VEVENT
UID:6107q6g88bcb157akgbn3j2qb8@google.com
DTSTAMP:20180503T075351Z
CATEGORIES;LANGUAGE=en-US:MIT Seminar | PAOC Oceanography and Climate Sack 
 Lunch
CONTACT:
DESCRIPTION:The Antarctic shelf seas are at present receiving increasing am
 ounts of freshwater from the melting of the Antarctic Ice Sheet and its fr
 inging ice shelves. In response\, the surface ocean salinity in this regio
 n has declined. The talk will investigate the effects of the freshwater in
 put on regional sea level\, using satellite measurements of sea surface he
 ight (for months with no sea-ice cover) and a global ocean circulation mod
 el. It is found that from 1992 to 2011\, sea-level rise along the Antarcti
 c coast is at least 2 ± 0.8 mm yr−1 greater than the regional mean for the
  Southern Ocean. Further\, on the basis of the model simulations\, we conc
 lude that this sea-level rise is almost entirely related to steric adjustm
 ent\, rather than changes in local ocean mass\, with a halosteric rise in 
 the upper ocean and thermosteric contributions at depth.
DTSTART;TZID=America/New_York:20160719T121000
DTEND;TZID=America/New_York:20160719T131000
LOCATION:54-915
SEQUENCE:0
SUMMARY:Special SLS – Craig Rye CUSP (UK) – Trends in Antarctic Subpolar Se
 a Sea Level: Evidence of Increasing Glacial Melt?
URL:http://oceans.mit.edu/event/special-sls-craig-rye-cusp-uk-trends-in-ant
 arctic-subpolar-sea-sea-level-evidence-of-increasing-glacial-melt
END:VEVENT
BEGIN:VEVENT
UID:8fq7r97phuk895oaspp7ioq50s@google.com
DTSTAMP:20180503T075351Z
CATEGORIES;LANGUAGE=en-US:MIT Seminar | PAOC Oceanography and Climate Sack 
 Lunch
CONTACT:
DESCRIPTION:El Ninõ–Southern Oscillation is here considered as large (time)
  scale phenomenon emerging from a complex and fast general dynamical syste
 m.\n\nThis seminar has two main goals. The first one is to give a physical
 ly reasonable explanation for the use of stochastic models for mimicking t
 he apparent random features of the El Ninõ–Southern Oscillation (ENSO) phe
 nomenon. The second one is to show how it is possible to obtain\, with the
  present approach\, some analytical results concerning the stationary dens
 ity function of the anomaly sea surface temperature\, and the occurring ti
 ming of strong El Ninõ events.\nThese results fit well the data from obser
 vations\, reproducing the asymmetry and the power law tail of the histogra
 ms of the NIÑO3 index and the timing of 2-7 years for intermediate El Ninõ
  events.\nThe approach is based on some of our recent theoretical results 
 in the field of the dynamical origin of stochastic processes. More precise
 ly\, we apply this approach to the celebrated recharge oscillator model (R
 OM)\, weakly interacting by a multiplicative term with a general determini
 stic system (Madden-Julian Oscillations\, westerly wind burst\, etc.)\, an
 d we obtain a Fokker-Planck Equation that describes the statistical behavi
 or of the ROM.\n\nFor more details\n— M. Bianucci\, Geophysical Res. Lett.
 \, 43(1)\, 386-394  http://dx.doi.org/10.1002/2015GL066772\n— M. Bianucci\
 , Journal of Statistical Mechanics: Theory and Experiment 2015\, P05016 (2
 015)\, http://stacks.iop.org/1742-5468/2015/i=5/a=P05016\;\n— M. Bianucci\
 , Int. Journal of Mod. Phys. B 0\, 1541004 (2015)\, http://www.worldscient
 ific.com/doi/abs/10.1142/S0217979215410040
DTSTART;TZID=America/New_York:20161005T120000
DTEND;TZID=America/New_York:20161005T130000
LOCATION:54-915
SEQUENCE:0
SUMMARY:SLS – Marco Bianucci (ISMAR – CNR) – Modeling El Nino–Southern Osci
 llation: analytical results
URL:http://oceans.mit.edu/event/sls-marco-bianucci-ismar-cnr-modeling-el-ni
 no-southern-oscillation-analytical-results
END:VEVENT
BEGIN:VEVENT
UID:er737t0tcc2jp3q2kbke0fbopc@google.com
DTSTAMP:20180503T075351Z
CATEGORIES;LANGUAGE=en-US:MIT Seminar | PAOC Oceanography and Climate Sack 
 Lunch
CONTACT:
DESCRIPTION:Ocean Property Fluxes: a Pseudo-Lagrangian Approach\n\nLagrangi
 an methods can provide insight into complex stirring and transport process
 es. These methods can provide a skeleton or template that allows one to id
 entify regions of rapid stirring\, transport\, and transport barriers.  'L
 obe dynamics'\, one of the most beautiful techniques in the toolbox\, prov
 ides for the measurement and visualization of transport and exchange acros
 s moving boundaries.  Other methods allow for the identification of natura
 l barriers such as the material boundary of a coherent eddy.  The focus is
  entirely on fluid 'material' transport (volume transport) and fluxes of o
 ceanographically important properties such as heat\, salt\, vorticity and 
 chemical and biological tracers are relevant only to the extent that they 
 are conserved following fluid motion.  In addition\, lobe dynamics can bec
 ome cumbersome when the flow field is complex.  I will talk about a genera
 lize approach that enables consideration of a variety of property fluxes\,
  provides a simplified application to complex flow fields\, and attempts t
 o preserves the beauty of the original approach.
DTSTART;TZID=America/New_York:20161019T120000
DTEND;TZID=America/New_York:20161019T130000
LOCATION:54-209
SEQUENCE:0
SUMMARY:SLS – Larry Pratt (WHOI)
URL:http://oceans.mit.edu/event/sls-larry-pratt-whoi
END:VEVENT
BEGIN:VEVENT
UID:0l8inq5v99j6i45p17dim1skj0@google.com
DTSTAMP:20180503T075351Z
CATEGORIES;LANGUAGE=en-US:MIT Seminar | PAOC Oceanography and Climate Sack 
 Lunch
CONTACT:
DESCRIPTION:Redox chemistry and ecological dynamics as underlying mechanism
 s for chemoautotrophic control of the primary nitrite maximum\n\nThe prima
 ry nitrite maximum (PNM) – the accumulation of nitrite at the base of the 
 euphotic zone – is a ubiquitous but poorly understood oceanographic featur
 e. I will discuss how ecological dynamics and redox chemistry can explain 
 the formation of the PNM by chemoautotrophic nitrifying microorganisms. Th
 eoretical descriptions of nitrifying metabolisms\, reflecting their underl
 ying redox chemistry\, results in the emergence of a PNM in a marine ecosy
 stem model. I also discuss the implications for understanding rates of new
  production using this more mechanistic representation of nitrification.
DTSTART;TZID=America/New_York:20161026T120000
DTEND;TZID=America/New_York:20161026T130000
LOCATION:54-915
SEQUENCE:0
SUMMARY:SLS – Emily Zakem (MIT)
URL:http://oceans.mit.edu/event/sls-emily-zakem-mit
END:VEVENT
BEGIN:VEVENT
UID:loqqebtvf9gka4i5h01a0ujl90@google.com
DTSTAMP:20180503T075351Z
CATEGORIES;LANGUAGE=en-US:MIT Seminar | PAOC Oceanography and Climate Sack 
 Lunch
CONTACT:
DESCRIPTION:Scaling properties of Arctic sea ice deformation in high-resolu
 tion viscous-plastic sea ice models\n\nMany climate models use a rheology 
 of the viscous-plastic type to simulate sea ice dynamics. With this rheolo
 gy\, large scale velocity and thickness fields can be realistically simula
 ted\, but the representation of small scale deformation rates and Linear K
 inematic Features (LKF) is thought to be inadequate. However\, at high res
 olution (< 5 km) the rheology starts to produce lines of localised deforma
 tion rates. In this study we use results from a 1-km Pan-Arctic model to i
 nvestigate the influence of these deformation features on the scaling prop
 erties of sea ice deformation. For evaluation the EGPS satellite data set 
 of small-scale sea ice kinematics for the Central Arctic (successor of RGP
 S) is used.\nThe modelled sea ice deformation shows multi-fractal spatial 
 scaling and\, in this sense\, agrees with the satellite data. In addition\
 , the temporal coupling of the spatial scaling is reproduced as well. Furt
 hermore\, we examine the regional and seasonal variations of spatial scali
 ng properties and its dependence on the ice condition\, i.e. sea ice conce
 ntration and thickness\, which are in agreement with previous RGPS studies
 .
DTSTART;TZID=America/New_York:20161031T150000
DTEND;TZID=America/New_York:20161031T160000
LOCATION:54-209
SEQUENCE:0
SUMMARY:SLS – Nils Hutter (Alfred Wegener Institute)
URL:http://oceans.mit.edu/event/sls-nils-hutter-alfred-wegener-institute
END:VEVENT
BEGIN:VEVENT
UID:2mkb1gkqss0ulbueppk98dal4k@google.com
DTSTAMP:20180503T075351Z
CATEGORIES;LANGUAGE=en-US:MIT Seminar | PAOC Oceanography and Climate Sack 
 Lunch
CONTACT:
DESCRIPTION:
DTSTART;TZID=America/New_York:20161109T120000
DTEND;TZID=America/New_York:20161109T130000
LOCATION:54-915
SEQUENCE:0
SUMMARY:Glenn Flierl (MIT)
URL:http://oceans.mit.edu/event/glenn-flierl-mit
END:VEVENT
BEGIN:VEVENT
UID:9qn6emngpg2i831ratfv3u8p14@google.com
DTSTAMP:20180503T075351Z
CATEGORIES;LANGUAGE=en-US:MIT Seminar | PAOC Oceanography and Climate Sack 
 Lunch
CONTACT:
DESCRIPTION:Deciphering deep ocean circulation changes between the present 
 and the last glacial\n\nThe paleoclimate record indicates that the deep oc
 ean circulation and water masses have undergone major rearrangements betwe
 en glacial and interglacial climates\, which have likely played an importa
 nt role in the observed atmospheric carbon dioxide swings by affecting the
  partitioning of carbon between the atmosphere and ocean. The mechanisms b
 y which the deep ocean circulation changed\, however\, are still unclear a
 nd represent a major challenge to our understanding of past and future cli
 mates.\n\nWe address this question using a hierarchy of numerical models o
 f varying complexity\, ranging from a highly idealized ocean-only model to
  coupled climate simulations from the Paleoclimate Modelling Intercomparis
 on Project (PMIP). The results suggest that various inferred differences i
 n the deep ocean circulation and stratification between glacial and interg
 lacial climates can be attributed to increased Antarctic sea-ice formation
  in a colder world. Colder temperatures lead to thicker ice\, which is exp
 orted by winds. The associated increased freshwater export leads to saltie
 r and denser Antarctic Bottom Water\, consistent with high abyssal salinit
 ies inferred for the Last Glacial Maximum (LGM). The enhanced deep ocean s
 tratification moreover results in a weakening and shoaling of the inter-he
 mispheric overturning circulation\, again consistent with proxy evidence f
 or the LGM. \n\nThe results also highlight the importance to distinguish b
 etween the equilibrium and transient response of the ocean circulation to 
 climatic changes. The adjustment of the deep ocean circulation is found to
  be highly non-monotonic\, with the response on centennial time-scales dif
 fering qualitatively from the equilibrium results. This distinction is rar
 ely observable in complex coupled climate models\, which cannot be integra
 ted for sufficiently long times.
DTSTART;TZID=America/New_York:20161116T120000
DTEND;TZID=America/New_York:20161116T130000
LOCATION:54-915
SEQUENCE:0
SUMMARY:SLS – Malte Jansen (University of Chicago)
URL:http://oceans.mit.edu/event/sls-malte-jansen-university-of-chicago
END:VEVENT
BEGIN:VEVENT
UID:a0cjs9f8f6q551t8rifnp5lb3c@google.com
DTSTAMP:20180503T075351Z
CATEGORIES;LANGUAGE=en-US:MIT Seminar | PAOC Oceanography and Climate Sack 
 Lunch
CONTACT:
DESCRIPTION:The vertical structure of ocean eddies\n\nSince we began observ
 ing the ocean surface with satellites\, \nit's been of interest to underst
 and how the surface fields reflect motion\nat depth. A series of recent mo
 deling studies suggest the vertical structure \nis fairly well-captured by
  a single mode\, intensified near the surface and\ndecaying to zero with d
 epth. A study of 69 globally-distributed current \nmeters supports this\, 
 in many locations outside of the tropics. The reason\nfor the dominance of
  a surface is explored theoretically\, using a simple\ntwo layer model. Th
 e latter predicts a wavenumber frequency spectra \nwhich resembles that in
  the ocean\, except at small scales. The latter are \nshown to be more lik
 ely to transfer energy to large scales\, leaving the\n(non-dispersive) lar
 ge scale waves in tact. A similar conclusion was made \npreviously from id
 ealized numerical experiments.
DTSTART;TZID=America/New_York:20161122T120000
DTEND;TZID=America/New_York:20161122T130000
LOCATION:54-915
SEQUENCE:0
SUMMARY:SLS – Joe Lacasce (University of Oslo)
URL:http://oceans.mit.edu/event/sls-joe-lacasce-university-of-oslo
END:VEVENT
BEGIN:VEVENT
UID:pk0iqfejbpehn1plfruqhpea5o@google.com
DTSTAMP:20180503T075351Z
CATEGORIES;LANGUAGE=en-US:MIT Seminar | PAOC Oceanography and Climate Sack 
 Lunch
CONTACT:
DESCRIPTION:Stability and Internal Flow Variability of Ice Sheets\n\nIce st
 reams are regions of fast-flowing ice embedded within ice sheets that acco
 unt for the majority of mass transport from ice sheet interiors to the oce
 an. Variability of ice stream flow on centennial to millennial time scales
  plays an important role in the present mass balance of the West Antarctic
  Ice Sheet. In this talk\, I show how a simple model of subglacial meltwat
 er production coupled to ice flow explains the underlying physical mechani
 sm for millennial-scale\, unforced ice stream variability and predicts the
  transition to steady ice stream flow. The model equally well reproduces m
 odern ice stream variability in the Siple Coast region of West Antarctica 
 and Heinrich events\, periods of increased ice discharge from the Laurenti
 de Ice Sheet during the last glacial period. In a more realistic\, purpose
 -built model\, the same mechanism produces variability and rapid migration
 s of the ice stream grounding line. These migrations are always associated
  with mass imbalance near the grounding line\, but not necessarily in the 
 ice stream at large\, which is important to consider when interpreting mod
 ern observations of grounding line variability. Under certain conditions\,
  this ice stream variability may cause the grounding line to slow down for
  hundreds to thousands of years even as it retreats onto a reverse bed slo
 pe\, before readvancing. Such behavior runs counter to the conventional th
 eories predicting the instability of ice sheets on reverse bed slopes. Det
 ermining if such behavior occurs in real ice sheets is important when eval
 uating the likelihood of irreversible ice sheet collapse and rapid sea lev
 el rise in the future.
DTSTART;TZID=America/New_York:20161130T120000
DTEND;TZID=America/New_York:20161130T130000
LOCATION:54-915
SEQUENCE:0
SUMMARY:SLS – Alexander Robel (California Institute of Technology & Univers
 ity of Chicago)
URL:http://oceans.mit.edu/event/sls-alexander-robel
END:VEVENT
BEGIN:VEVENT
UID:5g6bl6kgr3mktf5110aik0lplk@google.com
DTSTAMP:20180503T075351Z
CATEGORIES;LANGUAGE=en-US:MIT Seminar | PAOC Oceanography and Climate Sack 
 Lunch
CONTACT:
DESCRIPTION:
DTSTART;TZID=America/New_York:20161207T120000
DTEND;TZID=America/New_York:20161207T130000
LOCATION:54-915
SEQUENCE:0
SUMMARY:SLS – Oliver Andrews (Tyndall Centre for Climate Change Research\, 
 University of East Anglia)
URL:http://oceans.mit.edu/event/sls-oliver-andrews-tyndall-centre-for-clima
 te-change-research-university-of-east-anglia
END:VEVENT
BEGIN:VEVENT
UID:4976enni5i3j1pu5nflav90cs0@google.com
DTSTAMP:20180503T075351Z
CATEGORIES;LANGUAGE=en-US:MIT Seminar | PAOC Oceanography and Climate Sack 
 Lunch
CONTACT:
DESCRIPTION:Chasing Water: Lagrangian tracking of tracers\, plastic and pla
 nkton through the global ocean\n\n\n\nThe ocean is in constant motion\, wi
 th water circulating within and flowing between basins. As the water moves
  around\, it caries heat and nutrients\, as well as larger objects like pl
 anktonic organisms and litter around the globe.\n\nThe most natural way to
  study the pathways of water and the connections between ocean basins is u
 sing particle trajectories. The trajectories can come from either computin
 g of virtual floats in high-resolution ocean models\, or from the paths of
  free-flowing observational drifters (surface buoys or Argo floats) in the
  real ocean.\n\nIn this seminar\, I'll give an overview of some recent wor
 k with Lagrangian particles. I will show applications to dynamical oceanog
 raphy\, marine ecology\, palaeoclimatology and marine plastic pollution. C
 entral to each of these studies is the question on how connected the diffe
 rent ocean basins are\, and on what time scales water flows between the di
 fferent regions of the ocean.
DTSTART;TZID=America/New_York:20170207T000000
DTEND;TZID=America/New_York:20170207T010000
LOCATION:54-915
SEQUENCE:0
SUMMARY:SLS — Erik van Sebille (Imperial College London)
URL:http://oceans.mit.edu/event/sls-erik-van-sebille-imperial-college-londo
 n
END:VEVENT
BEGIN:VEVENT
UID:pjlef2grif27kg8g886drvn09k@google.com
DTSTAMP:20180503T075351Z
CATEGORIES;LANGUAGE=en-US:MIT Seminar | PAOC Oceanography and Climate Sack 
 Lunch
CONTACT:
DESCRIPTION:Warm-route versus cold-route interbasin exchange in the meridio
 nal overturning circulation - Why is the Atlantic saltier than the Pacific
 ?\n\nThe interbasin exchange of the meridional overturning circulation (MO
 C) is studied in an idealized domain with two basins connected by a circum
 polar channel in the southernmost region. Gnanadesikan’s (1999) conceptual
  model for the upper branch of the MOC is extended to include two basins o
 f different widths connected by a re-entrant channel at the southern edge 
 and separated by two continents of different meridional extents. Its analy
 sis illustrates the basic processes of interbasin flow exchange either thr
 ough the connection at the southern latitude  of the long continent (cold 
 route) or through the connection at the southern latitude of the short con
 tinent (warm route). A cold-route exchange occurs when the short continent
  is poleward of the latitude separating the sub-polar and sub-tropical gyr
 e in the southern hemisphere\, otherwise there is warm-route exchange. The
  predictions of the conceptual model are compared to primitive equation co
 mputations in a domain with the same idealized geometry forced by wind-str
 ess\, surface temperature relaxation and surface salinity flux. A visualiz
 ation of the horizontal structure of the upper branch of the MOC illustrat
 es the cold and warm routes of interbasin exchange flows. Diagnostics of t
 he primitive equation computations show that the warm-route exchange flow 
 is responsible for a substantial salinification of the basin where sinking
  occurs. This salinification is larger when the interbasin exchange is via
  the warm route\, and it is more pronounced when the warm-route exchange f
 lows from the wide to the narrow basin.
DTSTART;TZID=America/New_York:20170301T120000
DTEND;TZID=America/New_York:20170301T130000
LOCATION:54-915
SEQUENCE:0
SUMMARY:SLS — Paola Cessi (Scripps)
URL:http://oceans.mit.edu/event/sls-paola-cessi
END:VEVENT
BEGIN:VEVENT
UID:lmlhi8pt0d9au0c0m4m7tg5ke0@google.com
DTSTAMP:20180503T075351Z
CATEGORIES;LANGUAGE=en-US:MIT Seminar | PAOC Oceanography and Climate Sack 
 Lunch
CONTACT:
DESCRIPTION:Barotropic turbulence above topography: form stress and eddy sa
 turation\n\nWind is an important driver of large-scale ocean currents\, im
 parting momentum into the ocean at the sea surface. This force is almost e
 ntirely balanced by topographic form stress (that is the correlation of bo
 ttom pressure and topographic slope). The direct effect of bottom or skin 
 friction in turbulent boundary layers is almost negligible for the momentu
 m balance. We use a one-layer barotropic model to study the effect of a ra
 ndom monoscale bottom topography on beta-plane geostrophic turbulence. The
  model forcing is a uniform steady wind stress that produces both a unifor
 m large-scale flow and smaller-scale macroturbulence. The macroturbulence 
 is characterized by both standing and transient eddies and the large-scale
  flow is retarded by a combination of bottom drag and domain-averaged topo
 graphic form stress produced by the standing eddies. \n\nA main control pa
 rameter is the ratio of beta to the root mean square gradient of the topog
 raphic potential vorticity (PV). We derive asymptotic scaling laws for the
  strength of the large-scale flow in the limiting cases of weak and strong
  forcing. If beta is comparable to\, or larger than\, the topographic PV g
 radient there is an “eddy saturation” regime in which the large-scale flow
  is insensitive to large changes in the wind stress. We show that eddy sat
 uration requires strong transient eddies that act effectively as PV diffus
 ion. This diffusion does not decrease the strength of the standing eddies 
 but it does increase the topographic form stress by enhancing the correlat
 ion between topographic slope and the standing eddy pressure field.
DTSTART;TZID=America/New_York:20170308T120000
DTEND;TZID=America/New_York:20170308T130000
LOCATION:54-915
SEQUENCE:0
SUMMARY:SLS — William Young (Scripps)
URL:http://oceans.mit.edu/event/sls-william-young
END:VEVENT
BEGIN:VEVENT
UID:282jnfvshnuoiapnbkcm8bf17g@google.com
DTSTAMP:20180503T075351Z
CATEGORIES;LANGUAGE=en-US:MIT Seminar | PAOC Oceanography and Climate Sack 
 Lunch
CONTACT:
DESCRIPTION:Southern Ocean eddies: generation\, propagation and decay\n\nTh
 e Southern Ocean has high concentrations of eddy kinetic energy\, but anal
 ysis of altimeter data and an ocean state estimate show that the generatio
 n of relatively large amplitude eddies is not a ubiquitous feature of the 
 Southern Ocean but rather a phenomenon that is constrained to isolated\, w
 ell-defined regions. Five “hotspots” of high probability of eddy generatio
 n are identified using altimeter data. These hotspots are located downstre
 am of major topographic features\, with their boundaries closely following
  f/H contours. Eddies generated in these locations do not propagate far bu
 t decay within the boundaries of the generation area. The anisotropy of th
 e dispersion of eddy tracks in geographical coordinates versus a rotated c
 oordinates system aligned with f/H contours\, shows that eddies tend to fo
 llow f/H contours rather than f. Maps of buoyancy and shear production ter
 ms computed from a state estimation model show enhanced values of both con
 version terms inside the hotspots\, with buoyancy production two orders of
  magnitude larger than shear production. The mean potential density field 
 estimated from Argo floats shows that inside the hotspots isopycnal slopes
  are steep\, indicating availability of potential energy and providing fur
 ther evidence of the main generation mechanism. The hotspots identified in
  this paper overlap with previously identified regions of standing meander
 s. We hypothesize that hotspot locations can be explained by the combined 
 effect of topographic features\, standing meanders which enhanced baroclin
 ic instability and availability of potential energy to generate eddies via
  baroclinic instabilities.
DTSTART;TZID=America/New_York:20170315T120000
DTEND;TZID=America/New_York:20170315T130000
SEQUENCE:0
SUMMARY:SLS — Uriel Zajaczkovski (Scripps)
URL:http://oceans.mit.edu/event/sls-uriel-zajaczkovski
END:VEVENT
BEGIN:VEVENT
UID:gva7pvgq40gn82og8h8hrmoqug@google.com
DTSTAMP:20180503T075351Z
CATEGORIES;LANGUAGE=en-US:MIT Seminar | PAOC Oceanography and Climate Sack 
 Lunch
CONTACT:
DESCRIPTION:High-resolution observations of internal wave induced turbulenc
 e in the deep ocean \n\nAn overview is presented of high-resolution temper
 ature observations above underwater topography in the deep\, generally sta
 bly stratified ocean. The Eulerian mooring technique is used to monitor te
 mperature variations by typically 100 sensors distributed over lines betwe
 en 40 and 400 m long. The independent sensors sample at a rate of 1 Hz for
  up to one year with a precision better than 0.1 mK. This precision and sa
 mpling rate are sufficient to resolve the large\, energy containing turbul
 ent eddies and all of the internal waves and their breaking above underwat
 er topography. Such underwater wave breaking is the key mechanism for the 
 redistribution of nutrients and heat (to maintain the ocean stably stratif
 ied)\, and the resuspension of sediment.\n\nUnder conditions of tight temp
 erature-density relationship\, the temperature data are used to quantify t
 urbulent overturns. These observations show two distinctive turbulence pro
 cesses that are associated with different phases of a large-scale\, mainly
  tidal\, internal gravity wave: i) highly nonlinear turbulent bores during
  the upslope propagating phase\, and ii) Kelvin-Helmholtz billows\, at som
 e distance above the slope\, during the downslope phase. While the former 
 may be associated in part with convective turbulent overturning following 
 Rayleigh-Taylor instabilities\, the latter are mainly related to shear-ind
 uced instabilities. Under weaker stratified conditions\, away from boundar
 ies\, free convective mixing appears more often\, but a clear inertial sub
 range in temperature spectra is indicative of dominant shear-induced turbu
 lence. With stratification\, turbulence is seen to increase in dissipation
  rate and diffusivity all the way to the bottom\, which challenges the ide
 a of a homogeneous bottom boundary layer. With a newly developed five-line
 s mooring\, the transition from isotropy (full turbulence) to anisotropy (
 stratified turbulence/internal waves) is revealed.
DTSTART;TZID=America/New_York:20170405T120000
DTEND;TZID=America/New_York:20170405T130000
LOCATION:54-915
SEQUENCE:0
SUMMARY:SLS — Hans van Haren (NIOZ)
URL:http://oceans.mit.edu/event/sls-hans-van-haren
END:VEVENT
BEGIN:VEVENT
UID:asmkr42urnv29bn7kehvf58q8s@google.com
DTSTAMP:20180503T075351Z
CATEGORIES;LANGUAGE=en-US:MIT Seminar | PAOC Oceanography and Climate Sack 
 Lunch
CONTACT:
DESCRIPTION:Modeling iceberg drift and decay in modern and glacial climates
 \n\nUnder global warming\, the calving of icebergs into the polar oceans i
 s expected to increase. As a result\, the role that icebergs play in Earth
 's climate system has received a recent surge of interest\, and efforts ar
 e underway to explicitly represent icebergs in GCMs. A better understandin
 g of how icebergs drift and decay will help facilitate an accurate represe
 ntation of icebergs and guide the interpretation of GCM results. In this t
 alk I will present an idealized analytical model that we developed to aid 
 this effort. I will use the model to address (i) which climate model varia
 bles are most important to accurately model iceberg evolution and (ii) whe
 ther climate models do a good job simulating these variables. I then will 
 turn to episodes of massive iceberg discharge\, called Heinrich Events\, w
 hich occurred during the last glacial period. These events are believed to
  have had large-scale impacts on the global climate system. However\, mode
 ling icebergs that lived and melted more than 10\,000 years ago comes with
  its own challenges\, as we will see.
DTSTART;TZID=America/New_York:20170419T120000
DTEND;TZID=America/New_York:20170419T130000
LOCATION:54-915
SEQUENCE:0
SUMMARY:SLS — Till Wagner (Scripps)
URL:http://oceans.mit.edu/event/sls-till-wagner-scripps
END:VEVENT
END:VCALENDAR