MAPP Webinar Series: Seasonal Prediction of High Water Levels

  • 21 March 2016
  • Number of views: 1876
MAPP Webinar Series: Seasonal Prediction of High Water Levels

 

The NOAA CPO Modeling, Analysis, Predictions, and Projections (MAPP) program hosted a webinar on the topic of Seasonal Prediction of High Water Levels on Wednesday, March 23, 2016. The announcement is provided below.

 

Date/Time Title
March 23, 2016
3:00 PM - 4:30 PM ET
Seasonal Prediction of High Water Levels
  Speakers and Topics: Arun Kumar (NOAA/CPC)
Potential sources for oceanic predictability

Stephen Griffies (NOAA/GFDL)
USA East Coast sea level, the AMOC and the NAO

Elaine Miles (Australian Bureau of Meteorology)
Prediction of seasonal sea level anomalies within the Bureau of Meteorology


William Sweet (NOAA/NOS)
Projections of “nuisance” tidal flooding
Remote Access:   To view the slideshow:
1. Click the link below or copy and paste the link to a browser: https://cpomapp.webex.com/cpomapp/onstage/g.php?MTID=e64cb33163ed2be723c5c83bb5671d946
2. Enter your name and e-mail address, and click "Join Now". If necessary, enter the event passcode: 20910
 
To hear the audio:
Utilize the on-screen dial-in instructions visible after logging into webex
 
Webex and the teleconference line can accommodate only 100 attendees on a first-come, first-served basis. Please try to share a connection with colleagues at your institution to preserve space for others.

Watch Webcast:


(Right click and Save Link As) .mp4

 

ABSTRACTS:

 

Arun Kumar
NOAA Climate Prediction Center
Potential sources for oceanic predictability
 
Variability in the oceans exists on multiple time-scales that can range from monthly to decadal and longer. Sources of predictability can be attributed to persistence of initial oceanic anomalies and their decay towards climatology; ocean dynamical process; or could be due to coupled air-sea interactions that can result in a modulation of oceanic predictability associated ocean dynamics.  Another source of oceanic predictability on very long time-scales can be attributed to changes in external forcings, e.g., changes in atmospheric constituents, or due to changes in orbital forcings. In this talk a brief overview of various sources of oceanic predictability in the context of prediction of sea level will be given.


Stephen Griffies
NOAA Geophysical Fluid Dynamics Laboratory
USA East Coast sea level, the AMOC and the NAO

We summarize recent observational and modeling studies that connect sea level variations along the USA east coast to the AMOC and NAO.  A reduction in AMOC strength is correlated to increases in sea level along the eastern US seaboard.  Coastal sea level increases also arise when the atmospheric surface pressure reduces near the coast, as during a negative phase of the NAO. Mechanisms for these sea level changes are reviewed.


Elaine Miles
Bureau of Meteorology, Melbourne, Australia
Prediction of seasonal sea level anomalies within the Bureau of Meteorology
 
Sea level rise as a result of human caused climate change poses a severe threat to Pacific Island Countries. Sea level rise in the Western Pacific region has been well above the global average (3.2 mm/year) over the last two to three decades, with impacts already evident through coastal erosion, damage to coastal infrastructure, contamination of ground water and salt water intrusion affecting agricultural land. In recognising that it is through natural variability that the early effects of climate change are most acutely felt, the Pacific-Australia Climate Change Science Adaptation Planning Program (PACCSAP) sought to assess the relationships between seasonal variability, regional sea-level and its predictability at a seasonal timescale. This study was the first attempt to quantitatively evaluate seasonal sea level anomaly (SLA) forecasts over the globe from the Australian Bureau of Meteorology’s dynamical seasonal coupled ocean–atmosphere multi-model system (POAMA). POAMA calculates SLA using a rigid lid ocean model (MOM2) that determines sea surface height based on temperature, salinity and wind gradients. As a dynamical model, POAMA has a distinct advantage over statistical models in being able to predict SLA under unprecedented changes to current physical forcings, such as those from climate change.  The skill of POAMA SLA deterministic and probabilistic forecasts was assessed using satellite altimeter data over the period 1993–2010 and tide gauge records. These results were used to develop prototype seasonal forecast products and are available online. As global warming is likely to increase the frequency and severity of extreme SLA events the development of such products is crucial to combat problems due to climate change in the near future.


William Sweet
NOAA National Ocean Service
Projections of “nuisance” tidal flooding
 
Recurrent tidal flooding is now a serious problem in many U.S. coastal communities.  Measured by NOAA tide gauges, annual frequencies of “nuisance” level impacts are today 300-900% greater than 50 years ago.  Largely due to increasing mean sea level, the trends in tidal flooding are also compounded on an annual basis by El Nino Southern Oscillation (ENSO) effects.   The 2015 meteorological year (May 2015 – April 2016) was projected to be (and will be) a record-breaking year, with El Nino-related increases in daily flood frequencies ranging from 33% to 200% above local trends on the West and East Coasts based upon a bivariate statistical model approach.

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Contact MAPP

Dr. Annarita Mariotti
MAPP Program Director
P: 301-734-1237
E: annarita.mariotti@noaa.gov

Dr. Heather Archambault
MAPP Program Manager
P: 301-734-1219
E: heather.archambault@noaa.gov

Dr. Daniel Barrie
MAPP Program Manager
P: 301-734-1256
E: daniel.barrie@noaa.gov

Alison Stevens*
MAPP Program Specialist
P: 301-734-1218
E: alison.stevens@noaa.gov

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