A54B:
Tropical Cyclone-Ocean Interactions: From Weather to Climate II Posters
A54B:
Tropical Cyclone-Ocean Interactions: From Weather to Climate II Posters
Tropical Cyclone-Ocean Interactions: From Weather to Climate II Posters
Session ID#: 7692
Session Description:
Tropical Cyclone (TC) ??Ocean interactions are critical processes for TC intensity change because the ocean is the energy source for TCs. The air-sea interaction processes involve energy and momentum exchange between TC and the ocean and are important in both TC (i.e., short-term) and climate (i.e., long-term) timescales. In the TC timescale, TC-ocean interactions are critical to intensity forecasting. The intense TC wind also made significant impact to the ocean through entrainment mixing and upwelling. In climate timescale, how the future ocean will evolve has strong implications for future TC activity projection and consequential societal impact. Meanwhile, natural inter-annual (e.g., ENSO) and inter-decadal (e.g., the Pacific Decadal Oscillation and Atlantic Multidecadal Oscillation) and global warming also affect the ocean, TC, and their interactions. This session welcomes submissions under the broad discipline of TC-ocean physical and biogeochemical interactions from
weather to climate timescales. It intends to provide a friendly platform for interactions among oceanographers, atmospheric scientists, and climatologists in this multi-disciplinary field.
weather to climate timescales. It intends to provide a friendly platform for interactions among oceanographers, atmospheric scientists, and climatologists in this multi-disciplinary field.
Primary Chair: I-I Lin, National Taiwan University, Department of Atmospheric Sciences, Taipei, Taiwan
Chairs: Chunzai Wang1, Karthik Balaguru2 and Gregory R Foltz1, (1)NOAA Atlantic Oceanographic and Meteorological Laboratory, Miami, FL, United States(2)PNNL, Marine Sciences Laboratory, Seattle, WA, United States
Moderators: Gregory R Foltz, NOAA Atlantic Oceanographic and Meteorological Laboratory, Miami, FL, United States and Chunzai Wang, NOAA Atlantic Oceanographic and Meteorological Laboratory, Miami, FL, United States
Student Paper Review Liaison: Gregory R Foltz, NOAA Atlantic Oceanographic and Meteorological Laboratory, Miami, FL, United States
Index Terms:
1610 Atmosphere [GLOBAL CHANGE]
1616 Climate variability [GLOBAL CHANGE]
4504 Air/sea interactions [OCEANOGRAPHY: PHYSICAL]
Co-Sponsor(s):
- B - Biogeochemistry and Nutrients
- PC - Past, Present and Future Climate
- PO - Physical Oceanography/Ocean Circulation
- TE - Tropical and Equatorial Environments
Abstracts Submitted to this Session:
Near-inertial resonance, upper-ocean stirring and impacts on the Kuroshio path due to typhoons in the northwestern Pacific Ocean (88446)
Links between the subtropical Indian Ocean sea surface temperature and the tropical cyclones in Australia (89330)
PDO Modulation of ENSO Effect on Tropical Cyclone Rapid Intensification in the Western North Pacific: a View from the Perspective of Atmospheric Dynamic Conditions and its Implication in the Future Projection (90761)
RESPECTIVE ROLES OF AIR-SEA COUPLING AND ATMOSPHERIC BACKGROUND CONDITIONS ON SEASONAL CHANGES OF TROPICAL CYCLONE CHARACTERISTICS BETWEEN THE PRE AND POST-MONSOON IN THE BAY OF BENGAL (90994)
Analysis of the interannual variability of tropical cyclones striking the California coast based on statistical downscaling (91051)
Impacts of the Three-Dimensional Oceanic Thermal Structure and Translation Speed during North Atlantic Hurricanes Emily and Wilma in 2005 (91494)
Upper Ocean Heat Content Variability in East Pacific Hurricane Genesis and Duration (91503)
Assessment of Sea Surface Temperatures in the Caribbean Sea Associated with Hurricane Tracks Using GOES-East Infrared Measurement (92773)
See more of: Air-sea Interactions and Upper Ocean Processes