*Brian K Arbic1 (1.University of Michigan Ann Arbor)
Session information
[E] Oral
A (Atmospheric and Hydrospheric Sciences ) » A-OS Ocean Sciences & Ocean Environment
[A-OS24] Exploring new frontiers of oceanic mixing research in the next decade
convener:Toshiyuki Hibiya(Department of Earth and Planetary Science, Graduate School of Science, University of Tokyo), Ichiro Yasuda(Atmosphere and Ocean Research Institute, The University of Tokyo), Lakshmi Kantha(Aerospace Engineering Sciences, University of Colorado, Boulder, Colorado, USA)
Mixing plays many important roles in the global ocean through a variety of different processes. In the upper ocean, mixing affects the sea surface temperature and hence air-sea interactions, which in turn influence the state of the atmosphere on a variety of time scales. Mixing in the deep ocean maintains the abyssal stratification of the world's oceans and influences the global overturning circulation, which in turn affects long-term climate. Ocean mixing modulates the transport and dispersal of dissolved and suspended materials, including pollutants, plankton and fish larvae. It also plays an important role in the oceanic food chain in so far as primary productivity, which occurs predominantly in the euphotic zone, is affected by nutrient uptake from the deep associated with ocean mixing.
Microstructure profilers are being increasingly and routinely used to measure turbulence in the oceans, including the deep. Mixing models with more inclusive physics are being developed. Increasing computer power is making it possible to include sophisticated mixing models in global circulation models. As such, it is time to take stock of where we stand at present and explore the frontiers of mixing research over the next decade to advance our knowledge and utilize it for societal benefit.
This session encompasses a wide variety of aspects of mixing within the water column from the surface to the seabed, as well as the impact of mixing on key physical, biological, and chemical processes, such as those mentioned above, with special attention to new findings obtained through improvements in oceanographic instrumentation, mixing models and the use of supercomputers. Observational, theoretical, experimental, and numerical approaches are all welcome. In this session, we particularly encourage discussion that can confirm how far our understanding of related topics has advanced and help define the new frontiers of ocean mixing research to be tackled in the next decade.
*Yohei Onuki1, Sylvain Joubaud2,3, Thierry Dauxois2 (1.Center for Oceanic and Atmospheric Research, Research Institute for Applied Mechanics, Kyushu University, Japan, 2.Universite de Lyon, ENS de Lyon, Universite Claude Bernard, CNRS, Laboratoire de Physique, France, 3.Institut Universitaire de France, France)
*Ichiro Yasuda1, Keunjong Lee1, Maki Nagasawa1, Shuo Zhai1, Yusuke Sasaki1, Daigo Yanagimoto1, Shinzo Fujio1, Mamoru Tanaka1, Yasutaka Goto2, Toshiya Nakano2, Daisuke Sasano2, Takahiro Tanaka4, Shinya Kouketsu3 (1.Atmosphere and Ocean Research Institute, The University of Tokyo, 2.Japan Meteorological Agency Japan, 3.Japan Agency of Marine-Earth Science and Technology, 4.Tohoku National Fisheries Research Institute, Fisheries Research and Education Agency)
*Shuhei Masuda1, Satoshi Osafune1 (1.Japan Agency for Marine-Earth Science and Technology)
*Toshiyuki Hibiya1 (1.Department of Earth and Planetary Science, Graduate School of Science, University of Tokyo)
*Takao Kawasaki1, Hiroyasu Hasumi1 (1.Atmosphere and Ocean Research Insitutute, the University of Tokyo)