Japan Geoscience Union Meeting 2023

Presentation information

[J] Oral

A (Atmospheric and Hydrospheric Sciences ) » A-CG Complex & General

[A-CG45] Biogeochemical linkages between the surface ocean and atmosphere

Sun. May 21, 2023 10:45 AM - 12:00 PM 102 (International Conference Hall, Makuhari Messe)

convener:Sohiko Kameyama(Hokkaido University), Yoko Iwamoto(Graduate School of Integrated Sciences for Life, Hiroshima University), Maki Noguchi Aita(Japan Agency for Marine-Earth Science and Technology), Naohiro Kosugi(Meteorological Research Institute), Chairperson:Sohiko Kameyama(Hokkaido University), Yoko Iwamoto(Graduate School of Integrated Sciences for Life, Hiroshima University)

11:00 AM - 11:15 AM

[ACG45-08] Dissolved inorganic radiocarbon as a sensitive tracer for tracking water masses in the upper ocean of the Kuroshio Large Meander Region

*Hui Lan1,2, Yusuke Yokoyama1,2,3,4, Shoko Hirabayashi1, Yosuke Miyairi1, Siyu Jiang1, Hiroaki Saito1, Hiroyasu Hasumi1, Ichiro Yasuda1 (1.Atmosphere and Ocean Research Institute, The University of Tokyo, 2.Department of Multi-Disciplinary Sciences, The University of Tokyo, 3.Department of Earth and Planetary Science, Graduate School of Science, The University of Tokyo, 4.Research School of Physics, The Australian National University)

Keywords:radiocarbon, dissolved inorganic carbon, Kuroshio large meander, eddy, frontogenesis, water mixing

As a result of the above-ground nuclear bomb tests in the Pacific Ocean in the late 1950s and early 1960s, the level of radiocarbon (14C) atoms in the atmosphere nearly doubled. This resultant excess 14C, which is also called the bomb-14C, is absorbed by the ocean through the air-sea exchange of carbon dioxide (CO2) as dissolved inorganic carbon (DIC), allowing us to use it as an ideal tracer for studying water mixing processes and biogeochemical cycles. Although the importance of studying dissolved inorganic radiocarbon (Δ14C-DIC) in ocean circulation research has been recognized for over 50 years, its application in tracking the movement of water masses caused by various physical events remains understudied due to a lack of high-resolution 14C data.

The Kuroshio is the major northern hemispheric western boundary current that transports an enormous volume of heat and salt northward. It is well known that the Kuroshio in the North Pacific Ocean displays exhibits bimodal behavior to the south of Japan with transitions occurring between the large meander (LM) path and the nonlarge meander (NLM) path. The LM-induced turbulent water mixing processes associated with mesoscale eddies and frontogenesis can pose great influences on local climate, fisheries, marine resources, and ship navigation. Therefore, high-resolution physical and chemical data throughout the upper seawater column need to be obtained to evaluate the impact of the physical events that occurred in the Kuroshio LM region.

In this study, we report the high-resolution Δ14C values in the upper 200 m seawater collected from the Kuroshio LM region by R/V Hakuho-maru (KH-22-5) to investigate the influence of various physical events triggered by variations of both the shape and position of the Kuroshio. As a result, a water mass with a lower Δ14C value than surrounding water masses was observed at 100 m depth of station located at the Kuroshio front, which might be caused by the intense near-inertial internal-wave shear that developed during frontogenesis. In addition, the entrainment of coastal water from the Tokara Strait, upwelling and downwelling associated with mesoscale eddies are also considered to be the main factors leading to 14C variabilities found at the Kuroshio LM. In conclusion, our study reveals that Δ14C can serve as a sensitive tracer to track water mass movement in the upper ocean, which may advance our understanding of the carbon cycle.