Understanding interannual variability in the distribution of, and transport processes affecting, the early life stages of Todarodes pacificus using behavioral-hydrodynamic modeling approaches
Authored by Jung Jin Kim, William Stockhausen, Suam Kim, Yang-Ki Cho, Gwang-Ho Seo, Joon-Soo Lee
Date Published: 2015
DOI: 10.1016/j.pocean.2015.04.003
Sponsors:
United States National Oceanic and Atmospheric Administration (NOAA)
Platforms:
No platforms listed
Model Documentation:
Other Narrative
Model Code URLs:
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Abstract
To understand interannual variability in the distribution of the early
life stages of Todarodes pacificus summer spawning population, and to
identify the key transport processes influencing this variability, we
used a coupled bio-physical model that combines an individual-based
model (IBM) incorporating ontogenetic vertical migration for paralarval
behavior and temperature-dependent survival process with a ROMS
oceanographic model. Using the distribution of paralarvae observed in
the northern East China Sea (ECS) during several field cruises as an end
point, the spawning ground for the summer-spawning population was
estimated to extend from southeast Jeju Island to the central ECS near
29 degrees N by running the model backwards in time. Running the model
forward, interannual variability in the distribution of paralarvae
predicted by the model was consistent with that observed in several
field surveys; surviving individuals in the northern ECS were
substantially more abundant in late July 2006 than in 2007, in agreement
with observed paralarval distributions. The total number of surviving
individuals at 60 days after release based on the simulation throughout
summer spawning period (June-August) was 20,329 for 2006, compared with
13,816 for 2007. The surviving individuals were mainly distributed in
the East/Japan Sea (EJS), corresponding to a pathway following the
nearshore branch of the Tsushima Warm Current flowing along the Japanese
coast during both years. In contrast, the abundance of surviving
individuals was extremely low in 2007 compared to 2006 on the Pacific
side of Japan. Interannual variability in transport and survival
processes made a substantial impact on not only the abundance of
surviving paralarvae, but also on the flux of paralarvae to adjacent
waters. Our simulation results for between-year variation in paralarval
abundance coincide with recruitment (year n + 1) variability of T.
pacificus in the field. The agreement between the simulation and field
data indicates our model may be useful for predicting the recruitment of
T. pacificus. (C) 2015 Elsevier Ltd. All rights reserved.
Tags
Vertical-distribution
Current system
East china sea
Mackerel trachurus-japonicus
Warm current
Oki islands
Shelf-break
Ommastrephidae
Cephalopoda
Squid