Your search keyword '"Yasue, Naotaka"' showing total 8 results

1. Seasonal variability in the otolith and somatic size relationship of Japanese anchovy larvae: Counter effects of somatic growth and temperature

Author

Tanaka, Shota, Togoshi, Shizuna, Yasue, Naotaka, and Takasuka, Akinori

Published

2024

2. Growth–feeding linkage in small pelagic fish larvae in the Kii Channel, Japan.

Author

Togoshi, Shizuna, Tanaka, Shota, Yasue, Naotaka, Nakamura, Masahiro, Robert, Dominique, and Takasuka, Akinori

Subjects

FISH larvae, FISHERIES, PELAGIC fishes, LIFE history theory, ATLANTIC herring

Abstract

The linkage between growth rate and feeding success has been shown to strengthen the effects of early growth rate on later growth rate in the early life history of fish. However, the growth–feeding linkage largely remains to be tested at the individual level within the same populations/cohorts. We examined the growth–feeding linkage for multiple populations/cohorts in Japanese anchovy Engraulis japonicus larvae and Pacific round herring Etrumeus micropus larvae, through otolith microstructure analysis, based on samples collected from the commercial fishery for larval fish in the Kii Channel, Japan. The three growth–feeding mechanisms, which are based on the respective potential advantages of larger somatic size, higher growth rate, and earlier morphological development for achieving feeding success, were tested to understand how growth rate relates to feeding success. The "somatic size" mechanism was supported for all of six samples for anchovy larvae and three of four samples for round herring larvae. The "growth rate" mechanism was supported for two of six samples for anchovy larvae and three of four samples for round herring larvae. The "morphological development" mechanism was supported for three of four samples for anchovy larvae and all of three samples for round herring larvae. Overall, the present analysis supported the growth–feeding linkage but revealed the dynamics of the growth–feeding mechanisms. All the mechanisms were shown to operate at least for certain populations/cohorts, but none of them were universally effective over all populations/cohorts across the two species. Understanding the dynamics of the growth–feeding mechanisms would provide precious hints for considering strategies of predicting recruitment dynamics. [ABSTRACT FROM AUTHOR]

Published

2024

3. Life in the fast lane: Revisiting the fast growth—High survival paradigm during the early life stages of fishes

Author

Robert, Dominique, primary, Shoji, Jun, additional, Sirois, Pascal, additional, Takasuka, Akinori, additional, Catalán, Ignacio A., additional, Folkvord, Arild, additional, Ludsin, Stuart A., additional, Peck, Myron A., additional, Sponaugle, Su, additional, Ayón, Patricia M., additional, Brodeur, Richard D., additional, Campbell, Emily Y., additional, D'Alessandro, Evan K., additional, Dower, John F., additional, Fortier, Louis, additional, García, Alberto G., additional, Huebert, Klaus B., additional, Hufnagl, Marc, additional, Ito, Shin‐ichi, additional, Joh, Mikimasa, additional, Juanes, Francis, additional, Nyuji, Mitsuo, additional, Oozeki, Yoshioki, additional, Plaza, Guido, additional, Takahashi, Motomitsu, additional, Tanaka, Yosuke, additional, Tojo, Naoki, additional, Watari, Shingo, additional, Yasue, Naotaka, additional, and Pepin, Pierre, additional

Published

2023

4. Life in the fast lane: Revisiting the fast growth—High survival paradigm during the early life stages of fishes

Author

Japan Society for the Promotion of Science, Japan Fisheries Research and Education Agency, Robert, Dominique, Shoji, Jun, Sirois, Pascal, Takasuka, Akinori, Catalán, Ignacio Alberto, Folkvord, Arild, Ludsin, Stuart A., Peck, Myron A., Sponaugle, Su, Ayón, Patricia M., Brodeur, Richard D., Campbell, Emily Y., D'Alessandro, Evan K., Dower, John F., Fortier, Louis, García, Alberto, Huebert, Klaus B., Hufnagl, Marc, Ito, Shin ichi, Joh, Mikimasa, Juanes, Francis, Nyuji, Mitsuo, Oozeki, Yoshioki, Plaza, Guido, Takahashi, Motomitsu, Tanaka, Yosuke, Tojo, Naoki, Watari, Shingo, Yasue, Naotaka, Pepin, Pierre, Japan Society for the Promotion of Science, Japan Fisheries Research and Education Agency, Robert, Dominique, Shoji, Jun, Sirois, Pascal, Takasuka, Akinori, Catalán, Ignacio Alberto, Folkvord, Arild, Ludsin, Stuart A., Peck, Myron A., Sponaugle, Su, Ayón, Patricia M., Brodeur, Richard D., Campbell, Emily Y., D'Alessandro, Evan K., Dower, John F., Fortier, Louis, García, Alberto, Huebert, Klaus B., Hufnagl, Marc, Ito, Shin ichi, Joh, Mikimasa, Juanes, Francis, Nyuji, Mitsuo, Oozeki, Yoshioki, Plaza, Guido, Takahashi, Motomitsu, Tanaka, Yosuke, Tojo, Naoki, Watari, Shingo, Yasue, Naotaka, and Pepin, Pierre

Abstract

Early life survival is critical to successful replenishment of fish populations, and hypotheses developed under the Growth-Survival Paradigm (GSP) have guided investigations of controlling processes. The GSP postulates that recruitment depends on growth and mortality rates during early life stages, as well as their duration, after which the mortality declines substantially. The GSP predicts a shift in the frequency distribution of growth histories with age towards faster growth rates relative to the initial population because slow-growing individuals are subject to high mortality (via starvation and predation). However, mortality data compiled from 387 cases published in 153 studies (1971–2022) showed that the GSP was only supported in 56% of cases. Selection against slow growth occurred in two-thirds of field studies, leaving a non-negligible fraction of cases showing either an absence of or inverse growth-selective survival, suggesting the growth-survival relationship is more complex than currently considered within the GSP framework. Stochastic simulations allowed us to assess the influence of key intrinsic and extrinsic factors on the characteristics of surviving larvae and identify knowledge gaps on the drivers of variability in growth-selective survival. We suggest caution when interpreting patterns of growth selection because changes in variance and autocorrelation of individual growth rates among cohorts can invalidate fundamental GSP assumptions. We argue that breakthroughs in recruitment research require a comprehensive, population-specific characterization of the role of predation and intrinsic factors in driving variability in the distribution and autocorrelation of larval growth rates, and of the life stage corresponding to the endpoint of pre-recruited life.

Published

2023

5. Life in the fast lane: Revisiting the fast growth—High survival paradigm during the early life stages of fishes

Author

Robert, Dominique, Shoji, Jun, Sirois, Pascal, Takasuka, Akinori, Catalán, Ignacio A., Folkvord, Arild, Ludsin, Stuart A., Peck, Myron, Sponaugle, Su, Ayón, Patricia M., Brodeur, Richard D., Campbell, Emily Y., D'Alessandro, Evan K., Dower, John, Fortier, Louis, García, Alberto G., Huebert, Klaus B., Hufnagl, Marc, Ito, Shin-ichi, Joh, Mikimasa, Juanes, Francis, Nyuji, Mitsuo, Oozeki, Yoshioki, Plaza, Guido, Takahashi, Motomitsu, Tanaka, Yosuke, Tojo, Naoki, Watari, Shingo, Yasue, Naotaka, Pepin, Pierre, Robert, Dominique, Shoji, Jun, Sirois, Pascal, Takasuka, Akinori, Catalán, Ignacio A., Folkvord, Arild, Ludsin, Stuart A., Peck, Myron, Sponaugle, Su, Ayón, Patricia M., Brodeur, Richard D., Campbell, Emily Y., D'Alessandro, Evan K., Dower, John, Fortier, Louis, García, Alberto G., Huebert, Klaus B., Hufnagl, Marc, Ito, Shin-ichi, Joh, Mikimasa, Juanes, Francis, Nyuji, Mitsuo, Oozeki, Yoshioki, Plaza, Guido, Takahashi, Motomitsu, Tanaka, Yosuke, Tojo, Naoki, Watari, Shingo, Yasue, Naotaka, and Pepin, Pierre

Abstract

Early life survival is critical to successful replenishment of fish populations, and hypotheses developed under the Growth-Survival Paradigm (GSP) have guided investigations of controlling processes. The GSP postulates that recruitment depends on growth and mortality rates during early life stages, as well as their duration, after which the mortality declines substantially. The GSP predicts a shift in the frequency distribution of growth histories with age towards faster growth rates relative to the initial population because slow-growing individuals are subject to high mortality (via starvation and predation). However, mortality data compiled from 387 cases published in 153 studies (1971–2022) showed that the GSP was only supported in 56% of cases. Selection against slow growth occurred in two-thirds of field studies, leaving a non-negligible fraction of cases showing either an absence of or inverse growth-selective survival, suggesting the growth-survival relationship is more complex than currently considered within the GSP framework. Stochastic simulations allowed us to assess the influence of key intrinsic and extrinsic factors on the characteristics of surviving larvae and identify knowledge gaps on the drivers of variability in growth-selective survival. We suggest caution when interpreting patterns of growth selection because changes in variance and autocorrelation of individual growth rates among cohorts can invalidate fundamental GSP assumptions. We argue that breakthroughs in recruitment research require a comprehensive, population-specific characterization of the role of predation and intrinsic factors in driving variability in the distribution and autocorrelation of larval growth rates, and of the life stage corresponding to the endpoint of pre-recruited life. -- Keywords : critical period ; growth-mortality ; individual characteristics ; larval physiology ; predation ; recruitment endpoint.

Published

2023

6. Revisiting the role of early life growth for survival potential in three clupeoid species

Author

Tanaka, Shota, primary, Togoshi, Shizuna, additional, Yasue, Naotaka, additional, Burns, Corinne M., additional, Robert, Dominique, additional, and Takasuka, Akinori, additional

Published

2022

7. Migration, diet, condition factor and maturation of skipjack tuna Katsuwonus pelamis associated with the surface fish aggregating devices on the coast of Wakayama, Japan

Author

YAMANE, KOJI, primary, YASUE, NAOTAKA, additional, and KIYOFUJI, HIDETADA, additional

Published

2022

8. Revisiting the role of early life growth for survival potential in three clupeoid species.

Author

Tanaka, Shota, Togoshi, Shizuna, Yasue, Naotaka, Burns, Corinne M., Robert, Dominique, and Takasuka, Akinori

Subjects

SPECIES, SARDINES, WATER temperature, ATLANTIC herring

Abstract

Johan Hjort's "critical period" hypothesis, which postulates that year‐class strength is determined in the short period following the onset of exogenous feeding, has rarely been supported by empirical data. Instead, the current understanding is that recruitment is determined by cumulative mortality throughout early life. Recent studies relied on the measure of growth autocorrelation derived from otolith daily increment widths to test the link between growth rate achieved during the post‐hatch period and during subsequent phases of the larval stage. Based on this approach, we revisit the role of larval growth in driving survival potential in three clupeoid species: Japanese sardine Sardinops melanostictus, Japanese anchovy Engraulis japonicus, and Pacific round herring Etrumeus micropus throughout the larval stage, using a combination of published datasets of otolith increment widths. Strong growth autocorrelation was detected for all three species throughout the larval stage, suggesting that initial growth determines to some extent growth rates achieved later in life. The extent of autocorrelation was reduced in sardine relative to anchovy and round herring at older ages. This interspecific difference could be attributed to differences in sensitivity to variability of environmental factors such as water temperature and food availability. The present findings suggest that the effect of early growth rate persists into later life stages for driving survival potential, which could reconcile the classic concept of "critical period" and the current "growth–survival" paradigm. [ABSTRACT FROM AUTHOR]

Published

2023