Kouichi Kawaguchi scite author profile

The diel vertical migration patterns of adult myctophid fishes were determined in the transitional waters of the western North Pacific off Japan, using day–night sampling from 20 to 700 m depths with a commercial otter trawl in the summer of 1995. A total of 12 species belonging to 9 genera were collected. Four patterns were recognized in the diel vertical migration of 11 of the 12 species. (1) Migrants showing clear day–night habitat separation with peak abundance above 200 m at night: Symbolophorus californiensis, Tarletonbeania taylori, Notoscopelus japonicus, Diaphus theta, Ceratoscopelus warmingi, and Diaphus gigas. (2) Semi‐migrants, in which part of the population often remains in the daytime habitat at night. The distribution depths of migratory and nonmigratory individuals do not overlap: Stenobrachius leucopsarus. (3) Passive‐migrants, in which there is no separation of day–night habitats, but the upper limit of daytime distribution depth shifts to a shallower layer at night, probably as the fish follow migratory prey: Lampanyctus jordani. (4) Nonmigrants: Stenobrachius nannochir, Lampanyctus regalis (> 140 mm SL), and Protomyctophum thompsoni. The day–night habitat temperature ranges are also given for the 11 species. No remarkable east–west differences were seen in the vertical migration patterns compared with previous knowledge of eight of these species in the eastern Pacific. The diel migration patterns are newly described for three other species endemic to the western Pacific. The standing stock of myctophids in the study area was conservatively estimated at 18.5 ± 4.7 g m−2 (avg. ± SD).

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Horizontal and vertical distribution patterns of larval myctophid fishes in the Kuroshio Current region

Sassa

Moser

Kawaguchi

2002

Fisheries Oceanography

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The horizontal and vertical distribution of myctophid fish larvae is described based on discrete depth sampling from the surface down to 200 m at seven stations on a transect crossing the Kuroshio Current on 6–9 July 1977. A total of 7819 larvae was collected. Myctophid larvae accounted for 72% of the total fish larvae and included 18 species or types belonging to 12 genera. Based on horizontal distribution patterns these species (or types) were categorized into three groups, i.e. Kuroshio‐axis group (Myctophum asperum, M. orientale, Lampadena luminosa and Symbolophorus evermanni), Kuroshio east group (Hygophum reinhardtii, Lampanyctus alatus, Diogenichthys atlanticus, Lobianchia gemellarii, M. nitidulum, Benthosema suborbitale, Lampadena sp. and Ceratoscopelus warmingii) and Pan‐ Kuroshio group [Diaphus stubby type (mostly D. garmani) and D. kuroshio]. Larvae of the subfamily Lampanyctinae were distributed in shallower (0–30 m) waters than those of the subfamily Myctophinae (50–150 m), while this relationship was opposite of the night‐time depth distribution of adults of the two subfamilies.

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Feeding habits of three dominant myctophid fishes, Diaphus theta, Stenobrachius leucopsarus and S. nannochir, in the subarctic and transitional waters of the western North Pacific

Moku¹,

Kawaguchi²,

Watanabe³

et al. 2000

Mar. Ecol. Prog. Ser.

110

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The feeding habits of 3 dominant myctophid fishes, Diaphus theta (vertical migrant), Stenobrachius leucopsarus (semi-migrant), and S. nannochir (non-migrant), were studied in relation to their diel vertical migration patterns using time-series sampling during the summers of 1994 to 1996 in the subarctic and transitional waters of the western North Pacific. D. theta and S. leucopsarus fed mainly on euphausiids (mainly Euphausia pacifica), copepods (mainly Metridia pacifica and the Neocalanus plumchrus/flemingeri group), and amphipods (mainly the Themisto japonica /pacifica group). The prey of S. nannochir was mainly copepods, but the species were different from those preyed on by D. theta and S. leucopsarus. D. theta fed on euphausiids, with 1 feeding peak during the daytime and another at night, but fed on amphipods only at night and on copepods throughout the entire diel cycle. The vertical migratory component of S. leucopsarus showed a significant diel feeding periodicity, feeding on euphausiids, copepods, and amphipods from dusk to midnight, while the non-migratory component did not feed actively at nighttime, and had a high frequency of empty stomachs. The non-migratory S. nannochir showed no diel feeding periodicity. The average ratio of stomach content weight/body weight was 2.2% during the day and 2.0% at night in D. theta, 0.8% during the daytime and 1.1% at night in the migratory S. leucopsarus, 0.6% at night in the nonmigratory S. leucopsarus, and 0.07 to 0.13% (avg. 0.11%) in S. nannochir. KEY WORDS: Myctophid fish · Diet composition · Diel feeding periodicity · Daily ration · Diel vertical migrationResale or republication not permitted without written consent of the publisher

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Downward transport of organic carbon by diel migratory micronekton in the western equatorial Pacific:

Hidaka¹,

Kawaguchi²,

Murakami³

et al. 2001

Deep Sea Research Part I: Oceanographic Research Papers

122

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Assemblages of vertical migratory mesopelagic fish in the transitional region of the western North Pacific

Sassa

Kawaguchi

Kinoshita³

et al. 2002

Fisheries Oceanography

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Assemblages of vertical migratory mesopelagic fish are described for the nighttime upper 20 m layer of the transitional and adjacent waters in the western North Pacific. Twenty‐three mesopelagic fish species belonging to six families and 16 genera were collected during June 1996. Family Myctophidae was most speciose, represented by 17 species, followed by Sternoptychidae (two spp.) and Bathylagidae (one spp.). Six assemblages are recognized based on their species composition: Subarctic, Northern Transition, Southern Transition, Subtropical, Slope Water and Seamount Assemblages. These assemblages are also characterized by size composition and biomass of the catches. The distributions of the Subarctic, Northern Transition, Southern Transition and Subtropical Assemblages are approximately defined by the Kuroshio and Oyashio fronts and the Subarctic Boundary. Slope Water and Seamount Assemblages are closely related to the slope water around the shelf edge off Japan and waters around the Shatsky Rise and the Emperor Seamount chain, respectively. The importance of the Southern Transition Assemblage area between the Kuroshio front and Subarctic Boundary as spawning and nursery grounds of many subarctic, transitional and subtropical fishes is elucidated, based on the geographical distribution patterns of their larvae and juveniles.

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