Your search keyword '"Shigeho Kakehi"' showing total 7 results

1. Steady nutrient upwelling around a biological hotspot of the confluence between the quasi-stationary jet and the Oyashio in the western North Pacific

Author

Itsuka Yabe, Shin-ichi Ito, Shigeho Kakehi, Takeyoshi Nagai, and Jun Nishioka

Subjects

Medicine, Science

Abstract

Abstract The quasi-stationary jet, a branch of the Kuroshio Extension, transports warm saline water in the mixed water region of the western North Pacific. Around the subarctic front between the quasi-stationary jet and Oyashio and its downstream area is a biologically productive area including small pelagic fishes. However, how nutrient is supplied to the euphotic zone in this region remains elusive, especially into the quasi-stationary jet. Using high-resolution hydrography sections across the jet, we showed that Oyashio water isopycnally intrudes under the jet around 26.5–26.8 σθ and forms nutrient-rich intermediate water. Upwelling associated with ageostrophic secondary circulation across the front, caused by confluence, uplifts the intermediate water. A local nitrate maximum was also identified inside the jet by the hydrographic observation. Upwelling has been suggested as a precondition for nutrient supply from nutrient-rich intermediate water to the jet through water mixing which potentially sustains high biological production in the downstream.

Published

2024

2. Improving taxonomic classification of marine zooplankton by molecular approach: registration of taxonomically verified 18S and 28S rRNA gene sequences

Author

Tsuyoshi Watanabe, Junya Hirai, Sirje Sildever, Kazuaki Tadokoro, Kiyotaka Hidaka, Iwao Tanita, Koh Nishiuchi, Naoki Iguchi, Hiromi Kasai, Noriko Nishi, Seiji Katakura, Yukiko Taniuchi, Taketoshi Kodama, Satokuni Tashiro, Misato Nakae, Yuji Okazaki, Satoshi Kitajima, Sayaka Sogawa, Toru Hasegawa, Tomonori Azumaya, Yutaka Hiroe, Daisuke Ambe, Takashi Setou, Daiki Ito, Akira Kusaka, Takeshi Okunishi, Takahiro Tanaka, Akira Kuwata, Daisuke Hasegawa, Shigeho Kakehi, Yugo Shimizu, and Satoshi Nagai

Subjects

Japan, Marine biology, Metabarcoding, Pacific Ocean, Plankton, Species identification, Medicine, Biology (General), QH301-705.5

Abstract

Background Zooplankton plays an important role in the marine ecosystem. A high level of taxonomic expertise is necessary for accurate species identification based on morphological characteristics. As an alternative method to morphological classification, we focused on a molecular approach using 18S and 28S ribosomal RNA (rRNA) gene sequences. This study investigates how the accuracy of species identification by metabarcoding improves when taxonomically verified sequences of dominant zooplankton species are added to the public database. The improvement was tested by using natural zooplankton samples. Methods rRNA gene sequences were obtained from dominant zooplankton species from six sea areas around Japan and registered in the public database for improving the accuracy of taxonomic classifications. Two reference databases with and without newly registered sequences were created. Comparison of detected OTUs associated with single species between the two references was done using field-collected zooplankton samples from the Sea of Okhotsk for metabarcoding analysis to verify whether or not the newly registered sequences improved the accuracy of taxonomic classifications. Results A total of 166 sequences in 96 species based on the 18S marker and 165 sequences in 95 species based on the 28S marker belonging to Arthropoda (mostly Copepoda) and Chaetognatha were registered in the public database. The newly registered sequences were mainly composed of small non-calanoid copepods, such as species belonging to Oithona and Oncaea. Based on the metabarcoding analysis of field samples, a total of 18 out of 92 OTUs were identified at the species level based on newly registered sequences in the data obtained by the 18S marker. Based on the 28S marker, 42 out of 89 OTUs were classified at the species level based on taxonomically verified sequences. Thanks to the newly registered sequences, the number of OTUs associated with a single species based on the 18S marker increased by 16% in total and by 10% per sample. Based on the 28S marker, the number of OTUs associated with a single species increased by 39% in total and by 15% per sample. The improved accuracy of species identification was confirmed by comparing different sequences obtained from the same species. The newly registered sequences had higher similarity values (mean >0.003) than the pre-existing sequences based on both rRNA genes. These OTUs were identified at the species level based on sequences not only present in the Sea of Okhotsk but also in other areas. Discussion The results of the registration of new taxonomically verified sequences and the subsequent comparison of databases based on metabarcoding data of natural zooplankton samples clearly showed an increase in accuracy in species identification. Continuous registration of sequence data covering various environmental conditions is necessary for further improvement of metabarcoding analysis of zooplankton for monitoring marine ecosystems.

Published

2023

3. Development of a time-series shotgun metagenomics database for monitoring microbial communities at the Pacific coast of Japan

Author

Kazutoshi Yoshitake, Gaku Kimura, Tomoko Sakami, Tsuyoshi Watanabe, Yukiko Taniuchi, Shigeho Kakehi, Akira Kuwata, Haruyo Yamaguchi, Takafumi Kataoka, Masanobu Kawachi, Kazuho Ikeo, Engkong Tan, Yoji Igarashi, Masafumi Ohtsubo, Shugo Watabe, Yutaka Suzuki, Shuichi Asakawa, Sonoko Ishino, Kosuke Tashiro, Yoshizumi Ishino, Takanori Kobayashi, Katsuhiko Mineta, and Takashi Gojobori

Subjects

Medicine, Science

Abstract

Abstract Although numerous metagenome, amplicon sequencing-based studies have been conducted to date to characterize marine microbial communities, relatively few have employed full metagenome shotgun sequencing to obtain a broader picture of the functional features of these marine microbial communities. Moreover, most of these studies only performed sporadic sampling, which is insufficient to understand an ecosystem comprehensively. In this study, we regularly conducted seawater sampling along the northeastern Pacific coast of Japan between March 2012 and May 2016. We collected 213 seawater samples and prepared size-based fractions to generate 454 subsets of samples for shotgun metagenome sequencing and analysis. We also determined the sequences of 16S rRNA (n = 111) and 18S rRNA (n = 47) gene amplicons from smaller sample subsets. We thereafter developed the Ocean Monitoring Database for time-series metagenomic data ( http://marine-meta.healthscience.sci.waseda.ac.jp/omd/ ), which provides a three-dimensional bird’s-eye view of the data. This database includes results of digital DNA chip analysis, a novel method for estimating ocean characteristics such as water temperature from metagenomic data. Furthermore, we developed a novel classification method that includes more information about viruses than that acquired using BLAST. We further report the discovery of a large number of previously overlooked (TAG)n repeat sequences in the genomes of marine microbes. We predict that the availability of this time-series database will lead to major discoveries in marine microbiome research.

Published

2021

4. Metagenomic analysis provides functional insights into seasonal change of a non-cyanobacterial prokaryotic community in temperate coastal waters.

Author

Kaoru Matsumoto, Tomoko Sakami, Tsuyoshi Watanabe, Yukiko Taniuchi, Akira Kuwata, Shigeho Kakehi, Tan Engkong, Yoji Igarashi, Shigeharu Kinoshita, Shuichi Asakawa, Masahira Hattori, Shugo Watabe, Yoshizumi Ishino, Takanori Kobayashi, Takashi Gojobori, and Kazuho Ikeo

Subjects

Medicine, Science

Abstract

The taxonomic compositions of marine prokaryotic communities are known to follow seasonal cycles, but functional metagenomic insights into this seasonality is still limited. We analyzed a total of 22 metagenomes collected at 11 time points over a 14-month period from two sites in Sendai Bay, Japan to obtain seasonal snapshots of predicted functional profiles of the non-cyanobacterial prokaryotic community. Along with taxonomic composition, functional gene composition varied seasonally and was related to chlorophyll a concentration, water temperature, and salinity. Spring phytoplankton bloom stimulated increased abundances of putative genes that encode enzymes in amino acid metabolism pathways. Several groups of functional genes, including those related to signal transduction and cellular communication, increased in abundance during the mid- to post-bloom period, which seemed to be associated with a particle-attached lifestyle. Alternatively, genes in carbon metabolism pathways were generally more abundant in the low chlorophyll a period than the bloom period. These results indicate that changes in trophic condition associated with seasonal phytoplankton succession altered the community function of prokaryotes. Our findings on seasonal changes of predicted function provide fundamental information for future research on the mechanisms that shape marine microbial communities.

Published

2021

5. Estimating the maximum sustainable yield of snow crab (Chionoecetes opilio) off Tohoku, Japan via a state-space stock assessment model with time-varying natural mortality.

Author

Yasutoki Shibata, Jiro Nagao, Yoji Narimatsu, Eisuke Morikawa, Yuto Suzuki, Shun Tokioka, Manabu Yamada, Shigeho Kakehi, and Hiroshi Okamura

Subjects

FISH populations, CRABS, FISH mortality, ECOSYSTEM services, MOLTING, MORTALITY

Abstract

A maximum sustainable yield (MSY) obtained by maintaining or restoring fish stock levels is a tangible benefit of ecosystem services. Snow crab (Chionoecetes opilio) off Tohoku, Japan has been managed by a total allowable catch since 1996, although the abundance has not increased. Surprisingly, there was no increase after 2011, when fishing pressure was greatly reduced because of the Great East Japan earthquake. This implies that some of the crab's biological characteristics, such as recruits, natural mortality coefficient (M) and terminal molting probabilities (p), might have changed. We developed "just another state-space stock assessment model" to estimate the MSY of the snow crab off Tohoku considering interannual variations in M and p. The multimodel inference revealed that M increased from 0.2 in 1997 to 0.59 in 2018, although it did not vary according to instars, sex or terminal molt. The parameter p also increased by 1.34-2.46 times depending on the instar growth stages from 1997 to 2018. We estimated the MSYs in three scenarios, which changed drastically if M and p were set as they were in the past or at the current values estimated from this study. This result indicated that the MSY of snow crab would also vary with time based on their time-varying biological characteristics. [ABSTRACT FROM AUTHOR]

Published

2021

6. The current status of an operational ocean forecast system "FRA-ROMS" and its community of models in the Japan Fisheries Research and Education Agency.

Author

Hiroshi Kuroda, Takashi Setou, Kazuhiro Aoki, Takeshi Okunishi, Daisuke Hasegawa, Daisuke Takahashi, Shigeho Kakehi, Shin-ichi Ito, Takeshi Taneda, Tomonori Azumaya, Denzo Inagake, Yutaka Hiroe, Kenji Morinaga, Makoto Okazaki, Takashi Yokota, Yugo Shimizu, and Tomowo Watanabe

Subjects

WEATHER forecasting, FISHERIES, GENERAL circulation model, MATHEMATICAL models of oceanography, OCEAN circulation

Abstract

The Japan Fisheries Research and Education Agency (FRA) has developed an operational ocean forecast system, referred to as "FRA-ROMS", by coupling ocean general circulation models based on the Regional Ocean Modeling System (ROMS) with three-dimensional variational analysis schemes. This system aims primarily to nowcast and two-month forecast mesoscale variations in the Kuroshio-Oyashio region and to address many fisheries problems around Japan in relation to oceanographic conditions. In addition, other community models have been or are being developed on the basis of the FRA-ROMS, such as advanced marginal sea models with a higher accuracy for the East China Sea and the Okhotsk Sea, lower-trophic ecosystem models coupled with the FRA-ROMS, super-high-resolution models for the shelf-slopes and several coastal bays around Japan, and individual-based models (IBMs) for specific fishery resources or harmful organisms. This study briefly summarizes the current status and future perspective of our community efforts based on the FRA-ROMS in terms of regional ocean modeling and regional climate modeling. [ABSTRACT FROM AUTHOR]

Published

2018

7. Sapphirinid copepods as predators of doliolids: Their role in doliolid mortality and sinking flux.

Author

Kazutaka Takahashi, Tadafumi Ichikawa, Hiroaki Saito, Shigeho Kakehi, Yasunori Sugimoto, Kiyotaka Hidaka, and Koji Hamasaki

Subjects

SAPPHIRINA, COPEPODA, PREDATORY animals, DEATH (Biology), DOLIOLIDA, BIOGEOCHEMICAL cycles

Abstract

We investigated predatory behavior of sapphirinid copepods on doliolids around the Kuroshio Extension at stations experiencing blooms of Dolioletta gegenbauri. Onboard observations showed that adult Sapphirina nigromaculata was an active predator of doliolids, with a preference for internal tissues. When entering a doliolid body cavity, sapphirinids left a characteristic bite mark around the fringe of oral and atrial aperture or hole on the tunic of the doliolid. In situ observations with a video plankton recorder (VPR) revealed that association between sapphirinids and doliolids was common in the field. Adult sapphirinids and doliolids exhibiting the characteristic evidence of an attack (bite mark or hole) were found in sediment traps at a depth of 50 m, indicating that the association between these taxa was due to predation. Early copepodites, which were not observed in sediment-trap samples, appeared in the VPR observations to have a semi-parasitic phase when they attached themselves to nurse chains. The maximal daily ration of sapphirinids estimated by onboard experiments ranged between 29% and 37% of their body carbon weight. Although the mean predation effect by sapphirinids on the doliolid population biomass was only 0.7% d-1, sapphirinids potentially had a greater effect on doliolid abundance at the termination of doliolid blooms. Some of the attacked doliolids were discarded by the sapphirinids and contributed to the sinking flux below 150 m, the importance of which as a source of detritus likely increased with depth. Sapphirinids, despite their relatively low abundance in the water column, play a specific role in driving community succession and biogeochemical cycling. [ABSTRACT FROM AUTHOR]

Published

2013