Adaptation to the shallow sea floor environment of a species of marine worms, Oligobrachia mashikoi, generally inhabiting deep-sea water

Shouzo Ogiso; Kazuki Watanabe; Yusuke Maruyama; Hiroshi Miyake; Kaito Hatano; Jun Hirayama; Atsuhiko Hattori; Yukina Watabe; Toshio Sekiguchi; Yoichiro Kitani; Yukihiro Furusawa; Yoshiaki Tabuchi; Hajime Matsubara; Mana Nakagiri; Kenji Toyota; Yuichi Sasayama; Nobuo Suzuki

doi:10.1038/s41598-023-33309-6

Adaptation to the shallow sea floor environment of a species of marine worms, Oligobrachia mashikoi, generally inhabiting deep-sea water

Shouzo Ogiso, Kazuki Watanabe, Yusuke Maruyama, Hiroshi Miyake, Kaito Hatano, Jun Hirayama, Atsuhiko Hattori, Yukina Watabe, Toshio Sekiguchi, Yoichiro Kitani, Yukihiro Furusawa, Yoshiaki Tabuchi, Hajime Matsubara, Mana Nakagiri, Kenji Toyota, Yuichi Sasayama, Nobuo Suzuki^*

^*Corresponding author for this work

Division of Molecular Genetics Research, Life Science Research Center, Organization for Promotion of Research

Research output: Contribution to journal › Article › peer-review

1 Scopus citations

Abstract

Beard worms from the family Siboglinidae, are peculiar animals and are known for their symbiotic relationships with sulfur bacteria. Most Siboglinids inhabit the deep-sea floor, thus making difficult to make any observations in situ. One species, Oligobrachia mashikoi, occurs in the shallow depths (24.5 m) of the Sea of Japan. Taking advantage of its shallow-water habitat, the first ecological survey of O. mashikoi was performed over a course of 7 years, which revealed that its tentacle-expanding behavior was dependent on the temperature and illuminance of the sea water. Furthermore, there were significantly more O. mashikoi with expanding tentacles during the nighttime than during the daytime, and the prevention of light eliminated these differences in the number of expending tentacles. These results confirmed that the tentacle-expanding behavior is controlled by environmental light signals. Consistent with this, we identified a gene encoding a photoreceptor molecule, neuropsin, in O. mashikoi, and the expression thereof is dependent on the time of day. We assume that the described behavioral response of O. mashikoi to light signals represent an adaptation to a shallow-water environment within the predominantly deep-sea taxon.

Original language	English
Article number	6299
Journal	Scientific Reports
Volume	13
Issue number	1
DOIs	https://doi.org/10.1038/s41598-023-33309-6
State	Published - 2023/12

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Ogiso, S., Watanabe, K., Maruyama, Y., Miyake, H., Hatano, K., Hirayama, J., Hattori, A., Watabe, Y., Sekiguchi, T., Kitani, Y., Furusawa, Y., Tabuchi, Y., Matsubara, H., Nakagiri, M., Toyota, K., Sasayama, Y., & Suzuki, N. (2023). Adaptation to the shallow sea floor environment of a species of marine worms, Oligobrachia mashikoi, generally inhabiting deep-sea water. Scientific Reports, 13(1), Article 6299. https://doi.org/10.1038/s41598-023-33309-6

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title = "Adaptation to the shallow sea floor environment of a species of marine worms, Oligobrachia mashikoi, generally inhabiting deep-sea water",

abstract = "Beard worms from the family Siboglinidae, are peculiar animals and are known for their symbiotic relationships with sulfur bacteria. Most Siboglinids inhabit the deep-sea floor, thus making difficult to make any observations in situ. One species, Oligobrachia mashikoi, occurs in the shallow depths (24.5 m) of the Sea of Japan. Taking advantage of its shallow-water habitat, the first ecological survey of O. mashikoi was performed over a course of 7 years, which revealed that its tentacle-expanding behavior was dependent on the temperature and illuminance of the sea water. Furthermore, there were significantly more O. mashikoi with expanding tentacles during the nighttime than during the daytime, and the prevention of light eliminated these differences in the number of expending tentacles. These results confirmed that the tentacle-expanding behavior is controlled by environmental light signals. Consistent with this, we identified a gene encoding a photoreceptor molecule, neuropsin, in O. mashikoi, and the expression thereof is dependent on the time of day. We assume that the described behavioral response of O. mashikoi to light signals represent an adaptation to a shallow-water environment within the predominantly deep-sea taxon.",

author = "Shouzo Ogiso and Kazuki Watanabe and Yusuke Maruyama and Hiroshi Miyake and Kaito Hatano and Jun Hirayama and Atsuhiko Hattori and Yukina Watabe and Toshio Sekiguchi and Yoichiro Kitani and Yukihiro Furusawa and Yoshiaki Tabuchi and Hajime Matsubara and Mana Nakagiri and Kenji Toyota and Yuichi Sasayama and Nobuo Suzuki",

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month = dec,

doi = "10.1038/s41598-023-33309-6",

language = "英語",

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Ogiso, S, Watanabe, K, Maruyama, Y, Miyake, H, Hatano, K, Hirayama, J, Hattori, A, Watabe, Y, Sekiguchi, T, Kitani, Y, Furusawa, Y, Tabuchi, Y, Matsubara, H, Nakagiri, M, Toyota, K, Sasayama, Y & Suzuki, N 2023, 'Adaptation to the shallow sea floor environment of a species of marine worms, Oligobrachia mashikoi, generally inhabiting deep-sea water', Scientific Reports, vol. 13, no. 1, 6299. https://doi.org/10.1038/s41598-023-33309-6

TY - JOUR

T1 - Adaptation to the shallow sea floor environment of a species of marine worms, Oligobrachia mashikoi, generally inhabiting deep-sea water

AU - Ogiso, Shouzo

AU - Watanabe, Kazuki

AU - Maruyama, Yusuke

AU - Miyake, Hiroshi

AU - Hatano, Kaito

AU - Hirayama, Jun

AU - Hattori, Atsuhiko

AU - Watabe, Yukina

AU - Sekiguchi, Toshio

AU - Kitani, Yoichiro

AU - Furusawa, Yukihiro

AU - Tabuchi, Yoshiaki

AU - Matsubara, Hajime

AU - Nakagiri, Mana

AU - Toyota, Kenji

AU - Sasayama, Yuichi

AU - Suzuki, Nobuo

PY - 2023/12

Y1 - 2023/12

N2 - Beard worms from the family Siboglinidae, are peculiar animals and are known for their symbiotic relationships with sulfur bacteria. Most Siboglinids inhabit the deep-sea floor, thus making difficult to make any observations in situ. One species, Oligobrachia mashikoi, occurs in the shallow depths (24.5 m) of the Sea of Japan. Taking advantage of its shallow-water habitat, the first ecological survey of O. mashikoi was performed over a course of 7 years, which revealed that its tentacle-expanding behavior was dependent on the temperature and illuminance of the sea water. Furthermore, there were significantly more O. mashikoi with expanding tentacles during the nighttime than during the daytime, and the prevention of light eliminated these differences in the number of expending tentacles. These results confirmed that the tentacle-expanding behavior is controlled by environmental light signals. Consistent with this, we identified a gene encoding a photoreceptor molecule, neuropsin, in O. mashikoi, and the expression thereof is dependent on the time of day. We assume that the described behavioral response of O. mashikoi to light signals represent an adaptation to a shallow-water environment within the predominantly deep-sea taxon.

AB - Beard worms from the family Siboglinidae, are peculiar animals and are known for their symbiotic relationships with sulfur bacteria. Most Siboglinids inhabit the deep-sea floor, thus making difficult to make any observations in situ. One species, Oligobrachia mashikoi, occurs in the shallow depths (24.5 m) of the Sea of Japan. Taking advantage of its shallow-water habitat, the first ecological survey of O. mashikoi was performed over a course of 7 years, which revealed that its tentacle-expanding behavior was dependent on the temperature and illuminance of the sea water. Furthermore, there were significantly more O. mashikoi with expanding tentacles during the nighttime than during the daytime, and the prevention of light eliminated these differences in the number of expending tentacles. These results confirmed that the tentacle-expanding behavior is controlled by environmental light signals. Consistent with this, we identified a gene encoding a photoreceptor molecule, neuropsin, in O. mashikoi, and the expression thereof is dependent on the time of day. We assume that the described behavioral response of O. mashikoi to light signals represent an adaptation to a shallow-water environment within the predominantly deep-sea taxon.

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U2 - 10.1038/s41598-023-33309-6

DO - 10.1038/s41598-023-33309-6

M3 - 学術論文

C2 - 37072482

AN - SCOPUS:85152863637

SN - 2045-2322

VL - 13

JO - Scientific Reports

JF - Scientific Reports

IS - 1

M1 - 6299

ER -

Adaptation to the shallow sea floor environment of a species of marine worms, Oligobrachia mashikoi, generally inhabiting deep-sea water

Abstract

ASJC Scopus subject areas

UN SDGs

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