First report of antennular attachment organs in a barnacle nauplius larva

Research output: Contribution to journalJournal articleResearchpeer-review

Standard

First report of antennular attachment organs in a barnacle nauplius larva. / Watanabe, H.; Høeg, Jens Thorvald; Chan, B.K.K.; Kado, R.; Kojima, S.; Sari, A.

In: Journal of Zoology, Vol. 274, No. 3, 2008, p. 284-291.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Watanabe, H, Høeg, JT, Chan, BKK, Kado, R, Kojima, S & Sari, A 2008, 'First report of antennular attachment organs in a barnacle nauplius larva', Journal of Zoology, vol. 274, no. 3, pp. 284-291. https://doi.org/10.1111/j.1469-7998.2007.00384.x

APA

Watanabe, H., Høeg, J. T., Chan, B. K. K., Kado, R., Kojima, S., & Sari, A. (2008). First report of antennular attachment organs in a barnacle nauplius larva. Journal of Zoology, 274(3), 284-291. https://doi.org/10.1111/j.1469-7998.2007.00384.x

Vancouver

Watanabe H, Høeg JT, Chan BKK, Kado R, Kojima S, Sari A. First report of antennular attachment organs in a barnacle nauplius larva. Journal of Zoology. 2008;274(3):284-291. https://doi.org/10.1111/j.1469-7998.2007.00384.x

Author

Watanabe, H. ; Høeg, Jens Thorvald ; Chan, B.K.K. ; Kado, R. ; Kojima, S. ; Sari, A. / First report of antennular attachment organs in a barnacle nauplius larva. In: Journal of Zoology. 2008 ; Vol. 274, No. 3. pp. 284-291.

Bibtex

@article{907357a0f83b11ddb219000ea68e967b,
title = "First report of antennular attachment organs in a barnacle nauplius larva",
abstract = "Larvae released from Newmaniverruca albatrossiana were cultured in the laboratory until the cypris stage. The brood size of individuals was low, about 60 larvae per brood. The exact number of instars was not determined. Early instars had the morphology normally seen in lecithotrophic nauplii of thoracican cirripedes. They had uniramous antennules with a few apical setae and biramous antennae and mandibles equipped with natatory setae only. Neither antennae nor mandibles carried any enditic spines or setae and the mouth cone was diminutive. The last nauplius stage obtained in our cultures was typical except in the structure of antennules. The head shield was enlarged but not flexed down, the antennae and mandibles were virtually unchanged from earlier instars, and the ventral thoracic process was well developed but without any external appendages. In contrast, the antennules had the complex shape and segmentation otherwise seen only in cypris larvae, where they are used for bipedal walking on the substratum in search of a settlement site. The similarity included the specialized shape of the first two antennular segments and the specialization of the third as an attachment organ. Nauplii just prior to this last instar had simple, straight antennules but completely lacked setae and instead terminated bluntly in what appears to be an incipient attachment organ. The presence of cypris-like antennules in late nauplii has not previously been recorded in cirripedes. We suggest that this will allow the larvae to attach on the substratum temporarily before they reach the cypris instar and this will increase the chance of settling successfully on their rare substratum (sea urchin spines). The specialization in late N. albatrossiana nauplii will therefore decrease mortality during the larval phase and thus counterbalance the very low breeding potential in this deep-sea species Udgivelsesdato: 2008",
author = "H. Watanabe and H{\o}eg, {Jens Thorvald} and B.K.K. Chan and R. Kado and S. Kojima and A. Sari",
note = "Author Keywords: deep-sea; barnacles; larvae; sea urchin; epibiont; attachment organs KeyWords Plus: SCANNING ELECTRON-MICROSCOPY; LIFE-CYCLE; CIRRIPEDIA; CRUSTACEA; RHIZOCEPHALA; THORACICA; REPRODUCTION; THECOSTRACA; HYPOTHESES; SETTLEMENT",
year = "2008",
doi = "10.1111/j.1469-7998.2007.00384.x",
language = "English",
volume = "274",
pages = "284--291",
journal = "Journal of Zoology",
issn = "0952-8369",
publisher = "Wiley-Blackwell",
number = "3",

}

RIS

TY - JOUR

T1 - First report of antennular attachment organs in a barnacle nauplius larva

AU - Watanabe, H.

AU - Høeg, Jens Thorvald

AU - Chan, B.K.K.

AU - Kado, R.

AU - Kojima, S.

AU - Sari, A.

N1 - Author Keywords: deep-sea; barnacles; larvae; sea urchin; epibiont; attachment organs KeyWords Plus: SCANNING ELECTRON-MICROSCOPY; LIFE-CYCLE; CIRRIPEDIA; CRUSTACEA; RHIZOCEPHALA; THORACICA; REPRODUCTION; THECOSTRACA; HYPOTHESES; SETTLEMENT

PY - 2008

Y1 - 2008

N2 - Larvae released from Newmaniverruca albatrossiana were cultured in the laboratory until the cypris stage. The brood size of individuals was low, about 60 larvae per brood. The exact number of instars was not determined. Early instars had the morphology normally seen in lecithotrophic nauplii of thoracican cirripedes. They had uniramous antennules with a few apical setae and biramous antennae and mandibles equipped with natatory setae only. Neither antennae nor mandibles carried any enditic spines or setae and the mouth cone was diminutive. The last nauplius stage obtained in our cultures was typical except in the structure of antennules. The head shield was enlarged but not flexed down, the antennae and mandibles were virtually unchanged from earlier instars, and the ventral thoracic process was well developed but without any external appendages. In contrast, the antennules had the complex shape and segmentation otherwise seen only in cypris larvae, where they are used for bipedal walking on the substratum in search of a settlement site. The similarity included the specialized shape of the first two antennular segments and the specialization of the third as an attachment organ. Nauplii just prior to this last instar had simple, straight antennules but completely lacked setae and instead terminated bluntly in what appears to be an incipient attachment organ. The presence of cypris-like antennules in late nauplii has not previously been recorded in cirripedes. We suggest that this will allow the larvae to attach on the substratum temporarily before they reach the cypris instar and this will increase the chance of settling successfully on their rare substratum (sea urchin spines). The specialization in late N. albatrossiana nauplii will therefore decrease mortality during the larval phase and thus counterbalance the very low breeding potential in this deep-sea species Udgivelsesdato: 2008

AB - Larvae released from Newmaniverruca albatrossiana were cultured in the laboratory until the cypris stage. The brood size of individuals was low, about 60 larvae per brood. The exact number of instars was not determined. Early instars had the morphology normally seen in lecithotrophic nauplii of thoracican cirripedes. They had uniramous antennules with a few apical setae and biramous antennae and mandibles equipped with natatory setae only. Neither antennae nor mandibles carried any enditic spines or setae and the mouth cone was diminutive. The last nauplius stage obtained in our cultures was typical except in the structure of antennules. The head shield was enlarged but not flexed down, the antennae and mandibles were virtually unchanged from earlier instars, and the ventral thoracic process was well developed but without any external appendages. In contrast, the antennules had the complex shape and segmentation otherwise seen only in cypris larvae, where they are used for bipedal walking on the substratum in search of a settlement site. The similarity included the specialized shape of the first two antennular segments and the specialization of the third as an attachment organ. Nauplii just prior to this last instar had simple, straight antennules but completely lacked setae and instead terminated bluntly in what appears to be an incipient attachment organ. The presence of cypris-like antennules in late nauplii has not previously been recorded in cirripedes. We suggest that this will allow the larvae to attach on the substratum temporarily before they reach the cypris instar and this will increase the chance of settling successfully on their rare substratum (sea urchin spines). The specialization in late N. albatrossiana nauplii will therefore decrease mortality during the larval phase and thus counterbalance the very low breeding potential in this deep-sea species Udgivelsesdato: 2008

U2 - 10.1111/j.1469-7998.2007.00384.x

DO - 10.1111/j.1469-7998.2007.00384.x

M3 - Journal article

VL - 274

SP - 284

EP - 291

JO - Journal of Zoology

JF - Journal of Zoology

SN - 0952-8369

IS - 3

ER -

ID: 10453729