Living on fire: Deactivating fire coral polyps for larval settlement and symbiosis in the fire coral-associated barnacle Wanella milleporae (Thoracicalcarea: Wanellinae)

Publikation: Bidrag til tidsskriftTidsskriftartikelForskningfagfællebedømt

Standard

Living on fire : Deactivating fire coral polyps for larval settlement and symbiosis in the fire coral-associated barnacle Wanella milleporae (Thoracicalcarea: Wanellinae). / Yap, Fook Choy; Høeg, Jens T.; Chan, Benny K. K.

I: Ecology and Evolution, Bind 12, Nr. 7, e9057, 2022.

Publikation: Bidrag til tidsskriftTidsskriftartikelForskningfagfællebedømt

Harvard

Yap, FC, Høeg, JT & Chan, BKK 2022, 'Living on fire: Deactivating fire coral polyps for larval settlement and symbiosis in the fire coral-associated barnacle Wanella milleporae (Thoracicalcarea: Wanellinae)', Ecology and Evolution, bind 12, nr. 7, e9057. https://doi.org/10.1002/ece3.9057

APA

Yap, F. C., Høeg, J. T., & Chan, B. K. K. (2022). Living on fire: Deactivating fire coral polyps for larval settlement and symbiosis in the fire coral-associated barnacle Wanella milleporae (Thoracicalcarea: Wanellinae). Ecology and Evolution, 12(7), [e9057]. https://doi.org/10.1002/ece3.9057

Vancouver

Yap FC, Høeg JT, Chan BKK. Living on fire: Deactivating fire coral polyps for larval settlement and symbiosis in the fire coral-associated barnacle Wanella milleporae (Thoracicalcarea: Wanellinae). Ecology and Evolution. 2022;12(7). e9057. https://doi.org/10.1002/ece3.9057

Author

Yap, Fook Choy ; Høeg, Jens T. ; Chan, Benny K. K. / Living on fire : Deactivating fire coral polyps for larval settlement and symbiosis in the fire coral-associated barnacle Wanella milleporae (Thoracicalcarea: Wanellinae). I: Ecology and Evolution. 2022 ; Bind 12, Nr. 7.

Bibtex

@article{92450be7558944fcbaf73af228ca1913,
title = "Living on fire: Deactivating fire coral polyps for larval settlement and symbiosis in the fire coral-associated barnacle Wanella milleporae (Thoracicalcarea: Wanellinae)",
abstract = "Symbiosis is increasingly recognized as being an important component in marine systems, and many such relationships are initiated when free-swimming larvae of one partner settle and become sedentary on a host partner. Therefore, several crucial questions emerge such as the larva{\textquoteright}s mechanism of locating a host, selection of substratum and finally settlement on the surface of its future partner. Here, we investigated these mechanisms by studying how larvae of the fire coral-associated barnacle Wanella milleporae move, settle and establish symbiosis with their host, Millepora tenera. Cyprids of W. milleporae possess a pair of specialized antennules with bell-shaped attachment discs that enable them to explore and settle superficially on the hostile surface of the fire coral. Intriguingly, the stinging polyps of the fire coral remain in their respective pores when the cyprids explore the fire coral surface. Even when cyprids come into contact with the nematocysts on the extended stinging polyps during the exploratory phase, no immobilization effects against the cyprids were observed. The exploratory phase of Wanella cyprids can be divided into a sequence of wide searching (large step length and high walking speed), close searching (small step length and low speed) and inspection behavior, eventually resulting in permanent settlement and metamorphosis. After settlement, xenogeneic interactions occur between the fire coral and the newly metamorphosed juvenile barnacle. This involved tissue necrosis and regeneration in the fire coral host, leading to a callus ring structure around the juvenile barnacle, enhancing survival rate after settlement. The complex exploratory and settlement patterns and interactions documented here represent a breakthrough in coral reef symbiosis studies to show how invertebrates start symbiosis with fire corals.",
keywords = "exploratory phase, fire coral, settlement, stinging polyps, symbiosis",
author = "Yap, {Fook Choy} and H{\o}eg, {Jens T.} and Chan, {Benny K. K.}",
note = "Publisher Copyright: {\textcopyright} 2022 The Authors. Ecology and Evolution published by John Wiley & Sons Ltd.",
year = "2022",
doi = "10.1002/ece3.9057",
language = "English",
volume = "12",
journal = "Ecology and Evolution",
issn = "2045-7758",
publisher = "Wiley",
number = "7",

}

RIS

TY - JOUR

T1 - Living on fire

T2 - Deactivating fire coral polyps for larval settlement and symbiosis in the fire coral-associated barnacle Wanella milleporae (Thoracicalcarea: Wanellinae)

AU - Yap, Fook Choy

AU - Høeg, Jens T.

AU - Chan, Benny K. K.

N1 - Publisher Copyright: © 2022 The Authors. Ecology and Evolution published by John Wiley & Sons Ltd.

PY - 2022

Y1 - 2022

N2 - Symbiosis is increasingly recognized as being an important component in marine systems, and many such relationships are initiated when free-swimming larvae of one partner settle and become sedentary on a host partner. Therefore, several crucial questions emerge such as the larva’s mechanism of locating a host, selection of substratum and finally settlement on the surface of its future partner. Here, we investigated these mechanisms by studying how larvae of the fire coral-associated barnacle Wanella milleporae move, settle and establish symbiosis with their host, Millepora tenera. Cyprids of W. milleporae possess a pair of specialized antennules with bell-shaped attachment discs that enable them to explore and settle superficially on the hostile surface of the fire coral. Intriguingly, the stinging polyps of the fire coral remain in their respective pores when the cyprids explore the fire coral surface. Even when cyprids come into contact with the nematocysts on the extended stinging polyps during the exploratory phase, no immobilization effects against the cyprids were observed. The exploratory phase of Wanella cyprids can be divided into a sequence of wide searching (large step length and high walking speed), close searching (small step length and low speed) and inspection behavior, eventually resulting in permanent settlement and metamorphosis. After settlement, xenogeneic interactions occur between the fire coral and the newly metamorphosed juvenile barnacle. This involved tissue necrosis and regeneration in the fire coral host, leading to a callus ring structure around the juvenile barnacle, enhancing survival rate after settlement. The complex exploratory and settlement patterns and interactions documented here represent a breakthrough in coral reef symbiosis studies to show how invertebrates start symbiosis with fire corals.

AB - Symbiosis is increasingly recognized as being an important component in marine systems, and many such relationships are initiated when free-swimming larvae of one partner settle and become sedentary on a host partner. Therefore, several crucial questions emerge such as the larva’s mechanism of locating a host, selection of substratum and finally settlement on the surface of its future partner. Here, we investigated these mechanisms by studying how larvae of the fire coral-associated barnacle Wanella milleporae move, settle and establish symbiosis with their host, Millepora tenera. Cyprids of W. milleporae possess a pair of specialized antennules with bell-shaped attachment discs that enable them to explore and settle superficially on the hostile surface of the fire coral. Intriguingly, the stinging polyps of the fire coral remain in their respective pores when the cyprids explore the fire coral surface. Even when cyprids come into contact with the nematocysts on the extended stinging polyps during the exploratory phase, no immobilization effects against the cyprids were observed. The exploratory phase of Wanella cyprids can be divided into a sequence of wide searching (large step length and high walking speed), close searching (small step length and low speed) and inspection behavior, eventually resulting in permanent settlement and metamorphosis. After settlement, xenogeneic interactions occur between the fire coral and the newly metamorphosed juvenile barnacle. This involved tissue necrosis and regeneration in the fire coral host, leading to a callus ring structure around the juvenile barnacle, enhancing survival rate after settlement. The complex exploratory and settlement patterns and interactions documented here represent a breakthrough in coral reef symbiosis studies to show how invertebrates start symbiosis with fire corals.

KW - exploratory phase

KW - fire coral

KW - settlement

KW - stinging polyps

KW - symbiosis

U2 - 10.1002/ece3.9057

DO - 10.1002/ece3.9057

M3 - Journal article

C2 - 35813926

AN - SCOPUS:85135017552

VL - 12

JO - Ecology and Evolution

JF - Ecology and Evolution

SN - 2045-7758

IS - 7

M1 - e9057

ER -

ID: 315855032