Reproduction in Anthelia glauca (Octocorallia: Xeniidae). II. Transmission of algal symbionts during planular brooding

Y. Benayahu; M. H. Schleyer

doi:10.1007/s002270050336

Reproduction in Anthelia glauca (Octocorallia: Xeniidae). II. Transmission of algal symbionts during planular brooding

Y. Benayahu^*, M. H. Schleyer

^*Corresponding author for this work

School of Zoology

South African Association for Marine Biological Research

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

25 Scopus citations

Abstract

The soft coral Anthelia glauca Lamarck, 1816, of the family Xeniidae, is found on the reefs of KwaZulu-Natal, South Africa. Its gastrodermal cells contain numerous endosymbiotic unicellular algae (zooxanthellae). A. glauca is a gonochoric species that simultaneously broods its planulae within the pharyngeal cavity of the polyps. Symbiotic algae appear with zygote formation within the pharynx, embedded in amorphous material. The algal cells adhere to the ciliated ectodermal surface of immature planulae and are most probably endocytosed by them. Zooxanthellae are translocated towards the basal part of the ectoderm. Gaps are subsequently opened in the mesoglea into which symbionts surrounded by ectodermally derived material, including plasma membrane, pass. The basal membrane of endodermal cells disintegrates, and the algae bulge into spaces formed in the underlying endoderm. Throughout the process, each zooxanthella resides within a vacuolar membrane in the detached ectodermal cytoplasm. The acquisition process is essentially one in which zooxanthellae are translocated from the pharyngeal cavity into the ectoderm and then through the mesoglea into the endoderm, culminating in the final symbiotic state. The direct transmission of symbiotic algae to the eggs or larvae probably provides the most efficient means whereby zooxanthellae are acquired by the host progeny.

Original language	English
Pages (from-to)	433-442
Number of pages	10
Journal	Marine Biology
Volume	131
Issue number	3
DOIs	https://doi.org/10.1007/s002270050336
State	Published - Jun 1998

Funding

Funders	Funder number
Natal Parks Board
Fundação de Desenvolvimento da Pesquisa
South African Association for Marine Biological Research

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10.1007/s002270050336

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@article{fbdc235f12214e118a9d557752964934,

title = "Reproduction in Anthelia glauca (Octocorallia: Xeniidae). II. Transmission of algal symbionts during planular brooding",

abstract = "The soft coral Anthelia glauca Lamarck, 1816, of the family Xeniidae, is found on the reefs of KwaZulu-Natal, South Africa. Its gastrodermal cells contain numerous endosymbiotic unicellular algae (zooxanthellae). A. glauca is a gonochoric species that simultaneously broods its planulae within the pharyngeal cavity of the polyps. Symbiotic algae appear with zygote formation within the pharynx, embedded in amorphous material. The algal cells adhere to the ciliated ectodermal surface of immature planulae and are most probably endocytosed by them. Zooxanthellae are translocated towards the basal part of the ectoderm. Gaps are subsequently opened in the mesoglea into which symbionts surrounded by ectodermally derived material, including plasma membrane, pass. The basal membrane of endodermal cells disintegrates, and the algae bulge into spaces formed in the underlying endoderm. Throughout the process, each zooxanthella resides within a vacuolar membrane in the detached ectodermal cytoplasm. The acquisition process is essentially one in which zooxanthellae are translocated from the pharyngeal cavity into the ectoderm and then through the mesoglea into the endoderm, culminating in the final symbiotic state. The direct transmission of symbiotic algae to the eggs or larvae probably provides the most efficient means whereby zooxanthellae are acquired by the host progeny.",

author = "Y. Benayahu and Schleyer, {M. H.}",

note = "Funding Information: Acknowledgements Ms A. Kruger kindly provided histological sections from her study of reproduction in Anthelia glauca for this work. We thank Drs. M.A. Coffroth, G. Muller-Parker, V.M. Weis, M.K. Montgomery and an anonymous reviewer for their constructive comments on the manuscript. We are grateful to Prof. Y. Kashman and Dr. A. Rudi for their support and friendship. Y.B. is indebted to Prof. A.J. de Freitas for his kind hospitality during his visits to the Oceanographic Research Institute (ORI) and to Prof. K. Sebens during a stay at the University of Maryland. We wish to thank T. Kay for his skillful help and friendship during the field trips and diving. We thank Y. Delaria for valuable help with the electron microscopy, A. Shoob for the photography and N. Paz for editorial assistance. We are also grateful to the Natal Parks Board for logistic support and co-operation during the field trips to Sodwana Bay as well as to the South African Association for Marine Biological Research and the Foundation for Research Development for financial support. Finally, a boat was provided by BP (SA) and a 4 ´ 4 vehicle by the Mazda Wildlife Fund for the field work.",

year = "1998",

month = jun,

doi = "10.1007/s002270050336",

language = "אנגלית",

volume = "131",

pages = "433--442",

journal = "Marine Biology",

issn = "0025-3162",

publisher = "Springer Science and Business Media Deutschland GmbH",

number = "3",

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AU - Benayahu, Y.

AU - Schleyer, M. H.

N1 - Funding Information: Acknowledgements Ms A. Kruger kindly provided histological sections from her study of reproduction in Anthelia glauca for this work. We thank Drs. M.A. Coffroth, G. Muller-Parker, V.M. Weis, M.K. Montgomery and an anonymous reviewer for their constructive comments on the manuscript. We are grateful to Prof. Y. Kashman and Dr. A. Rudi for their support and friendship. Y.B. is indebted to Prof. A.J. de Freitas for his kind hospitality during his visits to the Oceanographic Research Institute (ORI) and to Prof. K. Sebens during a stay at the University of Maryland. We wish to thank T. Kay for his skillful help and friendship during the field trips and diving. We thank Y. Delaria for valuable help with the electron microscopy, A. Shoob for the photography and N. Paz for editorial assistance. We are also grateful to the Natal Parks Board for logistic support and co-operation during the field trips to Sodwana Bay as well as to the South African Association for Marine Biological Research and the Foundation for Research Development for financial support. Finally, a boat was provided by BP (SA) and a 4 ´ 4 vehicle by the Mazda Wildlife Fund for the field work.

PY - 1998/6

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N2 - The soft coral Anthelia glauca Lamarck, 1816, of the family Xeniidae, is found on the reefs of KwaZulu-Natal, South Africa. Its gastrodermal cells contain numerous endosymbiotic unicellular algae (zooxanthellae). A. glauca is a gonochoric species that simultaneously broods its planulae within the pharyngeal cavity of the polyps. Symbiotic algae appear with zygote formation within the pharynx, embedded in amorphous material. The algal cells adhere to the ciliated ectodermal surface of immature planulae and are most probably endocytosed by them. Zooxanthellae are translocated towards the basal part of the ectoderm. Gaps are subsequently opened in the mesoglea into which symbionts surrounded by ectodermally derived material, including plasma membrane, pass. The basal membrane of endodermal cells disintegrates, and the algae bulge into spaces formed in the underlying endoderm. Throughout the process, each zooxanthella resides within a vacuolar membrane in the detached ectodermal cytoplasm. The acquisition process is essentially one in which zooxanthellae are translocated from the pharyngeal cavity into the ectoderm and then through the mesoglea into the endoderm, culminating in the final symbiotic state. The direct transmission of symbiotic algae to the eggs or larvae probably provides the most efficient means whereby zooxanthellae are acquired by the host progeny.

AB - The soft coral Anthelia glauca Lamarck, 1816, of the family Xeniidae, is found on the reefs of KwaZulu-Natal, South Africa. Its gastrodermal cells contain numerous endosymbiotic unicellular algae (zooxanthellae). A. glauca is a gonochoric species that simultaneously broods its planulae within the pharyngeal cavity of the polyps. Symbiotic algae appear with zygote formation within the pharynx, embedded in amorphous material. The algal cells adhere to the ciliated ectodermal surface of immature planulae and are most probably endocytosed by them. Zooxanthellae are translocated towards the basal part of the ectoderm. Gaps are subsequently opened in the mesoglea into which symbionts surrounded by ectodermally derived material, including plasma membrane, pass. The basal membrane of endodermal cells disintegrates, and the algae bulge into spaces formed in the underlying endoderm. Throughout the process, each zooxanthella resides within a vacuolar membrane in the detached ectodermal cytoplasm. The acquisition process is essentially one in which zooxanthellae are translocated from the pharyngeal cavity into the ectoderm and then through the mesoglea into the endoderm, culminating in the final symbiotic state. The direct transmission of symbiotic algae to the eggs or larvae probably provides the most efficient means whereby zooxanthellae are acquired by the host progeny.

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Reproduction in Anthelia glauca (Octocorallia: Xeniidae). II. Transmission of algal symbionts during planular brooding

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