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The Korean Society of Phycology (한국조류학회(藻類))
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Molecular analyses and reproductive structure to verify the generic relationships of Hypnea and Calliblepharis (Cystocloniaceae, Gigartinales), with proposal of C. saidana comb. nov.

  • Received : 2017.01.15
  • Accepted : 2017.05.15
  • Published : 2017.06.15
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Abstract

The genera Hypnea and Calliblepharis of the family Cystocloniaceae are discriminated by their female reproductive structure, especially in the formation of carposporangia and gonimoblasts. Hypnea saidana, once classified based on obsolete evidence, has not been studied phylogenetically using molecular analysis and detailed reproductive structure though it shares many morphologic features with the genus Calliblepharis. To provide better understanding of generic relationship of H. saidana with Hypnea and Calliblepharis, we carried out molecular analyses using the nuclear-encoded small subunit ribosomal DNA (SSU) and chloroplast-encoded large subunit of the RuBisCO (rbcL), and exact morphological observations focusing on the reproductive structures of wild specimens. Our molecular phylogeny showed that H. saidana is closely related to Calliblepharis, but distinct from the clade of Hypnea. Female reproductive structure of H. saidana characterized by upwardly developing chains of carposporangia, central reticulum of cell, and gonimoblast filaments not connected to the pericarp provides definite evidence to assign the taxonomic position of this species to Calliblepharis. Based on our combined molecular and morphological analyses, we have proposed Calliblepharis saidana comb. nov., expanding the distribution of Calliblepharis habitat from the eastern Atlantic South Africa, the northern Indian Ocean, Australasia, and Brazil to the western Pacific Ocean.

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References

  1. Calderon, M. S. & Boo, S. M. 2016. Phylogeny of Phyllophoraceae (Rhodophyta, Gigartinales) reveals Asterfilopsis gen. nov. from the Southern Hemisphere. Phycologia 55:543-554. https://doi.org/10.2216/16-9.1
  2. Chiovitti, A., Kraft, G. T., Bacic, A., Craik, D. J., Munro, S. L. A. & Liao, M. -L. 1998. Carrageenans from Australian representatives of the Family Cystocloniaceae (Gigartinales, Rhodophyta), with description of Calliblepharis celatospora sp. nov., and transfer of Austroclonium to the Family Areschougiaceae. J. Phycol. 34:515-535. https://doi.org/10.1046/j.1529-8817.1998.340515.x
  3. D'Archino, R., Nelson, A., Yang, M. Y. & Kim, M. S. 2015. New record of Hypnea flexicaulis in New Zealand and description of Calliblepharis psammophilus sp. nov. Bot. Mar. 58:485-497.
  4. Diaz-Tapia, P., Boo, S. M., Geraldino, P. J. L., Maneiro, I., Barbara, I. & Hommersand, M. H. 2013. Morphology and systematics of Calliblepharis hypneoides, sp. nov. (Cystocloniaceae, Rhodophyta) from the Atlantic Iberian Peninsula. Eur. J. Phycol. 48:380-397. https://doi.org/10.1080/09670262.2013.844860
  5. Dixon, P. S. & Irvine, L. M. 1977. Seaweeds of the British Isles. Vol. 1. Rhodophyta. Part 1. Introduction, Nemaliales, Gigartinales. British Museum (Natural History), London, 252 pp.
  6. Gavio, B. & Fredericq, S. 2002. Grateloupia turuturu (Halymeniaceae, Rhodophyta) is the correct name of the non-native species in the Atlantic known as Grateloupia doryphora. Eur. J. Phycol. 37:349-359. https://doi.org/10.1017/S0967026202003839
  7. Geraldino, P. J. L., Riosmena-Rodriquez, R., Liao, L. M. & Boo, S. M. 2010. Phylogenetic relationships within the genus Hypnea (Gigartinales, Rhodophyta), with a description of H. caespitosa sp. nov. J. Phycol. 46:336-345. https://doi.org/10.1111/j.1529-8817.2009.00804.x
  8. Geraldino, P. J. L., Yang, E. C., Kim, M. S. & Boo, S. M. 2009. Systematics of Hypnea asiatica sp. nov. (Hypneaceae, Rhodophyta) based on morphology and nrDNA SSU, plastid rbcL, and mitochondrial cox1. Taxon 58:606-616.
  9. Guimaraes, S. M. P. D. B. & Pereira, A. P. V. 1993. Rhodofíceas marinhas bentonicas do estado do Espírito Santo, Brasil: genero Calliblepharis (Cystocloniaceae, Gigartinales). Hoehnea 20:35-46.
  10. Guiry, M. D. & Guiry, G. M. 2017. AlgaeBase. World-wide electronic publication, National University of Ireland, Galway. Available from: http://www.algaebase.org. Accessed Feb 12, 2017.
  11. Holmes, E. M. 1895. New marine algae from Japan. J. Linn. Soc. Lond. Bot. 31:248-260.
  12. Hommersand, M. H. & Fredericq, S. 1990. Sexual reproduction and cystocarp development. In Cole, K. M. & Sheath, R. G. (Eds.) Biology of the Red Algae. Cambridge University Press, Cambridge, pp. 305-346.
  13. Hommersand, M. H., Fredericq, S., Freshwater, D. W. & Hughey, J. 1999. Recent developments in the systematics of the Gigartinaceae (Gigartinales, Rhodophyta) based on rbcL sequence analysis and morphological evidence. Phycol. Res. 47:139-151. https://doi.org/10.1111/j.1440-1835.1999.tb00294.x
  14. Joly, A. B., Cordeiro-Marino, M., Ugadim, Y., Yamaguishi-Tomita, N. & Pinheiro, F. C. 1965. New marine algae from Brazil. Arq. Est. Biol. Mar. Univ. Ceara 5:79-92.
  15. Kim, M. S., Kim, S. Y. & Nelson, W. 2010. Symphyocladia lithophila sp. nov. (Rhodomelaceae, Ceramiales), a new Korean red algal species based on morphology and rbcL sequences. Bot. Mar. 53:233-241.
  16. Kylin, H. 1928. Entwicklungsgeschichtliche Florideenstudien. Lunds Univ. Arsskr. 24:1-127.
  17. Kylin, H. 1930. Uber die Entwicklungsgeschichte der Florideen. Lunds Univ. Arsskr. 26:1-104.
  18. Kylin, H. 1932. Die Florideenordnung Gigartinales. Lunds Univ. Arsskr. 28:1-88.
  19. Lin, S. -M., Hommersand, M. H., Fredericq, S. & De Clerck, O. 2009. Characterization of Martensia (Delesseriaceae, Rhodophyta) based on a morphological and molecular study of the type species, M. elegans, and M. natalensis sp. nov. from South Africa. J. Phycol. 45:678-691. https://doi.org/10.1111/j.1529-8817.2009.00677.x
  20. Min-Thein, U. & Womersley, H. B. S. 1976. Studies on southern Australian taxa of Solieriaceae, Rhabdoniaceae and Rhodophyllidaceae (Rhodophyta). Aust. J. Bot. 24:1-166. https://doi.org/10.1071/BT9760001
  21. Mshigeni, K. E. 1976. Studies on the reproduction of selected species of Hypnea (Rhodophyta, Gigartinales) from Hawaii. Bot. Mar. 19:341-346.
  22. Okamura, K. 1909. Icones of Japanese algae. Vol. II. Plates LVILX. Published by the author, Tokyo, pp. 21-40.
  23. Reis, R. P. & Yoneshigue-Valentin, Y. 2000. Phenology of Hypnea musciformis (Wulfen) Lamouroux (Rhodophyta, Gigartinales) in three populations from Rio de Janeiro State, Brazil. Bot. Mar. 43:299-304.
  24. Ronquist, F., Teslenko, M., van der Mark, P., Ayres, D. L., Darling, A., Hohna, S., Larget, B., Liu, L., Suchard, M. A. & Huelsenbeck, J. P. 2012. MrBayes 3.2: efficient Bayesian phylogenetic inference and model choice across a large model space. Syst. Biol. 61:539-542. https://doi.org/10.1093/sysbio/sys029
  25. Saunders, G. W., Chiovitti, A. & Kraft, G. T. 2004. Small-subunit rRNA gene sequences from representatives of selected families of the Gigartinales and Rhodymeniales (Rhodophyta). 3. Delineating the Gigartinales sensu stricto. Can. J. Bot. 82:43-74. https://doi.org/10.1139/b03-110
  26. Saunders, G. W. & Moore, T. E. 2013. Refinements for the amplification and sequencing of red algal DNA barcode and RedToL phylogenetic markers: a summary of current primers, profiles and strategies. Algae 28:31-43. https://doi.org/10.4490/algae.2013.28.1.031
  27. Sherwood, A. R., Kurihara, A., Conklin, K. Y., Sauvage, T. & Presting, G. G. 2010. The Hawaiian Rhodophyta biodiversity survey (2006-2010): a summary of principal findings. BMC Plant Biol. 10:258. https://doi.org/10.1186/1471-2229-10-258
  28. Shin, W. G. & Boo, S. M. 1994. A systematic study on the genus Hypnea (Gigartinales, Rhodophyta) in Korea. Korean J. Phycol. 9:7-20.
  29. Sievers, F., Wilm, A., Dineen, D., Gibson, T. J., Karplus, K., Li, W., Lopez, R., McWilliam, H., Remmert, M., Söding, J., Thompson, J. D. & Higgins, D. G. 2011. Fast, scalable generation of high-quality protein multiple sequence alignments using Clustal Omega. Mol. Syst. Biol. 7:539.
  30. Stamatakis, A. 2006. RAxML-VI-HPC: maximum likelihood-based phylogenetic analyses with thousands of taxa and mixed models. Bioinformatics 22:2688-2690. https://doi.org/10.1093/bioinformatics/btl446
  31. Tanaka, T. 1941. The genus Hypnea from Japan. Sci. Pap. Inst. Algol. Res. Fac. Sci. Hokkaido Imp. Univ. 2:227-250.
  32. Vazquez-Delfin, E., Boo, G. H., Rodriguez, D., Boo, S. M. & Robledo, D. 2016. Hypnea musciformis (Cystocloniaceae) from the Yucatan Peninsula: morphological variability in relation to life-cycle phase. Phycologia 55:230-242. https://doi.org/10.2216/15-118.1
  33. Wittmann, W. 1965. Aceto-iron-haematoxylin-chloral hydrate for chromosome staining. Stain Technol. 40:161-164. https://doi.org/10.3109/10520296509116398
  34. Womersley, H. B. S. 1994. The marine benthic flora of southern Australia. Part IIIA. Bangiophyceae and Florideophyceae (Acrochaetiales, Nemaliales, Gelidiales, Hildenbrandiales and Gigartinales sensu lato). Australian Biological Resources Study, Canverra, 508 pp.
  35. Won, B. Y., Jeong, S. Y. & Cho, T. O. 2016. Morphology and phylogeny of Craspedocarpus jindoensis sp. nov. (Cystocloniaceae, Gigiartinales) from Korea. Phycologia 55:611-618. https://doi.org/10.2216/16-27.1
  36. Yamagishi, Y. & Masuda, M. 1997. Species of Hypnea from Japan. In Abbott, I. A. (Ed.) Taxonomy of Economic Seaweeds: With Reference to Some Pacific Species. Vol. 6. California Sea Grant College Program, La Jolla, CA, pp. 135-162.
  37. Yang, M. Y. & Kim, M. S. 2016. Molecular phylogeny of the genus Chondracanthus (Rhodophyta), focusing on the resurrection of C. okamurae and the description of C. cincinnus sp. nov. Ocean Sci. J. 51:517-529. https://doi.org/10.1007/s12601-016-0046-4
  38. Yang, M. Y., Macaya, E. C. & Kim, M. S. 2015. Molecular evidence for verifying the distribution of Chondracanthus chamissoi and C. teedei (Gigartinaceae, Rhodophyta). Bot. Mar. 58:103-113.

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