The ecology and morphological variation of Hypnea (red algae) species in Iran

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Research Paper 01/12/2014
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The ecology and morphological variation of Hypnea (red algae) species in Iran

Fateme Sargazi, Masoud Sheidai, Hossein Riahi
J. Biodiv. & Environ. Sci. 5(6), 312-317, December 2014.
Copyright Statement: Copyright 2014; The Author(s).
License: CC BY-NC 4.0

Abstract

Morphological and ecological variations and inter-specific relationships of a red algal genus, Hypnea were investigated based on 34 populations belong to 7 species from Persian Gulf and Oman sea coasts. cluster analyses, principal component analysis and Canonical Correspondence Analysis were done. Statistical analyses indicated that characters such as special branches or branchlets, Position of tetrasporange and algae size had the most important role as diagnostic characters in intera-genus variation. In general 2 major clusters were formed. The first major cluster comprised of H. boergesenii. Second major cluster contains two subclusters. First subcluster is comprised of H. ecklonii, H. charoides, H. valentiae, H. musciformis and H. cornuta. The second subcluster is comprised of H. pannosa. Results showed that all invironmental factors except the average of annual water vapor pressure had effect on the morphological distribution of Hypnea populations.

Agardh JG. 1852. Species genera et ordines algarum. Algas florideas complectens, Gleerup, Lund.

Geraldino PJL, Riosmena-Rodriguez R, Liao LM, Boo SM. 2010. Phylogenetic relationships within the genus Hypnea (Gigartinales, Rhodophyta), with a description of H. caespitosa Sp. Nov. Journal of Phycology 46, 336-345.

Gharanjik BM, Rohani-Ghadikolai K. 2009. Atlas of sea algae from Persian Gulf and Oman sea coasts. Iranian Fisheries research publication, Tehran.

Guiry MD et al. 2006. Algae Base version 4. 1 World-wide Web electronic publication. National University of Ireland, Galway, http://www.algaebase.org.

Hamer O, Harper DAT, Ryan PD. 2012. PAST: Paleontological Statistics software package for education and data analysis. Paleontol Electronica 4, 9.

Lewmanomont K. 1997. Species of Hypnea from Thailand. In: Taxonomy of Economic Seaweeds. (Abbott, I.A. Eds) La Jolla, California: California Sea Grant College System.

Womersley HBS. 1994. The marine benthic flora of southern Australia, Bangiophyceae and Florideop-hyceae (Acrochaetiales, Nemamiales, Gelidiales, Hildenbrandiales and Gigartinales). Australian Biological Resources Study, Canberra.

Yamagishi Y, Masuda M. 1997. Species of Hypnea from Japan. In: Taxonomy of Economic Seaweeds. (Abbott, I.A. Eds) La Jolla, California: California Sea Grant College System.

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