Ecological and morphological profile of floating spherical Cladophora socialis aggregations in central Thailand.

Isao Tsutsui,Dusit Aue-Umneoy,Jaruwan Songphatkaew,Iori Yamaguchi,Sirimas Klomkling,Monthon Ganmanee,Kaoru Hamano,Tatsuo Miyoshi,Chonlada Meeanan,Hiroyuki Sudo,Halethichanok Sukchai,Piyarat Pinphoo,Jiang-Shiou Hwang

doi:10.1371/journal.pone.0124997

Abstract

The unique beauty of spherical aggregation forming algae has attracted much attention from both the scientific and lay communities. Several aegagropilous seaweeds have been identified to date, including the plants of genus Cladophora and Chaetomorpha. However, this phenomenon remains poorly understood. In July 2013, a mass occurrence of spherical Cladophora aggregations was observed in a salt field reservoir in Central Thailand. The aims of the present study were to describe the habitat of the spherical aggregations and confirm the species. We performed a field survey, internal and external morphological observations, pyrenoid ultrastructure observations, and molecular sequence analysis. Floating spherical Cladophora aggregations (1–8 cm in diameter) were observed in an area ~560 m2, on the downwind side of the reservoir where there was water movement. Individual filaments in the aggregations were entangled in each other; consequently, branches growing in different directions were observed within a clump. We suggest that water movement and morphological characteristics promote the formation of spherical aggregations in this species. The molecular sequencing results revealed that the study species was highly homologous to both C. socialis and C. coelothrix. However, the diameter of the apical cells in the study species was less than that of C. coelothrix. The pyrenoid ultrastructure was more consistent with that of C. socialis. We conclude that the study species is C. socialis. This first record of spherical aggregations in this species advances our understanding of these formations. However, further detailed physical measurements are required to fully elucidate the mechanism behind these spherical formations.

Highlights

The unique morphology of spherical growth seaweeds has gained them considerable popularity [1], both socially and scientifically
The aims of this study were: 1) to describe the habitat of the spherical Cladophora aggregations that occurred in July 2013 in Central Thailand and 2) to use a combination of external and internal morphological characteristics, ultrastructure, growth pattern, and molecular sequence analysis to identify the aggregations to the species level
It was impossible to determine if the study species is Cladophora coelothrix or C. socialis from our homology results, because the most closely related species were different in respective parts of the nucleic acid sequence, i.e., the study species was highly homologous to C. coelothrix and C. socialis in 18S rDNA and to C. socialis in 28S rDNA

Summary

Introduction

The unique morphology of spherical growth seaweeds has gained them considerable popularity [1], both socially and scientifically. An extremely rare freshwater alga, Aegagropila linnaei, is known for its beautiful spherical filamentous aggregations [4]. It has become popular in the souvenir and aquarium trades, and is depicted on postage stamps from Japan and Iceland [1, 5]. This alga is an endangered or protected species in Japan, Iceland, United Kingdom, Germany, Sweden, and Russia, because of declining populations, and is included in national red lists and other conservation strategies [5, 6]. It is generally assumed that the ball shape is a result of both mechanical factors, such as wave-induced rolling motion, and morphological features leading to entanglement of the filament [1, 5]

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