Abstract
Present-day information available on the charophyte macroalgae in Egypt, including their phylogenetic affinities, remains largely incomplete. In this study, nine charophyte populations were collected from different aquatic biotopes across the Egyptian Western-Desert Oases and Sinai Peninsula. All populations were investigated using an integrative polyphasic approach including phylogenetic analyses inferred from the chloroplast-encoded gene (rbcL) and the internal transcribed spacer (ITS1) regions, in parallel with morphotaxonomic assignment, ultrastructure of the oospore walls, and autecology. The specimens identified belonged to the genera Chara, Nitella, and Tolypella, with predominance of the first genus to which five species were assigned though they presented some interesting aberrant taxonomic features: C. aspera, C. contraria, C. globata, C. tomentosa, and C. vulgaris. Based on our integrative study, the globally rare species C. globata was reported for the second time for the whole African continent. The genus Nitella was only represented by N. flagellifera, and based on the available literature, it is a new record for North Africa. Noteworthy, an interesting Tolypella sp., morphologically very similar to T. glomerata, was collected and characterized and finally designated with the working name ‘Tolypella sp. PBA–1704 from a desert, freshwater wetland’, mainly based on its concatenated rbcL+ITS1 phylogenetic position. This study not only improved our understanding on the diversity, biogeography and autecological preferences of charophytes in Egypt, but it also broadened our knowledge on this vulnerable algal group in North Africa, emphasizing the need of more in-depth research work in the future, particularly in the less–impacted desert habitats.
Highlights
Charophytes (Charales, Streptophyta), including both extant and fossil members of the order Charales, constitute an ancient group of terrestrial autotrophic macroalgae, the ancestors of which invaded land and developed to the present-day land plants 450 million years ago [1,2,3]
The goal of this study was to identify morphotaxonomic diagnostic traits, phylogenetic affinities, and autecological preferences of charophyte populations collected from different Egyptian biotopes in the Western-Desert Oases and Sinai Peninsula to improve our current limited understanding on the biogeography and diversity of charophytes in Egypt and, generally, in North Africa
All our Chara sequences were assigned to well-supported species clades (C. vulgaris, C. globata, C. contraria, C. aspera, and C. tomentosa)
Summary
Charophytes (Charales, Streptophyta), including both extant and fossil members of the order Charales (besides members of the extinct orders Sycidiales and Moellerinales), constitute an ancient group of terrestrial autotrophic macroalgae, the ancestors of which invaded land and developed to the present-day land plants 450 million years ago [1,2,3]. Members of the family Characeae are widely distributed in freshwater and brackish biomes [4,5,6,7], with rare occurrence in marine habitats [8,9]. They play a keystone role in maintaining the balance and functioning of the ecosystems they colonize. To accurately delineate the species identity of members of the family Characeae, the application of integrative polyphasic approaches, combining molecular phylogenetic data, morphotaxonomic traits and ecology, has nowadays become an important prerequisite [21,22,23,24,25], if unusual taxonomic characters are present and reflecting peculiar phenotypic adaptations to their natural ecosystems [26,27,28,29]
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