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Cultivable mycoflora on bleached, decaying and healthy Posidonia oceanica leaves in a warm-edge Mediterranean location

descriptionPublicationkeyboard_double_arrow_right Article 01 Nov 2023 Italy Publisher:Elsevier BVJournal:Marine Environmental Research, volume 192, page 106,188 (issn: 0141-1136,

Authors: Stipcich P.; Balmas V.; Jimenez C. E.; Oufensou S.; Ceccherelli G.;

doi: 10.1016/j.marenvres.2023.106188

pmid: 37769557

handle: 11588/992879 , 11388/327829

Cultivable mycoflora on bleached, decaying and healthy Posidonia oceanica leaves in a warm-edge Mediterranean location

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Abstract

Marine fungi are widely distributed in the ocean, playing an important role in the ecosystems, but only little information is available about their occurrence and activity. Seagrass bleaching is also a neglected phenomenon that seems to be linked to warm environments, even though the causes are still to be defined. In this study, the cultivable mycoflora associated to the leaf conditions (bleached, necrotic and live) and section (from the base to the tip) in the seagrass Posidonia oceanica was investigated in a Mediterranean warm-edge location (Cyprus). A total of 17 Ascomycota species/taxon were identified and results highlighted that mycoflora composition changed significantly in relation to both the leaf condition and section. A few known pathogens of terrestrial plants were detected only on bleached leaves, but it remains unknown whether they have any direct connections with P. oceanica bleaching phenomenon.

Country

Italy

Related Organizations

University Federico II of Naples
Italy
University of Sassari
Italy

Keywords

Alismatales, Leaf condition, Ascomycota; Bleached leaves; Climate change; Fungal diversity; Leaf condition; Marine fungi; Solar radiation, Bleached leaves, Plant Leaves, Ascomycota, Solar radiation, Mediterranean Sea, Climate change, Marine fungi, Fungal diversity, Ecosystem

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