Molecular and Morphological Diversity of Trebouxia Microalgae in Sphaerothalliod Circinaria spp. Lichens

[EN] Three vagrant (Circinaria hispida, Circinaria gyrosa, Circinaria sp. `paramerae¿) and one crustose (semi-vagrant, Circinaria sp.`oromediterranea¿) growing in very continental areas in the Iberian Peninsula were selected to study the phycobiont diversity. Mycobiont identification was checked usi...

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Bibliographic Details
Authors: Molins, A., Moya, P., Reig-Armiñana, José, Barreno, E., García-Breijo, Francisco-José|||0000-0002-5468-8758
Format: article
Publication Date:2018
Country:España
Institution:Universitat Politècnica de València (UPV)
Repository:RiuNet. Repositorio Institucional de la Universitat Politécnica de Valéncia
Language:English
OAI Identifier:oai:riunet.upv.es:10251/124600
Online Access:https://riunet.upv.es/handle/10251/124600
Access Level:Open access
Keyword:Coexistence
454-pyrosequencing
Sanger-sequencing
Trebouxia
Ultrastructure
Vagrant lichen
BOTANICA
Description
Summary:[EN] Three vagrant (Circinaria hispida, Circinaria gyrosa, Circinaria sp. `paramerae¿) and one crustose (semi-vagrant, Circinaria sp.`oromediterranea¿) growing in very continental areas in the Iberian Peninsula were selected to study the phycobiont diversity. Mycobiont identification was checked using nrITS DNA barcoding: Circinaria sp.`oromediterranea¿ and Circinaria sp. `paramerae¿ formed a new clade. Phycobiont diversity was analyzed in 50 thalli of Circinaria spp. using nrITS DNA and LSU rDNA, with microalgae coexistence being found in all the species analyzed by Sanger sequencing. The survey of phycobiont diversity showed up to four different Trebouxia spp. as the primary phycobiont in 20 thalli of C. hispida, in comparison with the remaining Circinaria spp. where only one Trebouxia was the primary microalga. In lichen species showing coexistence, some complementary approaches are needed (454 pyrosequencing and/or ultrastructural analyses). Five specimens were selected for HTS analyses: 22 Trebouxia OTUs were detected, ten of them not previously known. TEM analyses showed three different cell morphotypes (Trebouxia sp. OTU A12, OTU S51 and T. cretacea) whose ultrastructure is described here in detail for the first time, HTS revealed a different microalgae pool in each species studied, and we cannot assume a specific pattern between these pools and the ecological and/or morphological characteristics. The mechanisms involved in the selection of the primary phycobiont and the other microalgae by the mycobiont are unknown, and require complex experimental designs. The systematics of the genus Circinaria is not yet well resolved, and more analyses are needed to establish a precise delimitation of the species.