Your search keyword '"photobiont"' showing total 5 results

1. COMPLETE LIFE CYCLE OF THE LICHEN FUNGUS CALOPADIA PUIGGARII (PILOCARPACEAE, ASCOMYCETES) DOCUMENTED IN SITU: PROPAGULE DISPERSAL, ESTABLISHMENT OF SYMBIOSIS, THALLUS DEVELOPMENT, AND FORMATION OF SEXUAL AND ASEXUAL REPRODUCTIVE STRUCTURES.

Author

Sanders, William B.

Subjects

*LICHENS, *FUNGI, *LIFE cycles (Biology), *PROTHALLIA, *ALGAL cells

Abstract

* Premise of the study: The life histories of lichen fungi are not well known and cannot be readily studied in laboratory culture. This work documents in situ the complete life cycle of the widespread crustose lichen Calopadia puiggarii, which reproduces sexually and asexually on the surfaces of leaves. * Methods: Plastic cover slips held in a mesh frame were placed over leaves in the field and successively removed for microphotography of colonizing lichens. * Key results: Macroconidia produced within campylidia encircled photobiont cells and codispersed with them, a feature not reported previously for C. puiggarii. Dispersed macroconidia readily germinated and lichenized the photobionts. Algal cells were often dislodged from the encircling macroconidia, providing a likely source for the free-living populations observed. Aposymbiotically dispersed ascospores germinated and lichenized nearby algal cells soon after dispersal. Thallus areolae merged readily in early development, although adjacent mature thalli were often separated by growth inhibition zones. Pycnidia are reported for the first time in Calopadia-, their pyriform microconidia probably function as male gametes (spermatia). Pycnidia, apothecia, and campylidia began development similarly as darkly pigmented primordia on the fungal prothallus. * Conclusions: Abundant dispersal of ascospores, conidia, and photobionts allows C. puiggarii to quickly colonize leaves with the dual advantages of sexual and asexual reproduction, and with the added convenience of having its algal partner on hand. Fusions and prothallic capture of additional algae provide many opportunities for multiple mycobiont and photobiont genotypes to be combined in a single thallus, but the outcomes of such events remain to be explored. [ABSTRACT FROM AUTHOR]

Published

2014

2. ECOLOGICAL SPECIALIZATION IN TREBOUXIA (TREBOUXIOPHYCEAE) PHOTOBIONTS OF RAMALINA MENZIESII (RAMALINACEAE) ACROSS SIX RANGE-COVERING ECOREGIONS OF WESTERN NORTH AMERICA.

Author

Werth, Silke and Sork, Victoria L.

Subjects

*LICHENS, *ECOLOGICAL regions, *PLANT DNA, *PLANT genetics, *PHYTOGEOGRAPHY

Abstract

* Premise of the study: Many lichens exhibit extensive ranges spanning several ecoregions. It has been hypothesized that this wide ecological amplitude is facilitated by fungal association with locally adapted photobiont strains. * Methods: We studied the identity and geographic distribution of photobionts of the widely distributed North American lichen Ramalina menziesii based on rbcL (chloroplast DNA) and nuclear ribosomal ITS DNA sequences. To test for ecological specialization, we associate photobiont genotypes with local climate and phorophyte. * Key results: Of the photobiont lineages of R. menziesii, 94% belong to a clade including Trebouxia decolorans. The remaining are related to T. jamesii. The photobionts showed (1) significant structure according to ecoregion and phorophyte species and (2) genetic associations with phorophyte species and climate. * Conclusions: Geography, climate, and ecological specialization shape genetic differentiation of lichen photobionts. One great advantage of independent dispersal of the fungus is symbiotic association with locally adapted photobiont strains. [ABSTRACT FROM AUTHOR]

Published

2014

3. IDENTITY AND GENETIC STRUCTURE OF THE PHOTOBIONT OF THE EPIPHYTIC LICHEN RAMALINA MENZIESII ON THREE OAK SPECIES IN SOUTHERN CALIFORNIA1.

Author

Werth, Silke and Sork, Victoria L.

Subjects

*GENETIC research, *PLANT genetics, *EPIPHYTIC lichens, *PLANT viruses, *CHLOROPLASTS

Abstract

Lichens, a classic example of an obligate symbiosis between fungi and photobionts (which could be algae or cyanobacteria), are abundant in many terrestrial ecosystems. The genetic structure of the photobiont population found in association with a lichen-forming fungal species could be affected by fungal reproductive mode and by the spatial extent of gene flow in the photobiont. Using DNA sequences from one nuclear ribosomal and two chloroplast loci, we analyzed the genetic structure of the photobiont associated with the fungus Ramalina menziesii at an oak woodland study site in southern California. We had previously shown that the fungus exhibited no genetic structure among four local sites or three phorophyte species. Our goals were to identify the photobiont species and assess its genetic structure. We found that R. menziesii was highly specific in its photobiont choice and associated with one alga, Trebouxia decolorans. In contrast to the fungal population, we found significant differentiation among the algae sampled on three oak species and little genetic structure among the sites for two of the three algal loci. We hypothesize that R. menziesii is locally adapted to the phorophyte species through habitat specialization in the algal partner of the symbiosis. [ABSTRACT FROM AUTHOR]

Published

2010

4. IDENTITY AND GENETIC STRUCTURE OF THE PHOTOBIONT OF THE EPIPHYTIC LICHEN RAMALINA MENZIESII ON THREE OAK SPECIES IN SOUTHERN CALIFORNIA1.

Author

Werth, Silke and Sork, Victoria L.

Subjects

GENETIC research, PLANT genetics, EPIPHYTIC lichens, PLANT viruses, CHLOROPLASTS

Abstract

Lichens, a classic example of an obligate symbiosis between fungi and photobionts (which could be algae or cyanobacteria), are abundant in many terrestrial ecosystems. The genetic structure of the photobiont population found in association with a lichen-forming fungal species could be affected by fungal reproductive mode and by the spatial extent of gene flow in the photobiont. Using DNA sequences from one nuclear ribosomal and two chloroplast loci, we analyzed the genetic structure of the photobiont associated with the fungus Ramalina menziesii at an oak woodland study site in southern California. We had previously shown that the fungus exhibited no genetic structure among four local sites or three phorophyte species. Our goals were to identify the photobiont species and assess its genetic structure. We found that R. menziesii was highly specific in its photobiont choice and associated with one alga, Trebouxia decolorans. In contrast to the fungal population, we found significant differentiation among the algae sampled on three oak species and little genetic structure among the sites for two of the three algal loci. We hypothesize that R. menziesii is locally adapted to the phorophyte species through habitat specialization in the algal partner of the symbiosis. [ABSTRACT FROM AUTHOR]

Published

2010

5. A Cyanolichen from the Lower Devonian Rhynie Chert

Author

Taylor, Thomas N., Hass, Hagen, and Kerp, Hans

Published

1997