Spatial patterns of photobiont diversity in some Nostoc-containing lichens

PER PAULSRUD; JOUKO RIKKINEN; PETER LINDBLAD

doi:10.1046/j.1469-8137.2000.00647.x

Abstract

Patterns of photobiont diversity were examined in some Nostoc-containing lichens using the nucleotide sequence of the cyanobacterial tRNALeu (UAA) intron. Lichen specimens collected in northwestern USA were analysed and the sequence data were compared with tRNALeu(UAA) intron sequences previously obtained from lichens in northern Europe. Generally, it is the species identity of a lichen rather than the geographical origin of the specimen that determines the identity of the cyanobiont. Identical intron sequences were found in Peltigera membranacea specimens collected in Oregon (USA) and in Sweden, and very similar sequences were also found in Nephroma resupinatum thalli collected in Oregon and Finland. Furthermore, in mixed assemblages where two Peltigera species grew in physical contact with each other, the different lichen species housed different photobiont strains. There is however not a one-to-one relation between mycobiont and photobiont as some intron sequences were found in more than one lichen species, and different intron sequences were found in different samples of some lichen taxa. Peltigera venosa exhibited a higher level of photobiont diversity than any other lichen species studied, and several intron sequences could for the first time be obtained from a single thallus. It is not clear whether this is evidence of lower cyanobiont specificity, or reflects an ability to exhibit different degrees of lichenization with different Nostoc strains. In one specimen of P. venosa, which contained bipartite cyanosymbiodemes and tripartite, cephalodiate thalli, both thallus types contained the same intron sequence.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Paulsrud, Per Rikkinen, Jouko and Lindblad, Peter 2001. Field investigations on cyanobacterial specificity in Peltigera aphthosa. New Phytologist, Vol. 152, Issue. 1, p. 117.

Costa, José-Luis Paulsrud, Per Rikkinen, Jouko and Lindblad, Peter 2001. Genetic Diversity of Nostoc Symbionts Endophytically Associated with Two Bryophyte Species . Applied and Environmental Microbiology, Vol. 67, Issue. 9, p. 4393.

Esslinger, Theodore L. 2001. Recent Literature on Lichens—182*. The Bryologist, Vol. 104, Issue. 3, p. 473.

Paulsrud, Per and Lindblad, Peter 2002. Fasciclin Domain Proteins Are Present in Nostoc Symbionts of Lichens . Applied and Environmental Microbiology, Vol. 68, Issue. 4, p. 2036.

Costa, José-Luis Paulsrud, Per and Lindblad, Peter 2002. The Cyanobacterial tRNALeu (UAA) Intron: Evolutionary Patterns in a Genetic Marker. Molecular Biology and Evolution, Vol. 19, Issue. 6, p. 850.

Sanders, William B. and Lücking, Robert 2002. Reproductive strategies, relichenization and thallus development observed in situ in leaf‐dwelling lichen communities. New Phytologist, Vol. 155, Issue. 3, p. 425.

Lohtander, Katileena Oksanen, Ilona and Rikkinen, Jouko 2002. A phylogenetic study of Nephroma (lichen-forming Ascomycota). Mycological Research, Vol. 106, Issue. 7, p. 777.

Summerfield, T. C. Galloway, D. J. and Eaton‐Rye, J. J. 2002. Species of cyanolichens from Pseudocyphellaria with indistinguishable ITS sequences have different photobionts. New Phytologist, Vol. 155, Issue. 1, p. 121.

Palmqvist, K. 2003. Cyanobacteria in Symbiosis. p. 73.

Dahlman, L. and Palmqvist, K. 2003. Growth in two foliose tripartite lichens, Nephroma arcticum and Peltigera aphthosa : empirical modelling of external vs internal factors. Functional Ecology, Vol. 17, Issue. 6, p. 821.

Rasmussen, Ulla and Nilsson, Malin 2003. Cyanobacteria in Symbiosis. p. 313.

Bergman, Birgitta 2003. Cyanobacteria in Symbiosis. p. 207.

Rikkinen, Jouko 2003. Cyanobacteria in Symbiosis. p. 31.

Wirtz, Nora Lumbsch, H. Thorsten Green, T. G. Allan Türk, Roman Pintado, Ana Sancho, Leopoldo and Schroeter, Burkhard 2003. Lichen fungi have low cyanobiont selectivity in maritime Antarctica. New Phytologist, Vol. 160, Issue. 1, p. 177.

Wouters, Johanna Bergman, Birgitta and Janson, Sven 2003. Cloning and expression of a putative cyclodextrin glucosyltransferase from the symbiotically competent cyanobacterium Nostoc sp. PCC 9229. FEMS Microbiology Letters, Vol. 219, Issue. 2, p. 181.

Costa, JosÃ©-Luis Romero, Esperanza MartÃnez and Lindblad, Peter 2004. Sequence based data supports a single Nostoc strain in individual coralloid roots of cycads. FEMS Microbiology Ecology, Vol. 49, Issue. 3, p. 481.

DePriest, Paula T. 2004. Early Molecular Investigations of Lichen-Forming Symbionts: 1986–2001. Annual Review of Microbiology, Vol. 58, Issue. 1, p. 273.

YAHR, REBECCA VILGALYS, RYTAS and DEPRIEST, PAULA T. 2004. Strong fungal specificity and selectivity for algal symbionts in Florida scrubCladonialichens. Molecular Ecology, Vol. 13, Issue. 11, p. 3367.

Pate, John S. 2004. Microorganisms in Plant Conservation and Biodiversity. p. 45.

Miadlikowska, Jolanta and Lutzoni, François 2004. Phylogenetic classification of peltigeralean fungi (Peltigerales, Ascomycota) based on ribosomal RNA small and large subunits. American Journal of Botany, Vol. 91, Issue. 3, p. 449.

Download full list

Article contents

Spatial patterns of photobiont diversity in some Nostoc-containing lichens

Abstract

Keywords

Access options

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

Spatial patterns of photobiont diversity in some Nostoc-containing lichens

Abstract

Keywords

Access options

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests