Your search keyword '"Laine AL"' showing total 3 results

1. Population processes at multiple spatial scales maintain diversity and adaptation in the Linum marginale--Melampsora lini association.

Author

Nemri A, Barrett LG, Laine AL, Burdon JJ, and Thrall PH

Subjects

Adaptation, Biological, Analysis of Variance, Australia, Basidiomycota genetics, Disease Resistance genetics, Ecosystem, Evolution, Molecular, Flax immunology, Flax microbiology, Genetic Variation, Host-Pathogen Interactions, Models, Genetic, Phenotype, Phylogeny, Phylogeography, Plant Diseases immunology, Sympatry, Basidiomycota physiology, Flax genetics, Plant Diseases microbiology

Abstract

Host-pathogen coevolution is a major driver of species diversity, with an essential role in the generation and maintenance of genetic variation in host resistance and pathogen infectivity. Little is known about how resistance and infectivity are structured across multiple geographic scales and what eco-evolutionary processes drive these patterns. Across southern Australia, the wild flax Linum marginale is frequently attacked by its rust fungus Melampsora lini. Here, we compare the genetic and phenotypic structure of resistance and infectivity among population pairs from two regions where environmental differences associate with specific life histories and mating systems. We find that both host and pathogen populations are genetically distinct between these regions. The region with outcrossing hosts and pathogens that go through asexual cycles followed by sexual reproduction showed greater diversity of resistance and infectivity phenotypes, higher levels of resistance and less clumped within-population spatial distribution of resistance. However, in the region where asexual pathogens infect selfing hosts, pathogens were more infective and better adapted to sympatric hosts. Our findings largely agree with expectations based on the distinctly different host mating systems in the two regions, with a likely advantage for hosts undergoing recombination. For the pathogen in this system, sexual reproduction may primarily be a survival mechanism in the region where it is observed. While it appears to potentially have adverse effects on local adaptation in the short term, it may be necessary for longer-term coevolution with outcrossing hosts.

Published

2012

2. Partial resistance in the Linum-Melampsora host-pathogen system: does partial resistance make the red queen run slower?

Author

Antonovics J, Thrall PH, Burdon JJ, and Laine AL

Subjects

Australia, Host-Pathogen Interactions, Plant Diseases genetics, Plant Diseases microbiology, Basidiomycota physiology, Biological Evolution, Flax microbiology

Abstract

Five levels of disease expression were scored in a cross-inoculation study of 120 host and 60 pathogen lines of wild flax Linum marginale and its rust fungus Melampsora lini sampled from six natural populations. Patterns of partial resistance showed clear evidence of gene-for-gene interactions, with particular levels of partial resistance occurring in specific host-pathogen combinations. Sympatric and putatively more highly coevolved host-pathogen combinations had a lower frequency of partial resistance types relative to allopatric combinations. Sympatric host-pathogen combinations also showed a lower diversity of resistance responses, but there was a trend toward a greater fraction of this variance being determined by pathogen-genotype × host-genotype interactions. In this system, there was no evidence that partial resistances slow host-pathogen coevolution. The analyses show that if variation is generated by among population host or pathogen dispersal, then coevolution occurs largely by pathogens overcoming the partial resistances that are generated., (© 2010 The Author(s). Evolution© 2010 The Society for the Study of Evolution.)

Published

2011

3. Symbiotic effectiveness of rhizobial mutualists varies in interactions with native Australian legume genera.

Author

Thrall PH, Laine AL, Broadhurst LM, Bagnall DJ, and Brockwell J

Subjects

Analysis of Variance, Australia, Fabaceae growth & development, Phylogeny, Plant Root Nodulation physiology, Species Specificity, Sympatry, Fabaceae microbiology, Rhizobium physiology, Symbiosis physiology

Abstract

Background and Objectives: Interactions between plants and beneficial soil organisms (e.g. rhizobial bacteria, mycorrhizal fungi) are models for investigating the ecological impacts of such associations in plant communities, and the evolution and maintenance of variation in mutualisms (e.g. host specificity and the level of benefits provided). With relatively few exceptions, variation in symbiotic effectiveness across wild host species is largely unexplored., Methods: We evaluated these associations using representatives of several legume genera which commonly co-occur in natural ecosystems in south-eastern Australia and an extensive set of rhizobial strains isolated from these hosts. These strains had been previously assigned to specific phylotypes on the basis of molecular analyses. In the first of two inoculation experiments, the growth responses of each host species was evaluated with rhizobial strains isolated from that species. The second experiment assessed performance across genera and the extent of host specificity using a subset of these strains., Results: While host growth responses to their own (sympatric) isolates varied considerably, rhizobial phylotype was a significant predictor of symbiotic performance, indicating that bacterial species designations on the basis of molecular markers have ecological importance. Hosts responded in qualitatively different ways to sympatric and allopatric strains of rhizobia, ranging from species with a clear preference for their own strains, to those that were broad generalists, through to species that grew significantly better with allopatric strains., Conclusion: Theory has focused on trade-offs between the provision of benefits and symbiont competitive ability that might explain the persistence of less beneficial strains. However, differences in performance among co-occurring host species could also drive such patterns. Our results thus highlight the likely importance of plant community structure in maintaining variation in symbiotic effectiveness.

Published

2011