The socio-economic challenges of managing pathogen evolution in agriculture.

Genetic resistance forms the foundation of infectious disease management in crops. However, rapid pathogen evolution is causing the breakdown of resistance and threatening disease control. Recent research efforts have identified strategies for resistance gene deployment that aim to disrupt pathogen adaptation and prevent breakdown. To date, there has been limited practical uptake of such strategies. In this paper, we focus on the socio-economic challenges associated with translating applied evolutionary research into scientifically informed management strategies to control pathogen adaptation. We develop a conceptual framework for the economic valuation of resistance and demonstrate that in addition to various direct benefits, resistance delivers considerable indirect and non-market value to farmers and society. Incentives for stakeholders to engage in stewardship strategies are complicated by the uncertain timeframes associated with evolutionary processes, difficulties in assigning ownership rights to genetic resources and lack of governance. These interacting biological, socio-economic and institutional complexities suggest that resistance breakdown should be viewed as a wicked problem, with often conflicting imperatives among stakeholders and no simple cause or solution. Promoting the uptake of scientific research outcomes that address complex issues in sustainable crop disease management will require a mix of education, incentives, legislation and social change. This article is part of the theme issue 'Infectious disease ecology and evolution in a changing world'.

Genes, communities & invasive species: understanding the ecological and evolutionary dynamics of host-pathogen interactions.

Reciprocal interactions between hosts and pathogens drive ecological, epidemiological and co-evolutionary trajectories, resulting in complex patterns of diversity at population, species and community levels. Recent results confirm the importance of negative frequency-dependent rather than 'arms-race' processes in the evolution of individual host-pathogen associations. At the community level, complex relationships between species abundance and diversity dampen or alter pathogen impacts. Invasive pathogens challenge these controls reflecting the earliest stages of evolutionary associations (akin to arms-race) where disease effects may be so great that they overwhelm the host's and community's ability to respond. Viewing these different stabilization/destabilization phases as a continuum provides a valuable perspective to assessment of the role of genetics and ecology in the dynamics of both natural and invasive host-pathogen associations.

Variation in infectivity and aggressiveness in space and time in wild host-pathogen systems: causes and consequences.

Variation in host resistance and in the ability of pathogens to infect and grow (i.e. pathogenicity) is important as it provides the raw material for antagonistic (co)evolution and therefore underlies risks of disease spread, disease evolution and host shifts. Moreover, the distribution of this variation in space and time may inform us about the mode of coevolutionary selection (arms race vs. fluctuating selection dynamics) and the relative roles of G × G interactions, gene flow, selection and genetic drift in shaping coevolutionary processes. Although variation in host resistance has recently been reviewed, little is known about overall patterns in the frequency and scale of variation in pathogenicity, particularly in natural systems. Using 48 studies from 30 distinct host-pathogen systems, this review demonstrates that variation in pathogenicity is ubiquitous across multiple spatial and temporal scales. Quantitative analysis of a subset of extensively studied plant-pathogen systems shows that the magnitude of within-population variation in pathogenicity is large relative to among-population variation and that the distribution of pathogenicity partly mirrors the distribution of host resistance. At least part of the variation in pathogenicity found at a given spatial scale is adaptive, as evidenced by studies that have examined local adaptation at scales ranging from single hosts through metapopulations to entire continents and - to a lesser extent - by comparisons of pathogenicity with neutral genetic variation. Together, these results support coevolutionary selection through fluctuating selection dynamics. We end by outlining several promising directions for future research.

Evolution of virulence in Fusarium oxysporum f. sp. vasinfectum using serial passage assays through susceptible cotton.

Fifty strains of Fusarium oxysporum, recovered from rhizosphere soil around native Gossypium species and found to be mildly virulent on cotton (Gossypium hirsutum), were used to assay the propensity for evolution of virulence using serial passage assays through cotton. Only one lineage A strain, 2613, successfully completed 10 successive passages, while all others lost the ability to cause foliar disease symptoms at various stages during this process. Based on 46 amplified fragment length polymorphism (AFLP) markers generated with four EcoRI x MseI primer combinations, mutants were identified in offspring isolates from strain 2613 regardless of whether serial passages occurred in cotton or on water agar, suggesting the occurrence of spontaneous mutations. Significantly increased virulence was observed in the offspring isolates generated on cotton, while no increasing virulence was found in those obtained on water agar, suggesting that the evolution of virulence in F. oxysporum f. sp. vasinfectum is associated with the presence of cotton. No clear correlation was observed between the AFLP mutations and increased virulence in this study.

Molecular diversity of rhizobia nodulating the invasive legume Cytisus scoparius in Australia.

AIMS: To contribute to the understanding of Cytisus scoparius success at invading and establishing itself in Australia. METHODS AND RESULTS: Root-nodule bacteria isolated from C. scoparius, growing on five different sites and originally introduced to Australia, were compared with isolates from indigenous plants growing in France and isolates from native legumes growing on the same Australian sites as C. scoparius. Small-subunit rDNA from 251 isolates were analysed by PCR-RFLP and representatives from different genospecies were selected for sequencing. Phylogenetic analyses revealed a great diversity of lineages belonging to Bradyrhizobium, with one genospecies being specific for Cytisus both in Australia and in France, Rhizobium and Mesorhizobium and one falling outside the described genera of legume-nodulating bacteria. Principal component analysis showed that the Cytisus Australian rhizobial communities are more similar to each other than to their co-occurring native partners. CONCLUSIONS: Early established rhizobial symbionts may have an increased probability to contribute inoculum for the development of further nodules. SIGNIFICANCE AND IMPACT OF THE STUDY: This is a first report comparing rhizobia nodulating C. scoparius in its native and exotic environments. Cytisus scoparius symbionts were identified outside the Bradyrhizobium genus and a new lineage of legume-nodulating bacteria was identified.

Local adaptation in the Linum marginale-Melampsora lini host-pathogen interaction.

The potential for local adaptation between pathogens and their hosts has generated strong theoretical and empirical interest with evidence both for and against local adaptation reported for a range of systems. We use the Linum marginale-Melampsora lini plant-pathogen system and a hierarchical spatial structure to investigate patterns of local adaptation within a metapopulation characterised by epidemic dynamics and frequent extinction of pathogen populations. Based on large sample sizes and comprehensive cross-inoculation trials, our analyses demonstrate strong local adaptation by Melampsora to its host populations, with this effect being greatest at regional scales, as predicted from the broader spatial scales at which M. lini disperses relative to L. marginale. However, there was no consistent trend for more distant pathogen populations to perform more poorly. Our results further show how the coevolutionary interaction between hosts and pathogens can be influenced by local structure such that resistant hosts select for generally virulent pathogens, while susceptible hosts select for more avirulent pathogens. Empirically, local adaptation has generally been tested in two contrasting ways: (1) pathogen performance on sympatric versus allopatric hosts; and (2) sympatric versus allopatric pathogens on a given host population. In situations where no host population is more resistant or susceptible than others when averaged across pathogen populations (and likewise, no pathogen population is more virulent or avirulent than others), results from these tests should generally be congruent. We argue that this is unlikely to be the case in the metapopulation situations that predominate in natural host-pathogen interactions, thus requiring tests that control simultaneously for variation in plant and pathogen populations.

Fibre-optic bronchoscopy in adults: a position paper of The Thoracic Society of Australia and New Zealand.

Fibre-optic bronchoscopy in adults is a common procedure in clinical respiratory practice. Under controlled conditions it is safe, resulting in relatively few significant adverse events. The present position paper updates guidelines previously published by The Thoracic Society of Australia and New Zealand and is based on evidence obtained by searching the Medline and Embase databases. The level of evidence to support recommendations is indicated in the text. Where no evidence has been found, the guidelines reflect the opinions of the authors. Specific recommendations are made regarding sedation and anaesthesia, the cleaning of bronchoscopes and the training of bronchoscopists.

Small-subunit rRNA genotyping of rhizobia nodulating Australian Acacia spp.

The structure of rhizobial communities nodulating Acacia in southeastern Australia from south Queensland to Tasmania was investigated by a molecular approach. A total of 118 isolates from nodule samples from 13 different Acacia species collected at 44 sites were characterized by small-subunit (SSU) ribosomal DNA (rDNA) PCR-restriction fragment length polymorphism analysis. Nine rhizobial genomospecies were identified, and these taxa corresponded to previously described genomospecies (B. Lafay and J. J. Burdon, Appl. Environ. Microbiol. 64:3989-3997, 1998). Eight of these genomospecies belonged to the Bradyrhizobium lineage and accounted for 96.6% of the isolates. The remaining genomospecies corresponded to Rhizobium tropici. For analysis of geographic patterns, results were grouped into five latitudinal regions regardless of host origin. In each region, as observed previously for rhizobial isolates taken from non-Acacia legumes (Lafay and Burdon, Appl. Environ. Microbiol. 64:3989-3997, 1998), rhizobial communities were dominated by one or two genomospecies, the identities of which varied from place to place. Despite this similarity in patterns, the most abundant genomospecies for Acacia isolates differed from the genomospecies found in the non-Acacia-derived rhizobial collection, suggesting that there is a difference in nodulation patterns of the Mimosoideae and the Papilionoideae. Only two genomospecies were both widespread and relatively abundant across the range of sites sampled. Genomospecies A was found in all regions except the most northern sites located in Queensland, whereas genomospecies B was not detected in Tasmania. This suggests that genomospecies A might be restricted to the more temperate regions of Australia, whereas in contrast, genomospecies B occurs in different climatic and edaphic conditions across the whole continent. The latter hypothesis is supported by the presence of genomospecies B in southwestern Australia, based on partial SSU rDNA sequence data (N. D. S. Marsudi, A. R. Glenn, and M. J. Dilworth, Soil Biol. Biochem. 31:1229-1238, 1998).

Primary spontaneous pneumothorax: treatment practices in Australia.

OBJECTIVE: The aim of the present study was to determine treatment practices for spontaneous pneumothorax (PTX) in Australia. METHODOLOGY: A questionnaire regarding treatment of PTX was posted to all medically qualified members of the Thoracic Society of Australia and New Zealand resident in Australia. RESULTS: Fifty-three per cent (n = 226) of questionnaires were returned. Twenty-one responses were judged to be informal and rejected from analysis. The results indicate a general agreement in the treatment of small and large PTX but a wide variation in PTX of intermediate size. CONCLUSION: Opinion regarding the optimal treatment for PTX of intermediate size was found to vary considerably. There is a need for evidence-based development and publication of best practice guidelines for PTX.

Breathlessness and pregnancy.

BACKGROUND: Breathlessness is common during pregnancy and is usually due to hormonal changes or mechanical factors. However, it is important to ensure that no other cause for this symptom is present, and to exclude underlying or co-existent conditions.