C.W. Clarke scite author profile

We report the development of 13 primer pairs that allow the unambiguous amplification of 15 microsatellite (SSR) loci in white spruce (Picea glauca). Fourteen of these loci were polymorphic in trees sampled at three geographically separated regions of western Canada. Segregation analysis carried out on these loci confirmed a Mendelian inheritance pattern for all except two, which showed significant segregation distortion. All of these primer pairs amplified SSR loci in at least one of the other Picea species tested [black spruce (P. mariana), red spruce (P. rubens), Norway spruce (P. abies), Colorado spruce (P. pungens), sitka spruce (P. sitchensis) and Engelmann spruce (P. engelmannii)]. Given the important commercial and ecological roles of these species, this set of markers will be invaluable for their management, the improvement of commercially important traits, and the study of their ecology and genetics.

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Genetic identification of SNP markers linked to a new grape phylloxera resistant locus in Vitis cinerea for marker-assisted selection

Smith

Clarke

Smith

et al. 2018

BMC Plant Biol

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BackgroundGrape phylloxera (Daktulosphaira vitifoliae Fitch) is a major insect pest that negatively impacts commercial grapevine performance worldwide. Consequently, the use of phylloxera resistant rootstocks is an essential component of vineyard management. However, the majority of commercially available rootstocks used in viticulture production provide limited levels of grape phylloxera resistance, in part due to the adaptation of phylloxera biotypes to different Vitis species. Therefore, there is pressing need to develop new rootstocks better adapted to specific grape growing regions with complete resistance to grape phylloxera biotypes.ResultsGrapevine rootstock breeding material, including an accession of Vitis cinerea and V. aestivalis, DRX55 ([M. rotundifolia x V. vinifera] x open pollinated) and MS27-31 (M. rotundifolia specific hybrid), provided complete resistance to grape phylloxera in potted plant assays. To map the genetic factor(s) of grape phylloxera resistance, a F1 V. cinerea x V. vinifera Riesling population was screened for resistance. Heritability analysis indicates that the V. cinerea accession contained a single allele referred as RESISTANCE TO DAKTULOSPHAIRA VITIFOLIAE 2 (RDV2) that confers grape phylloxera resistance. Using genetic maps constructed with pseudo-testcross markers for V. cinerea and Riesling, a single phylloxera resistance locus was identified in V. cinerea. After validating SNPs at the RDV2 locus, interval and linkage mapping showed that grape phylloxera resistance mapped to linkage group 14 at position 16.7 cM.ConclusionThe mapping of RDV2 and the validation of markers linked to grape phylloxera resistance provides the basis to breed new rootstocks via marker-assisted selection that improve vineyard performance.Electronic supplementary materialThe online version of this article (10.1186/s12870-018-1590-0) contains supplementary material, which is available to authorized users.

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Effectiveness of sodium hypochlorite as a disinfestation treatment against genetically diverse strains of grape phylloxeraDaktulosphaira vitifoliaeFitch (Hemiptera: Phylloxeridae)

Clarke

Wigg

Norng³

et al. 2017

Australian Journal of Grape and Wine Research

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The Cotesia sesamiae story: insight into host-range evolution in a Hymenoptera parasitoid and implication for its use in biological control programs

et al. 2017

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This review covers nearly 20 years of studies on the ecology, physiology and genetics of the Hymenoptera Cotesia sesamiae, an African parasitoid of Lepidoptera that reduces populations of common maize borers in East and South Africa. The first part of the review presents studies based on sampling of C. sesamiae from maize crops in Kenya. From this agrosystem including one host plant and three main host borer species, studies revealed two genetically differentiated populations of C. sesamiae species adapted to their local host community, and showed that their differentiation involved the joint evolution of virulence genes and sensory mechanisms of host acceptance, reinforced by reproductive incompatibility due to Wolbachia infection status and natural inbreeding. In the second part, we consider the larger ecosystem of wild Poales plant species hosting many Lepidoptera stem borer species that are potential hosts for C. sesamiae. The hypothesis of other host-adapted C. sesamiae populations was investigated based on a large sampling of stem borer larvae on various Poales across sub-Saharan Africa. The sampling provided information on the respective contribution of local hosts, biogeography and Wolbachia in the genetic structure of C. sesamiae populations. Molecular evolution analyses highlighted that several bracovirus genes were under positive selection, some of them being under different selection pressure in C. sesamiae populations adapted to different hosts. This suggests that C. sesamiae host races result from co-evolution acting at the local scale on different bracovirus genes. The third part considers the mechanisms driving specialization. C. sesamiae host races are more or less host-specialized. This character is crucial for efficient and environmentally-safe use of natural enemies for biological control of pests. One method to get an insight in the evolutionary stability of host-parasite associations is to characterize the phylogenetic relationships between the so-called host-races. Based on the construction of a phylogeny of C. sesamiae samples from various host- and plant species, we revealed three main lineages. Mechanisms of differentiation are discussed with regard to the geography and ecology of the samples. One of the lineage presented all the hallmarks of a distinct species, which has been morphologically described and is now studied in the perspective of being used as biological control agent against Sesamia nonagrioides Lefèbvre (Lepidoptera: Noctuidae), a major maize pest in West Africa and Mediterranean countries (see Benoist et al. 2017). The fourth part reviews past and present use of C. sesamiae in biological control, and points out the interest of such molecular ecology studies to reconcile biodiversity and food security stakes in future biological control.

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Efficacy of steam and hot water disinfestation treatments against genetically diverse strains of grape phylloxeraDaktulosphaira vitifoliaeFitch (Hemiptera: Phylloxeridae) on viticulture equipment and machinery

Clarke

Norng

YuanPeng

et al. 2017

Australian Journal of Grape and Wine Research

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Background and Aims In Australia, hot water immersion and steam application are recommended disinfestation strategies for harvesting bins, vineyard machinery and vehicles against grape phylloxera, Daktulosphaira vitifoliae Fitch. This study validated the effectiveness of these two strategies against genetically diverse phylloxera strains. Methods and Results The first instars of six phylloxera genetic strains, G1, G4, G7, G19, G20 and G30, were subjected to steam projected from 8 and 24 cm, and from 92 cm for G1 only, for 10, 20 and 30 s. All steam treatments achieved 100% mortality across the six genetic strains. The efficacy of hot water treatment (HWT) against phylloxera was investigated by immersing first instars in a water bath set at 22, 40, 45, 50, 60 and 70°C for 60 and 120 s. Treatments of 50°C and above for a minimum of 60 s resulted in 100% mortality across the six genetic strains. Survival was observed at 40 and 45°C, and first instars subsequently established feeding sites, developed into adults and reproduced on excised grapevine roots. Conclusions Steam application and HWT, as currently recommended in the Australian National Phylloxera Management Protocol, are effective for disinfestation of diverse phylloxera strains. Significance of the Study This study has validated, for the first time, the efficacy of steam application and HWT against phylloxera first instars and highlights the potential to lower the recommendations for treatment duration and water temperature disinfestation while still achieving 100% mortality.

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C.W. Clarke

Development of microsatellite markers for white spruce (Picea glauca) and related species

Genetic identification of SNP markers linked to a new grape phylloxera resistant locus in Vitis cinerea for marker-assisted selection

Effectiveness of sodium hypochlorite as a disinfestation treatment against genetically diverse strains of grape phylloxeraDaktulosphaira vitifoliaeFitch (Hemiptera: Phylloxeridae)

The Cotesia sesamiae story: insight into host-range evolution in a Hymenoptera parasitoid and implication for its use in biological control programs

Efficacy of steam and hot water disinfestation treatments against genetically diverse strains of grape phylloxeraDaktulosphaira vitifoliaeFitch (Hemiptera: Phylloxeridae) on viticulture equipment and machinery

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