Beautiful but lacking diversity : population genetics of Pacific Dogwood (Cornus nuttallii Audobon ex Torr. & A. Gray)

Keir, Karolyn R.

11 1900

In the past, conifers have been the primary focus of population and conservation genetic studies in Pacific Northwest (PNW) trees. These studies have provided tremendous insight as to how genetic diversity varies across species ranges for these wind-pollinated and mostly wind-dispersed species. With this study of Pacific dogwood (Cornus nuttallii), a broadleaved, PNW species, which utilizes biological vectors for pollen and seed dispersal, we hope to broaden our understanding of tree evolutionary dynamics. Marker development for C. nuttallii found few useful polymorphisms. Of eight microsatellite markers (SSRs) developed from a closely related species, three were monomorphic, while the other five averaged only 4.4 alleles/locus. Furthermore, only a single base pair substitution was found in the rpl16 region of the chloroplast genome after sequencing 2,262 non-coding base pairs in 100 individuals. This lack of diversity, which was found to be ubiquitous throughout the range of C. nuttallii, suggests this species may have endured a prolonged bottleneck in a single glacial refugium prior to recolonization. The cpDNA phylogeographic pattern and a significant decline in both SSR allelic richness (r² = 0.42, p<0.01), and expected heterozygosity (r² = 0.51, p<0.01) support this theory. Low levels of population structure, documented in both chloroplast (D = 0.153) and nuclear genomes (FST = 0.071, RST = 0.036) may suggest high levels of contemporary gene flow between populations are also influencing current patterns of diversity. Despite variation being the precursor for adaptation, a comparison of QST (0.088 for first-year height and 0.113 for bud burst timing) with a refined FST estimate (0.053), indicated that C. nuttallii had either retained or recovered significant phenotypic variation for differential selection to act. Such uniformly low diversity raises the issue of how genetic conservation efforts should proceed with this and other species sharing a similar degree of genetic depauperateness. So that signs of decline may be detected, we suggest population monitoring, especially for those populations occurring at high elevations. Furthermore, we advocate the transfer of seeds from the nearest southern source, in the event that restorative efforts are required to assist this species to cope with the rapidly changing climate.

Pacific dogwood

Population genetics

Dogwood Anthracnose Caused by Discula destructiva on Cornus spp. in Canada

Stanescu, Mihaela

02 January 2014

The most important fungal disease of dogwoods in North America is anthracnose caused by Discula destructiva. This disease affects Cornus florida (flowering dogwood), C. nuttallii (Pacific dogwood), and C. kousa (kousa dogwood). It has not been well studied in Ontario nor anywhere in Canada. In this study, over 2,500 fungal isolates were obtained from symptomatic samples of C. alba, C. alternifolia, C. amomum, C. kousa, C. florida, C. nuttallii, C. racemosa and C. sericea. To help distinguish between foliar symptoms of different etiologies, a “Dogwood Disease Symptom Guide” was produced. Isolates were divided into 13 fungal morphotypes, of which D. destructiva accounted for 39% of all isolates. Pathogenicity testing of Discula destructiva on C. florida satisfied Koch’s postulates, and this fungus was confirmed as the causal agent of dogwood anthracnose in southwestern Ontario (C. florida) and southwestern British Columbia (C. nuttallii). Wounds and leaf trichomes may provide a point of entry and help the pathogen survive endophytically without producing symptoms on “non-host” plants such as oak, maple and pear. The pathogen was found to survive for over 12 weeks at -20 °C, and the optimal growth temperature was found to be between 20-25 °C, but temperatures as high as 30 °C inhibited the growth, and the fungus died after one week incubation at 40 °C. The finding of only one mating type within D. destructiva populations (122 isolates) explains the lack of sexual reproduction of this fungus in North America, and along with the SSR results, reconfirms the low genetic variability within its populations. / Ontario Ministry of Natural Resources

dogwood anthracnose discula

Beautiful but lacking diversity : population genetics of Pacific Dogwood (Cornus nuttallii Audobon ex Torr. & A. Gray)

Keir, Karolyn R.

11 1900

In the past, conifers have been the primary focus of population and conservation genetic studies in Pacific Northwest (PNW) trees. These studies have provided tremendous insight as to how genetic diversity varies across species ranges for these wind-pollinated and mostly wind-dispersed species. With this study of Pacific dogwood (Cornus nuttallii), a broadleaved, PNW species, which utilizes biological vectors for pollen and seed dispersal, we hope to broaden our understanding of tree evolutionary dynamics. Marker development for C. nuttallii found few useful polymorphisms. Of eight microsatellite markers (SSRs) developed from a closely related species, three were monomorphic, while the other five averaged only 4.4 alleles/locus. Furthermore, only a single base pair substitution was found in the rpl16 region of the chloroplast genome after sequencing 2,262 non-coding base pairs in 100 individuals. This lack of diversity, which was found to be ubiquitous throughout the range of C. nuttallii, suggests this species may have endured a prolonged bottleneck in a single glacial refugium prior to recolonization. The cpDNA phylogeographic pattern and a significant decline in both SSR allelic richness (r² = 0.42, p<0.01), and expected heterozygosity (r² = 0.51, p<0.01) support this theory. Low levels of population structure, documented in both chloroplast (D = 0.153) and nuclear genomes (FST = 0.071, RST = 0.036) may suggest high levels of contemporary gene flow between populations are also influencing current patterns of diversity. Despite variation being the precursor for adaptation, a comparison of QST (0.088 for first-year height and 0.113 for bud burst timing) with a refined FST estimate (0.053), indicated that C. nuttallii had either retained or recovered significant phenotypic variation for differential selection to act. Such uniformly low diversity raises the issue of how genetic conservation efforts should proceed with this and other species sharing a similar degree of genetic depauperateness. So that signs of decline may be detected, we suggest population monitoring, especially for those populations occurring at high elevations. Furthermore, we advocate the transfer of seeds from the nearest southern source, in the event that restorative efforts are required to assist this species to cope with the rapidly changing climate.

Pacific dogwood

Population genetics

Abiotic stressors in the dogwood anthracnose complex /

Crozier, James Brooks,

January 1994

Thesis (M.S.)--Virginia Polytechnic Institute and State University, 1994. / Vita. Abstract. Includes bibliographical references (leaves 72-74). Also available via the Internet.

Flowering dogwood Anthracnose.

Beautiful but lacking diversity : population genetics of Pacific Dogwood (Cornus nuttallii Audobon ex Torr. & A. Gray)

Keir, Karolyn R.

11 1900

In the past, conifers have been the primary focus of population and conservation genetic studies in Pacific Northwest (PNW) trees. These studies have provided tremendous insight as to how genetic diversity varies across species ranges for these wind-pollinated and mostly wind-dispersed species. With this study of Pacific dogwood (Cornus nuttallii), a broadleaved, PNW species, which utilizes biological vectors for pollen and seed dispersal, we hope to broaden our understanding of tree evolutionary dynamics. Marker development for C. nuttallii found few useful polymorphisms. Of eight microsatellite markers (SSRs) developed from a closely related species, three were monomorphic, while the other five averaged only 4.4 alleles/locus. Furthermore, only a single base pair substitution was found in the rpl16 region of the chloroplast genome after sequencing 2,262 non-coding base pairs in 100 individuals. This lack of diversity, which was found to be ubiquitous throughout the range of C. nuttallii, suggests this species may have endured a prolonged bottleneck in a single glacial refugium prior to recolonization. The cpDNA phylogeographic pattern and a significant decline in both SSR allelic richness (r² = 0.42, p<0.01), and expected heterozygosity (r² = 0.51, p<0.01) support this theory. Low levels of population structure, documented in both chloroplast (D = 0.153) and nuclear genomes (FST = 0.071, RST = 0.036) may suggest high levels of contemporary gene flow between populations are also influencing current patterns of diversity. Despite variation being the precursor for adaptation, a comparison of QST (0.088 for first-year height and 0.113 for bud burst timing) with a refined FST estimate (0.053), indicated that C. nuttallii had either retained or recovered significant phenotypic variation for differential selection to act. Such uniformly low diversity raises the issue of how genetic conservation efforts should proceed with this and other species sharing a similar degree of genetic depauperateness. So that signs of decline may be detected, we suggest population monitoring, especially for those populations occurring at high elevations. Furthermore, we advocate the transfer of seeds from the nearest southern source, in the event that restorative efforts are required to assist this species to cope with the rapidly changing climate. / Forestry, Faculty of / Graduate

Pacific dogwood

Population genetics

Infection Process of <i>Discula destructiva</i>, the Causal Agent of Dogwood Anthracnose, and Resistance Mechanism of Flowering Dogwood

Cheng, Qunkang

01 May 2011

Discula destructiva, the causal agent of dogwood anthracnose, has caused severe mortality in dogwood over the last 30 years. Although considerable research has been done with dogwood anthracnose, the infection process by D. destructiva is still obscure. A resistant cultivar of Cornus florida, ‘Appalachian Spring’, was discovered and released by the Tennessee Agricultural Experiment Station. However, the resistance mechanisms are unknown. The objectives of this research were 1) to determine the sequence of events in the infection process of D. destructiva in C. florida and 2) to determine how host resistance affects infection events of D. destructiva on flowering dogwood. At 3 days after inoculation (DAI), majority of conidia germinated and hyphae were observed on the leaf surface. Direct penetration by D. destructiva hyphae was observed without appressorium formation. At 8 DAI, hyphae were aggregated between the cuticle and epidermis and grew intracellularly in epidermal cells, palisade parachyma, and spongy mesophyll cells. At 16 DAI, chloroplasts were intact but decompartmentalized and infection sites were clearly defined. Acervuli were detected at 20 DAI and were fully developed at 24 DAI on adaxial and abaxial leaf surfaces. Sporulation (ruptured acervuli) was observed at 20 DAI. This clear understanding of the infection process can be used to look for resistance mechanisms in dogwood germplasm. A resistant line would expect to slow or inhibit one or more infection events. There was no statistical difference between the percentages of germinated conidia on susceptible and resistant cultivars of flowering dogwood one day after inoculation (DAI). However, the resistant cultivar, ‘Appalachian Spring’, significantly suppressed the growth of D. destructiva conidial germ tubes at 2 DAI, 3 DAI and 4 DAI when compared to conidial germ tubes on leaves of the susceptible cultivar ‘Cloud 9’. Observed resistance may be due to smoother wax crystals on adaxial leaf surface and significantly thicker cuticle observed on leaves of ‘Appalachian Spring’. An unknown compound, observed highly concentrated in resistant but lower in susceptible cultivars, may be important as a resistance mechanism. These strategies reduced the inoculum potential of D. destructiva and play important roles in why ‘Appalachian Spring’ is resistant to dogwood anthracnose. These results provide new ways to use conidia germination test and germ tube growth measurement for detecting resistant cultivars.

Flowering dogwood

dogwood anthracnose

infection process

resistant mechanisms

Plant Pathology

Studies on Cercospora leaf spot

Conner, Kassie N., Bowen, Kira L.

January 2006

Thesis(M.S.)--Auburn University, 2006. / Abstract. Vita. Includes bibliographic references (p.48-50).

A biological comparison of Discula destructiva isolates from four geographic areas

Gundrum, Patricia Gwen.

January 1999

Thesis (M.S.)--West Virginia University, 1999. / Title from document title page. Document formatted into pages; contains ix, 80 p. : ill. (some col.) Includes abstract. Includes bibliographical references (p. 60-69).

Evaluation of genetic diversity of flowering dogwood (Cornus florida L.) in the eastern United States using microsatellites.

Hadziabdic, Denita,

January 2010

Thesis (Ph. D.)--University of Tennessee, Knoxville, 2010. / Title from title page screen (viewed on July 13, 2010). Thesis advisor: Robert N. Trigiano. Vita. Includes bibliographical references.

Predicting changes in the occurrence and dominance of four tree species in the Missouri Ozarks following clearcutting /

Baker-Alley, Thara S.

January 2004

Thesis (M.S.)--University of Missouri-Columbia, 2004. / Typescript. Includes bibliographical references (leaves 119-125). Also available on the Internet.