Your search keyword '"Anisogramma anomala"' showing total 134 results

1. The massive 340 megabase genome of Anisogramma anomala, a biotrophic ascomycete that causes eastern filbert blight of hazelnut

Author

Cohen, Alanna B., Cai, Guohong, Price, Dana C., Molnar, Thomas J., Zhang, Ning, and Hillman, Bradley I.

Published

2024

2. OSU 541.147 Hazelnut

Author

Shawn A. Mehlenbacher, David C. Smith, Rebecca L. McCluskey, Jacob W. Snelling, Thomas J. Molnar, and Aaron Clare

Subjects

anisogramma anomala, cold hardiness, corylus americana, corylus avellana, eastern filbert blight, nut breeding, Plant culture, SB1-1110

Published

2023

3. OSU 541.147 Hazelnut.

Author

Mehlenbacher, Shawn A., Smith, David C., McCluskey, Rebecca L., Snelling, Jacob W., Molnar, Thomas J., and Clare, Aaron

Abstract

The article focuses on OSU 541.147 is a new hybrid hazelnut (Corylus) cultivar for eastern North America. Topics include examines it was released by the Hybrid Hazelnut Consortium in April 2020 for its resistance to eastern filbert blight caused by the fungus Anisogramma anomala, suitability to the kernel market, and superiority in nut yield and kernel quality when compared with hybrid hazelnut seedling populations.

Published

2023

4. Pest survey card on Anisogramma anomala.

Author

Gionni, Alessandra, Pecori, Francesco, Santini, Alberto, Graziosi, Ignazio, and Camilleri, Melanie

Subjects

*PESTS, *ANISOGRAMMA anomala

Abstract

This document provides the conclusions of the pest survey card that was prepared in the context of the EFSA mandate on plant pest surveillance (M‐2020‐0114) at the request of the European Commission. The full pest survey card for Anisogramma anomala is published and available online in the EFSA Plant Pest Survey Cards Gallery at the following link and will be updated whenever new information becomes available: https://efsa.europa.eu/plants/planthealth/monitoring/surveillance/anisogramma-anomala [ABSTRACT FROM AUTHOR]

Published

2023

5. Segregation of Eastern Filbert Blight Disease Response and Single Nucleotide Polymorphism Markers in Three European–American Interspecific Hybrid Hazelnut Populations

Author

Justin J. Lombardoni, Josh A. Honig, Jennifer N. Vaiciunas, Ronald S. Revord, and Thomas J. Molnar

Subjects

anisogramma anomala, corylus avellana, corylus americana, quantitative trait loci, tree breeding, Plant culture, SB1-1110

Abstract

The perennial stem canker disease eastern filbert blight (EFB), caused by Anisogramma anomala, is devastating to most trees of European hazelnut (Corylus avellana), as genetic resistance is rare in the species. The pathogen is harbored by the wild American hazelnut (Corylus americana) found throughout much of eastern North America. Wild American hazelnut is generally resistant or tolerant to EFB, and is fully cross compatible with C. avellana, the species grown commercially for its nuts, making it a valuable resource for disease resistance breeding. The objective of this study was to identify quantitative trait loci (QTLs) associated with EFB resistance and tolerance in these two species. Three unrelated EFB-resistant C. americana selections [Oregon State University (OSU) 533.069 from Pennsylvania, OSU 403.040 from Nebraska, and OSU 557.122 from Wisconsin] were crossed with C. avellana ‘Tonda di Giffoni’ (TdG), a cultivar from Italy known to be tolerant of EFB. Their progenies, each containing 124 trees, were exposed to A. anomala through field inoculations and natural spread over 7 years, then each tree was evaluated for cumulative disease response. Results showed that disease response of all three populations exhibited a roughly normal distribution, indicating that resistance/tolerance was under multigenic control. An average of 2869 total markers were used to construct each population’s linkage map following genotyping, which included an average of 121 published simple sequence repeat markers to anchor linkage groups (LGs) to those of previous studies. Linkage maps were constructed for each parent of each population and used to map QTLs associated with EFB response. The subsequent analysis resolved five EFB-related QTLs across the three populations, highlighting three genic regions. Unexpectedly, only one QTL was identified from one of the three resistant C. americana parents, located on LG11 of the map of OSU 403.040, whereas three QTLs were found in a similar region on LG10 across the three maps of TdG, and a fifth QTL was found on LG6 of one TdG map. The lack of strong QTLs identified from the three EFB-resistant C. americana parents suggests that their resistance may be highly quantitative and not resolved within the constraints of this study. In contrast, tolerance from TdG appears to be conferred by a limited number of genes with relatively strong effects. Based on prior mapping work in European and American hazelnut where R genes have been located on LG2, LG6, and LG7, the QTLs associated with resistance/tolerance on LG10 and LG11 represent novel resistance regions. These QTLs present new targets for marker aided breeding, especially when pyramiding EFB resistance genes is a goal.

Published

2022

6. New Simple Sequence Repeat Markers on Linkage Groups 2 and 7, and Investigation of New Sources of Eastern Filbert Blight Resistance in Hazelnut

Author

Merve Şekerli, Golnaz Komaei Koma, Jacob W. Snelling, and Shawn A. Mehlenbacher

Subjects

anisogramma anomala, corylus avellana, disease resistance, linkage mapping, microsatellite, tree breeding, Plant culture, SB1-1110

Abstract

Eastern filbert blight (EFB), caused by Anisogramma anomala, is a fungal disease threatening the european hazelnut (Corylus avellana) industry in the Willamette Valley of Oregon. The pathogen is endemic to the eastern United States where it causes little damage to the wild Corylus americana but causes severe cankers on most cultivars of the commercially important european hazelnut. The host genetic resistance in ‘Gasaway’ is conferred by a dominant allele at a single locus on linkage group 6 (LG6), and resistance from several other sources has been mapped to the same region. Some fungal isolates can overcome ‘Gasaway’ resistance, prompting a search for other sources of resistance. Resistance from other sources has been mapped to LG2 and LG7, for which additional simple sequence repeat (SSR) markers would facilitate marker-assisted selection (MAS). In this study, an in silico approach was used to develop new polymorphic SSR markers in the EFB resistance regions on LG2 and LG7. Starting with a search of 17 contigs of the ‘Jefferson’ genome sequence, 45 new polymorphic SSR markers were developed, characterized, and placed on the linkage map. The new SSR markers had an average of 10.18 alleles per locus, and average values for expected heterozygosity, observed heterozygosity, polymorphism information content, and frequency of null alleles of 0.72, 0.65, 0.68, and 0.068, respectively. Of the 42 new polymorphic SSRs segregating in the mapping population, 24 were on LG2, 12 were on LG7, and six were placed on other LGs. The new and previously developed SSR markers were used to study six new sources of EFB resistance, four from Russia and two from Crimea. Six resistant selections were crossed with susceptible selections, resulting in 7 progenies. Phenotyping for disease response revealed that segregation in progenies of the two Moscow selections (#2 and #27), one Russian selection (OSU 1187.101), and one Crimean selection (H3R12P62) fit the 1:1 segregation ratio expected for control of resistance by a dominant allele at a single locus; but in progenies of the other Russian selection (OSU 1166.123) and the other Crimean selection (H3R07P11), there was an excess of resistant seedlings. Correlation of disease scores and alleles at SSR loci indicated that resistance from three Russian selections (Moscow selections #2 and #27 and OSU 1166.123) and the Crimean selection H3R12P62 was on LG7, while resistance from Russian selection OSU 1187.101 was on LG2. Resistance from Crimean selection H3R07P11 was not correlated with markers on LG6, or LG2, or LG7. These sources and new SSR markers will be useful in MAS and the pyramiding of resistance genes in the breeding of new EFB-resistant cultivars.

Published

2021

7. Eastern Filbert Blight Resistance in American and Interspecific Hybrid Hazelnuts

Author

Ronald S. Revord, Sarah T. Lovell, John M. Capik, Shawn A. Mehlenbacher, and Thomas J. Molnar

Subjects

anisogramma anomala, disease resistance, germplasm, tree breeding, Plant culture, SB1-1110

Abstract

Eastern filbert blight (EFB), caused by the fungus Anisogramma anomala, is a primary limitation to european hazelnut (Corylus avellana) cultivation in eastern North America. American hazelnut (Corylus americana) is the endemic host of A. anomala and, despite its tiny, thick-shelled nuts, is a potentially valuable source of EFB resistance and climatic adaptation. Interspecific hybrids (Corylus americana × C. avellana) have been explored for nearly a century as a means to combine EFB resistance with wider adaptability and larger nuts. Although significant progress was made in the past, the genetic diversity of the starting material was limited and additional improvements are needed for expansion of hazelnut (Corylus sp.) production outside of Oregon, where 99% of the U.S. crop is currently produced. Our objective was to determine if C. americana can be a donor of EFB resistance. We crossed 29 diverse EFB-resistant C. americana accessions to EFB-susceptible C. avellana selections (31 total progenies) to produce 2031 F1 plants. In addition, new C. americana germplasm was procured from across the native range of the species. The new collection of 1335 plants from 122 seed lots represents 72 counties and 22 states. The interspecific hybrid progenies and a subset of the American collection (616 trees from 62 seed lots) were field planted and evaluated for EFB response following field inoculations and natural disease spread over seven growing seasons. EFB was rated on a scale of 0 (no EFB) to 5 (all stems containing cankers). Results showed that progeny means of the interspecific hybrids ranged from 0.96 to 4.72. Fourteen of the 31 progenies were composed of at least one-third EFB-free or highly tolerant offspring (i.e., ratings 0–2), transmitting a significant level of resistance/tolerance. Several corresponding C. americana accessions that imparted a greater degree of resistance to their hybrid offspring were also identified. In addition, results showed that 587 (95.3%) of the 616 C. americana plants evaluated remained completely free of EFB. These findings confirm reports that the species rarely expresses signs or symptoms of the disease and should be robustly studied and exploited in breeding.

Published

2020

8. Genetic Diversity Analysis of Anisogramma anomala in the Pacific Northwest and New Jersey.

Author

Tobia J, Muehlbauer M, Honig JA, Pscheidt JW, Hillman BI, and Molnar TJ

Subjects

New Jersey, Genotype, Northwestern United States, Alleles, Genetic Variation, Corylus microbiology, Plant Diseases microbiology, Microsatellite Repeats genetics, Ascomycota genetics, Ascomycota isolation & purification

Abstract

Anisogramma anomala , a biotrophic ascomycete, causes eastern filbert blight (EFB) of hazelnuts ( Corylus spp.). EFB is endemic in eastern North America, preventing the commercial production of European hazelnut ( C. avellana L.). In contrast, the historic absence of A. anomala in the Pacific Northwest (PNW) supported the development of a robust hazelnut industry. Circa 1960, A. anomala was inadvertently introduced into southwestern Washington, causing orchard devastation. Distribution of the pathogen in the PNW has been hypothesized to be the result of a single-point introduction. This study aimed to investigate the single-point introduction hypothesis of A. anomala by comparing the genetic diversity of A. anomala samples from the PNW and New Jersey (NJ). Specimens from the main PNW production region ( n = 60) and an area within the pathogen's native range, NJ ( n = 151), were genotyped using 15 simple sequence repeat (SSR) markers. The following were used to assess genetic diversity and population structure: allelic summary statistics, discriminant analysis of principal components, network median-joining tree, analysis of multilocus genotypes, and allelic population diversity analysis. Analyses separated the samples into one cluster containing all the PNW isolates, and five clusters of NJ isolates. The PNW samples were nearly genetically uniform, and the NJ isolates were diverse. These findings support the hypothesis that A. anomala in the PNW was derived from a single-point introduction and corroborate previous studies that have shown A. anomala is very diverse in NJ. This indicates that maintaining restrictions on the movement of Corylus into the PNW is important to prevent the introduction of new populations of A. anomala , thus protecting the PNW hazelnut industry., Competing Interests: The author(s) declare no conflict of interest.

Published

2024

9. New Sources of Eastern Filbert Blight Resistance and Simple Sequence Repeat Markers on Linkage Group 6 in Hazelnut (Corylus avellana L.)

Author

Golnaz Komaei Koma, Merve Şekerli, Jacob W. Snelling, and Shawn A. Mehlenbacher

Subjects

Anisogramma anomala, Corylus avellana, eastern filbert blight, hazelnut, simple sequence repeat, microsatellite, Plant culture, SB1-1110

Abstract

Commercial production of hazelnut (Corylus avellana) in Oregon’s Willamette Valley is threatened by eastern filbert blight (EFB), a serious canker disease caused by the pyrenomycete Anisogramma anomala (Peck) E. Müller. The fungus also prevents the establishment of hazelnut orchards in eastern North America. Genetic resistance is considered the most effective way to control the disease. A high level of EFB resistance was first discovered in ’Gasaway’. This resistance is conferred by a dominant allele at a single locus on linkage group 6 (LG6). Resistance from several additional sources has been assigned to the same chromosomal region. In this study, new simple sequence repeat (SSR) markers were developed for the resistance region on LG6 and new sources of resistance were investigated. Forty-two new SSR markers were developed from four contigs in the genome sequence of ‘Jefferson’ hazelnut, characterized, and nine of them were placed on LG6 of the genetic map. Accessions representing 12 new sources of EFB resistance were crossed with susceptible selections resulting in 18 seedling populations. Segregation ratios in the seedling populations fit the expected 1:1 ratio for 10 sources, while one source showed an excess of resistant seedlings and another showed an excess of susceptible seedlings. Based on correlation of disease response and scores of SSR markers in the ‘Gasaway’ resistance region in the seedlings, eight resistance sources were assigned to LG6. Linkage maps were constructed for each progeny using SSR markers. The LG6 resistance sources include two selections (#23 and #26) from the Russian Research Institute of Forestry and Mechanization near Moscow, four selections from southern Russia, one selection (OSU 1185.126) from Crimea, one selection (OSU 533.129) from Michigan, Corylus heterophylla ‘Ogyoo’ from the South Korea, and the interspecific hybrid ’Estrella #1’. These new LG6 resistance sources and SSR markers should be useful in breeding new cultivars, including the pyramiding of resistance genes. For the other four resistance sources (Moscow #37, hybrid selection OSU 401.014, C. americana ‘Winkler’ and C. americana OSU 366.060), SSR marker scores on linkage groups 6, 7 and 2 were not correlated with disease response and merit further investigation.

Published

2021

10. New Sources of Eastern Filbert Blight Resistance and Simple Sequence Repeat Markers on Linkage Group 6 in Hazelnut (Corylus avellana L.).

Author

Komaei Koma, Golnaz, Şekerli, Merve, Snelling, Jacob W., and Mehlenbacher, Shawn A.

Subjects

MICROSATELLITE repeats, HAZEL, GENETIC markers in plants, HAZELNUTS, NUTS

Abstract

Commercial production of hazelnut (Corylus avellana) in Oregon's Willamette Valley is threatened by eastern filbert blight (EFB), a serious canker disease caused by the pyrenomycete Anisogramma anomala (Peck) E. Müller. The fungus also prevents the establishment of hazelnut orchards in eastern North America. Genetic resistance is considered the most effective way to control the disease. A high level of EFB resistance was first discovered in 'Gasaway'. This resistance is conferred by a dominant allele at a single locus on linkage group 6 (LG6). Resistance from several additional sources has been assigned to the same chromosomal region. In this study, new simple sequence repeat (SSR) markers were developed for the resistance region on LG6 and new sources of resistance were investigated. Forty-two new SSR markers were developed from four contigs in the genome sequence of 'Jefferson' hazelnut, characterized, and nine of them were placed on LG6 of the genetic map. Accessions representing 12 new sources of EFB resistance were crossed with susceptible selections resulting in 18 seedling populations. Segregation ratios in the seedling populations fit the expected 1:1 ratio for 10 sources, while one source showed an excess of resistant seedlings and another showed an excess of susceptible seedlings. Based on correlation of disease response and scores of SSR markers in the 'Gasaway' resistance region in the seedlings, eight resistance sources were assigned to LG6. Linkage maps were constructed for each progeny using SSR markers. The LG6 resistance sources include two selections (#23 and #26) from the Russian Research Institute of Forestry and Mechanization near Moscow, four selections from southern Russia, one selection (OSU 1185.126) from Crimea, one selection (OSU 533.129) from Michigan, Corylus heterophylla 'Ogyoo' from the South Korea, and the interspecific hybrid 'Estrella #1'. These new LG6 resistance sources and SSR markers should be useful in breeding new cultivars, including the pyramiding of resistance genes. For the other four resistance sources (Moscow #37, hybrid selection OSU 401.014, C. americana 'Winkler' and C. americana OSU 366.060), SSR marker scores on linkage groups 6, 7 and 2 were not correlated with disease response and merit further investigation. [ABSTRACT FROM AUTHOR]

Published

2021

11. Eastern Filbert Blight Resistance in American and Interspecific Hybrid Hazelnuts.

Author

Revord, Ronald S., Lovell, Sarah T., Capik, John M., Mehlenbacher, Shawn A., and Molnar, Thomas J.

Subjects

*HAZELNUTS, *HAZEL, *SYMPTOMS, *GROWING season, *SEEDS, *CANKER (Plant disease)

Abstract

Eastern filbert blight (EFB), caused by the fungus Anisogramma anomala, is a primary limitation to european hazelnut (Corylus avellana) cultivation in eastern North America. American hazelnut (Corylus americana) is the endemic host of A. anomala and, despite its tiny, thick-shelled nuts, is a potentially valuable source of EFB resistance and climatic adaptation. Interspecific hybrids (Corylus americana x C. avellana) have been explored for nearly a century as a means to combine EFB resistance with wider adaptability and larger nuts. Although significant progress was made in the past, the genetic diversity of the starting material was limited and additional improvements are needed for expansion of hazelnut (Corylus sp.) production outside of Oregon, where 99% of the U.S. crop is currently produced. Our objective was to determine if C. americana can be a donor of EFB resistance. We crossed 29 diverse EFB-resistant C. americana accessions to EFB-susceptible C. avellana selections (31 total progenies) to produce 2031 F1 plants. In addition, new C. americana germplasm was procured from across the native range of the species. The new collection of 1335 plants from 122 seed lots represents 72 counties and 22 states. The interspecific hybrid progenies and a subset of the American collection (616 trees from 62 seed lots) were field planted and evaluated for EFB response following field inoculations and natural disease spread over seven growing seasons. EFB was rated on a scale of 0 (no EFB) to 5 (all stems containing cankers). Results showed that progeny means of the interspecific hybrids ranged from 0.96 to 4.72. Fourteen of the 31 progenies were composed of at least one-third EFB-free or highly tolerant offspring (i.e., ratings 0--2), transmitting a significant level of resistance/tolerance. Several corresponding C. americana accessions that imparted a greater degree of resistance to their hybrid offspring were also identified. In addition, results showed that 587 (95.3%) of the 616 C. americana plants evaluated remained completely free of EFB. These findings confirm reports that the species rarely expresses signs or symptoms of the disease and should be robustly studied and exploited in breeding. [ABSTRACT FROM AUTHOR]

Published

2020

12. 'PollyO' Hazelnut.

Author

Mehlenbacher, Shawn A., Smith, David C., and McCluskey, Rebecca L.

Subjects

*HAZELNUTS, *HAZEL

Abstract

Anisogramma anomala, Corylus avellana, eastern filbert blight, nut breeding. [Extracted from the article]

Published

2019

13. Flowering and yield of eastern filbert blight resistant hazelnut cultivars in southwestern British Columbia.

Author

O'Dell, Thomas E.

Subjects

HAZELNUTS, HAZEL, CULTIVARS, TREE farms, PHYTOPHTHORA

Abstract

Copyright of Canadian Journal of Plant Science is the property of Canadian Science Publishing and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2019

14. Assessment of the ‘Gasaway’ source of resistance to eastern filbert blight in New Jersey.

Author

Muehlbauer, Megan, Capik, John M., Molnar, Thomas J., and Mehlenbacher, Shawn A.

Subjects

*EASTERN filbert blight, *ANISOGRAMMA anomala, *DISEASE resistance of plants, *POLLINATORS

Abstract

The disease eastern filbert blight (EFB), caused by Anisogramma anomala , severely limits hazelnut ( Corylus avellana ) production in North America. In the 1970s, ‘Gasaway’, a late-flowering pollenizer, was found to be resistant to EFB in the Pacific northwestern U.S., and to transmit its resistance in a predictable Mendelian pattern. Its subsequent use in breeding at Oregon State University led to the release of a number of EFB-resistant cultivars, including Jefferson, Yamhill, Dorris, Wepster, and McDonald, which are now being widely planted across the Willamette Valley of Oregon. However, some cultivars carrying the ‘Gasaway’ R -gene develop EFB in New Jersey. Thus, the utility of this resistance source for breeding plants adapted to the eastern U.S has not been fully evaluated. In this study, we examined the EFB response of seedlings from 31 different full-sib progenies expected to segregate for the ‘Gasaway’ R -gene. Trees were exposed to the disease over at least 5 years and evaluated on a scale of 0 to 5 (0 = resistant, 5 = highly susceptible). In general, we found the number of seedlings free of EFB (class 0) to be less than expected based on prior work in Oregon, but resistant individuals were identified in each progeny, indicating the presence of heritable resistance. When disease response classes 0, 1, and 2 were combined (resistant through highly tolerant) and considered as “resistant”, the expected ratio of resistant to susceptible trees was recovered, signifying that the single dominant allele alone continues to provide a predictable level of at least tolerance. Modifying genes/factors appear to play a role in the final disease response of the individual seedling. It is thus hypothesized that some cultivars selected as resistant in Oregon that develop cankers in New Jersey may lack the necessary modifying genetic factors for full protection in the east. Until these modifying genes are elucidated, long-term field evaluation remains necessary to identify selections that carry the ‘Gasaway’ R -gene and express a high level of resistance to EFB in the eastern U.S. [ABSTRACT FROM AUTHOR]

Published

2018

15. Tank Mixing Fungicides for Effectiveness Against Eastern Filbert Blight of Hazelnut.

Author

Pscheidt, J. W., Heckert, S., and Cluskey, S. A.

Subjects

*HAZELNUTS, *HAZEL, *ANISOGRAMMA anomala, *DEMETHYLATION, *CHLOROTHALONIL

Abstract

Hazelnut (Corylus avellana) production in Oregon primarily occurs on cultivars susceptible to Anisogramma anomala, the causal agent of eastern filbert blight (EFB). Management of EFB involves planting resistant cultivars, removal of cankered limbs, and the application of fungicides. Tank mixes of demethylation-inhibiting (DMI; Fungicide Resistance Action Committee [FRAC] group 3) or quinone outside inhibitor (QoI; FRAC group 11) fungicides with chlorothalonil (FRAC group M5) at full or reduced rates were evaluated for effectiveness against A. anomala. The use of chlorothalonil in a mix with a DMI or QoI fungicide was an effective treatment for EFB even if each component of the mix was at half the labeled rate. Different liquid or dry formulations of chlorothalonil were equally effective in a tank mix for EFB control. The combination of propiconazole (FRAC group 3) tank mixed with trifloxystrobin (FRAC group 11) was not effective, whereas trees treated with propiconazole tank mixed with pyraclostrobin (FRAC group 11) resulted in significantly fewer EFB cankers compared with nontreated trees. When using tank mixes for EFB management, DMI fungicides should remain at full rates while mixing with a half-rate of chlorothalonil. In contrast, QoI fungicides and chlorothalonil could both be used at half-rates and still maintain acceptable EFB control. Tank mixing chlorothalonil with fungicides at risk of resistance development can help maintain consistent EFB control and should help prevent or delay the emergence of fungicide-resistant A. anomala isolates. [ABSTRACT FROM AUTHOR]

Published

2018

16. 'Burgundy Lace' Ornamental Hazelnut.

Author

Mehlenbacher, Shawn A., Smith, David C., and McCluskey, Rebecca L.

Subjects

*HAZELNUTS, *CROSSBREEDING, *CULTIVARS, *DISEASE resistance of plants, *EASTERN filbert blight, *NUT yields

Abstract

The article introduces the cultivar named Burgundy Lace which is a ornamental hazelnut released by the Oregon Agricultural Experiment station. It discusses the cultivar's properties including its resistance to eastern filbert blight (EFB) disease caused by Anisogramma anomala, analyzes the variety's nut yield efficiency, rating of catkins and pollen in the trial.

Published

2018

17. Cryptospore and trilete spore assemblages from the Late Ordovician (Katian–Hirnantian) Ghelli Formation, Alborz Mountain Range, Northeastern Iran: Palaeophytogeographic and palaeoclimatic implications.

Author

Ghavidel-Syooki, Mohammad

Subjects

*MOUNTAINS, *ANISOGRAMMA anomala, *ARCHAEOLOGICAL assemblages, *ORDOVICIAN paleontology, *PALEOCLIMATOLOGY

Abstract

Well-preserved miospore assemblages are recorded from the Late Ordovician (Katian–Hirnantian) Ghelli Formation in the Pelmis Gorge, located in the Alborz Mountain Range, Northeastern Iran. The palynomorphs were extracted from siliciclastic deposits that are accurately dated using marine palynomorphs (acritarchs and chitinozoans). The spore assemblages consist of 14 genera and 28 species (26 cryptospores and 2 trilete spore species). Six new cryptospore species are described: Rimosotetras punctata n.sp., Rimosotetras granulata n.sp., Dyadospora asymmetrica n.sp., Dyadospora verrucata n.sp., Segestrespora iranense n.sp., and Imperfectotriletes persianense n.sp. The study furthers knowledge of the development of the vegetative cover during the Late Ordovician. Various and abundant cryptospores in the Late Ordovician (Katian–Hirnantian) Ghelli Formation are probably related to the augmentation of land-derived sediments either during the global sea-level fall linked to the Late Ordovician glaciation or adaptation of the primitive land plants in a wide range of climatic conditions. These miospore taxa were produced by the earliest primitive land plants, which probably grew close to the shoreline and were washed in from adjacent areas, producing a high volume of miospores. The associated marine palynomorphs consist of acritarchs (13 genera and 18 species), chitinozoans (9 genera and 10 species), prasinophycean algae, scolecodonts, and graptolite remains, which are not discussed in detail herein. The established chitinozoan biozones of this part of the Palaeozoic sequence are the Armoricochitina nigerica Biozone, the Ancyrochitina merga Biozone, the Tanuchitina elongata Biozone, and the Spinachitina oulebsiri Biozone, suggesting a Late Ordovician age (Katian–Hirnantian). These chitinozoan biozones are widely evidenced only in the peri-Gondwanan Domain, indicating that the study area was part of this palaeo-continent in the Late Ordovician. [ABSTRACT FROM AUTHOR]

Published

2017

18. Hazelnuts.

Author

Cox, Jeff

Subjects

*HAZELNUTS, *ANISOGRAMMA anomala, *CULTIVARS, *FAT content of food, *MOLD control

Abstract

The article offers the author's insights on topics related to hazelnuts. Topics mentioned include the growing of hazelnut trees, the Anisogramma anomala, an eastern filbert blight, of hazelnut, and the varieties of hazelnut. Also mentioned are the monounsaturated fat of the nut and the mold-prevention treatment for commercial hazelnuts.

Published

2018

19. Characterization of isolates of Xanthomonas arboricola pv. corylina, the causal agent of bacterial blight, from Oregon hazelnut orchards

Author

Jay W. Pscheidt, J. Bryan Webber, Nik G. Wiman, Melodie L. Putnam, Maryna Serdani, and Virginia O. Stockwell

Subjects

Crop, Filbert, Phylogenetic diversity, Horticulture, biology, Anisogramma anomala, Host (biology), food and beverages, Blight, Plant Science, Xanthomonas arboricola, 16S ribosomal RNA, biology.organism_classification

Abstract

Bacterial blight (Xanthomonas arboricola pv. corylina (Xac)) of hazelnut (Corylus avellana L.) was described first in Oregon in 1915 and is now recognized as a damaging disease of young hazelnut trees worldwide. Thousands of hectares of new hazelnut cultivars that are resistant to eastern filbert blight (Anisogramma anomala) are being planted in the Willamette Valley of Oregon, where 99% of the US hazelnut crop is grown. Reports of bacterial blight on young hazelnut trees have increased but information about the causal pathogen is limited. Isolates were recovered from tissues with bacterial blight symptoms that were then characterized for their ability to grow on semi-selective media, their nutrient utilization profiles using Biolog GN2, quinate metabolism, copper tolerance, hypersensitive response on tobacco, and pathogenicity on hazelnut. Additionally, isolates were identified with a duplex PCR assay (ftsX and qumA), 16S rRNA sequence, and multi-locus sequence analysis (MLSA) using rpoD and gyrB. Pathogenic isolates were identified as Xac using morphological, biochemical, molecular, and host assays. Using MLSA, Xac isolates from Oregon separated into two clades, one clade with the type strain and a second clade previously described using isolates from Europe. The phylogenetic diversity of Xac observed in other countries also is present in Oregon.

Published

2020

20. Palynomorphs from massive metamorphosed rocks in Lvchun, Yunnan, Southwest China: Evidence for the Ludlow age and its geological implications.

Author

Liu, Feng, Wang, Yi, Zhu, Huaicheng, and Ouyang, Shu

Subjects

*ARCHAEOLOGICAL geology, *TAXONOMIC logic, *ANISOGRAMMA anomala, *ACRITARCHS, *GRAPTOLITES

Abstract

A collection of low-grade metamorphosed rocks from Lvchun, Yunnan, Southwest China was found to contain a variety of highly mature microfossils comprising cryptospores, trilete spores, and dispersed plant fragments (tubular structures) as well as a small number of marine palynomorphs (acritarchs and scolecodonts). Infrared microscopic examination enabled the recognition and description of 38 species. Based on its correlation with previously established palynozonations and independent age evidence from acritarchs and graptolites, the palynomorph assemblage from Lvchun is attributed to the early Ludlow age. This new age constraint suggests that at least the upper level of these presumably Llandovery rocks in Lvchun belongs to the early Ludlow age. The palynomorph assemblage of Lvchun from Indo-China terrane shares many taxonomic similarities with coeval findings from Tunisia and Saudi Arabia (i.e., southern Gondwana), hence reflecting the early geographical proximity of the two palaeocontinents. The increasing quantity and diversity of trilete spores point to the rapid evolution of early vascular plants in Indo-China terrane during the early Ludlow. [ABSTRACT FROM AUTHOR]

Published

2016

21. Cryptospore and trilete spore assemblages from the Late Ordovician (Katian–Hirnantian) Ghelli Formation, Alborz Mountain Range, Northeastern Iran: Palaeophytogeographic and palaeoclimatic implications.

Author

Ghavidel-Syooki, Mohammad

Subjects

*ANISOGRAMMA anomala, *ORDOVICIAN paleobotany, *SILICICLASTIC rocks, *ORDOVICIAN Period

Abstract

Well-preserved miospore assemblages are recorded from the Late Ordovician (Katian–Hirnantian) Ghelli Formation in the Pelmis Gorge, located in the Alborz Mountain Range, Northeastern Iran. The palynomorphs were extracted from siliciclastic deposits that are accurately dated using marine palynomorphs (acritarchs and chitinozoans). The spore assemblages consist of 14 genera and 28 species (26 cryptospores and 2 trilete spore species). Six new cryptospore species are described: Rimosotetras punctata n.sp., Rimosotetras granulata n.sp., Dyadospora asymmetrica n.sp., Dyadospora verrucata n.sp., Segestrespora iranense n.sp., and Imperfectotriletes persianense n.sp. The study furthers knowledge of the development of the vegetative cover during the Late Ordovician. Various and abundant cryptospores in the Late Ordovician (Katian–Hirnantian) Ghelli Formation are probably related to the augmentation of land-derived sediments either during the global sea-level fall linked to the Late Ordovician glaciation or adaptation of the primitive land plants in a wide range of climatic conditions. These miospore taxa were produced by the earliest primitive land plants, which probably grew close to the shoreline and were washed in from adjacent areas, producing a high volume of miospores. The associated marine palynomorphs consist of acritarchs (13 genera and 18 species), chitinozoans (9 genera and 10 species), prasinophycean algae, scolecodonts, and graptolite remains, which are not discussed in detail herein. The established chitinozoan biozones of this part of the Palaeozoic sequence are the Armoricochitina nigerica Biozone, the Ancyrochitina merga Biozone, the Tanuchitina elongata Biozone, and the Spinachitina oulebsiri Biozone, suggesting a Late Ordovician age (Katian–Hirnantian). These chitinozoan biozones are widely evidenced only in the peri-Gondwanan Domain, indicating that the study area was part of this palaeo-continent in the Late Ordovician. [ABSTRACT FROM AUTHOR]

Published

2016

22. 'McDonald' Hazelnut.

Author

Mehlenbacher, Shawn A., Smith, David C., and McCluskey, Rebecca L.

Subjects

*HAZELNUTS, *ORIGIN of crops, *AGRICULTURE, *PLANT physiology, *PLANT patents

Abstract

The article offers information on the "McDonald" hazelnut (Corylus avellana L.) which was released by the Oregon Agricultural Experiment Station in January 2014. Topics include the origin of the hazelnut, the description of the plant, and its availability and legal protection under the U.S. Plant Patent. Several tables are also presented.

Published

2016

23. Flowering and yield of eastern filbert blight resistant hazelnut cultivars in southwestern British Columbia

Author

Thomas E. O’Dell

Subjects

0106 biological sciences, 0303 health sciences, Anisogramma anomala, Plant Science, Horticulture, Biology, biology.organism_classification, 01 natural sciences, 030308 mycology & parasitology, Filbert, 03 medical and health sciences, Yield (wine), Blight, Cultivar, Agronomy and Crop Science, 010606 plant biology & botany

Abstract

Trees of six recently released hazelnut (Corylus avellana) cultivars (Eta, Gamma, Jefferson, Sacajawea, Theta, and Yamhill) were grown at five locations in southwestern British Columbia to evaluate female receptivity and pollen shed timing, disease resistance, and nut yield. The overlap of female receptivity and pollen shed of mating-compatible cultivars equaled or exceeded that reported elsewhere. Following 4–6 yr of field growth without fungicides at sites adjoining eastern filbert blight (EFB)-infected orchards, EFB symptoms were absent from four cultivars (Eta, Gamma, Theta, Yamhill), negligible on Jefferson, and substantial on Sacajawea. Two additional potential diseases, Phomopsis sp. and Phytophthora sp., were observed on several trees at multiple farms. Yields varied by cultivar and farm, averaging 2.9 kg per tree of sixth-leaf Jefferson and 1.0 kg per tree of fourth-leaf Yamhill; the highest yield per tree observed was 9.3 kg for fifth-leaf Jefferson. These data, the first describing flowering and yield of these cultivars from operational orchards and the only such data from British Columbia, demonstrate the potential for new hazelnut cultivars even where pressure from eastern filbert blight is high. Also revealed are two potential emergent diseases for which growers need to remain vigilant.

Published

2019

24. Population Differentiation Within Anisogramma anomala in North America

Author

Joshua Honig, Ning Zhang, Bradley I. Hillman, Kaitlin M. Gold, Janine Tobia, Thomas J. Molnar, and Megan F. Muehlbauer

Subjects

0106 biological sciences, 0301 basic medicine, education.field_of_study, Genetic diversity, biology, Anisogramma anomala, Population, Dendrogram, UPGMA, Plant Science, biology.organism_classification, 01 natural sciences, Analysis of molecular variance, Filbert, 03 medical and health sciences, 030104 developmental biology, Evolutionary biology, Anomala, education, Agronomy and Crop Science, 010606 plant biology & botany

Abstract

Anisogramma anomala, a biotrophic ascomycete in the order Diaporthales, causes eastern filbert blight (EFB) of hazelnuts (Corylus spp.). Until recently, little has been documented on its genetic diversity and population structure. In this study, 18 simple sequence repeat markers were used to fingerprint 182 accessions of the fungus originating from across North America. Our results, based on summary statistics of the allelic data, a discriminant analysis of principal components (DAPC) scatterplot, an unweighted pair group method with arithmetic mean (UPGMA) dendrogram, and analysis of multilocus genotypes, show that A. anomala exhibits considerable genetic diversity across multiple populations. Eleven clusters were resolved from the DAPC scatterplot, five of which were validated by statistically supported clusters in the UPGMA dendrogram. The 11 DAPC clusters were statistically significant via an analysis of molecular variance. Dendrogram topology and DAPC scatterplot groups showed some correlation with collection origin; samples collected in proximity tended to cluster together and be genetically similar. However, some locations held populations that were diverse and some populations with a high degree of similarity had disparate origins, suggesting movement by humans. Overall, the results demonstrate the presence of multiple, genetically distinct populations of A. anomala in North America and serve as a reference to assist in understanding and managing EFB.

Published

2019

25. Sources of resistance to eastern filbert blight in hazelnuts from the Republic of Georgia.

Author

Leadbetter, Clayton W., Capik, John M., Pisetta, Michele, and Molnar, Thomas J.

Subjects

*HAZELNUTS, *EASTERN filbert blight, *ENDEMIC diseases, *DISEASE resistance of plants, *SYMPTOMS

Abstract

In North America, the native hazelnut Corylus americana harbors an endemic fungus, Anisogramma anomala , which causes the disease eastern filbert blight (EFB). Although C. americana is tolerant of EFB, the economically important European hazelnut, C. avellana , is highly susceptible to the disease. This susceptibility greatly limits commercial European hazelnut production in North America. The breeding and subsequent utilization of resistant plants are considered the most effective means of control and efforts are underway to identify diverse sources of genetic resistance. In this study, 1374 C. avellana seedlings, spanning 47 seed lots collected in the Republic of Georgia and 3 in Azerbaijan, were inoculated with the EFB pathogen and evaluated for disease response in New Jersey, USA. After 5 years, plant responses were rated on a scale of 0–5, in which 0 represents no signs or symptoms of EFB and 5 represents all stems showing cankers. Cankers were found on over 94% of the seedlings, with the large majority being highly susceptible (91.4% = rating 4 and 5). However, 79 plants from 34 seed lots remained free of signs or symptoms of EFB (rating 0). In most cases, only one or two resistant seedlings were in each of these seed lots, making it difficult to infer any genetic control of resistance. In contrast, seed lots from ‘Gulshishvela’ and ‘Kharistvala’ yielded significant numbers of resistant plants, which may indicate that dominant genes for resistance are present. Overall, these new plants will add to the genetic resources available for breeding new EFB-resistant cultivars. [ABSTRACT FROM AUTHOR]

Published

2015

26. Disease Incidence and Ascospore Dispersal from Cut Hazelnut Branches Colonized by Anisogramma anomala.

Author

Heckert, S., Pscheidt, J. W., and Cluskey, S. A.

Subjects

*HAZELNUTS, *DISEASE incidence, *ANISOGRAMMA anomala, *PRUNING, *BOTANY

Abstract

Hazelnut branches bearing stromata of Anisogramma anomala cut in December (2009 and 2010) were compared with branches cut prior to bud break in March to investigate these sources of inoculum. Branches were placed into brush piles (sources). Spore traps and potted hazelnut trees were placed adjacent to each source, 6.4 m upwind and downwind, and 20 m downwind from each source. Significantly more ascospores were detected near sources of branches cut in March compared with December in 2010 however, no differences were detected between pruning treatments in 2011. Ascospore viability, as assessed by trypan blue stain, averaged 50% for both pruning times each season. Significantly more ascospores were detected 6.4 m downwind compared with 6.4 m upwind or 20 m downwind of a source both years. All potted trees exposed to branches from both pruning treatments within sources became diseased both years. The proportion of potted trees that became infected was greater for the downwind group than the upwind for both years, suggesting that ascospores were dispersed beyond the rain splash dispersal range of sources. Ascospores from diseased branches pruned in December or March remained viable, infectious and were dispersed at least 20 m downwind. [ABSTRACT FROM AUTHOR]

Published

2014

27. Wepster' Hazelnut.

Author

Mehlenbachert, Shawn A., Smith, David C., and McCluskey, Rebecca L.

Subjects

*FAMILIES, *HAZELNUTS, *HAZELNUT industry, *BREEDING, *COLLEGE teachers

Abstract

The article offers information on the characteristics of 'Wepster' which is a new hazelnut cultivar for the blanched kemel market. It discusses contributions of the Wepster family to the Oregon hazelnut industry and the Oregon State University (OSU) hazelnut breeding program. It also talks about creation of an endowed professorship at the OSU Foundation to support the breeding program.

Published

2014

28. Using genotyping-by-sequencing derived SNPs to examine the genetic structure and identify a core set of Corylus americana germplasm

Author

Sarah T. Lovell, John M. Capik, Ronald S. Revord, Thomas J. Molnar, and Patrick J. Brown

Subjects

0106 biological sciences, 0301 basic medicine, Germplasm, Genetic diversity, biology, Anisogramma anomala, American hazelnut, Dendrogram, Forestry, Horticulture, biology.organism_classification, 01 natural sciences, Filbert, 03 medical and health sciences, 030104 developmental biology, Evolutionary biology, Genetic variation, Genetic structure, Genetics, Molecular Biology, 010606 plant biology & botany

Abstract

The American hazelnut (Corylus americana) is native to a broad range of the eastern United States and southern Canada. It is the endemic host of the fungus Anisogramma anomala, which causes eastern filbert blight (EFB) disease and limits European hazelnut (C. avellana) production in eastern North America. While C. americana has thick-shelled, tiny nuts not suited for commercial production, it is cold hardy, highly tolerant of EFB, and phenotypically diverse. Previous studies with simple sequence repeat markers show that it is also genetically diverse. Further, the species is cross-compatible with C. avellana and is thus a valuable donor of EFB resistance and climate adaptability traits. However, only a narrow set of C. americana parents has been used in interspecific hybridizations, and current germplasm availability likely does not fully represent the species’ genetic diversity, given its vast range. A new collection of open-pollinated C. americana seed was assembled at Rutgers University to broaden available genetic resources. Here, we study the genetic diversity and population structure of 272 of these individuals, which represent 55 seedlots from across 15 states of the species’ native range. We use multivariate analyses to examine the distribution of genetic variation within the collection and to support the identification of a core set. A genotyping-by-sequencing (GBS) approach yielded 2653 single nucleotide polymorphisms and subsequent analyses revealed a collection with high estimates of heterozygosity (HE = 0.276, HO = 0.280), moderate differentiation (FST = 0.108) and low inbreeding (FIS = −0.136). Bayesian model-based and neighbor-joining (NJ) clustering corroborate an uppermost grouping of K = 3, with the NJ dendrogram depicting many small subgroups equally distant from common ancestry. Discriminant analysis of principal components (DAPC) reveals between-subgroup variation (K = 15) within the NJ dendrogram and allows the identification of 19 consensus subgroups. In general, our results support the assembly of a genetically diverse collection where a majority of the variation is explained at the genotype and subgroup levels, which aligns with previous studies of C. americana. Fifty-one accessions were identified that represent 95% of the observed allelic variation. These genotypes are suggested for inclusion in a core collection, which, when coupled to concurrent phenotypic evaluations, will aid in genetic resource assembly that preserves unique phenotypes and retains genetic variation.

Published

2020

29. Hazelnut (Corylus spp.) Breeding

Author

Roberto Botta, V. Erdogan, Nadia Valentini, Thomas J. Molnar, Shawn A. Mehlenbacher, and Daniela Torello Marinoni

Subjects

Germplasm, Breeding · Climatic adaptation · Disease resistance · Genetic diversity · Linkage map · Marker-assisted selection · Nut quality, Genetic diversity, biology, Anisogramma anomala, business.industry, food and beverages, Marker-assisted selection, Plant disease resistance, biology.organism_classification, Biotechnology, Filbert, Corylus heterophylla, Blight, business

Abstract

Hazelnut is an economically important tree nut whose production is mostly destined to the confectionery industry with a demand that currently exceeds supply. Its cultivation remains substantially based on named selections from local, wild vegetation. Public breeding programs were not initiated until the 1960s and only two, both in the USA, are in operation today that are relatively large. Oregon State University has produced new cultivars with Gasaway resistance to the fungus Anisogramma anomala, causal agent of eastern filbert blight (EFB), a major disease in North America; these cultivars are being widely planted. In China, cold-hardy hybrid cultivars from Corylus heterophylla and C. avellana were recently released and are planted in northeastern China. In the past 25 years, molecular markers have facilitated a much better understanding of genetic diversity in the genus Corylus, aided the construction of linkage maps and allowed for marker-assisted selection for disease resistance. The genome of C. avellana was sequenced and assembled, and DNA markers identified from the transcriptome, providing the basis for the isolation of important genes, including those related to nut quality and adaptive and phenological traits. Many new genotypes expressing eastern filbert blight (EFB) resistance have been identified in the germplasm, and subsequent linked DNA markers developed, allowing new approaches to breeding for durable resistance. Micropropagation is routinely used in the USA, Chile and Italy for multiplication, but work with other in vitro techniques is less advanced. Genetic engineering has not been developed in hazelnut due to regeneration difficulties from somatic tissues but recent advances have established a protocol for organogenesis. More research is being carried out to assemble a high-quality hazelnut genome and achieve somatic embryogenesis. The results from this research will provide knowledge and tools enabling the isolation of genes and molecular markers, and the application of genome editing techniques to hazelnut.

Published

2020

30. Corylus americana: a valuable genetic resource for developing hazelnuts adapted to the eastern United States

Author

Sarah Taylor Lovell, A. Mayberry, Josh A. Honig, Thomas J. Molnar, Shawn A. Mehlenbacher, John M. Capik, and Ronald S. Revord

Subjects

0106 biological sciences, Germplasm, Genetic diversity, Anisogramma anomala, Phenology, fungi, food and beverages, 04 agricultural and veterinary sciences, Horticulture, Biology, biology.organism_classification, 01 natural sciences, Filbert, Agronomy, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Blight, Cultivar, Hardiness (plants), 010606 plant biology & botany

Abstract

Corylus americana is native to a wide area of land in eastern North America, bounded by the Rocky Mountains in the west and the Atlantic Ocean in the east, and ranging from southern Canada to the southeastern US. The species has been shown to be highly genetically diverse and is adapted to a variety of climates and soils. It is also resistant to the disease eastern filbert blight (EFB) caused by the fungus Anisogramma anomala. Unfortunately, C. americana has thick-shelled, tiny nuts that make it unsuitable for commercial production. However, it is cross-compatible with the commercial hazelnut C. avellana and can serve as a donor for genes for disease resistance, early nut maturity, cold tolerance, etc. As part of the Hybrid Hazelnut Consortium consisting of Rutgers University, Oregon State University, the University of Nebraska-Lincoln, and the Arbor Day Foundation, we have been successfully collecting C. americana germplasm since 2009 with the help of partners, colleagues, and the interested public around the USA. Today, we have a planting established in the field at Rutgers University in New Jersey that holds 1,899 seedlings obtained from 128 individual seed lots that span 23 states and one Canadian province. These bushes are being evaluated for EFB response, other diseases and insects, flowering and vegetative bud break phenology, cold hardiness, nut yield, and nut and kernel characteristics. The genetic diversity and population structure of the new collection is also being evaluated using several approaches, including genotyping by sequencing and subsequent SNP analysis, SSR allelic variation, and chloroplast haplotype determination across the large population. Using this multi-faceted approach, we hope that superior, diverse selections can be identified for use in systematic breeding efforts to develop new cultivars adapted to the eastern USA, especially in respect to consistent cropping in regions with highly variable year-to-year climates.

Published

2018

31. Progress breeding for resistance to eastern filbert blight in the eastern United States

Author

M. F. Muehlbauer, Joshua Honig, J. J. Lombardoni, John M. Capik, Shawn A. Mehlenbacher, and T. J. Molnar

Subjects

0106 biological sciences, Germplasm, Breeding program, Resistance (ecology), Anisogramma anomala, 04 agricultural and veterinary sciences, Horticulture, Biology, Plant disease resistance, biology.organism_classification, 01 natural sciences, Filbert, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Blight, Cultivar, 010606 plant biology & botany

Abstract

Eastern filbert blight (EFB) is a hazelnut disease caused by Anisogramma anomala, a fungus endemic to North America where it can be found associated with the wild hazelnut Corylus americana. While C. americana is resistant to EFB, the commercial hazelnut C. avellana is highly susceptible and typically dies within 5 years from exposure. A hazelnut breeding program was initiated in 1996 at Rutgers University in New Brunswick, New Jersey. The early objective was to identify sources of resistance to EFB for use in breeding regionally adapted, EFB-resistant plants to support the establishment of a hazelnut industry in eastern USA. By working with Oregon State University (OSU) and international colleagues, germplasm collections were made in Russia, Ukraine, Poland, Georgia, Latvia, Lithuania, Estonia, Italy, and Turkey. Over 5,000 seedlings were grown and evaluated for response to EFB. While most plants succumbed to EFB, about three percent were found to be resistant. Interestingly, the resistant plants spanned nearly all collection locations and molecular markers have shown them to be highly diverse. Today, we have access to over 100 EFB-resistant accessions selected from more than 60 locations, which represents a significant pool of germplasm to support breeding. Recent studies have shown that most resistance seems to be controlled by only one or a few major genes; R-gene mapping projects are underway at Rutgers as well as Oregon State University. We continue to study new sources of resistance for use in a focused cultivar improvement program.

Published

2018

32. Assessment of the ‘Gasaway’ source of resistance to eastern filbert blight in New Jersey

Author

Thomas J. Molnar, Shawn A. Mehlenbacher, Megan F. Muehlbauer, and John M. Capik

Subjects

0106 biological sciences, 0301 basic medicine, biology, Resistance (ecology), Anisogramma anomala, food and beverages, Horticulture, biology.organism_classification, 01 natural sciences, Filbert, 03 medical and health sciences, symbols.namesake, 030104 developmental biology, Pollenizer, Seedling, Mendelian inheritance, symbols, Blight, Cultivar, 010606 plant biology & botany

Abstract

The disease eastern filbert blight (EFB), caused by Anisogramma anomala, severely limits hazelnut (Corylus avellana) production in North America. In the 1970s, ‘Gasaway’, a late-flowering pollenizer, was found to be resistant to EFB in the Pacific northwestern U.S., and to transmit its resistance in a predictable Mendelian pattern. Its subsequent use in breeding at Oregon State University led to the release of a number of EFB-resistant cultivars, including Jefferson, Yamhill, Dorris, Wepster, and McDonald, which are now being widely planted across the Willamette Valley of Oregon. However, some cultivars carrying the ‘Gasaway’ R-gene develop EFB in New Jersey. Thus, the utility of this resistance source for breeding plants adapted to the eastern U.S has not been fully evaluated. In this study, we examined the EFB response of seedlings from 31 different full-sib progenies expected to segregate for the ‘Gasaway’ R-gene. Trees were exposed to the disease over at least 5 years and evaluated on a scale of 0 to 5 (0 = resistant, 5 = highly susceptible). In general, we found the number of seedlings free of EFB (class 0) to be less than expected based on prior work in Oregon, but resistant individuals were identified in each progeny, indicating the presence of heritable resistance. When disease response classes 0, 1, and 2 were combined (resistant through highly tolerant) and considered as “resistant”, the expected ratio of resistant to susceptible trees was recovered, signifying that the single dominant allele alone continues to provide a predictable level of at least tolerance. Modifying genes/factors appear to play a role in the final disease response of the individual seedling. It is thus hypothesized that some cultivars selected as resistant in Oregon that develop cankers in New Jersey may lack the necessary modifying genetic factors for full protection in the east. Until these modifying genes are elucidated, long-term field evaluation remains necessary to identify selections that carry the ‘Gasaway’ R-gene and express a high level of resistance to EFB in the eastern U.S.

Published

2018

33. Tank Mixing Fungicides for Effectiveness Against Eastern Filbert Blight of Hazelnut

Author

S. A. Cluskey, Jay W. Pscheidt, and Stephanie Heckert

Subjects

0106 biological sciences, 0301 basic medicine, biology, Chlorothalonil, Anisogramma anomala, Sowing, Plant Science, biology.organism_classification, 01 natural sciences, Fungicides, Industrial, Fungicide, Propiconazole, Filbert, 03 medical and health sciences, chemistry.chemical_compound, Horticulture, Corylus, 030104 developmental biology, Ascomycota, chemistry, Blight, Cultivar, Agronomy and Crop Science, Plant Diseases, 010606 plant biology & botany

Abstract

Hazelnut (Corylus avellana) production in Oregon primarily occurs on cultivars susceptible to Anisogramma anomala, the causal agent of eastern filbert blight (EFB). Management of EFB involves planting resistant cultivars, removal of cankered limbs, and the application of fungicides. Tank mixes of demethylation-inhibiting (DMI; Fungicide Resistance Action Committee [FRAC] group 3) or quinone outside inhibitor (QoI; FRAC group 11) fungicides with chlorothalonil (FRAC group M5) at full or reduced rates were evaluated for effectiveness against A. anomala. The use of chlorothalonil in a mix with a DMI or QoI fungicide was an effective treatment for EFB even if each component of the mix was at half the labeled rate. Different liquid or dry formulations of chlorothalonil were equally effective in a tank mix for EFB control. The combination of propiconazole (FRAC group 3) tank mixed with trifloxystrobin (FRAC group 11) was not effective, whereas trees treated with propiconazole tank mixed with pyraclostrobin (FRAC group 11) resulted in significantly fewer EFB cankers compared with nontreated trees. When using tank mixes for EFB management, DMI fungicides should remain at full rates while mixing with a half-rate of chlorothalonil. In contrast, QoI fungicides and chlorothalonil could both be used at half-rates and still maintain acceptable EFB control. Tank mixing chlorothalonil with fungicides at risk of resistance development can help maintain consistent EFB control and should help prevent or delay the emergence of fungicide-resistant A. anomala isolates.

Published

2018

34. Eastern Filbert Blight Resistance in Hazelnut Accessions 'Culplà', 'Crvenje', and OSU 495.072.

Author

Colburn, Brooke C., Mehlenbacher, Shawn A., Sathuvalli, Vidyasagar R., and Smith, David C.

Subjects

*HAZEL, *EASTERN filbert blight, *ANISOGRAMMA, *NATURAL immunity, *MICROSATELLITE repeats

Abstract

European hazelnut (Corylus avellana L.) is a significant crop in Oregon, where 99% of United States hazelnuts are produced. Eastern filbert blight (EFB) caused by Anisogramma anómala (Peck) E. Müller is an important disease that infects the trees, reduces yield, and causes premature death. Managing the disease through cultural methods and fungicide applications is laborious and expensive, and genetic host resistance is considered the most viable option for control. Genetic resistance from 'Gasaway' has been used to develop resistant cultivars including Yamhill and Jefferson, but concern about the durability of this single resistance gene stimulated a search for additional sources of resistance. This study used three recently identified sources of EFB resistance: 'Culplà' from Spain, 'Crvenje' from Serbia, and OSU 495.072 from southern Russia. RAPD markers linked to resistance from 'Gasaway' were absent in all three accessions. Disease response was noted in segregating progenies following greenhouse or structure inoculation, and the resistance loci were mapped using microsatellite markers. In only four of the nine progenies did segregation for disease response fit the ratio of 1 resistant: 1 susceptible expected for a single locus, a heterozygous resistant parent, and a dominant allele for resistance. Three progenies showed an excess of resistant seedlings while two showed a deficiency of resistant seedlings. The reciprocal translocations reported in several leading hazelnut cultivars may be present in the parents of the studied progenies, and affecting the segregation ratios. Microsatellite marker A614, previously mapped to linkage group (LG) 6, was closely linked to resistance from all three sources. Maps were constructed for LG6 for each resistant parent using microsatellite markers. The three resistance loci mapped to the same region on LG6 where resistance from 'Gasaway' and OSU 408.040 are located. The resistance alleles in all five accessions may be the same, or more likely are a cluster of different resistance genes in the same region. Markers LG628, LG610, and LG696 will be useful to breed new hazelnut cultivars with resistance from Culplà, Crvenje, and OSU 495.072. [ABSTRACT FROM AUTHOR]

Published

2015

35. De novo sequencing of hazelnut bacterial artificial chromosomes (BACs) using multiplex Illumina sequencing and targeted marker development for eastern filbert blight resistance.

Author

Sathuvalli, Vidyasagar and Mehlenbacher, Shawn

Subjects

BACTERIAL artificial chromosomes, PYRENOMYCETES, HAZELNUTS, EASTERN filbert blight, HEREDITY

Abstract

Bacterial artificial chromosome (BAC) libraries are widely used in map-based cloning of plant genes. Eastern filbert blight (EFB), caused by the pyrenomycete Anisogramma anomala (Peck) E. Müller, is a devastating disease of European hazelnut ( Corylus avellana L.) in the Pacific Northwest. A dominant allele at a single locus from the obsolete pollenizer 'Gasaway' confers complete resistance. Our map-based cloning efforts use a BAC library for 'Jefferson' hazelnut, which is heterozygous for resistance. Screening the library with primer pairs designed from RAPD markers closely linked to the EFB resistance locus identified 38 BACs. We sequenced 28 of these BACs using Illumina technology, by multiplexing with barcoded adapters. De novo sequence assembly using the programs Velvet and SOPRA and further alignment using CodonCode Aligner generated contigs whose length ranged from 393 to 108,194 bp. The number of contigs per BAC ranged from 1 to 19, and estimated coverage of assembled BACs ranged from 64 % to 100 %. Preliminary analysis of the sequences identified 779 simple sequence repeats (SSRs), from which we developed 23 markers. Of these, 17 were assigned to linkage group 6 adjacent to the disease resistance locus, five were placed on other linkage groups, and one could not be assigned to a linkage group. The BAC sequences and new SSR markers will be useful for our efforts at map-based cloning of the disease resistance gene. [ABSTRACT FROM AUTHOR]

Published

2013

36. 'Dorris' Hazelnut.

Author

Mehlenbacher, Shawn A., Smith, David C., and McCluskey, Rebecca L.

Subjects

*HAZELNUTS, *HAZEL, *CULTIVARS

Abstract

The article features the Dorris hazelnut, Corylus avellana L. cultivar which was released by the Oregon Agricultural Experiment Station in February 2011. The plant breed was tested at the Oregon State University (OSU) from a cross breed with the Delta cultivar by Shawn A. Mehlenbacher and David C. Smith in 1997. Dorris was compared with other hazelnut varieties based on nut yields, trunk cross-sectional area, yield efficiency and bud mite ratings.

Published

2013

37. A Real-Time PCR Assay for Early Detection of Eastern Filbert Blight.

Author

Molnar, Thomas J., Walsh, Emily, Capik, John M., Sathuvalli, Vidyasagar, Mehlenbacher, Shawn A., Rossman, Amy Y., and Ning Zhang

Subjects

*POLYMERASE chain reaction, *BIOLOGICAL assay, *EASTERN filbert blight, *HAZEL, *MICROORGANISMS, *ANISOGRAMMA anomala

Abstract

Eastern filbert blight (EFB) is a devastating disease of European hazelnut, Corylus avellana, which causes economic losses in Oregon, where 99% of the U.S. crop is produced. The causal fungus, Anisogramma anomala, is native to eastern North America, where it is found associated with the American hazelnut (C. americana). Although C. americana is tolerant, EFB causes cankers, branch dieback, and death of C. avellana. Detection and identification of A. anomala is time consuming using conventional methods because the fungus can only be cultured from sporulating perithecia and the disease symptoms and signs only show 12 to 16 months after infection. In this study, a TaqMan real-time polymerase chain reaction (PCR) assay based on a ribosomal DNA internal transcribed spacer was developed for A. anomala. The assay was validated with multiple isolates of A. anomala, closely related species, common environmental microorganisms, and over 100 C. avellana samples. The real-time PCR assay detected as low as 0.12 pg of A. anomala genomic DNA, and positively diagnosed EFB on 82% of asymptomatic plants as early as 15 weeks from infection. The real-time PCR assay is more sensitive and faster than traditional diagnostic methods. It can facilitate hazelnut breeding and disease management by early and accurate diagnosis of EFB. [ABSTRACT FROM AUTHOR]

Published

2013

38. Eastern Filbert Blight-resistant Hazelnuts from Russia, Ukraine, and Poland.

Author

Capik, John M., Muehlbauer, Megan, Novy, Ari, Honig, Josh A., and Molnar, Thomas J.

Subjects

*EASTERN filbert blight, *HAZELNUTS, *FUNGAL diseases of plants, *BLIGHT diseases (Botany), *DISEASE resistance of plants, HAZEL diseases & pests

Abstract

Stable genetic resistance to the fungal disease eastern filbert blight (EFB), caused by Anisogramma anomala, is vital for sustainable production of European hazelnut (Corylus avellana) in eastern North America. In this study, new hazelnut germplasm from the Russian Federation, Ukraine, and Poland (a total of 1844 trees from 66 seed lots) was subjected to A. anomala under field conditions over at least five years in New Jersey. Plants were then rated for the presence of EFB using an index of 0 (no disease) through 5 (all stems containing cankers). Nuts of the resistant trees were evaluated to identify plants with improved kernel characteristics. Genomic DNA of these trees was also screened with sequence-characterized amplified region (SCAR) markers generated by the primers BE-03, BE-33, and BE-68, which are closely linked to the single dominant R-gene of 'Gasaway', to assess the resistant seedlings for the presence of this well-known source of resistance. At final evaluation, 76 trees remained free of disease with nine expressing only minor symptoms (rating I or 2). The resistant trees spanned 24 different seed lots representing all three countries. The remaining trees ranged from moderately to severely infected with 81% of the total collection rating 5. Several of the resistant trees were found to produce commercial-sized (≈12 mm diameter), round kernels that blanched well. Although the results of the 'Gasaway' SCAR primers were inconclusive, the diverse collection origins and disease phenotypes provide evidence that novel sources of resistance were likely identified in this study. These new plants should broaden the genetic base of EFB-resistant C. avellana hazelnut germplasm available for breeding. [ABSTRACT FROM AUTHOR]

Published

2013

39. Eastern Filbert Blight Susceptibility of American X European Hazelnut Progenies.

Author

Molnar, Thomas J. and Capik, John M.

Subjects

*HAZEL, *EASTERN filbert blight, *ANISOGRAMMA anomala, *PLANT genetics, *PROGENY tests (Botany)

Abstract

Eastern filbert blight (EFB), caused by Anisogramma anomala, is a devastating disease of Corylus avellana, the European hazelnut of commerce, and is considered the primary limiting factor of production in eastern North America. Conversely, C. americana, the wild American hazelnut, is generally highly tolerant of EFB, although it lacks many horticultural attributes necessary for commercial nut production. Hybrids of C. americana and C. avellana combine the EFB resistance of the wild species with the improved nut quality of the European species. However, inheritance of EFB resistance from C. americana remains unclear with existing hybrids derived from a very limited selection of parents. To investigate this topic, C. americana and advanced-generation C. americana x C. avellana hybrids were crossed with susceptible C. avellana and the resulting seedlings exposed to EFB through field inoculations and natural disease spread. In the winter after their fifth growing season, plants were rated for the presence of EFB using an index of 0 (no disease) through 5 (all stems containing cankers). The three progeny related to C. americana 'Rush' segregated for resistance in a ratio of one resistant to one susceptible, suggesting the presence of a single dominant R gene. A wide array of disease responses was observed for the other progenies with some expressing little EFB resistance or tolerance and others showing a distribution of disease phenotypes typical of control by multiple genes. Overall, the results indicate that both qualitative and quantitative resistance is present in C. americana. They also suggest that the choice of C. americana parent as well as the C. avellana parent will play a significant role in obtaining useful levels of EFB resistance in hybrid offspring, although the degree of disease expression in the parents may not be a useful predictor of progeny performance. Thus, more research is needed to understand inheritance of resistance, especially in advanced-generation backcrosses to susceptible C. avellana. [ABSTRACT FROM AUTHOR]

Published

2012

40. Identification and Mapping of DNA Markers Linked to Eastern Filbert Blight Resistance from OSU 408.040 Hazelnut.

Author

Sathuvalli, Vidyasagar R., Mehlenbacher, Shawn A., and Smith, David C.

Subjects

*EASTERN filbert blight, *ANISOGRAMMA anomala, *PLANT breeding, HAZEL diseases & pests

Abstract

Eastern filbert blight (EFB) of European hazelnut (Corylus avellana L.), caused by the pyrenomycete Anisogramma anomala (Peck) E. Müller, is a majpr disease problem and production constraint in Oregon's Willamette Valley. Host genetic resistance is viewed as the most economical means of controlling this disease. Marker-assisted selection has been extensively used for 'Gasaway' resistance in the hazelnut breeding program at Oregon State University (OSU). Concern over potential breakdown of this single resistance gene prompted a search for new sources of resistance. Selection OSU 408.040 showed no signs or symptoms of the fungus after a series of disease inoculations, and resistance was transmitted to half of its offspring, indicating control by a dominant allele at a single locus. In this study, we identified six random amplified polymorphic DNA (RAPD) and 11 simple sequence repeat (SSR) markers linked to EFB resistance from OSU 408.040. The new markers supplement the previously identified amplified fragment length polymorphism (AFLP) markers. A linkage map constructed in the progeny OSU 245.098 x OSU 408.040 spanned a distance of 19.5 cM with the resistance locus cosegragating with AFLP marker A8-150 and located between SSR markers LG675 and LG682. Using SSR markers as anchor loci, OSU 408.040 resistance was assigned to linkage group 6 (LG6). Comparison with the previously mapped 'Gasaway' resistance locus showed that resistance from OSU 408.040 maps to the same location. [ABSTRACT FROM AUTHOR]

Published

2012

41. A bacterial artificial chromosome library for 'Jefferson' hazelnut and identification of clones associated with eastern filbert blight resistance and pollen-stigma incompatibility.

Author

Sathuvalli, Vidyasagar R., Mehlenbacher, Shawn A., and Belzile, F.

Subjects

*BACTERIAL artificial chromosomes, *HAZELNUTS, *PLANT clones, *EASTERN filbert blight, *AGROBACTERIUM, *DISEASE resistance of plants

Abstract

European hazelnut ( Corylus avellana L.) is the only economically important nut crop in the family Betulaceae. Because of its small genome size (~385 Mb / 1C), relatively short life cycle, availability of a dense linkage map, and amenability to transformation by Agrobacterium, the European hazelnut could serve as a model plant for the Betulaceae. Here we report the construction of a bacterial artificial chromosome (BAC) library for 'Jefferson' hazelnut using the cloning enzyme MboI and the vector pECBAC1 ( BamHI site). The library consists of 39 936 clones arrayed in 104 384-well microtitre plates with a mean insert size of 117 kb. The genomic coverage of the library is estimated to be about 12 genome equivalents. This library provides a valuable resource for the map-based cloning of two important genes, the resistance gene from 'Gasaway' that confers resistance to eastern filbert blight caused by the fungus Anisogramma anomala (Peck) E. Müller and the S locus that controls pollen-stigma incompatibility. Fine-resolution mapping near the two loci was carried out using random amplified polymorphic DNA (RAPD) and simple sequence repeat (SSR) markers. Fine mapping at the disease resistance locus showed that markers W07-375 and X01-825 flanked the resistance locus at distances of 0.06 and 0.05 cM, respectively. The S locus is flanked by markers 204-950 and KG819-200 at distances of 0.14 and 0.24 cM, respectively. Assuming that 1 cM corresponds to a physical distance of 430 kb, it will take approximately two to three chromosome walks to assemble BAC contigs that span both loci. [ABSTRACT FROM AUTHOR]

Published

2011

42. DNA markers linked to eastern filbert blight resistance in 'Ratoli' hazelnut ( Corylus avellana L.).

Author

Sathuvalli, V., Chen, H., Mehlenbacher, S., and Smith, D.

Abstract

Eastern filbert blight (EFB), caused by the pyrenomycete Anisogramma anomala (Peck) E. Müller, is a major disease problem and production constraint in orchards of European hazelnut ( Corylus avellana L.) in Oregon's Willamette Valley. Host genetic resistance is viewed as the most economical means of controlling this disease. A dominant resistance gene from 'Gasaway' has been used extensively in the hazelnut breeding program at Oregon State University, but concern about the durability of a single resistance gene stimulated a search for new sources of resistance. 'Ratoli,' a minor cultivar from Spain, showed no signs or symptoms of the fungus following a series of inoculations. The objective of this study was to study segregation for disease response in two progenies from crosses of Ratoli with susceptible selections and identify linked DNA markers. About half of the seedlings were resistant, suggesting control by a dominant allele at a single locus. A total of 900 random amplified polymorphic DNA (RAPD) primers and 64 amplified fragment length polymorphism (AFLP) primer combinations were screened. Four RAPD markers and two ALFP markers were identified and a linkage map constructed. On this map, disease resistance was flanked by AFLP marker C4-255 and RAPD marker G17-800 at distances of 0.4 cM and 2.8 cM, respectively. Based on co-segregation with SSR markers, Ratoli resistance was assigned to linkage group 7 while Gasaway resistance is on linkage group 6. Ratoli provides a novel source of EFB resistance, and robust RAPD marker G17-800 is useful for marker-assisted selection. [ABSTRACT FROM AUTHOR]

Published

2011

43. 'Tonda Pacifica' Hazelnut.

Author

Mehlenbacher, Shawn A., Smith, David C., McCluskey, Rebecca L., and Thompson, Maxine M.

Subjects

*HAZELNUTS, *CORYLUS, *HAZEL, *TREE physiology, NUT varieties

Abstract

The article focuses on the species Tonda Pacifica hazelnut, Corylus avellana L., cultivar for the kernel market. It discusses its origin, the tree size and shape and nut yields in comparison with other hazelnut cultivars. It also presents the licensing agreement with Viveros Nefuen in Hijuelas, Chile for the propagation and sale of trees of Tonda Pacifica.

Published

2011

44. Response of Hazelnut Accessions to Greenhouse Inoculation with Anisogramma anomala.

Author

Sathuvalli, Vidyasagar R., Mehlenbacher, Shawn A., and Smith, David C.

Subjects

*HAZELNUTS, *ANISOGRAMMA anomala, *GREENHOUSE plants, *PYRENOMYCETES, *PLANT breeding

Abstract

Eastern filbert blight (EFB), caused by the pyrenomycete Anisogramma anomala (Peck) E. Müller, is a devastating disease of European hazelnut (Corylus avellana L.) in the Pacific Northwest. Host genetic resistance from 'Gasaway' has been used extensively for breeding hazelnuts at Oregon State University. Concern over the durability of this single-gene resistance prompted a search for new sources of resistance. In this study, 86 accessions from 11 countries were evaluated for their response to greenhouse inoculation with the pathogen. Nine accessions showed complete resistance, including one from Chile ('Amarillo Tardio'), two from Serbia ('Crvenje' and 'Uebov'), one from southern Russia (OSU 495.072) and five from Moscow, Russia. These new sources of EFB resistance have geographically diverse origins and will broaden the genetic base of EFB-resistant hazelnut germplasm. The previously reported resistance of 'Grand Traverse' from Michigan and the susceptibility of 'Closca Molla' from Spain were confirmed. [ABSTRACT FROM AUTHOR]

Published

2010

45. Survey of Corylus Resistance to Anisogramma anomala from Different Geographic Locations.

Author

Molnar, Thomas J., Goffreda, Joseph C., and Funk, C. Reed

Subjects

*ANISOGRAMMA anomala, *HAZELNUTS, *PLANT diseases, *PLANT genetics, *PLANT-fungus relationships

Abstract

Anisogramma anomala (Peck) E. Müller is the causal agent of the disease eastern filbert blight (EFB) of hazelnuts (Corylus spp.). Little is known of its genetic diversity and pathogenic variation. Most sources of host resistance have been identified in the Pacific Northwest, a region outside the native range of A. anomala believed to have limited diversity of the fungus due to a long history of quarantine and its relatively recent inadvertent introduction. In an attempt to investigate the pathogenic variation of A. anomala, 12 hazelnut genotypes that showed complete resistance in Oregon were inoculated with 12 isolates collected from across its native range. At the conclusion of the study, 'Grand Traverse,' 'Ratoli', OSU 541.147, OSU 495.072, and OSU 526.041 remained free of disease. 'Closca Molla', OSU 759.007, and OSU 587.044 were infected by most isolates. 'Gasaway' was infected by the Michigan isolate, which was also the only one to infect its offspring 'Zimmerman', although the lesion lacked sporulating stromata. Interestingly, 'VR20-11', another offspring of 'Gasaway', was infected by isolates from New Jersey, Minnesota, and Michigan. The Michigan isolate also caused the only signs of infection on OSU 408.040. [ABSTRACT FROM AUTHOR]

Published

2010

46. PM 7/90(1): Anisogramma anomala.

Subjects

*ANISOGRAMMA anomala, *CANKER (Plant disease), *FUNGAL diseases of plants, *PLANT diseases, *PLANT protection research, *DIAGNOSIS

Abstract

Specific scope This standard describes diagnostic protocols for Anisogramma anomala 1 . Specific approval and amendment Approved in 2009-09. [ABSTRACT FROM AUTHOR]

Published

2009

47. Hazelnut Accessions Provide New Sources of Resistance to Eastern Filbert Blight.

Author

Chen, Honglin, Mehlenbacher, Shawn A., and Smith, David C.

Subjects

*HAZELNUTS, *GREENHOUSES, *INOCULATION of crops, *CORYLUS, *HAZEL, *POLLINATORS, *CALIFORNIA hazelnut

Abstract

A diverse collection of 58 hazelnut accessions, including Corylus aveilana L. and interspecific hybrids, were evaluated for their response to the eastern filbert blight pathogen Anisogramma anomala (Peck) E. Müller after greenhouse inoculation. Evaluations were made using enzyme-linked immunosorbent assay and visual inspection. Forty-five of these became infected, 12 remained free of infection, and one gave inconclusive results. The 12 accessions showing complete resistance were European hazelnuts 'Culpla' from Spain and CCOR 187 from Finland; C. americana x C. avellana hybrids 'G081S', CCOR 506, and Weschcke selections TPI, TP2 and TP3; C. colurna x C. avellana hybrids Chinese Trazels Geilatly #6 and #11; Turkish Trazel Gellatly #3 and backcross hybrid 'Lisa'; and C. heterophylla var. sutchuensis x C. avellana hybrid 'Estrella #1'. In a second test, exposure of potted trees under structures topped with diseased wood confirmed the complete resistance of 'Santiam', four pollinizers, and 'Ratoli'. However, a few small cankers were observed on 'Closca Molla' from Spain and OSU 729.012, with resistance from C. californica (A.DC.) Rose, in contrast to the results of earlier greenhouse inoculations. [ABSTRACT FROM AUTHOR]

Published

2007

48. Survey of Hazelnut Germplasm from Russia and Crimea for Response to Eastern Filbert Blight.

Author

Molnar, Thomas J., Zaurov, David E., Goffreda, Joseph C., and Mehlenbacher, Shawn A.

Subjects

*HAZEL, *SEEDLINGS, *PLANT germplasm

Abstract

Six hundred five hazelnut (Corylus avellana L.) seedlings from a diverse germplasm collection made in the Russian Federation and the Crimean peninsula of the Ukraine were inoculated with the eastern filbert blight (EFB) pathogen Anisogramma anomala (Peck) E. Müller and their responses evaluated. Responses were rated on a scale of 0 to 5, in which 0 represents no sign of EFB and 5 represents all branches exhibiting cankers. At final evaluation, eight seedlings showed no signs of the pathogen or symptoms of the disease. Five additional seedlings expressed only very minor signs of the pathogen (rating = 1). The remainder ranged in disease expression from moderately to severely infected to dead with 89.7% (470 of 524) of the surviving seedlings rating 4 or 5. Of the 13 apparently resistant seedlings (rating 0 or 1), seven originated from nuts purchased from roadside vendors near Simferopol, Crimea, Ukraine; five from nuts purchased at an outdoor market near Krasnodar, Russia; and one from nuts obtained from the hazelnut breeding program of the Nikita Botanical Gardens, Yalta, Crimea, Ukraine. Random amplified polymorphic DNA (RAPD) markers generated by the primers UBC 152800 and OP AA12850, which are tightly linked to the single dominant resistance gene 'Gasaway', were not present in all 13 resistant seedlings, providing support, along with their geographic origins, that they represent novel sources of genetic resistance to EFB. [ABSTRACT FROM AUTHOR]

Published

2007

49. Analysis of Resistance to Eastern Filbert Blight in Corylus avellana

Author

Kenneth B. Johnson, N. K. Osterbauer, Shawn A. Mehlenbacher, and T. L. Sawyer

Subjects

Anisogramma anomala, Inoculation, Plant Science, Biology, Plant disease resistance, biology.organism_classification, Filbert, Horticulture, Botany, Blight, Cultivar, Anomala, Agronomy and Crop Science, Fruit tree

Abstract

Inheritance of resistance to eastern filbert blight, caused by Anisogramma anomala, in European hazelnut (Corylus avellana) was evaluated in the progeny of seven cultivars crossed in 12 combinations. The progeny were subjected to inoculation with A. anomala in the greenhouse and in the field. Three disease responses were measured: disease incidence, number of cankers, and proportion of wood diseased. In both the greenhouse and the field, progeny produced by crossing VR6-28 with three susceptible cultivars segregated 1:1 for complete resistance to eastern filbert blight, confirming a previous report that VR6-28 is heterozygous for a single, dominant resistance gene. Histograms of disease responses in progeny of the remaining six parents showed continuous distributions for all crosses examined. Consequently, these parents were analyzed for general and specific combining abilities for each disease response. In the field, general and specific combining ability were both significant (P < 0.05) for all disease responses, with general combining ability having twice the magnitude of specific combining ability. These results suggest these disease responses are controlled by additive gene action in the cultivars examined, with nonadditive gene action being of some importance. Based on general combining ability values, high levels of partial resistance were transmitted by the pollen parents, Gem and Tonda di Giffoni, and the seed parent, Willamette. Heritability of disease incidence, number of cankers, and proportion of wood diseased were calculated to be 0.21, 0.39, and 0.47, respectively, for this set of nine crosses after the first exposure period in the field. This suggests that it will be possible to use partially resistant parents to breed for hazelnuts exhibiting fewer and smaller cankers.

Published

2019

50. A Real-Time PCR Assay for Early Detection of Eastern Filbert Blight

Author

Thomas J. Molnar, Ning Zhang, Emily Walsh, John M. Capik, Shawn A. Mehlenbacher, Amy Y. Rossman, and Vidyasagar Sathuvalli

Subjects

Veterinary medicine, biology, Anisogramma anomala, fungi, American hazelnut, food and beverages, Plant Science, biology.organism_classification, law.invention, Filbert, law, Botany, TaqMan, Blight, Anomala, Agronomy and Crop Science, Ribosomal DNA, Polymerase chain reaction

Abstract

Molnar, T. J., Walsh, E., Capik, J. M., Sathuvalli, V., Mehlenbacher, S. A., Rossman, A. Y., and Zhang, N. 2013. A real-time PCR assay for early detection of eastern filbert blight. Plant Dis. 97:813-818. Eastern filbert blight (EFB) is a devastating disease of European hazelnut, Corylus avellana, which causes economic losses in Oregon, where 99% of the U.S. crop is produced. The causal fungus, Anisogramma anomala, is native to eastern North America, where it is found associated with the American hazelnut (C. americana). Although C. americana is tolerant, EFB causes cankers, branch dieback, and death of C. avellana. Detection and identification of A. anomala is time consuming using conventional methods because the fungus can only be cultured from sporulating perithecia and the disease symptoms and signs only show 12 to 16 months after infection. In this study, a TaqMan real-time polymerase chain reaction (PCR) assay based on a ribosomal DNA internal transcribed spacer was developed for A. anomala. The assay was validated with multiple isolates of A. anomala, closely related species, common environmental microorganisms, and over 100 C. avellana samples. The real-time PCR assay detected as low as 0.12 pg of A. anomala genomic DNA, and positively diagnosed EFB on 82% of asymptomatic plants as early as 15 weeks from infection. The real-time PCR assay is more sensitive and faster than traditional diagnostic methods. It can facilitate hazelnut breeding and disease management by early and accurate diagnosis of EFB.

Published

2019