Your search keyword '"Box blight"' showing total 19 results

1. First report of Calonectria henricotiae causing boxwood blight in Switzerland and Italy.

Author

Kong, P., Guarnaccia, V., Carter, C., and Hong, C. X.

Subjects

LEAF spots, BOXWOOD, DISSECTING microscopes, ORNAMENTAL plants, BOTANICAL gardens

Abstract

The article reports the first instance of Calonectria henricotiae causing boxwood blight in Switzerland and Italy. The pathogen, which has high temperature tolerance, was previously found in Spain and is now detected in these two countries. The study involved collecting and analyzing boxwood twig samples from various locations to confirm the presence of C. henricotiae, highlighting the importance of understanding its distribution to prevent further spread. The research was funded by the USDA National Institute of Food and Agriculture, and the authors disclosed no conflicts of interest. [Extracted from the article]

Published

2024

2. LAMP detection assays for boxwood blight pathogens: A comparative genomics approach

Author

Crouch, Jo [United States Dept. of Agriculture, Agricultural Research Service (ARS), Systematic Mycology and Microbiology Laboratory, Beltsville, MD (United States)]

Published

2016

3. A Potent Burkholderia Endophyte against Boxwood Blight Caused by Calonectria pseudonaviculata

Author

Ping Kong and Chuanxue Hong

Subjects

biocontrol, box blight, cylindrocladium buxicola, cylindrocladium pseudonaviculata, plant biosecurity, sustainable disease management, Biology (General), QH301-705.5

Abstract

Calonectria pseudonaviculata (Cps) poses an increasing threat to boxwood, a major nursery crop and iconic landscape plant worldwide. Here, we report on a potent biocontrol agent that produces small sage green (SSG) colonies on potato dextrose agar. SSG is a bacterial strain recovered from Justin Brouwers boxwood leaves with unusual response to Cps inoculation. Water-soaked symptoms developed on leaves 2 days after inoculation then disappeared a few days later. This endophyte affected several major steps of the boxwood blight disease cycle. SSG at 107 cfu/mL lysed all conidia in mixed broth culture. SSG at 108 cfu/mL reduced blight incidence by >98% when applied one day before or 3 h after boxwood were inoculated with Cps. Its control efficacy decreased with decreasing bacterial concentration to 103 cfu/mL and increasing lead time up to 20 days. When applied on diseased leaf litter under boxwood plants, SSG reduced Cps sporulation and consequently mitigated blight incidence by 90%. SSG was identified as a new member of the Burkholderia cepacia complex with distinct characters from known clinical strains. With these protective, curative, and sanitizing properties, this Burkholderia endophyte offers great promise for sustainable blight management at production and in the landscape.

Published

2020

4. Chemical composition and antifungal efficacy of five essential oils against Calonectria pseudonaviculata, the causal agent of boxwood blight: an in vitro study.

Author

Samavat, Samaneh and Karimzadeh Asl, Khalil

Subjects

*ESSENTIAL oils, *CUMIN, *BOXWOOD, *IN vitro studies, *FUNGICIDES, *MEDICINAL plants

Abstract

Recent epidemics of box (boxwood) blight caused by the fungus Calonectria pseudonaviculata in Hyrcanian forests led to the search for eco-friendly fungicides. Essential oils (EOs) of medicinal plants undoubtedly have been highlighted as a new therapeutic approach. In this study, EOs from Cuminum cyminum, Lavandula angustifolia, Thymus daenensis, Trachyspermum copticum and Hyssopus officinalis were evaluated for their inhibitory activities against C. pseudonaviculata Cy-08 in vitro. Quantitative and qualitative composition variations of the EOs were also analysed by GC–MS. Based on the high inhibitory efficacy and low related EC50, MFC and MIC values, T. copticum, L. angustifolia and Th. daenensis EOs can be mentioned as those providing extraordinary efficacy against Cy-08, respectively. Major chemical components of T. copticum, L. angustifolia and Th. daenensis EOs were thymol, linalyl acetate and thymol, respectively. Thymol and linalyl acetate may be the most effective compounds against C. pseudonaviculata. [ABSTRACT FROM AUTHOR]

Published

2019

5. Biological control of boxwood blight by Pseudomonas protegens recovered from recycling irrigation systems.

Author

Yang, Xiao and Hong, Chuanxue

Subjects

*PHYTOPATHOGENIC microorganisms, *IRRIGATION, *RHIZOSPHERE, *PLANT diseases, *PSEUDOMONAS putida

Abstract

Boxwood blight caused by Calonectria pseudonaviculata ( Cps ) is an emerging disease in the United States. It has caused significant loss to the ornamental nursery and landscape industries. In this study, 1547 bacterial strains recovered from recycling irrigation systems were evaluated in vitro and in planta for their biological control efficacy against Cps . Three most potent stains 13A3, 14D5, and 34B6 identified all belonged to Pseudomonas protegens . Strains 13A3 and 14D5 reduced Cps mycelial growth by 95 to 100% in two sets of in vitro experiments including a 48-well plate assay and a dual culture assay. Strain 34B6 also reduced Cps growth by 93% in the 48-well plate assay and 66 to 72% in dual culture plates. In planta , strain 14D5 reduced Cps infection by more than 50%, while strains 13D3 and 34B6 by 40 to 46%. Pseudomonas protegens strains produced antifungal secondary metabolites that reduced Cps growth and infection. Other possible modes of action against boxwood blight are discussed. [ABSTRACT FROM AUTHOR]

Published

2018

6. Leaf spot and dieback of Buxus caused by Cylindrocladium buxicola

Author

Ivana ŠAFRÁNKOVÁ, Ludmila HOLKOVÁ, and Martin KMOCH

Subjects

box blight, box, fungicides, Plant culture, SB1-1110

Abstract

Leaf blight symptoms were observed on potted box plants (Buxus sempervirens cv. Suffruticosa and B. microphylla) in a nursery in South Moravia in August 2010. These symptoms were suggestive of box blight on Buxus spp. Characteristics of the visual symptoms, microscopic features, and identification of the isolates using DNA sequencing are described. The causal agent was isolated and identified as Cylindrocladium buxicola Henricot by means of morphological, cultural, and molecular characters. The effect of five commercial fungicides on C. buxicola in vitro was studied. The most effective fungicides (kresoxim-methyl, azoxystrobin, and mancozeb) inhibited conidia germination and mycelial growth (kresoxim-methyl, myclobutanil, and penconazole) of C. buxicola more than 96%.

Published

2013

7. A Potent Burkholderia Endophyte against Boxwood Blight Caused by Calonectria pseudonaviculata

Author

Chuanxue Hong and Ping Kong

Subjects

0106 biological sciences, 0301 basic medicine, Microbiology (medical), box blight, 01 natural sciences, Microbiology, Endophyte, Conidium, 03 medical and health sciences, Virology, Blight, biocontrol, lcsh:QH301-705.5, plant biosecurity, biology, Inoculation, Cylindrocladium pseudonaviculata, fungi, food and beverages, biology.organism_classification, Cylindrocladium buxicola, sustainable disease management, Spore, Burkholderia cepacia complex, Horticulture, 030104 developmental biology, Burkholderia, lcsh:Biology (General), Potato dextrose agar, 010606 plant biology & botany

Abstract

Calonectria pseudonaviculata (Cps) poses an increasing threat to boxwood, a major nursery crop and iconic landscape plant worldwide. Here, we report on a potent biocontrol agent that produces small sage green (SSG) colonies on potato dextrose agar. SSG is a bacterial strain recovered from Justin Brouwers boxwood leaves with unusual response to Cps inoculation. Water-soaked symptoms developed on leaves 2 days after inoculation then disappeared a few days later. This endophyte affected several major steps of the boxwood blight disease cycle. SSG at 107 cfu/mL lysed all conidia in mixed broth culture. SSG at 108 cfu/mL reduced blight incidence by &gt, 98% when applied one day before or 3 h after boxwood were inoculated with Cps. Its control efficacy decreased with decreasing bacterial concentration to 103 cfu/mL and increasing lead time up to 20 days. When applied on diseased leaf litter under boxwood plants, SSG reduced Cps sporulation and consequently mitigated blight incidence by 90%. SSG was identified as a new member of the Burkholderia cepacia complex with distinct characters from known clinical strains. With these protective, curative, and sanitizing properties, this Burkholderia endophyte offers great promise for sustainable blight management at production and in the landscape.

Published

2020

8. A Potent Burkholderia Endophyte against Boxwood Blight Caused by Calonectria pseudonaviculata

Author

Kong, Ping, Hong, Chuanxue, and Virginia Agricultural Experiment Station

Subjects

box blight, Cylindrocladium buxicola, fungi, food and beverages, Cylindrocladium pseudonaviculata, biocontrol, plant biosecurity, sustainable disease management

Abstract

Calonectria pseudonaviculata (Cps) poses an increasing threat to boxwood, a major nursery crop and iconic landscape plant worldwide. Here, we report on a potent biocontrol agent that produces small sage green (SSG) colonies on potato dextrose agar. SSG is a bacterial strain recovered from Justin Brouwers boxwood leaves with unusual response to Cps inoculation. Water-soaked symptoms developed on leaves 2 days after inoculation then disappeared a few days later. This endophyte affected several major steps of the boxwood blight disease cycle. SSG at 107 cfu/mL lysed all conidia in mixed broth culture. SSG at 108 cfu/mL reduced blight incidence by >98% when applied one day before or 3 h after boxwood were inoculated with Cps. Its control efficacy decreased with decreasing bacterial concentration to 103 cfu/mL and increasing lead time up to 20 days. When applied on diseased leaf litter under boxwood plants, SSG reduced Cps sporulation and consequently mitigated blight incidence by 90%. SSG was identified as a new member of the Burkholderia cepacia complex with distinct characters from known clinical strains. With these protective, curative, and sanitizing properties, this Burkholderia endophyte offers great promise for sustainable blight management at production and in the landscape. Published version

Published

2020

9. A Potent Burkholderia Endophyte against Boxwood Blight Caused by Calonectria pseudonaviculata

Author

Virginia Agricultural Experiment Station, Kong, Ping, Hong, Chuanxue, Virginia Agricultural Experiment Station, Kong, Ping, and Hong, Chuanxue

Abstract

Calonectria pseudonaviculata (Cps) poses an increasing threat to boxwood, a major nursery crop and iconic landscape plant worldwide. Here, we report on a potent biocontrol agent that produces small sage green (SSG) colonies on potato dextrose agar. SSG is a bacterial strain recovered from Justin Brouwers boxwood leaves with unusual response to Cps inoculation. Water-soaked symptoms developed on leaves 2 days after inoculation then disappeared a few days later. This endophyte affected several major steps of the boxwood blight disease cycle. SSG at 107 cfu/mL lysed all conidia in mixed broth culture. SSG at 108 cfu/mL reduced blight incidence by >98% when applied one day before or 3 h after boxwood were inoculated with Cps. Its control efficacy decreased with decreasing bacterial concentration to 103 cfu/mL and increasing lead time up to 20 days. When applied on diseased leaf litter under boxwood plants, SSG reduced Cps sporulation and consequently mitigated blight incidence by 90%. SSG was identified as a new member of the Burkholderia cepacia complex with distinct characters from known clinical strains. With these protective, curative, and sanitizing properties, this Burkholderia endophyte offers great promise for sustainable blight management at production and in the landscape.

Published

2020

10. Leaf Spot and Dieback of Buxus Caused by Cylindrocladium buxicola.

Author

ŠAFRÁNKOVÁ, IVANA, HOLKOVÁ, LUDMILA, and KMOCH, MARTIN

Subjects

*LEAF spots, *DIEBACK, *BOXWOOD, *CYLINDROCLADIUM, *FUNGICIDES, *MYCLOBUTANIL

Abstract

Leaf blight symptoms were observed on potted box plants (Buxus sempervirens cv. Suffruticosa and B. microphylla) in a nursery in South Moravia in August 2010. These symptoms were suggestive of box blight on Buxus spp. Characteristics of the visual symptoms, microscopic features, and identification of the isolates using DNA sequencing are described. The causal agent was isolated and identified as Cylindrocladium buxicola Henricot by means of morphological, cultural, and molecular characters. The effect of five commercial fungicides on C. buxicola in vitro was studied. The most effective fungicides (kresoxim-methyl, azoxystrobin, and mancozeb) inhibited conidia germination and mycelial growth (kresoxim-methyl, myclobutanil, and penconazole) of C. buxicola more than 96%. [ABSTRACT FROM AUTHOR]

Published

2013

11. qPCR Assays for the Detection of Cylindrocladium buxicola in Plant, Water, and Air Samples

Author

Ktk Pham, M. Maes, Kurt Heungens, Monica Höfte, A.J. van Kuik, S D'Haeyer, and Bjorn Gehesquière

Subjects

Fusarium, box blight, specificity, polymerase-chain-reaction, Plant Science, Biology, law.invention, Microbiology, Intergenic region, law, Botany, Flower Bulbs, TaqMan, primers, Nursery Stock, buxus spp, Internal transcribed spacer, real-time pcr, PPO BBF Boomkwekerij, Ribosomal DNA, Pathogen, fusarium, Polymerase chain reaction, disease, PPO BBF Bloembollen, belgium, biology.organism_classification, 1st report, Real-time polymerase chain reaction, Agronomy and Crop Science

Abstract

Cylindrocladium buxicola (syn. C. pseudonaviculatum; teleomorph Calonectria pseudonaviculata) is an important fungal pathogen of Buxus spp. Although widespread in Western Europe, this pathogen has only recently been introduced into North America, where it represents a significant threat to the U.S. and Canadian boxwood industries. Trade of latently infected nursery stock is an important mode of long-distance dissemination and introduction of this pathogen but no methods for detection of latently infected material are available. Also, the pathways for short-distance dispersal of C. buxicola have not been adequately studied. Improved detection methods of this pathogen in air and water samples would benefit future research in this area. We have developed real-time polymerase chain reaction assays for the detection of C. buxicola based on the ribosomal DNA internal transcribed spacer 1 (ITS) and the β-tubulin 2 gene (TUB). Using a TaqMan probe conjugated with a 3′ minor groove binding group (TaqMan MGB probe), the ITS-based assay could reliably detect as little as 10 fg of genomic DNA or 20 copies of cloned target DNA and was approximately 70 times more sensitive than the SYBR Green TUB-based assay. The ITS-based assay provided good but not complete specificity, and is well suited for epidemiological studies. The TUB-based assay, however, proved to be fully specific and can be used for diagnostics. We developed and optimized sample processing and DNA extraction methods for detection of latently present C. buxicola in boxwood plants and quantification of conidia in water and air samples. C. buxicola could be detected in 20 g of plant material, of which only 1 ppm of the tissue was infected, in 10-ml water samples containing as low as 1 conidium/ml, and on Melinex tape pieces representing 12 h of air sampling containing 10 or more conidia. The applicability of the techniques to plant, water, and air samples of practical size was demonstrated.

Published

2013

12. Indications of Susceptibility to Calonectria pseudonaviculata in Some Common Groundcovers and Boxwood Companion Plants.

Author

Richardson PA, Daughtrey M, and Hong C

Subjects

Plant Diseases, Spores, Fungal, Buxaceae, Buxus, Hypocreales

Abstract

Knowing the host range of a pathogen is critical to developing and implementing effective disease management programs. Calonectria pseudonaviculata ( Cps ) is known to attack a number of species, varieties, and cultivars in the genus Buxus as well as three Pachysandra species ( Pachysandra terminalis , Pachysandra procumbens , and Pachysandra axillaris ) and several Sarcococca species, all in the Buxaceae family. The objective of this study was to evaluate non-Buxaceae groundcovers and companion plants commonly associated with boxwood plantings for their susceptibility to Cps . Twenty-seven plant species belonging to 21 families were exposed to different levels of inoculum: 50 to 300 conidia per drop for detached leaf assays and 30,000 to 120,000 conidia per 1 ml for whole-plant assays. Inoculated plants were incubated in humid environments for at least 48 h to facilitate infection. Cps infection and sporulation were observed on 12 plant species: Alchemilla mollis , Arctostaphylos uva-ursi , Brunnera macrophylla , Epimedium × youngianum , Galium odoratum , Geranium sanguineum , Phlox subulata , Tiarella cordifolia , Callirhoe involucrata , Iberis sempervirens , Mazus reptans , and Vinca minor . These results suggest that there may be more hosts of Cps commonly grown in nurseries and landscapes. If corroborated by observations of natural infection, these findings have implications for the Boxwood Blight Cleanliness Program instituted by the National Plant Board and for planning disease mitigation at production and in the landscape.

Published

2020

13. A Potent Burkholderia Endophyte against Boxwood Blight Caused by Calonectria pseudonaviculata .

Author

Kong P and Hong C

Abstract

Calonectria pseudonaviculata ( Cps ) poses an increasing threat to boxwood, a major nursery crop and iconic landscape plant worldwide. Here, we report on a potent biocontrol agent that produces small sage green (SSG) colonies on potato dextrose agar. SSG is a bacterial strain recovered from Justin Brouwers boxwood leaves with unusual response to Cps inoculation. Water-soaked symptoms developed on leaves 2 days after inoculation then disappeared a few days later. This endophyte affected several major steps of the boxwood blight disease cycle. SSG at 10 7 cfu/mL lysed all conidia in mixed broth culture. SSG at 10 8 cfu/mL reduced blight incidence by >98% when applied one day before or 3 h after boxwood were inoculated with Cps . Its control efficacy decreased with decreasing bacterial concentration to 10 3 cfu/mL and increasing lead time up to 20 days. When applied on diseased leaf litter under boxwood plants, SSG reduced Cps sporulation and consequently mitigated blight incidence by 90%. SSG was identified as a new member of the Burkholderia cepacia complex with distinct characters from known clinical strains. With these protective, curative, and sanitizing properties, this Burkholderia endophyte offers great promise for sustainable blight management at production and in the landscape.

Published

2020

14. Best Management Practices for Boxwood Blight for Professionally Managed Landscapes and Public and Historic Gardens in Virginia

Author

Bordas, Adria, Likins, T. Michael, Bush, Elizabeth A., Dart, Norm, Hansen, Mary Ann, Hong, Chuanxue, and Virginia Cooperative Extension

Subjects

best management practices, box blight, Plant Diseases, Calonectria pseudonaviculata

Abstract

Boxwood blight is caused by the fungal pathogen Calonectria pseudonaviculata(syn. Cylindrocladium buxicola). This document outlines best management practices for landscapers and property managers to reduce the risk of spreading boxwood blight to landscapes and public and historic gardens, and to manage the disease if it is introduced.

Published

2014

15. Best Management Practices for Boxwood Blight: Best management practices for boxwood blight in Virginia production nurseries with boxwood blight

Author

Dart, Norm, Hong, Chuanxue, Bordas, Adria, Bush, Elizabeth A., Hansen, Mary Ann, Likins, T. Michael, and Virginia Cooperative Extension

Subjects

Plant diseases, Box blight, Best management practices, Buxus

Abstract

This Best Management Practice document is a set of guidelines for home growers of landscape boxwood to avoid introduction of the boxwood blight pathogen into a landscape or, if the disease is already present in a landscape, to manage the disease in the most effective manner and avoid spread of the disease to new locations.

Published

2014

16. Best Management Practices for Boxwood Blight in Virginia Production Nurseries WITH Boxwood Blight

Author

Dart, Norm, Hong, Chuanxue, Bordas, Adria, Bush, Elizabeth A., Hansen, Mary Ann, and Linkins, T. Mike

Subjects

fungi, food and beverages, Planting stock, Box blight, Best management practices, Plant Diseases

Abstract

Provides a set of guidelines for production nurseries with boxwood blight to contain and manage the disease in the most effective manner and avoid the spread of the disease to new locations.

Published

2014

17. Biology and Management of Box Blight Caused by Cylindrocladium Buxicola

Author

Healy, Sarah Elizabeth and Hsiang, Tom

Subjects

Cylindrocladium buxicola, Boxwood, fungi, Nurseries, food and beverages, Box blight, Fungicides

Abstract

A new fungus, Cylindrocladium buxicola, which causes disease on boxwood was recently observed in Ontario. The fungus was positively identified by DNA sequence comparisons as the cause of box blight, from samples from a nursery in Southern Ontario. Whole boxwood plants required wounding for successful infection, however detached leaves did not. The ‘Green Series’ boxwood cultivar ‘Green Mountain’ was found to be the least susceptible to C. buxicola compared to other cultivars. Survival of C. buxicola in Southern Ontario was low after the winter, but was higher throughout the fall. Whole genome sequencing of two C. buxicola isolates revealed the presence of the MAT1-1 gene within a German isolate and MAT1-2 in an Ontario isolate, implying the possibility for sexual reproduction. All other 50 isolates tested were MAT1-2. The preventative use of fungicides to control box blight in nurseries, rather than curative use, is likely to provide the best management option for disease. OMAF HQP, Landscape Ontario

Published

2014

18. Best Management Practices for Virginia Retail Nurseries WITHOUT Boxwood Blight

Author

Dart, Norm, Hong, Chuanxue, Bordas, Adria, Bush, Elizabeth A., Hansen, Mary Ann, and Linkins, T. Mike

Subjects

Planting stock, Box blight, Best management practices, Plant Diseases

Abstract

Provides a set of guidelines for retail nurseries without boxwood blight to avoid introduction of the boxwood blight pathogen into the landscape.

Published

2006

19. Boxwood Blight: A New Disease of Boxwood Found in the Eastern U.S

Author

Dart, Norm, Hansen, Mary Ann, Bush, Elizabeth A., and Hong, Chuanxue

Subjects

fungi, Plant disease control, food and beverages, Box blight, Plant Diseases

Abstract

Provides information about boxwood blight so that growers can be aware of the symptoms, signs, and impacts of the pathogen and monitor nursery and landscape boxwoods for symptoms.

Published

2001