Your search keyword '"Matthew O. Brecht"' showing total 5 results

1. The Influence of Silicon on the Components of Resistance to Gray Leaf Spot in St. Augustinegrass

Author

T. A. Kucharek, Matthew O. Brecht, Lawrence E. Datnoff, and Russell Nagata

Subjects

biology, Physiology, food and beverages, Lesion Number, biology.organism_classification, Conidium, Incubation period, Lesion, Horticulture, Botany, medicine, Magnaporthe grisea, Leaf spot, Cultivar, medicine.symptom, Agronomy and Crop Science, Plant nutrition

Abstract

Soil fertilization with silicon (Si) has been shown to reduce the severity of gray leaf spot, caused by Magnaporthe grisea, in St. Augustinegrass. However, to understand how Si reduces gray leaf spot, it is necessary to study the effects of Si on the components of host resistance. In a greenhouse, six rates (0, 0.5, 1, 2, 5, and 10 t ha−1) of calcium silicate were evaluated for their ability to affect the components of resistance to gray leaf spot in the susceptible (‘Floratam’) and resistant (‘FX-10’) St. Augustinegrass cultivars. Components of resistance assessed were incubation period, latent period, lesion number, lesion area, daily rate of lesion expansion, and number of conidia per lesion. Percent leaf area diseased, a result of the components of resistance, was also evaluated. In this study, the only component of resistance affected by Si was lesion number. Silicon application significantly reduced the number of lesions 26 to 61% when compared to the untreated control in the susceptible cu...

Published

2007

2. Evaluation of New Fungicides and Surfactants for the Management of Fairy Ring Associated with Lycoperdon sp. in Bermudagrass

Author

Carol M. Stiles, Lawrence E. Datnoff, Philip F. Harmon, and Matthew O. Brecht

Subjects

Pesticide application, Fairy ring, General Medicine, Biology, Cynodon dactylon, biology.organism_classification, Fungicide, chemistry.chemical_compound, Lycoperdon, chemistry, Agronomy, Azoxystrobin, Turf management, Lycoperdon sp

Published

2007

3. Influence of Silicon and Chlorothalonil on the Suppression of Gray Leaf Spot and Increase Plant Growth in St. Augustinegrass

Author

T. A. Kucharek, Matthew O. Brecht, Lawrence E. Datnoff, and Russell Nagata

Subjects

biology, Chlorothalonil, food and beverages, Sowing, Liter, Plant Science, biology.organism_classification, chemistry.chemical_compound, Horticulture, chemistry, Soil water, Botany, Calcium silicate, Histosol, Leaf spot, Sprigging, Agronomy and Crop Science

Abstract

Silicon, applied as calcium silicate slag (20% Si), was evaluated for its potential to suppress gray leaf spot (Magnaporthe grisea) and increase plant growth in newly planted St. Augustinegrass in the summers of 2000 and 2001. Calcium silicate was applied (1,000 kg Si/ha) to three sites that contained Si-deficient Histosols prior to sprigging St. Augustinegrass, cv. Floratam, in southern Florida. This treatment was compared with foliar sprays of chlorothalonil, calcium silicate plus chlorothalonil, and an untreated control. Immediately after planting, applications of chlorothalonil (720 g/liter) were made every 10 days for a total of seven sprays at a rate of 7.6 kg a.i./ha with a commercial sprayer. Based on area under the disease progress curve (AUDPC) values for the treatments calcium silicate alone, chlorothalonil, and calcium silicate plus chlorothalonil, gray leaf spot was reduced by 7, 65, and 68% at site one, 28, 34, and 59% at site two, and 41, 55, and 68% at site three, respectively when compared with the untreated control. The application of calcium silicate alone significantly reduced the final AUDPC of gray leaf spot when compared with the control at site two only. However, when disease severities were analyzed by week, the calcium silicate treatment significantly reduced the percentage of disease at weeks 2, 6, and 8 at site one and weeks 3 to 8 at site three when compared with the control. The final percent bare ground coverage for St. Augustinegrass was increased significantly using calcium silicate by 17 and 34% over the control at sites one and two, respectively (P ≤ 0.05). Silicon was the only element to significantly increase in the leaf tissue for treatments amended with calcium silicate. Levels of Si in leaves for treatments amended with calcium silicate were from 1.2 to 1.3%, while those not receiving calcium silicate had only 0.6 to 0.7%. Amendments with calcium silicate slag for St. Augustinegrass sod production on Si-deficient soils may be an option to reduce gray leaf spot development in newly sprigged fields and promote earlier ground coverage of grass when the environment is favorable for disease.

Published

2004

4. Evaluation of Pathogenicity of Bipolaris and Curvularia spp. on Dwarf and Ultradwarf Bermudagrasses in Florida

Author

Lawrence E. Datnoff, Matthew O. Brecht, and Carol M. Stiles

Subjects

Curvularia lunata, biology, Bipolaris hawaiiensis, Curvularia, Botany, Plant Science, Cultivar, Horticulture, biology.organism_classification, Pathogenicity, Bipolaris

Abstract

Isolates of Curvularia lunata, C. geniculata, Bipolaris hawaiiensis, and B. cynodontis were tested for pathogenicity on the hybrid bermudagrass cultivars Tifdwarf, TifEagle, and FloraDwarf at 20 and 30°C. Curvularia lunata, C. geniculata, and B. hawaiiensis produced some minor leaf tip necrosis at the cut ends of leaves 24 to 48 h after inoculation. Bipolaris cynodontis produced significant tip dieback and leaf spotting on all three cultivars at both 20 and 30°C, and disease severity was higher at 20°C than at 30°C. With C. lunata, C. geniculata, and B. hawaiiensis, occasional leaf-spotting occurred only on senescing, older leaves. Bipolaris cynodontis is considered pathogenic on bermudagrasses, while C. lunata, C. geniculata, and B. hawaiiensis are considered senectopathic, able to incite disease only in senescing plant tissue. Curvularia lunata and B. hawaiiensis resulted in higher disease severity at 30°C than at 20°C, indicating that these species are senectopathic at higher temperatures. Accepted for publication 29 September 2006. Published 19 January 2007.

Published

2007

5. The role of silicon in suppressing gray leaf spot development in St. Augustinegrass

Author

Matthew O. Brecht, Thomas Kucharek, Lawrence E. Datnoff, and Russell T. Nagata

Subjects

Horticulture, biology, Silicon, chemistry, Leaf spot, chemistry.chemical_element, biology.organism_classification, Gray (horse)

Abstract

If you maintain St. Augustinegrass (Stenotaphrum secundatum) in Florida, its possible that gray leaf spot, caused by the fungus Magnaporthe grisea (Pyricularia grisea), will be a problem in your lawn or sod field. Research has proven the effectiveness of amendments of silicon (Si) to soils that are deficient in soluble Si (

Published

1969