James J. Marois scite author profile

Epidemics of spotted wilt caused by Tomato spotted wilt virus (TSWV) vectored by Frankliniella occidentalis and possibly other thrips species occur regularly in tomato in the southeastern United States. Field experiments were conducted to determine the effects of UV-reflective mulch, acibenzolar-S-methyl (plant activator), and insecticides on progress of tomato spotted wilt incidence and population dynamics of flower thrips (including F. occidentalis, F. tritici, and F. bispinosa). Whole plots of tomatoes grown on UV-reflective and black polyethylene mulch were divided into subplots of acibenzolar-S-methyl and no acibenzolar-S-methyl, and sub-subplots of insecticide and no insecticide for thrips control. The UV-reflective mulch was more effective than black polyethylene mulch each year in reducing colonization of thrips in May and the consequent primary infections of tomato spotted wilt. Application of acibenzolar-S-methyl further reduced tomato spotted wilt incidence in 2000 and 2002, when disease pressure was great. Reproduction of thrips on tomato was poor in these experiments, but their control in the insecticide-treated sub-subplots prevented secondary spread in both years. The combination of UV-reflective mulch, acibenzolar-S-methyl, and insecticides was very effective in reducing tomato spotted wilt incidence in tomato.

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Development of an Infection Model for Botrytis Bunch Rot of Grapes Based on Wetness Duration and Temperature

Broome¹,

English²,

Marois³

et al. 1995

Phytopathology

120

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Factors Associated with Variation in Susceptibility of Grapevine Pruning Wounds to Infection byEutypa lata

Munkvold¹,

Marois²

1995

Phytopathology

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Grape Cluster Architecture and the Susceptibility of Berries toBotrytis cinerea

Vail¹,

Marois²

1991

Phytopathology

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Effect of Fungicide and Timing of Application on Soybean Rust Severity and Yield

et al. 2009

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Soybean rust, caused by Phakopsora pachyrhizi, is a devastating foliar disease of soybean that may cause significant yield losses if not managed by well-timed fungicide applications. To determine the effect of fungicide timing on soybean rust severity and soybean yield, field trials were completed in Paraguay (four locations), the United States (two locations), and Zimbabwe (one location) from 2005 to 2006. Treatments at each location included applications of tebuconazole, pyraclostrobin, or a combination of azoxystrobin + propiconazole, and in some locations pyraclostrobin + tebuconazole at the following soybean growth stages (GS): (i) GS R1 (beginning flowering), (ii) GS R3 (beginning pod), (iii) GS R5 (beginning seed), (iv) GS R1 + R3, (v) GS R3 + R5, and (vi) GS R1 + R3 + R5. Soybean yields from plots treated with fungicides were 16 to 114% greater than yields from no fungicide control plots in four locations in Paraguay, 12 to 55% greater in two locations in the United States, and 31% greater in Zimbabwe. In all locations, rust severity measured over time as area under the disease progress curve (AUDPC) was negatively correlated (r = –0.3, P < 0.0001) to yield. The effectiveness of any given treatment (timing of application and product applied) was often dependent on when rust was first detected and the intensity of its development. For example, when soybean rust was first observed before GS R3 (two locations in Paraguay), the plants in plots treated with a fungicide at GS R1 had the lowest AUPDC values and highest yields. When soybean rust was first observed after GS R3, plants treated with a fungicide at GS R3 and/or GS R5 had the lowest AUDPC values and highest yields with a few exceptions.

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Efficacy of Plant Growth-Promoting Rhizobacteria, Acibenzolar-S-Methyl, and Soil Amendment for Integrated Management of Bacterial Wilt on Tomato

et al. 2004

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Greenhouse experiments were conducted to study the effect of plant growth promoting rhizobacteria (PGPR; Bacillus pumilus SE 34, Pseudomonas putida 89B61, BioYield, and Equity), acibenzolar-S-methyl (Actigard), and a soil amendment with S-H mixture (contains agricultural and industrial wastes such as bagasse, rice husk, oyster shell powder, urea, potassium nitrate, calcium super phosphate, and mineral ash) on bacterial wilt incidence caused by Ralstonia solanacearum (race 1, biovar 1) in susceptible tomato (Lycopersicon esculentum cv. Solar Set). In experiments with PGPR, Pseudomonas putida 89B61 significantly reduced bacterial wilt incidence when applied to the transplants at the time of seeding and 1 week prior to inoculation with Ralstonia solanacearum. BioYield, a formulated PGPR that contained two Bacillus strains, decreased disease significantly in three experiments. Equity, a formulation containing more than 40 different microbial strains, did not reduced wilt incidence compared with the untreated control. With inoculum at low pathogen densities of 1 × 105 and 1 × 106 CFU/ml, disease incidence of Actigard-treated plants was significantly less than with nontreated plants. This is the first report of Actigard-mediated reduction of bacterial wilt incidence in a susceptible tomato cultivar. When PGPR and Actigard applications were combined, Actigard plus P. putida 89B61 or BioYield reduced bacterial wilt incidence compared with the untreated control. Incorporation of S-H mixture into infested soil 2 weeks before transplanting reduced bacterial wilt incidence in one experiment. Combination of Actigard with the S-H mixture significantly reduced bacterial wilt incidence in tomato in two experiments.

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Sod–Livestock Integration into the Peanut–Cotton Rotation: A Systems Farming Approach

et al. 2006

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Contemporary thinking encourages diversified cropping systems as a way to sustain crop yields, protect the environment, and increase wildlife habitat. This paper reviews the benefits of diversifying the traditional peanut (Arachis hypogea L.) and cotton (Gossypium hirsutum L.) production system to include perennial grasses such as bahiagrass (Paspalum notatum Fluegge) and bermudagrass [Cynodon dactylon (L.) Pers.] and incorporating cattle (Bos taurus) into the system. Perennial grasses improve soil quality by reducing soil erosion and nitrate (NO3) leaching, increasing organic matter (OM) content, water infiltration rates, and the abundance and diversity of micro and macro flora and fauna. Cotton and peanut grown after perennial grasses are deeper rooted, have more vigorous growth, can better withstand pest pressure and environmental stresses, and often have higher yields. Including livestock in the cropping system makes more efficient use of climate and farm resources by extending the period of productive plant growth, improving economic returns, and reducing risk by diversifying the products available for sale.

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James J. Marois

Characterization of a functional NF-kappa B site in the human interleukin 1 beta promoter: evidence for a positive autoregulatory loop.

Integrated Management of Tomato Spotted Wilt on Field-Grown Tomatoes

Development of an Infection Model for Botrytis Bunch Rot of Grapes Based on Wetness Duration and Temperature

Factors Associated with Variation in Susceptibility of Grapevine Pruning Wounds to Infection byEutypa lata

Grape Cluster Architecture and the Susceptibility of Berries toBotrytis cinerea

Effect of Fungicide and Timing of Application on Soybean Rust Severity and Yield

Efficacy of Plant Growth-Promoting Rhizobacteria, Acibenzolar-S-Methyl, and Soil Amendment for Integrated Management of Bacterial Wilt on Tomato

Sod–Livestock Integration into the Peanut–Cotton Rotation: A Systems Farming Approach

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