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1.
J Econ Entomol ; 107(1): 1-10, 2014 Feb.
Article in English | MEDLINE | ID: mdl-24665679

ABSTRACT

Theory indicates that landscape composition affects transmission of vector-borne crop diseases, but few empirical studies have investigated how landscape composition affects plant disease epidemiology. Since 2006, Bemisia tabaci (Gennadius) has vectored the cucurbit yellow stunting disorder virus (CYSDV) to cantaloupe and honeydew melons (Cucumis melo L.) in the southwestern United States and northern Mexico, causing significant reductions in yield of fall melons and increased use of insecticides. Here, we show that a landscape-based approach allowing simultaneous assessment of impacts of local (i.e., planting date) and regional (i.e., landscape composition) factors provides valuable insights on how to reduce crop disease risks. Specifically, we found that planting fall melon fields early in the growing season, eliminating plants germinating from seeds produced by spring melons after harvest, and planting fall melon fields away from cotton and spring melon fields may significantly reduce the incidence of CYSDV infection in fall melons. Because the largest scale of significance of the positive association between abundance of cotton and spring melon fields and CYSDV incidence was 1,750 and 3,000 m, respectively, reducing areas of cotton and spring melon fields within these distances from fall melon fields may decrease CYSDV incidence. Our results indicate that landscape-based studies will be fruitful to alleviate limitations imposed on crop production by vector-borne diseases.


Subject(s)
Crops, Agricultural/virology , Cucumis melo/virology , Hemiptera/virology , Insect Vectors/virology , Plant Diseases/virology , Animals , Arizona , Geography
2.
J Econ Entomol ; 94(5): 1012-21, 2001 Oct.
Article in English | MEDLINE | ID: mdl-11681660

ABSTRACT

Cultural control methods have been central in the southwestern United States for reducing pink bollworm, Pectinophora gossypiella (Saunders), damage to cotton. Nevertheless, it is not clear at present how such methods could be integrated within the novel pest management framework allowed by introduction of cotton producing a toxin from Bacillus thuringiensis (Bt) for pink bollworm control. Using statewide pheromone trapping and climatic data in conjunction with deterministic simulation models, we investigated whether manipulation of cotton planting date and use of other cultural control methods could represent valuable tactics for control of the pink bollworm in Arizona. Accumulation of heat units from one January accurately predicted the rate of pink bollworm emergence from diapause in 15 cotton-producing regions. Significant variation in rate of emergence from diapause was present among regions, with earlier emergence at higher altitudes. Most adults emerge from diapause too early to reproduce successfully on cotton, a phenomenon known as suicidal emergence. A method for prediction of the fraction of suicidal emergence resulting from adoption of a given cotton planting date is presented. Results from simulation models suggest that manipulation of planting date and implementation of other control cultural methods reduce the rate of application of insecticides and delay the evolution of resistance to Bt cotton in the pink bollworm.


Subject(s)
Bacillus thuringiensis , Bacterial Proteins , Bacterial Toxins , Endotoxins , Gossypium , Insecticides , Moths/physiology , Pest Control, Biological/methods , Animals , Bacillus thuringiensis/genetics , Bacillus thuringiensis Toxins , Bacterial Proteins/genetics , Endotoxins/genetics , Hemolysin Proteins , Insecticide Resistance , Plants, Genetically Modified , Time Factors
3.
J Econ Entomol ; 94(4): 935-41, 2001 Aug.
Article in English | MEDLINE | ID: mdl-11561855

ABSTRACT

Fitness costs associated with resistance to transgenic crops producing toxins from Bacillus thuringiensis (Bt) may have important effects on the evolution of resistance. We investigated overwintering costs in pink bollworm, Pectinophora gosypiella (Saunders), strains with different degrees of resistance to Bt cotton. Frequency of resistant individuals in a strain was not associated with induction of diapause or emergence from diapause in early winter. Emergence from diapause in the spring was 71% lower in three highly resistant strains than in two heterogeneous strains from which the resistant strains were derived. This underestimates the overwintering cost because the frequency of the resistance allele was relatively high in the heterogeneous strains. Emergence in the spring in hybrid progeny from crosses between the resistant and heterogeneous strains was greater than in resistant strains but did not differ from susceptible strains, showing that the overwintering cost was recessive to some extent.


Subject(s)
Bacillus thuringiensis , Bacterial Proteins , Bacterial Toxins , Endotoxins , Gossypium , Moths , Pest Control, Biological/methods , Animals , Bacillus thuringiensis Toxins , Bacterial Proteins/genetics , Endotoxins/genetics , Female , Hemolysin Proteins , Insecticide Resistance , Male , Plants, Genetically Modified , Seasons
4.
J Econ Entomol ; 94(2): 315-25, 2001 Apr.
Article in English | MEDLINE | ID: mdl-11332820

ABSTRACT

A major challenge for agriculture is management of insect resistance to toxins from Bacillus thuringiensis (Bt) produced by transgenic crops. Here we describe how a large-scale program is being developed in Arizona for management of resistance to Bt cotton in the pink bollworm, Pectinophora gossypiella (Saunders) (Lepidoptera: Gelechiidae), and other insect pests of cotton. Financial support from growers makes this program possible. Collaboration between the Arizona Cotton Research and Protection Council, the University of Arizona, and government agencies has led to development of resistance management guidelines, a remedial action plan, and tools for monitoring compliance with the proposed guidelines. Direct participation in development of resistance management policies is a strong incentive for growers to invest in resistance management research. However, more research, regularly updated regulations, and increased collaboration between stakeholders are urgently needed to maintain efficacy of Bt toxins in transgenic crops.


Subject(s)
Bacillus thuringiensis , Bacterial Proteins , Bacterial Toxins , Endotoxins , Gossypium , Moths , Pest Control, Biological , Plants, Genetically Modified , Animals , Arizona , Bacillus thuringiensis Toxins , Bacterial Proteins/genetics , Biological Evolution , Endotoxins/genetics , Hemolysin Proteins , Insecticide Resistance , United States , United States Environmental Protection Agency
5.
J Econ Entomol ; 94(6): 1571-6, 2001 Dec.
Article in English | MEDLINE | ID: mdl-11777066

ABSTRACT

Transgenic cotton producing a Bacillus thuringiensis (Bt) toxin is widely used for controlling the pink bollworm, Perctinophora gossypiella (Saunders). We compared performance of pink bollworm strains resistant to Bt cotton with performance of their susceptible counterparts on non-Bt cotton. We found fitness costs that reduced survival on non-Bt cotton by an average of 51.5% in two resistant strains relative to the susceptible strains. The survival cost was recessive in one set of crosses between a resistant strain and the susceptible strain from which it was derived. However, crosses involving an unrelated resistant and susceptible strain indicated that the survival cost could be dominant. Development time on non-Bt cotton did not differ between the two related resistant and susceptible strains. A slight recessive cost affecting development time was suggested by comparison of the unrelated resistant and susceptible strains. Maternal effects transmitted by parents that had eaten Bt-treated artificial diet as larvae had negative effects on embryogenesis, adult fertility, or both, and reduced the ability of neonates to enter cotton bolls. These results provide further evidence that fitness costs associated with the evolution of resistance to Bt cotton are substantial in the pink bollworm.


Subject(s)
Bacillus thuringiensis , Bacterial Proteins/pharmacology , Bacterial Toxins/pharmacology , Endotoxins/pharmacology , Moths/drug effects , Pest Control, Biological/methods , Zea mays , Adaptation, Physiological , Animals , Bacillus thuringiensis Toxins , Female , Hemolysin Proteins , Insecticide Resistance , Male , Moths/growth & development , Plants, Genetically Modified
6.
J Econ Entomol ; 93(3): 605-12, 2000 Jun.
Article in English | MEDLINE | ID: mdl-10902305

ABSTRACT

Acalymma vittatum (F.) is the primary insect pest of fresh-market cucumber and melon crops in much of the eastern United States because of their herbivory and interactions with several diseases, most notably bacterial wilt. A study was conducted to determine how soil management affects viability and infectivity of an entomopathogenic nematode that may be used for the control of A. vittatum. Dose-mortality curves under laboratory conditions suggested several Steinernema spp. as potential biocontrol agents. Field injections combined with soil bioassays showed that Steinernema riobravis Cabanillas, Poinar & Raulston (Rhabditus: Steinernematidae) longevity exceeded A. vittatum immature development time in both conventional and organic soil management systems. Mean root length densities of cucumbers increased in both soil management systems with the inclusion of nematodes. Soil management alone also influenced A. vittatum larval survivorship, with higher survival rates in the organic compared with the conventional soil management system. A 50% reduction in A. vittatum larval survival rates in both soil management systems, as determined by adult A. vittatum emergence, demonstrated the potential of incorporation of entomopathogenic nematodes for integrated pest management of diabroticites in commercial cucumber production.


Subject(s)
Coleoptera , Nematoda , Pest Control, Biological/methods , Agriculture , Animals , Cucumis sativus/growth & development , Soil
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