Create successful ePaper yourself
Turn your PDF publications into a flip-book with our unique Google optimized e-Paper software.
IPM THROUGH ENTOMOPARASITES<br />
125<br />
Duncan, L. W., & McCoy, C. W. (1996). Vertical distribution in soil, persistence, <strong>and</strong> efficacy against<br />
citrus root weevil (Coleoptera: Curculionidae) of two species of entomogenous nematodes<br />
(Rhabditida: Steinernematidae; Heterorhabditidae). Environmental Entomology, 25, 174–178.<br />
Duncan, L. W., McCoy, C. W., Stansly, P. A., Graham, J. H., & Mizell, R. F. (2001). Estimating the<br />
relative abundance of citrus root weevils with modified Tedder’s traps. Environmental Entomology,<br />
30, 939–946.<br />
Duncan L. W., McCoy, C. W., & Terranova, A. C. (1996). Estimating sample size <strong>and</strong> persistence of<br />
entomogenous nematodes in s<strong>and</strong>y soils <strong>and</strong> their efficacy against the larvae of Diaprepes<br />
abbreviatus in Florida. Journal of Nematology, 28, 56–67.<br />
Duncan, L. W., Shapiro, D. I., McCoy, C. W., & Graham, J. H. (1999). Entomopathogenic nematodes as<br />
a component of citrus root weevil IPM. In S. Polavarapu, (Ed.), Proceedings of workshop on<br />
optimal use of insecticidal nematodes in pest management (pp. 69–78). New Brunswick, NJ:<br />
Rutgers University.<br />
Edwards, C. A. (1993). The impact of pesticides on the environment. In D. Pimentell, & H. Lehman, (Eds.),<br />
The pesticide question. enviroment, economics <strong>and</strong> ethics (pp. 13–46). Chapman & Hall, NY.<br />
El-Borai, F. E., Brentu, C. F., & Duncan, L. W. (2007). Augmenting entomopathogenic nematodes in soil from a<br />
Florida citrus orchard: Non-target effects of a trophic cascade. Journal of Nematology, 39, 203–210.<br />
El-Borai, F. E., Bright, D. B., Graham, J. H., Stuart, R. J., Cubero, J., & Duncan, L. W. (2009).<br />
Differential susceptibility of entomopathogenic nematodes to nematophagous fungi from Florida<br />
citrus orchards. Nematology, 11, 231–241.<br />
El-Borai, F. E., Duncan, L. W., & Preston, J. F. (2005). Bionomics of a phoretic association between<br />
Paenibacillus sp. <strong>and</strong> the entomopathogenic nematode Steinernema diaprepesi. Journal of<br />
Nematology, 37, 18–25.<br />
Enright, M. R., & Griffin, C. T. (2004). Specificity of association between Paenibacillus spp. <strong>and</strong> the<br />
entomopathogenic nematodes, Heterorhabditis spp. Microbial Ecology, 48, 414–423.<br />
Enright, M. R., & Griffin, C. T. (2005). Effects of Paenibacillus nematophilus on the entomopathogenic<br />
nematode Heterorhabditis megidis. Journal of Invertebrate Pathology, 88, 40–48.<br />
Epsky, N. D., Walter, D. E., & Capinera J. L. (1988). Potential role of nematophagous microarthropods as<br />
biotic mortality factors of entomogenous nematodes (Rhabditida: Steinernematidae,<br />
Heterorhabditidae). Journal of Economic Entomology, 81, 821–825.<br />
Figueroa, W., & Roman, J. (1990). Biocontrol of the sugarcane rootstalk borer, Diaprepes abbreviatus (L.),<br />
with entomophilic nematodes. Journal of Agriculture of the University of Puerto Rico, 74, 395–404.<br />
Fisher-Le Saux, M., Mauléon, H., Constan, P., Brunel, B., & Boemare, N. (1998). PCR-ribotyping of<br />
Xenorhabdus isolates from the Caribbean region in relation to the taxonomy <strong>and</strong> geographic<br />
distribution of their nematode hosts. Applied Environmetal Microbiology, 64, 4246–4254.<br />
Flint, M. L. & Dreistadt, S. H. (1998). Natural enemies’ h<strong>and</strong>book: The illustrated guide to biological<br />
pest control. Division of Agriculture <strong>and</strong> Natural Resources (Oakl<strong>and</strong>) (Ed.) University of<br />
California (Berkeley), LA: University of California Press.<br />
Forschler, B. T., & Gardner, W. A. (1991). Parasitism of Phyllophaga hirticula (Coleoptera:<br />
Scarabaeidae) <strong>by</strong> Heterorhabditis heliothidis <strong>and</strong> Steinernema carpocapsae. Journal of Invertebrate<br />
Pathology, 58, 396–407.<br />
François, C., Castagnone, C., Boonham, N., Tomlinson, J., Lawson, R., Hockl<strong>and</strong>, S., et al. (2007).<br />
Satellite DNA as a target for TaqMan real-time PCR detection of the pinewood nematode,<br />
Bursaphelenchus xylophilus. Molecular Plant Pathology, 8, 803–809.<br />
Futch, S. H., Duncan, L. W., & Zekri, M. (2005). Validation of an area-wide extension program to<br />
estimate the seasonal abundance of adult citrus root weevils with un-baited pyramidal traps.<br />
Proceedings of the Florida State Horticultural Society, 117, 143–147.<br />
Ge<strong>org</strong>is, R., Kaya, H. K., & Gaugler, R. (1991). Effect of steinernematid <strong>and</strong> heterorhabditid nematodes<br />
(Rhabditida: Steinernematidae <strong>and</strong> Heterorhabditidae) on nontarget arthropods. Environmental<br />
Entomology, 20, 815–822.<br />
Goto, K., Sato, E., & Toyota, K. (2009). A novel detection method for the soyben cyst nematode Heterodera<br />
glycines using soil compaction <strong>and</strong> real-time PCR. Japanese Journal of Nematology, 39, 1–7.<br />
Graham, J. H., Bright, D. B., & McCoy, C. W. (2003). Phytophthora-Diaprepes weevil complex:<br />
Phytophthora spp. relationship with citrus rootstocks. Plant Disease, 87, 85–90.<br />
Graham, J. H., McCoy, C. W., & Rogers, J. S. (1996). Insect-plant pathogen interactions: Preliminary<br />
studies of Diaprepes root weevils injuries <strong>and</strong> Phytophthora infections. Proceedings of the Florida<br />
State Horticulture Society, 109, 57–62.