Search Results

You are looking at 81 - 90 of 94 items for :

  • "biological control agent" x
  • Refine by Access: All x
Clear All
Open access

Amanda Skidmore, Neil Wilson, Mark Williams, and Ric Bessin

control practices on predatory arthropod assemblages and molecular identification of cucumber beetle biological control agents. M.S. Thesis 1492531428052099, Ohio State Univ., Columbus Dively, G.P. Kamel, A. 2012 Insecticide residues in pollen and nectar

Free access

Samuel F. Hutton, John W. Scott, and Gary E. Vallad

Fusarium oxysporum F. sp. lycopersici races 2 and 3 in Lycopersicon pennellii Aust. J. Agr. Res. 38 729 733 Obradovic, A. Jones, J.B. Momol, M.T. Olson, S.M. Jackson, L.E. Balogh, B. Guven, K. Iriarte, F.B. 2005 Integration of biological control agents

Full access

Charles S. Krasnow and Mary K. Hausbeck

Phytophthora capsici mycelial growth (C.S. Krasnow, unpublished data). Additional testing is necessary to determine the effect of pH on other fungicides and biological control agents labeled for pythium root rot control in greenhouses. Growing plants in

Open access

Li Liu, Lin Jin, and Qiaosheng Guo

Chaetomium could not only promote plant growth, but also act as a potential biological control agent for plant diseases, and Chaetomium globosmn is the most reported specie of Chaetomium ( Xia et al., 2016 ; Yan et al., 2018 ). Tomentella is a common

Free access

Guirong Zhang, Mohammad Babadoost, Alan De Young, Eric T. Johnson, and David A. Schisler

products were applied in a volume equivalent to 469 L·ha −1 . For the biological control agents, this corresponded to 2.4 × 10 8 cfu/mL and 1.4 × 10 7 cfu/mL applied until runoff for B. amyloliquefaciens AS 43.3 and P. flavescens OH 182.9 3C

Open access

Devin L. Radosevich, Raymond A. Cloyd, and Nathan J. Herrick

, L. Harris, B. 2005 The efficacy of spinosad against the western flower thrips, Frankliniella occidentalis , and its impact on associated biological control agents on greenhouse cucumbers in southern Ontario Pest Manag. Sci. 61 179 185 10.1002/ps.939

Free access

Samuel F. Hutton, Jay W. Scott, and Jeffrey B. Jones

.B. 2005 Integration of biological control agents and systemic acquired resistance inducers against bacterial spot of tomato Plant Dis. 89 712 716 10.1094/PD-89-0712 Olson, S.M. Stall, W.M. Momol, M.T. Webb

Open access

Fulya Baysal-Gurel, Ravi Bika, Christina Jennings, Cristi Palmer, and Terri Simmons

biological control agent for Colletotrichum acutatum during pre-harvest Microbiol. Res. 175 93 99 doi: 10.1016/J.MICRES.2015.04.003 10.1146/ Mucharromah, E. Kuc, J. 1991 Oxalate and phosphates induce systemic resistance against

Free access

Emily K. Dixon, Bernadine C. Strik, Luis R. Valenzuela-Estrada, and David R. Bryla

cultivar attractiveness or susceptibility, cultivar selection might be one of the most important tools. Other cultural tools, such as alternate-year production and early scouting, may also be effective. There has been some work done with biological control

Open access

Rachel E. Rudolph, Lisa W. DeVetter, Inga A. Zasada, and Cedar Hesse

Sci. Soc. Amer. J. 58 185 193 Beale, R.E. Pitt, D. 1992 Studies on Minimedusa polyspora , a biological control agent of soilborne plant pathogens, p. 249–253. In: E.S. Tjamos, G.C. Papavizas, and R. Cook (eds.). Biological control of plant diseases