11/08/2017

WERA 1021 Publications:

Peer Reviewed Manuscripts:

1. Avanesyan, A., Jaffe, B.D., and C. Guédot (2017) Isolating spermatheca and determining mating status of the invasive spotted wing drosophila, Drosophila suzukii: a protocol for tissue dissection and its applications. Insects: Special issue “Invasive Insect Species”. 8(1), 32; doi:10.3390/insects8010032. Invited paper.


2. Becher, P.*, and Hamby, K.A. 2016. Current knowledge of interactions between Drosophila suzukii and microbes, and their potential utility for pest management. Journal of Pest Science. Invited Review. Special Issue: Spotted wing Drosophila DOI: 10.1007/s10340-016-0768-1


3. Biondi, A., X. Wang, J.C. Miller, B. Miller, P.W. Shearer, L. Zappala, G. Siscaro, V.W. Walton, K.A. Hoelmer, and K.M. Daane. 2017. Innate olfactory responses of Asobara japonica toward fruits infested by the invasive spotted wing drosophila. Journal of Insect Behavior 30(5):495-506.


4. Fanning P, Grieshop M, Isaacs R. (2017) Efficacy of biopesticides on spotted wing drosophila, Drosophila suzukii Matsumura in fall red raspberries. Journal of Applied Entomology doi: 10.1111/jen.12426


5. Farnsworth, D.*, Hamby, K.A., Bolda, M., Goodhue, R., Williams, J., and Zalom, F. 2016. Economic analysis of revenue losses and control costs associated with the spotted wing drosophila (Drosophila suzukii (Matsumura)) in the California raspberry industry. Pest Management Science. DOI: 10.1002/ps.4497


6. Hall, M., Loeb, G., Wilcox, W. 2017. Sour rot: etiology, biology, and management. Internet Journal of Enology & Viticulture, 2017, N. 6/1.


7. Hamby, K.A.*, Bellamy, D.E., Chiu, J.C., Lee, J.C., Walton, V.M., Wiman, N.G., York, R.M., and Biondi, A. 2016. Biotic and abiotic factors impacting development, behavior, phenology, and reproductive biology of Drosophila suzukii. Journal of Pest Science. Invited Review. Special Issue: Spotted wing Drosophila DOI: 10.1007/s10340-016-0756-5


8. Haviland, D.R.*, Caprile, J.L., Rill, S.M., Hamby, K.A., and Grant, J.A. 2016. Phenology of spotted wing drosophila in the San Joaquin Valley varies by season, crop, and nearby vegetation. California Agriculture 70(1): 24-31. DOI: 10.3733/ca.v070n01p24


9. Hietala-Henschell K., Pelton E., and Guédot C. (2017) Susceptibility of aronia (Aronia melanocarpa) to Drosophila suzukii (Diptera:Drosophilidae). The Journal of the Kansas Entomological Society (in press)


10. Holle, S.G., E.C. Burkness, T.M. Cira, & W.D. Hutchison. 2017. Influence of previous fruit injury on susceptibility to spotted wing Drosophila (Diptera: Drosophilidae) infestation in the Midwestern United States. J. Entomol. Sci. 52(3):207-215. http://www.bioone.org/doi/abs/10.18474/JES16-07PT.1


11. Huang, J., L.J. Gut, and M. Grieshop. 2017. Evaluation of food-based attractants for spotted wing drosophila, Drosophila suzukii (Diptera: Drosophilidae). Envin Entomology. 46:878-884.


12. Kacar, G., X. Wang, A. Biondi, and K.M. Daane. 2017. Linear functional response by two pupal Drosophila parasitoids foraging within single or multiple patch environments. PLOS ONE 12(8).


13. Kirkpatrick, D.M., P.S. McGhee, LJ Gut, and JR Miller. 2017. Improving monitoring tools for spotted wing drosophila, Drosophila suzukii. Entomol. Exp ed Appl. 164 (in press)


14. Leach, H. J. Wise, and R. Isaacs (2017b). Reduced ultraviolet light transmission increased insecticide longevity in protected culture raspberry production. Chemosphere, doi: 10.1016/j.chemosphere.2017.09.086


15. Leach, H., Moses, E. P. Fanning, and R. Isaacs (2017a). Rapid harvest schedules and fruit removal as non-chemical approaches for managing spotted wing drosophila (Drosophila suzukii) in red raspberries. Journal of Pest Science, doi:10.007/s10340-017-0873-9.


16. Renkema, JM, Iglesias L, Bonneau P, Liburd, O. Trapping system comparisons for and factors affecting populations of Drosophila suzukii and Zaprionus indianus in Florida strawberry. Pest Management Science.


17. Rice, K.B., B.D. Short, and T.C. Leskey. 2017. Development of an attract-and-kill strategy for Drosophila suzukii to (Diptera: Drosophilidae): evaluation of attracticidal spheres under laboratory and field conditions. Journal of Economic Entomology 110: 535-542.


18. Rice, K.B., B.D. Short, S.K. Jones, and T.C. Leskey. 2016. Behavioral response of Drosophila suzukii to (Diptera: Drosophilidae) to visual stimuli under laboratory, semifield and field conditions. Environmental Entomology 45: 1480-1488.


19. Rice, K.B., S.K. Jones, W.R. Morrison, and T.C. Leskey. Spotted wing drosophila prefer low hanging fruit: insights into foraging behavior and management strategies. Insect behavior (accepted).


20. Rogers, M., E.C. Burkness & W.D. Hutchison. 2016. Evaluation of high tunnels for management of Drosophila suzukii in fall-bearing red raspberries: Potential for reducing insecticide use. J. Pest Science. 89(3): 815-821. https://doi.org/10.1007/s10340-016-0731-1.


21. Stockton, DC & Loeb, GM (2017). Refining the use of automatic sprayers in a push-pull system of oviposition disruption against Drosophila suzukii. (In prep)


22. Van Timmeren, S. Diepenbrock LM, Bertone MA, Burrack, HJ, Isaacs R (2017a). A filter method for improved monitoring of Drosophila suzukii (Diptera: Drosophilidae) larvae in fruit. Journal of Integrated Pest Management doi: 10.1093/jipm/pmx019.


23. Van Timmeren, S. Mota-Sanchez, D., Wise, JC, and Isaacs (2017b). Baseline susceptibility of spotted wing drosophila (Drosophila suzukii) to four key insecticide classes. Pest Manag. Sci. (accepted) Author Manuscript doi:10.1002/ps/4702.


24. Wallingford, A., Lee, J, Loeb, G. 2016. The influence of temperature and photoperiod on the reproductive diapause and cold tolerance of spotted-wing drosophila, Drosophila suzukii (Matsumura). Entomologia Exerimentalis et Applicata, 159:327-337. DOI: 10.1093/jee/tow116.


25. Wallingford, A.K., Cha, D.H., and Loeb, G. 2017. Evaluating a push-pull strategy for management of Drosophila suzukii Matsumura in red raspberries. Pest Management Science, DOI: 10.1002/ps.4666.


26. Wallingford, A.K., Cha, D.H., Linn, C.E., Wolfin, M., and Loeb, G. 2017. Robust manipulations of pest insect behavior using repellents and practical application for integrated pest management. Environmental Entomology, doi: 10.1093/ee/nvx125.


27. Wiman, N.G., Dalton, D.T., Anfora, G., Biondi A, Chiu, J.C., Daane, K.M., Gerdeman, B., Gottardello, A., Hamby, K.A., Isaacs, R., Grassi, A., Ioriatti, C., Lee, J.C., Miller, B., Rossi Stacconi, M.V., Shearer, P.W., Tanigoshi, L., Wang, X., and V.M. Walton*. 2016. Drosophila suzukii population response to environment and management strategies. Journal of Pest Science. Special Issue: Spotted wing Drosophila DOI:10.1007/s10340-016-0757-4

 

Extension Publications:

1. Alston, DG, LR Spears, C Nischwitz, and C Burfitt. 2016. Invasive fruit pest guide for Utah: insect and disease identification, monitoring, and management. Utah Plant Pest Diagnostic Laboratory and USU Extension.


2. Arsenault-Benoit, A., C. Taylor, B. Butler, and K. Hamby. 2017. Cultural controls for SWD management in blueberries and raspberries. University of Maryland Extension Vegetable and Fruit News: October 27, 2017.


3. Arsenault-Benoit, A., C. Taylor, B. Butler, and K. Hamby. 2017. Evaluating blueberry mulching practices on survival of spotted wing drosophila. University of Maryland Twilight Tours, WMREC August 17, 2017 and WyeREC August 2, 2017


4. Fraver, C., and Loeb, G. 2016. Can monitoring of adult SWD provide sufficient advanced warning? NYS Berry Grower's Association Newsletter, 2016 Issue, March 2016, p 1-3.


5. Hamby, K.A., and C.S. Swett. 2016. Partners in crime? Preliminary investigations into the interactions between SWD and fruit rots in fall red raspberries. The Bramble 31(1) Spring 2016.


6. Lewis, M., B. Butler, and K. Hamby. 2017. Optimizing carrier water volume for enhanced spray coverage in brambles. University of Maryland Twilight Tours, WMREC August 17, 2017 and WyeREC August 2, 2017.


7. Lewis, M., Butler, B., and K. Hamby. 2016. Optimizing carrier water volume for enhanced spray coverage in raspberries. University of Maryland Extension Vegetable and Fruit News: October 21, 2016 7(6): 24-27.


8. Michigan SWD Management Guide for cherries (2017 update)


9. MN Department of Agriculture Fruit IPM Newsletter (2-3x monthly)


10. Petran, A. and M. Rogers. 2017. Pruning and mulching for control of spotted wing drosophila: effects on fruit marketability and infestation. Am. Society for Horticultural Science, Sept. 19-22, Waikoloa, HI.


11. Riggs, D., Loeb, G., Hesler, S., and McDermott, L. 2016. Using insect netting on existing bird netting support systems to exclude spotted wing drosophila (SWD) from a small scale commercial highbush blueberry planting. NY Fruit Quarterly 24: 9-14.


12. Spears LR, C Cannon, DG Alston, RS Davis, C Stanley-Stahr and RA Ramirez 2017. Spotted wing drosophila (Drosophila suzukii). Fact Sheet ENT-187-17. Utah Plant Pest Diagnostic Laboratory and USU Extension.


13. Spears, LR, R Davis, DG Alston, and RA Ramirez. 2016. First detector guide to invasive insects: biology, identification, and monitoring. Utah Plant Pest Diagnostic Laboratory and USU Extension.


14. Taylor, C. Butler, B., and K. Hamby. 2016. If you can't take the heat, stay out of the mulch: How mulching practices affect spotted wing drosophila survival in blueberries. University of Maryland Extension Vegetable and Fruit News: October 21, 2016 7(6):1-3.


15. Wallingford, A. and Loeb, G. Spotted wing drosophila winter biology. 2016. NY Fruit Quarterly. NY Fruit Quarterly 24 (3): 11-13.


16. Wallingford, A., and Loeb, G. Spotted wing drosophila winter biology. 2016. NYS Berry Growers Association Newsletter, 2016 Issue 2, April 2016, p 1 -3.

 

06/10/2019

07/01/2020

WERA 1021 Publications (Research & Extension Combined):

Alston DG, LR Spears, C Nischwitz, and C Burfitt. 2016. Invasive fruit pest guide for Utah: insect and disease identification, monitoring, and management. Utah Plant Pest Diagnostic Laboratory and USU Extension.

Cha, D.H., Hesler, S.P., Brind’Amour, G., Wentworth, K., Villani, S., Cox, K., Boucher, M., Wallingford, A., Park, S., Nyrop, J., and Loeb, G. 2019. Evidence for contextural avoidance of the ubiquitous phytopathogen Botrytis cinerea by Drosophila suzukii.  Insect Science DOI: 10.1111/1744-7917.12691.

Cloonan, K.R, Hernández-Cumplido, J., Viana de Sousa, A.L., Ramalho, D.G., Burrack, H.J, Diepenbrock, L.M, Drummond, F.A., Gut, L.J., Issacs, R, Loeb, G.M, Nielsen. A.L, Nitzsche, P., Syed, Z^., Wallingford, A.K.¹, Walton, V.M., and Rodriguez-Saona, C. 2019. Laboratory and field evaluation of host-related foraging odor cue combinations to attract Drosophila suzukii (Diptera: Drosophilidae). J Economic Entomology, In Press.

Digiacomo, Gigi, J. Hadrich, W.D. Hutchison, H. Peterson, & M. Rogers. 2019. Economic impact of Sotted Wing Drosophila (Diptera: Drosophilidae) yield loss on Minnesota raspberry farms: A grower survey. J. Integ. Pest Mgmt. 10(1): 11, https://doi.org/10.1093/jipm/pmz006

Ebbenga, D., E.C. Burkness & W.D. Hutchison. 2019.  Exclusion netting as an alternative management strategy for Spotted-wing Drosophila (Diptera: Drosophilidae) in wine grapes. J. Econ. Entomol.  112(5): 2287–2294. 

Gustafson, M.G., M.A. Rogers, E.C. Burkness & W.D. Hutchison. 2019. Efficacy of organic and conventional insecticides for Drosophila suzukii when combined with erythritol, a non-nutritive feeding stimulant. Crop Protection. 125:  https://doi.org/10.1016/j.cropro.2019.104878

Holle, S., A. Tran, D. Ebbenga, E.C. Burkness & W.D. Hutchison. 2019. First detections of the African Fig Fly, Zaprionus indianus (Diptera: Drosophilidae) in Minnesota. J. Entomol. Sci. 54(1): 99-102.

Hutchison, WD, S Wold-Burkness, EC Burkness. 2019.  Spotted-wing Drosophila Biology & Management Guide. UMN Extension, St. Paul. (revised: also, Hmong, Spanish, Somali) https://www.fruitedge.umn.edu/swdbiology

Kamiyama M.T. and Guédot C. 2019. Varietal and developmental susceptibility of Wisconsin tart cherry (Prunus cerasus) to spotted wing drosophila (Drosophila suzukii). Journal of Economic Entomology. 112:1789-1797. doi: 10.1093/jee/toz102

Kamiyama M.T., Schreiner Z., and Guédot C. 2019. Diversity and abundance of natural enemies of Drosophila suzukii in Wisconsin, USA fruit farms. BioControl. https://doi.org/10.1007/s10526-019-09966-w

Klick, J., Rodriguez-Saona, C.R., Hernández Cumplido, J., Holdcraft, R.J., Urrutia, W.H., da Silva, R.O., Borges, R., Mafra-Neto, A., and Seagraves, M.P. 2019. Testing a novel attract and kill strategy for Drosophila suzukii (Diptera: Drosophilidae) management. J. Insect Sci. 19(1): 3; 1–6. doi: 10.1093/jisesa/iey132.

Jaffe B.D. and Guédot C. 2019. Vertical and temporal distribution of spotted-wing drosophila (Drosophila suzukii) and pollinators within cultivated raspberries. Pest Management Science. DOI 10.1002/ps.5343

Lewis, M.T., and Hamby, K.A. 2019. Differential impacts of yeasts on feeding behavior and development in larval Drosophila suzukii (Diptera:Drosophilidae). Scientific Reports: DOI: 10.1038/s41598-019-48863-1

Lewis, M.T., Koivunen, E.E., Swett, C.L., and Hamby, K.A. 2019. Associations between Drosophila suzukii (Diptera: Drosophilidae) and fungi in raspberries. Environmental Entomology: 48(1): 68-79. DOI: 10.1093/ee/nvy167

Loeb, G., Carroll, J., Mattoon, N., Rodriguez-Saona, C., Polk, D., McDemott, L., Nielsen, A. 2019. Spotted wing drosophila IPM in raspberries and blackberries. Northeast IPM SWD Working Group, Northeastern IPM Center. https://www.northeastipm.org/ipm-in-action/publications/spotted-wing-drosophila-ipm-in-raspberries-and-blackberries/

Rendon, D., Hamby, K.A., Aresenault-Benoit, A.L.^@, Taylor, C.M.^, Evans, R.K., Roubos, C.R., Sial, A.A., Rogers, M., Petran, A., Van Timmeren, S., Fanning, P., Isaacs, R. and Walton, V. 2019. Mulching as a cultural control strategy for Drosophila suzukii in blueberry. Pest Management Science: DOI: 10.1002/ps.5512

Rendon, D., Walton, V., Tait, G., Buser, J., Lemos Souza, I., Wallingford, A. Loeb, G., and Lee, J.  2019. Interactions among morphotype, nutrition, and temperature impact fitness of an invasive fly.  Ecology and Evolution. DOI:10.1002/ece3.4928

Rodriguez-Saona, C., Vincent, C., and Isaacs, R. 2019. Blueberry IPM: Past successes and future challenges. Annual Review of Entomology 64: 95–114.

Rodriguez- Saona, C., Cloonan, K.R., Sanchez-Pedraza, F., Zhou, Y., Giusti, M.M., and Benrey, B. 2019. Differential susceptibility of wild and cultivated blueberries to an invasive frugivorous pest. J. Chem. Ecol. 45: 286–297.

Rodriguez-Saona, C., D. Polk, and K. Cloonan. 2019. Using red sticky traps for spotted wing drosophila. Proceedings. Atlantic Coast Agricultural Convention and Trade Show. Atlantic City, New Jersey. 

Rodriguez-Saona, C, C. Michel, and N. Firbas. 2019. Efficacy of traps for monitoring spotted wing drosophila. Proceedings. Atlantic Coast Agricultural Convention and Trade Show. Atlantic City, New Jersey.

Rodriguez-Saona, C., D. Polk, and K. Cloonan 2019. Trapping for SWD vs. Infestation in Blueberries. Proceedings of the Mid-Atlantic Fruit & Vegetable Convention. Hershey, PA.

Rodriguez-Saona, C., Carroll, J., Mattoon, N., Polk, D., Loeb, G., McDemott, L., and Nielsen, A. 2019. Spotted wing drosophila IPM in blueberries. Northeast IPM SWD Working Group, Northeastern IPM Center. https://www.northeastipm.org/ipm-in-action/publications/spotted-wing-drosophila-ipm-in-blueberries/

Schöneberg, T., and Hamby, K. 2019. Potential of trellising for cultural management of spotted-wing drosophila in blackberries and raspberries. University of Maryland Extension Vegetable and Fruit News October 2019 10(7):12-14.

Spears LR, DG Alston, E Brennan, C Cannon, J Caputo, R Davis, L Hebertson, C Keyes, J Malesky, D McAvoy, AM Mull, RA Ramirez, TM Rodman, and K Watson. 2019. First detector guide to invasive insects: biology, identification, and monitoring. Utah Plant Pest Diagnostic Laboratory and USU Extension.

Spears LR, C Cannon, DG Alston, RS Davis, C Stanley-Stahr, and RA Ramirez. 2017. Spotted wing drosophila (Drosophila suzukii). Fact Sheet ENT-187-17. Utah Plant Pest Diagnostic Laboratory and USU Extension.

Spears LR, R Davis, DG Alston, and RA Ramirez. 2016. First detector guide to invasive insects: biology, identification, and monitoring. Utah Plant Pest Diagnostic Laboratory and USU Extension

Spears LR and RA Ramirez. 2014. Invasive insect field guide for Utah. Utah Plant Pest Diagnostic Laboratory and USU Extension.

Stanley C. 2012. Monitoring for spotted wing drosophila in Utah. Fact Sheet ENT-161-12. Utah Plant Pest Diagnostic Laboratory and USU Extension.

Stanley C. 2011. Trapping and identifying spotted wing drosophila. Video Fact Sheet. Utah Plant Pest Diagnostic Laboratory and USU Extension.

Stockton, D., Brown, R., and Loeb, G.  2019. Not very hungry? Discovering the hidden food sources of a small fruit specialist, Drosophila suzukii. Ecological Entomology, DOI: 10.1111/een.12766.

Stockton, D., Wallingford, A., Rendon, D., Fanning, P., Green, C., Diepenbrock, L., Ballman, E., Walton, V., Isaacs, R., Leach, H., Drummond, F., Burrack, H, & Loeb, G. 2019. Interactions between biotic and abiotic factors affect survival in overwintering Drosophila suzukii (Matsumura). Environmental Entomology, doi: 10.1093/ee/nvy192.

Swett, C.L., Hamby, K.A., Hellman, E.M., Carignan, C., Bourret, T.B., and Koivunen, E.E. 2019. Characterizing members of the Cladosporium cladosporioides species complex as fruit rot pathogens of red raspberries in the Mid-Atlantic and co-occurrence with Drosophila suzukii (spotted wing drosophila). Phytoparasitica: 77: 415-428. DOI: 10.1007/s12600-019-00734-1

Tran, A.K., W.D. Hutchison & M.K. Asplen. 2020. Morphometric criteria to differentiate Drosophila suzukii (Diptera: Drosophilidae) seasonal morphs. PLoS ONE 15(2): e0228780. https://doi.org/10.1371/journal.pone.0228780