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This project has received funding from the European Union's Seventh Framework Programme for research, technological development and demonstration under grant agreement no 613678

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Strategies to develop effective, innovative and practical approaches to protect major european fruit crops from pests and pathogens

List of Dropsa related publications

2014

Cuthbertson A, Blackburn L, Audsley N (2014). Efficacy of commercially available invertebrate predators against Drosophila suzukii. Insects 5(4):952-960. 10.3390/insects5020488

Donati I, Buriani G, Cellini A, Mauri S, Costa G, Spinelli F (2014). New insights on the bacterial canker of kiwifruit (Pseudomonas syringae pv. actinidiae). Journal of Berry Research 4:53-97.

Kastelein P, Krijger M, Czajkowski R, van der Zouwen PS, van der Schoor R, Jalink H, van der Wolf JM (2014). Development of Xanthomonas fragariae populations and disease progression in strawberry plants after spray-inoculation of leaves. Plant Pathology 63(2):255-263. http://10.1111/ppa.12090

Pattemore DE, Goodwin RM, McBrydie HM, Hoyte SM, Vanneste JL (2014). Evidence of the role of honey bees (Apis mellifera) as vectors of the bacterial plant pathogen Pseudomonas syringae. Australasian Plant Pathology 43(5):571-575. http://10.1007/s13313-014-0306-7

Poirié M, Colinet D, Gatti J-L (2014). Insights into function and evolution of parasitoid wasp venoms. Current Opinion in Insect Science 6:52-60. http://dx.doi.org/10.1016/j.cois.2014.10.004

Scortichini M, Ferrante P, Marcelletti S, Petriccione M (2014). Omics, epidemiology and integrated approach for the coexistence with bacterial canker of kiwifruit, caused by Pseudomonas syringae pv. actinidiae. Italian Journal of Agronomy 9(4):163 http://10.4081/ija.2014.606

2015

Audsley N, Down RE (2015). G protein coupled receptors as targets for next generation pesticides. Insect Biochemistry and Molecular Biology 67:27-37. http://10.1016/j.ibmb.2015.07.014

Audsley N, Down RE, Isaac RE (2015). Genomic and peptidomic analyses of the neuropeptides from the emerging pest, Drosophila suzukii. Peptides 68:33-42 http://dx.doi.org/10.1016/j.peptides.2014.08.006

Burrack HJ, Asplen H, Bahder L, Collins J, Drummond FA, Guedot C, Isaacs R, Johnson D, Blanton A, Lee JC, Loeb G, Rodriguez-Saona C, van Timmeren S, Walsh D, McPhie DR (2015). Multistate comparison of attractants for monitoring Drosophila suzukii (Diptera: Drosophilidae) in blueberries and caneberries. Environmental Entomology, http://dx.doi.org/10.1093/ee/nvv022

Lee JC, Dreves AJ, Cave AM, Kawai S, Isaacs R, Miller JC, Van Timmeren S, Bruck DJ (2015). Infestation of wild and ornamental non-crop fruits by Drosophila suzukii (Diptera: Drosophilidae). Annals of the Entomological Society of America 108(2):117-129 http://10.1093/aesa/sau014

Ferguson CTJ, O'Neill TL, Audsley N, Isaac RE (2015). The sexually dimorphic behaviour of adult Drosophila suzukii: elevated female locomotor activity and loss of siesta is a post-mating response. Journal of Experimental Biology 218(23):3855-3861. http://10.1242/jeb.125468

Ferrante P, Takikawa Y, Scortichini M (2015). Pseudomonas syringae pv. actinidiae strains isolated from past and current epidemics to Actinidia spp. reveal a diverse population structure of the pathogen. European Journal of Plant Pathology 142(4):677-689. http://10.1007/s10658-015-0643-6

Ferrante P, Scortichini M (2015). Redefining the global populations of Pseudomonas syringae pv. actinidiae based on pathogenic, molecular and phenotypic characteristics. Plant Pathology 64:51-62 http://10.1111/ppa.12236

Lacovone A, Girod P, Ris N, Weydert C, Gibert P, et al. (2015) Worldwide invasion by Drosophila suzukii: does being the “cousin” of a model organism really help setting up biological control? Hopes, disenchantments and new perspectives. Rev d’Ecologie “La Terre la Vie” 70: 1–8. http://documents.irevues.inist.fr/bitstream/handle/2042/57898/RevuedEcologie_2015_70_Sup12_207.pdf?sequence=1

Loreti S, Pucci N, Perez G, Catara V, Scortichini M, Bella P, Ferrante P, Giovanardi D, Stefani E (2015). Detection and identification of Xanthomonas arboricola pv. pruni from symptomless plant material: results of an Italian test performance study. EPPO Bulletin 45(1):41-51 http://10.1111/epp.12194

Mathé-Hubert H, Gatti J-L, Colinet D, Poirié M, Malausa T (2015). Statistical analysis of the individual variability of 1D protein profiles as a tool in ecology: an application to parasitoid venom. Molecular Ecology Resources 15(5):1120-1132. http://10.1111/1755-0998.12389

Palacio-Bielsa A, López-Soriano P, Bühlmann A, van Doorn J, Pham K, Cambra MA, Berruete IM, Pothier JF, Duffy B, Olmos A, López MM (2015). Evaluation of a real-time PCR and a loop-mediated isothermal amplification for detection of Xanthomonas arboricola pv. pruni in plant tissue samples. Journal of Microbiological Methods 112:36-39.

Steffen K, Grousset F, Petter F, Suffert M, Schrader G (2015). EU-project DROPSA: first achievements regarding pathway analyses for fruit pests. EPPO Bulletin 45(1):148-152. http://10.1111/epp.12179

Steffen K, Grousset F, Schrader G, Petter F, Suffert M (2015). Identification of pests and pathogens recorded in Europe with relation to fruit imports. EPPO Bulletin 45(2):223-239. http://10.1111/epp.12215

2016

Cuthbertson A, Audsley N (2016). Further screening of entomopathogenic fungi and nematodes as control agents for Drosophila suzukii. Insects 7(2):24. http://10.3390/insects7020024

Haye T, Girod P, Cuthbertson AGS, Wang WG, Daane KM, Hoelmer KA, Baroffio C, Zhang JP, Desneux N (2016). Current SWD IPM tactics and their practical implementation in fruit crops across different regions around the world. Journal of Pest Science 89(3):643-651. http://10.1007/s10340-016-0737-8

Kenis M, Tonina L, Eschen R, van der Sluis B, Sancassani M, Mori N, Haye T, Helsen H (2016). Non-crop plants used as hosts by Drosophila suzukii in Europe. Journal of Pest Science 89(3):735-748. http://10.1007/s10340-016-0755-6

Tonina L, Mori N, Giomi F, Battisti A (2016). Development of Drosophila suzukii at low temperatures in mountain areas. Journal of Pest Science 89(3):667-678. http://10.1007/s10340-016-0730-2

2017

Chen X, Zhang L-M, Li W-H, Wang Y-H, Chen R-K, Xiao C, Li Z-Y (2017) Formulation Screening of Attractant and Field Trapping Test to Drosophila suzukii Matsumura. Hubei Agricultural Sciences 56(6):1072-1077.

Chen X, Wu D-H, Zhang L-M, Zan Q-A, Zhang F, Xiao C, Li Z-Y (2017). Morphological study of immature stages of Drosophila suzukii (Matsumura) (Diptera: Drosophilidae). Chinese Journal of Applied Entomology 2017, 54(3): 481-488. DOI: 10.7679/j.issn.2095-1353.2017.059

Gétaz M, Bühlmann A, Schneeberger PHH, Van Malderghem C, Duffy B, Maes M, Pothier JF, Cottyn B (2017). A diagnostic tool for improved detection of Xanthomonas fragariae using a rapid and highly specific LAMP assay designed with comparative genomics. Plant Pathology. http://10.1111/ppa.12665

Gétaz M, van der Wolf JM, Blom J, Pothier JF (2017). Complete genome sequences of three isolates of Xanthomonas fragariae , the bacterium responsible for angular leaf spots on strawberry plants. Genome Announcement 5(32):e00642-17. http://10.1128/genomeA.00642-17

Gough CS, Fairlamb GM, Bell P, Nachman RJ, Audsley N, Isaac RE (2017). Peptidergic control in a fruit crop pest: The spotted-wing drosophila, Drosophila suzukii. PLoS One 12(11):e0188021. http://10.1371/journal.pone.0188021

Holt J, Leach AW, MacLeod A, Tomlinson D, Christodoulou M and Mumford JD (2017). A quantitative model for trade pathway analysis of plant pest entry and transfer to a host in European Union territory. Bulletin OEPP/EPPO Bulletin (2017) 47 (2), 220–226. ISSN 0250-8052. DOI:10.1111/epp.12394

Kremmer, L., David, J., Borowiec, N., Thaon, M., Ris, N., Poirié, M., Gatti, J.-L. (2017). The African fig fly Zaprionus indianus: a new invasive pest in France? Bulletin of Insectology, 70 (1), 57-62.

Kremmer L, Thaon M, Borowiec N, David J, Poirié M, et al. (2017) Field Monitoring of Drosophila suzukii and Associated Communities in South Eastern France as a Pre-Requisite for Classical Biological Control. Insects 8: 124. doi:10.3390/insects8040124.

Li R-Y, Xiong Y, Li C-Y, Li M-Y, Hu C-H, Li H-Y, Jiang S-K, He L-Y, Yang X-C, Zhang L, Xiao C (2017). Effect of greenhouse on the occurrence and damage caused by Drosophila suzukii Matsumura in bayberry orchards. Chinese Journal of Applied Entomology 54(5):742-748.
DOI:10.7679/j.issn.2095-1353.2017.090

Liu B, Li M-Y, Xiong Y, Li S-N, Hu C-H, Xiao C, Tang G-W (2017). Mating behavior of Trichopria drosophilae and the effect of male mating frequency on the production of female offspring. Chinese Journal of Applied Entomology 54(5):749-754. DOI: 10.7679/j.issn.20951353.2017.091

Liu B, Li M-Y, Xiong Y, Li S-N, Hu C-H, Xiao C, Tang G-W (2017). Mating behavior of Trichopria drosophilae and the effect of male mating frequency on the production of female offspring. Chinese Journal of Applied Entomology 54(5):749-754. DOI: 10.7679/j.issn.20951353.2017.091

Liu Y, Xie D-S, Zhang J-P, Hu C-H, Zhang J-M, Xiong Y, Liu B, Dong W-X (2017). Oviposition preferences and reproductive success of Drosophila suzukii on 4 non-host fruits. Chinese Journal of Applied Entomology 54(1):107-112. DOI: 10.7679/j.issn.2095-1353.2017.012

Liu Y, Xie D-S, Zhang J-P, Hu C-H, Zhang J-M, Xiong Y, Liu B, Dong W-X (2017). Oviposition preferences and reproductive success of Drosophila suzukii on 4 non-host fruits. Chinese Journal of Applied Entomology 54(1):107-112. DOI: 10.7679/j.issn.2095-1353.2017.012

Liu Y, Xie D-S, Zhang J-P, Hu C-H, Chen L, Xiao C (2017). The orientation behavior of Drosophila suzukii is influenced by the fruits and the volatiles of Chinese bayberries at different stages of ripeness. Chinese Journal of Applied Entomology 54(5):716-723. DOI:10.7679/j.issn.2095-1353.2017.087

Martinez-Sañudo I, Simonato M, Squartini A, Mori N, Marri L, Mazzon Luca (2017). Metagenomic analysis reveals changes of the Drosophila suzukii (Matsamura) microbiota in the newly colonised regions. Insect Science DOI: 10.1111/1744-7917.12458

Petriccione M, Zampella L, Mastrobuoni F, Scortichini M (2017). Occurrence of copper-resistant Pseudomonas syringae pv. syringae strains isolated from rain and kiwifruit orchards also infected by P. s. pv. actinidiae. European Journal of Plant Pathology. http://0.1007/s10658-017-1246-1

Ruiz C, Nadal A, Montesinos E, Pla M (2017). Novel Rosaceae plant elicitor peptides as sustainable tools to control Xanthomonas arboricola pv. pruni in Prunus spp. Molecular Plant Pathology. http://10.1111/mpp.12534

Ruinelli M, Schneeberger PHH, Ferrante P, Bühlmann A, Scortichini M, Vanneste JL, Duffy B, Pothier JF (2017). Comparative genomics-informed design of two LAMP assays for detection of the kiwifruit pathogen Pseudomonas syringae pv. actinidiae and discrimination of isolates belonging to the pandemic biovar 3. Plant Pathology 66(1):140-149. http://10.1111/ppa.12551

Tonina L, Grassi A, Stefano S, Mori N, Gottardello A, Anfora G, Giomi F, Vaccari GE, Loriatti C (2017). Comparison of attractants for monitoring Drosophila suzukii in sweet cherry orchards in Italy. Journal of Applied Entomology. DOI: 10.1111/jen.12416

Wilstermann A, Schrader G, Kehlenbeck H, Robinet C (2017). Potential spread of kiwifruit bacterial canker (Pseudomonas syringae pv. actinidiae) in Europe. EPPO Bulletin 47(2):255-262. DOI:10.1111/epp.12385

Wilstermann A, Schrader G, Kehlenbeck H, Robinet C (2017). Potential spread of kiwifruit bacterial canker (Pseudomonas syringae pv. actinidiae) in Europe. EPPO Bulletin 47(2):255-262. DOI:10.1111/epp.12385

Wu H, Fand Y, Xie D-S, Chen Z-J Dou W-J, Zhang F, Chen G-H (2017). A preliminary Drosophila suzukii life table. Chinese Journal of Applied Entomology 54(5): 730-741. DOI:10.7679/j.issn.2095-1353.2017.089

Zhao C, LI P, Xie D-S, Hu C-H, Xiong Y, He L-Y, Li W-H, Xiao C, Yang P-Y, Li Z-Y (2017). The seasonal abundance of Drosophila suzukii in orchards and seasonal variation in fruit damage caused by this pest. Chinese Journal of Applied Entomology 54(5):724-729.
DOI:10.7679/j.issn.2095-1353.2017.088

2018

Shawer R, Tonina L, Tirello P, Duso C, Mori N (2018). Laboratory and field trials to identify effective chemical control strategies for integrated management of Drosophila suzukii in European cherry orchards. Crop Protection 103, 73–80. DOI.org/ 10.1016/j.cropro.2017.09.010