* Zamharir MG, Paltrinieri S, Hajivand S, Taheri M, Bertaccini A (2017) Molecular identification of diverse ‘Candidatus Phytoplasma’ species associated with grapevine decline in Iran. Journal of Phytopathology 165(7-8), 407-413.
------- "related strain"
* Canik D, Ertunc F, Paltrinieri S, Contaldo N & Bertaccini A (2011) Identification of different phytoplasmas infecting grapevine in Turkey. Bulletin of Insectology 64, S225-S226.
------- "related strain"
* Kyriakopoulou PE, Giunchedi L, Barba M, Boubourakas IN, Kaponi M, Hadidi A (2017) Peach Latent Mosaic Viroid in Temperate Fruit Trees Other Than Peach In: A Hadidi, R Flores, JW Randles and P Palukaitis (eds). Viroids and Satellites. Elsevier, London, UK. pp. 317–330.
------- reported as hosts of PLMVd, as revealed by tissue print hybridization, which may require confirmation by amplification using reverse-transcription polymerase chain reaction (RT-PCR) and sequencing.
Reported as a host by Han & Lee (2010) but Sarto i Monteys & Torras report that it was not used in laboratory conditions.
* Han Y, Lee D (2010) Taxonomic review of the genus Xylotrechus (Coleoptera: Cerambycidae: Cerambycinae) in Korea with a newly recorded species. Korean Journal of Applied Entomology 49(2), 69–82. https://doi.org/10.5656/KSAE.2010.49.2.069
* Lin M, Ge S, Xiao N (2021) A study of the genus Xylotrechus Chevrolat (Coleoptera: Cerambycidae) from Beijing, China. Entomotaxonomia 43(3), 20 pp. https://doi.org/10.11680/entomotax.2021021
* Sarto i Monteys V, Torras G (2018) A new alien invasive longhorn beetle, Xylotrechus chinensis (Cerambycidae), is infesting mulberries in Catalonia (Spain). Insects. 9(2): 52. pmid:29747428
* Vasquez Gutierrez U, López López H, Frías Treviño GA, Delgado Ortiz JC, Flores Olivas A, Aguirre Uribe LA, Hernández Juarez A (2024) Biological exploration and physicochemical characteristics of Tomato Brown Rugose Fruit Virus in several host crops. Agronomy 14(2), 388. https://doi.org/10.3390/agronomy14020388
------- local symptoms in inoculation trials in field conditions.
* Dubey AK, Ko CC (2012) Sexual dimorphism among species of Aleurocanthus Quaintance & Baker (Hemiptera: Aleyrodidae) in Taiwan, with one new species and an identification key. Zootaxa 3177, 1–23.
* Nugnes F, Laudonia S, Jesu G, Jansen MGM, Bernardo U, Porcelli F (2020) Aleurocanthus spiniferus (Hemiptera: Aleyrodidae) in some European countries: diffusion, hosts, molecular characterization, and natural enemies. Insects 11(1), 42. https://doi.org/10.3390/insects11010042
------- Confirmed host.
* Boopathi T (2022) New host plants, natural enemy complex and newly distributed potential areas of exotic spiralling whitefly (Hemiptera: Aleyrodidae) in India. Phytoparasitica 50(2), 335-357.
* Martelli GP (2017) An overview of grapevine viruses, viroids and the diseases they cause. In: Meng B, Martelli GP, Golino DA, Fuchs M (eds), Grapevine Viruses: Molecular Biology, Diagnostics and Management, Springer pp.31-46.
* Nasca AJ, Zamora JA, Vergara LE, Jaldo HE (1996) Hospederos de moscas de los frutos en el Valle de Antinaco-Los Colorados, Provincia de La Rioja, República Argentina. Revista de Investigación 10, 19–24.
* Stone A (1942) The fruitflies of the genus Anastrepha. USDA Miscellaneous Publications 439, 112 pp.
* Zart M, Fernandes OA, Botton M (2010) Biology and fertility life table of the South American fruit fly Anastrepha fraterculus on grape. Bulletin of Insectology 63(2), 237-242.
* Zart M, Botton M, Fernande OA (2011) Injúrias causadas por mosca-das-frutas-sul-americana em cultivares de videira. Bragantia, Campinas 70(1), 64-71.
* He Y, Xu Y, Chen X (2023) Biology, ecology and management of Tephritid fruit flies in China: A review. Insects 14, 196. https://doi.org/10.3390/insects14020196
* Huang Y (2006) Monitoring of fruit fly species and preliminary investigation of host plant in Fujian Province. Subtropical Agriculture Research 2(1), 49-52.
* Hancock D, Hamacek EL, Lloyd AC, Elson-Harris MM (2000) The distribution and host plants of fruit flies (Diptera: Tephritidae) in Australia. Queensland Department of Primary Industries, 75 pp.
* Saccaggi DL, Ueckermann EA, du Toit I, Ngubane-Ndhlovu NP (2017) First records of Brevipalpus lewisi McGregor (Acari: Trombidiformes: Tenuipalpidae) in South Africa, with notes on distribution and field ecology. African Entomology, 25(2), 523-528
------- confirmed host
* Saccaggi DL, Ueckermann EA, du Toit I, Ngubane-Ndhlovu NP (2017) First records of Brevipalpus lewisi McGregor (Acari: Trombidiformes: Tenuipalpidae) in South Africa, with notes on distribution and field ecology. African Entomology, 25(2), 523-528
------- confirmed host
* Constable FE, Whiting JR, Jones J, Gibb KS, Symons RH (2003) The distribution of grapevine yellows disease associated with the Buckland Valley grapevine yellows phytoplasma. Journal of Phytopathology 151(2), 65-73.
* Gajardo A, Fiore N, Prodan S, Partrinieri S, Botti S, Ping AM, Zamorano A, Montealegre J, Bertaccini A (2009) Phytoplasmas associated with grapevine yellows disease in Chile.- Plant Disease 93, 789-796.
* Fiore N, Prodan S, Paltrinieri S, Gajardo A, Botti S, Pino A M, Montealegre J, Bertaccini A (2007) Molecular characterization of phytoplasmas in Chilean grapevines. Bulletin of Insectology 60, 331.
* Gajardo A, Fiore, N, Prodan S, Paltrinieri S, Botti S, Pino AM, Zamorano A, Montealegre J, Bertaccini A (2009) Phytoplasmas associated with grapevine yellows disease in Chile. Plant Disease 93, 789-796.
* Zambon Y, Canel A, Bertaccini A, Contaldo N (2018) Molecular diversity of phytoplasmas associated with grapevine yellows disease in north-eastern Italy. Phytopathology 108, 206-214.
* De Meyer M., Copeland RS, Lux SA, Mansell M, Quilici S, Wharton R, White IM, Zenz NJ (2002) Annotated check list of host plants for Afrotropical fruit flies (Diptera: Tephritidae) of the genus Ceratitis. Zoologische Documentatie Koninklijk Museum voor Midden Afrika 27, 1-91.
* Ventura MU, Roberto SR, Hoshino AT, Carvalho MG, Hata FT, Genta W (2016) First record of Heliothis virescens (Lepidoptera: Noctuidae) damaging table grape bunches. Florida Entomologist 98(2), 783-786.
------- Alternative host, pest damaged bunches.
* EPPO (2024) EPPO Technical Document No. 1091. Pest risk analysis for Chloridea virescens. EPPO, Paris. Available at https://gd.eppo.int/taxon/HELIVI/documents
------- Main host (evidence that the plant supports populations of the pest in several generations or years, i.e. true hosts, or plant mentioned as common or preferred host – see PRA for further details on the host)
* Bishop GC (1978) Studies on silver leaf disease of stone and pome fruit trees (Doctoral dissertation, Adelaide, Australia), 155 pp. https://digital.library.adelaide.edu.au/dspace/bitstream/2440/20649/2/02whole.pdf
* Echeverrigaray S, Scariot FJ, Fontanella G, Favaron F, Sella L, Santos MC, Schwambach J, Pedrotti C, Delamare APL (2020) Colletotrichum species causing grape ripe rot disease in Vitis labrusca and V. vinifera varieties in the highlands of southern Brazil. Plant Pathology, 69, 1504–1512.
* Lim YS, Hassan O, Chang T (2020) First report of anthracnose of shine muscat caused by Colletotrichum fructicola in Korea. Mycobiology 48(1), 75-79.
* Ben-Dov Y, German V (2003) A systemic catalogue of the Diaspididae (armoured scale insects) of the world, subfamilies Aspidiotinae, Comstockiellinae and Odonaspidinae. Intercept Ltd, Andover UK, 1111 pp.
* Nielson MW (1968) The leafhopper vectors of phytopathogenic viruses (Homoptera, Cicadellidae): taxonomy, biology, and virus transmission. United States Department of Agriculture, Agricultural Research Service. Technical Bulletin 1382. 384 pp.
* Nielson MW (1968) The leafhopper vectors of phytopathogenic viruses (Homoptera, Cicadellidae): taxonomy, biology, and virus transmission. United States Department of Agriculture, Agricultural Research Service. Technical Bulletin 1382. 384 pp.
* Clark SM, LeDoux DG, Seeno TN, Riley EG, Gilbert AJ, Sullivan JM (2004) Host plants of leaf beetle species occurring in the United States and Canada (Coleoptera: Megalopodidae, Orsodacnidae, Chrysomelidae, excluding Bruchinae). Coleopterists Society, Special Publication 2, 615 pp.
------- Adult host.
* Gill RJ (2022) 3.3.1 centipede grass ground pearl Dimargarodes meridionalis (Morrison, 1927) (Hemiptera: Coccomorpha: Margarodidae). p. 62-64 In: Chapter 3 Margarodidae. Encyclopedia of Scale Insect Pests (eds. Kondo T, Watson GW). CABI Wallingford, Oxfordshire, UK. 608 pp.
------- in Imperial Valley of California (USA), recorded feeding on Vitis vinifera, cysts found on grape rootlets
* Goodey JB, Franklin MT, Hooper DJ (1965) T. Goodey's: The Nematode Parasites of Plants Catalogued Under Their Hosts. Commonwealth Agricultural Bureaux, Farnham Royal, Bucks, England. Third edition, 214 pp.
* Bellamy DE, Sisterson MS, Walse SS (2013) Quantifying host potentials: indexing postharvest fresh fruits for spotted wing drosophila, Drosophila suzukii. PLoS One 8(4), e61227.
* Ioriatti C, Walton V, Dalton D, Anfora G, Grassi A, Maistri S, Mazzoni V (2015) Drosophila suzukii (Diptera: Drosophilidae) and its potential impact to wine grapes during harvest in two cool climate wine grape production regions. Journal of Economic Entomology 108(3), 1148-1155.
* Ioriatti C, Guzzon R, Anfora G, Ghidoni F, Mazzoni V, Roman Villegas T, Dalton DT, Walton VM (2018) Drosophila suzukii (Diptera: Drosophilidae) contributes to the development of sour rot in grape. Journal of Economic Entomology 111(1), 283-292.
* Migeon A & Dorkeld F (2024) Spider Mites Web: a comprehensive database for the Tetranychidae. Available from https://www1.montpellier.inrae.fr/CBGP/spmweb (Accessed 2024/04/23)
* Eskalen A, Stouthamer R, Lynch SC, Rugman-Jones PF, Twizeyimana M, Gonzalez A, Thibault T (2013) Host range of Fusarium dieback and its ambrosia beetle (Coleoptera: Scolytinae) vector in southern California. Plant Disease 97(7), 938-951.
* van Rooyen E, Paap T, de Beer W, Townsend G, Fell S, Nel WJ, Morgan S, Hill M, Gonzalez A, Roets F (2021) The polyphagous shot hole borer beetle: Current status of a perfect invader in South Africa. South African Journal of Science 117(11/12). https://doi.org/10.17159/sajs.2021/9736
------- As Euwallacea fornicatus sensu stricto. Non-reproductive host in South Africa.
* Mendel Z, Lynch SC, Eskalen A, Protasov A, Maymon M, Freeman S (2021) What determines host range and reproductive performance of an invasive ambrosia beetle Euwallacea fornicatus; lessons from Israel and California. Frontiers in Forests and Global Change 4, 654702.
------- Non reproductive host tree in California (US).
* van Rooyen E, Paap T, de Beer W, Townsend G, Fell S, Nel WJ, Morgan S, Hill M, Gonzalez A, Roets F (2021) The polyphagous shot hole borer beetle: Current status of a perfect invader in South Africa. South African Journal of Science 117(11/12). https://doi.org/10.17159/sajs.2021/9736
------- Non-reproductive host.
* İbrahim TE, Atakan E (2022) Investigation of thrips (Thysanoptera) species, their population changes and damage rates in vineyards of Mersin Province (Türkiye). Turkish Journal of Entomology 46(2), 199-210.
* Moleas T, Baldacchino F, Addante R (1996) Integrated control of Frankliniella occidentalis (Pergande) on table grapes in 1992-94. Difesa delle Piante, 19(1), 41-48.
* Saguez J, Olivier C, Hamilton A, Lowery T, Stobbs L, Lasnier J, Galka B, Chen X, Mauffette Y, Vincent C (2014) Diversity and abundance of leafhoppers in Canadian vineyards. Journal of Insect Science 14(73). 20 pp.
* Bergmann E, Bernhard KM, Bernon G, Bickerton M, Gill S, Gonzales C, Hamilton GC, Hedstrom C, Kamminga K, Koplinka-Loehr C, Krawczyk G, Kuhar TP, Kunkel B, Lee J, Leskey TC, Martinson H, Nielsen AL, Raupp M, Shearer P, Shrewsbury P, Walgenbach J, Whalen J, Wiman N (online) Host Plants of the Brown Marmorated Stink Bug in the U.S. https://www.stopbmsb.org/where-is-bmsb/host-plants
* Holthouse MC, Spears LR, Alston DG (2021) Urban host plant utilisation by the invasive Halyomorpha halys (Stål) (Hemiptera, Pentatomidae) in northern Utah. NeoBiota 64, 87–101. https://doi.org/10.3897/neobiota.64.60050
* Kehrli P, Rösti J, Lorenzini F, Deneulin P, Linder C (2021) Influence of processed Halyomorpha halys bugs on the aroma and taste of 'Chardonnay' and 'Merlot' musts and wines. Vitis 60, 43-50.
------- Contamination with H. halys has the potential to alter the taste of grape juices, but little risk to alter the taste of processed wines.
* Mityushev IM (2021) Host plants of Halyomorpha halys in the urban ecosystem on the Azov Sea Coast of Russia. EPPO Bulletin 51(2), 305-310.
------- Sporadic on this plant and no significant damage observed in the studied area.
* Nannini R, Bortolotti PP, Casoli L, Montevecchi G, Masino F, Antonelli A, Preti M (2018) [Survey on Halyomorpha halys infestations and damage in grapevine productions]. Atti Giornate Fitopatologiche 1, 295-300 (in Italian).
------- Surveys in Modena and Reggio Emilia provinces (2014): frequency of infestations was moderate, serious damage observed only in a few cases.
* Bella S, Aguin-Pombo D, Aguiar AM, Kunz G, Miralles-Nunez A, Foster S, Sanchez-Garcia I, Wilson MR, D’Urso VE (2022) Discovery of Hishimonus diffractus Dai, Fletcher & Zhang, 2013 (Hemiptera: Auchenorrhyncha: Cicadellidae) in Europe, with remarks on previously recorded species of the genus. Zootaxa 5159(4), 558–570. https://doi.org/10.11646/zootaxa.5159.4.5
* Almeida RPP, Purcell AH (2003) Transmission of Xylella fastidiosa to grapevines by Homalodisca coagulata (Hemiptera: Cicadellidae). Journal of Economic Entomology 96, 264-271.
* Blua MJ, Phillips PA & Redak RA (1999) A new sharpshooter threatens both crops and ornamentals. California Agriculture 53(2), 22-25.
* Adlerz WC (1980) Ecological observations on two leafhoppers that transmit the Pierce’s disease bacteria. Proceedings of the Florida State Horticultural Society 93, 115-120.
------- Adults and nymphs were observed on Vitis sp.
* Hoddle MS, Triapitsyn SV, Morgan DJW (2003) Distribution and plant association records for Homalodisca coagulata (Hemiptera: Cicadellidae) in Florida. Florida Entomologist 86(1), 89-91.
* Turner WF, Pollard HN (1959) Life histories and behavior of five insect vectors of phony peach disease. United States Department of Agriculture, Technical Bulletin 1188, 28 pp.
-------- Feeding host.
* Fajardo TVM, Eiras M, Nickel O (2018) First report of Hop stunt viroid infecting Vitis gigas, V. flexuosa and Ampelopsis heterophylla. Australasian Plant Disease Notes 13(3). https://doi.org/10.1007/s13314-017-0287-9
* Matousek J, Orctova L, Patzak J, Svoboda P, Ludvikova I (2003) Molecular sampling of hop stunt viroid (HSVd) from grapevines in hop production areas in the Czech Republic and hop protection. Plant, Soil and Environment 49(4), 168-175.
* Sano T, Mimura R, Ohshima K (2001) Phylogenetic analysis of hop and grapevine isolates of hop stunt viroid supports a grapevine origin for hop stunt disease. Virus Genes 22, 53–59.
* Martelli GP (2017) An overview of grapevine viruses, viroids and the diseases they cause. In: Meng B, Martelli GP, Golino DA, Fuchs M (eds), Grapevine Viruses: Molecular Biology, Diagnostics and Management, Springer pp.31-46.
* Sforza R (2008) Espèces invasives en viticulture. Paper presented at the ‘8ème Conférence Internationale sur les ravageurs en agriculture’ (Montpellier, FR, 2008-10-23/23), 535-546.
* Arkam M, Alves A, Lopes A, Čechová J, Pokluda R, Eichmeier A, Zitouni A, Mahamedi AE, Berraf-Tebbal A (2021) Diversity of Botryosphaeriaceae causing grapevine trunk diseases and their spatial distribution under different climatic conditions in Algeria. European Journal of Plant Pathology 161(4), 933-952.
------- confirmed host.
* Elsensohn JE, Nixon LJ, Kloos A, Leskey TC (2023) Development and survivorship of Lycorma delicatula (Hemiptera: Fulgoridae) on cultivated and native Vitis spp. (Vitales: Vitaceae) of the Eastern United States. Journal of Economic Entomology 116(6), 2207-2211. https://doi.org/10.1093/jee/toad198
* Barringer L, Ciafré CM (2020) Worldwide feeding host plants of spotted lanternfly, with significant additions from North America. Environmental Entomology 49(5), 999–1011.
* Park JD, Kim M-Y, Lee S-G, Shin S-C, Kim J, Park I-K (2009) Biological characteristics of Lycorma delicatula and the control effects of some Insecticides. Korean Journal of Applied Entomology 48(1), 53-57.
------- Adults / nymphs feeding and very serious damage were observed in Korea.
* De Klerk CA (1985) Occurrence of South African species of Margarodes Guilding (Homoptera: Coccoidea: Margarodidae) with special reference to vine infesting species. Phytophylactica 17(4), 215-216.
* Itoh Y, Ohshima Y, Ichinohe M (1969) A root–knot nematode, Meloidogyne mali n. sp. on apple–tree from Japan (Tylenchida: Heteroderidae). Applied Entomology and Zoology 4: 194-202
------- confirmed host
* Yang Y, Hu X, Liu P, Chen L, Peng H, Wang Q, Zangg Q (2021) A new root-knot nematode, Meloidogyne vitis sp. nov. (Nematoda: Meloidogynidae), parasitizing grape in Yunnan. Plos One 16(2), e0245201. https://doi.org/10.1371/journal.pone.0245201
* Primiano IV, Loehrer M, Amorim L, Schaffrath U (2017) Asian grapevine leaf rust caused by Phakopsora euvitis: an important disease in Brazil. Plant Pathology 66(5), 691-701.
* Martelli GP (2017) An overview of grapevine viruses, viroids and the diseases they cause. In: Meng B, Martelli GP, Golino DA, Fuchs M (eds), Grapevine Viruses: Molecular Biology, Diagnostics and Management, Springer pp.31-46.
* Martelli GP (2017) An overview of grapevine viruses, viroids and the diseases they cause. In: Meng B, Martelli GP, Golino DA, Fuchs M (eds), Grapevine Viruses: Molecular Biology, Diagnostics and Management, Springer pp.31-46.
* Martelli GP (2017) An overview of grapevine viruses, viroids and the diseases they cause. In: Meng B, Martelli GP, Golino DA, Fuchs M (eds), Grapevine Viruses: Molecular Biology, Diagnostics and Management, Springer pp.31-46.
* Akdura N, Sevik M (2021) Investigation of Tomato ringspot virus (ToRSV) by real-time TaqMan RT-PCR in Hakkari Province, Turkey. Journal of Agricultural Sciences (Tarim Bilimleri Dergisi) 27(3), 335-340.
* Martelli GP (2017) An overview of grapevine viruses, viroids and the diseases they cause. In: Meng B, Martelli GP, Golino DA, Fuchs M (eds), Grapevine Viruses: Molecular Biology, Diagnostics and Management, Springer pp. 31-46.
* Kwak HR, Yoon JS, Shin JC, Seo JK, Kim M, Lee JK, Lee KS, Kim CS, Choi HS, Kim JS (2016) First report of Blueberry leaf mottle virus on grapevine in Korea. Plant Disease 100(1), p 232.
* Martelli GP (2017) An overview of grapevine viruses, viroids and the diseases they cause. In: Meng B, Martelli GP, Golino DA, Fuchs M (eds), Grapevine Viruses: Molecular Biology, Diagnostics and Management, Springer pp.31-46.
* Martelli GP (2017) An overview of grapevine viruses, viroids and the diseases they cause. In: Meng B, Martelli GP, Golino DA, Fuchs M (eds), Grapevine Viruses: Molecular Biology, Diagnostics and Management, Springer pp. 31-46.
* Martelli GP (2017) An overview of grapevine viruses, viroids and the diseases they cause. In: Meng B, Martelli GP, Golino DA, Fuchs M (eds), Grapevine Viruses: Molecular Biology, Diagnostics and Management, Springer pp. 31-46.
* Martelli GP (2017) An overview of grapevine viruses, viroids and the diseases they cause. In: Meng B, Martelli GP, Golino DA, Fuchs M (eds), Grapevine Viruses: Molecular Biology, Diagnostics and Management, Springer pp. 31-46.
* Lu W, Wang Q (2005) Systematics of the New Zealand longicorn beetle genus Oemona Newman with discussion of the taxonomic position of the Australian species, O. simplex White (Coleoptera: Cerambycidae: Cerambycinae). Zootaxa 971, 1-31.
* Plant-SyNZ. Landcare Research (NZ). Host plants of a herbivore -Oemona hirta. http://plant-synz.landcareresearch.co.nz/index.asp). Last accessed 2021-06.
* Bender GS (1993) A new mite problem in avocados. California Avocado Society Yearbook 1993, 73-77.
* Ferreira dos Anjos M , Brazao CI, Franqhino Aguiar AM (2004) [First report of Oligonychus perseae Tuttle, Baker, Abbatiello (Acari: Tetranychidae) in Madeira Island]. Agronomia Lusitana 51, 219-222 (in Portuguese).
* Naves P, Nóbrega F, Auger P (2021) Updated and annotated review of Tetranychidae occurring in mainland Portugal, the Azores, and Madeira Archipelagos. Acarologia 61(2), 380-393.
* Torres E, Álvarez-Acosta C, Ferragut F, Hernández-Suárez EM (2024) Oligonychus perseae (Tetranychidae) invasion in the Canary Islands: History, management and current situation. Agronomy 14, 920. https://doi.org/10.3390/agronomy14050920
* Bolland HR, Gutierrez J, Flechtmann CH (1988) World catalogue of the spider mite family (Acari: Tetranychidae). Brill, 392 pp.
* Domingos CA, Melo JWS, Oliveira JEM, Gondim Jr AMGC (2014) Mites on grapevines in northeast Brazil: occurrence, population dynamics and within-plant distribution. International Journal of Acarology 40(2), 145-151. https://doi.org/10.1080/01647954.2014.891651
* Migeon A, Dorkeld F (2024) Spider Mites Web: a comprehensive database for the Tetranychidae. https://www1.montpellier.inrae.fr/CBGP/spmweb
* Sidhu AS, Singh G (1972) Studies on the chemical control of Oligonychus mangiferus (Rahman and Sapra) on grapevine. Journal of Research, Punjab Agricultural University (1971, pub. in 1972), 8(4), 462-465.
* Lessio F, Picciau L, Gonella E, Mandrioli M, Tota F, Alma A (2016) The mosaic leafhopper Orientus ishidae: host plants, spatial distribution, infectivity, and transmission of 16SrV phytoplasmas to vines. Bulletin of Insectology 69(2), 277-289.
------- Putative host plant (adults were collected).
* Martelli GP (2017) An overview of grapevine viruses, viroids and the diseases they cause. In: Meng B, Martelli GP, Golino DA, Fuchs M (eds), Grapevine Viruses: Molecular Biology, Diagnostics and Management, Springer pp.31-46.
* Stroiński A, Balderi M, Marraccini D, Mazza G (2022) First records of Pochazia shantungensis (Chou & Lu, 1977) (Hemiptera: Fulgoromorpha: Ricaniidae) in Italy. Zootaxa 5188 (3), 275–282, https://doi.org/10.11646/zootaxa.5188.3.4
* Morgan SW, Read DA, Burger JT, Pietersen G (2023) Diversity of viroids infecting grapevines in the South African Vitis germplasm collection. Virus Genes 59(2), 244-253.
* Afloukou FM, Önelge N (2020) First report of natural infection of grapevine (Vitis vinifera) by Citrus yellow vein clearing virus. New Disease Reports 42, 5. http://dx.doi.org/10.5197/j.2044-0588.2020.042.005
* Dhileepan K, Neser S, Rumiz D, Raman A, Sharma A (2017) Host associations of gall-inducing Prodiplosis longifila (Diptera: Cecidomyiidae) from Bolivia: Implications for its use as a biological control agent for Jatropha gossypiifolia (Euphorbiaceae). Florida Entomologist, 100(4), 777-786.
* Diaz-Silva F (2011) [Agroecological aspects for the integrated management of Prodiplosis longifila Gagné in the irrigation of Chavimochic]. Escuela de Ciencias Biológicas, Universidad de Trujillo, Trujillo, PERU (in Spanish).
* Dubois B, Quilici S (1999) Etude préliminaire de l’évolution des populations de Scirtothrips aurantii Faure sur vigne à l’île de la Réunion. Fruits, 54(1), 67-78. Available at https://revues.cirad.fr/index.php/fruits/article/view/35648
* Garms BW, Mound LA, Schellhorn NA (2013) Polyphagy in the Australian population of South African citrus thrips (Scirtothrips aurantii Faure). Australian Journal of Entomology, 52, 282-289.
------- in laboratory experiments.
* Flowers RW (1989) The occurrence of the citrus thrips, Scirtothrips citri (Thysanoptera:Thripidae) in Florida? Florida Entomologist 72 (2), 385.
* Tanigoshi LK and Nishio-Wong JY, 1982. Citrus thrips: biology, ecology, and control. US Department of Agriculture Technical Bulletin 1668, 17 pp.
------- as 'grape'.
* Klassen W, Seal DR, Ciomperlik MA, Fieslemann DA (2008) The chilli thrips, Scirtothrips dorsalis: current status in the Greater Caribbean Region. Proceeedings of the Caribbean food crops society, 44(1), 103-117.
------- reproductive host in Florida.
* Patil NR, Nadaf AM, Patil DR (2017) Field efficacy of newer insecticides and neem products against Scirtothrips dorsalis on grapes, Vitis vinifera L.(cv. Thompson Seedless). International Journal of Current Microbiology and Applied Sciences 6(9), 3287-3294.
* Shibao M.(1990) Seasonal changes and infestation sites of the chilli thrips, Scirtothrips dorsalis (Thysanoptera: Thripidae) on grapes. Japanese Journal of Applied Entomology and Zoology 34(2), 145-152.
* Etienne J, Ryckewaert P, Michel B (2015) Thrips (Insecta: Thysanoptera) of Guadeloupe and Martinique: updated check-list with new information on their ecology and natural enemies. Florida Entomologist 98(1), 298-304.
* Sannino L, Espinosa B, Caponero A (2006) Attacchi di Spodoptera littoralis (Boisduval) alla vite in Puglia e Basilicata. Informatore Fitopatologico no. 1, 48-50.
* Brito R, Specht A, Gonçalves GL, Moreira GRP, Carneiro E, Santos FL, Roque-Specht VF, Mielke OHH, Casagrande MM (2019) Spodoptera marima: a new synonym of Spodoptera ornithogalli (Lepidoptera: Noctuidae), with notes on adult morphology, host plant use and genetic variation along its geographic range. Neotropical Entomology 48(3), 433-448.
* Comstock JA (1965) Ciclo biologico de Prodenia ornithogalli Guenée (Lepidoptera: Noctuidae). Instituto de Biología, Universidad Nacional Autónoma de México, Serie Zoologia 36, 199-202.
* Martelli GP (2017) An overview of grapevine viruses, viroids and the diseases they cause. In: Meng B, Martelli GP, Golino DA, Fuchs M (eds), Grapevine Viruses: Molecular Biology, Diagnostics and Management, Springer pp.31-46.
* Basso MF, da Silva JC, Fajardo TV, Fontes EP, Zerbini FM (2015) A novel, highly divergent ssDNA virus identified in Brazil infecting apple, pear and grapevine. Virus Research 210, 27-33.
------- as grapevine, cultivar Cannonau, found on one plant in a germplasm collection in greenhouse
* de Oliveira de Andrade-Bertolo F, Bottini de Moura R, Matioli AL, Ott AP ( 2013) New records of mites (Acari: Prostigmata) on Vitis sp. (L.) in Brazil. Comunicata Scientiae 4(4): 414-418.
------- confirmed host
* İbrahim TE, Atakan E (2022) Investigation of thrips (Thysanoptera) species, their population changes and damage rates in vineyards of Mersin Province (Türkiye). Turkish Journal of Entomology 46(2), 199-210.
* Ranganath HR, Kumar NKK, Vikas Kumar (2008) Thrips species composition on grapes in Karnataka and Maharashtra. Journal of Horticultural Sciences, 3(2), 172-175.
* CAPS (2019) Trichoferus campestris. Cooperative Agricultural Pest Survey pest datasheets. http://download.ceris.purdue.edu/file/3869
------- Dry wood host.
* Iwata R & Yamada F (1990) Notes on the biology of Hesperophanes campestris, a drywood borer in Japan. Material und Organismen 25, 305–313.
------- Dry wood host.
* Ibrahim IK, Abu-Habib AH, Kantor M, Handoo ZA (2022) Pathogenicity and control of the citrus nematode Tylenchulus semipenetrans on citrus, grape, olive, loquat, and persimmon species and cultivars. Nematropica 52(2), 79-84.
* Inderbitzin P, Subbarao KV (2014) Verticillium systematics and evolution: how confusion impedes Verticillium wilt management and how to resolve it. Phytopathology 104(6), 564-574. https://doi.org/10.1094/PHYTO-11-13-0315-IA
* Lamberti F, Bleve-Zacheo T (1979) Studies on Xiphinema americanum sensu lato with descriptions of fifteen new species (Nematoda, Longidoridae). Nematologia Mediterranea 7, 51-106.
* Ebsary BA, Vrain TC, Graham MB (1989) Two new species of Xiphinema (Nematoda: Longidoridae) from British Columbia vineyards. Canadian Journal of Zoology 67, 801-804.
* Cho MR, Robbins RT (1991) Morphological variation among 23 Xiphinema americanum populations. Journal of Nematology 23, 134-144.
* Lamberti F & Bleve-Zacheo T (1979) Studies on Xiphinema americanum sensu lato with descriptions of fifteen new species (Nematoda, Longidoridae). Nematologia Mediterranea 7, 51-106.
* Arias M, Navacerrada G (1973) Geographical distribution of Xiphinema Cobb in Spanish vineyards. Nematologia Mediterranea 1, 28-35.
* Allen WR, Stobbs LW, Van Schagen JG, Ebsary BA (1988) Association of Xiphinema species with soil type and grapevines infected with tomato ringspot virus in Ontario, Canada. Plant Disease 72, 861-863.
* Dalmasso A (1969) Étude anatomique et taxonomique des genres Xiphinema, Longidorus et Paralondidorus (Nematoda : Dorylaimidae). Mémoires du Muséum National d'Histoire Naturelle, Paris 61(2), 33-82.
* Sharma SB, McKirdy S, Mackie A, Lamberti F (2003) First record of Xiphinema rivesi associated with grape vines in Western Australia. Nematologia Mediterranea 31(1), 87.
* Urek G, Širca S, Karssen G (2005) Morphometrics of Xiphinema rivesi Dalmasso, 1969 (Nematoda: Dorylaimida) from Slovenia. Russian Journal of Nematology 13(1), 13-17.
------- Found in the rhizosphere of grapevines.
* Commission database of host plants found to be susceptible to Xylella fastidiosa in the Union Territory (update 12 of 2019-04-11).
* EFSA (2024) Update of the Xylella spp. host plant database – Systematic literature search up to 31 December 2023. EFSA Journal 22, e8898. https://efsa.onlinelibrary.wiley.com/doi/epdf/10.2903/j.efsa.2024.8898
------- Xylella fastidiosa subsp. fastidiosa.
* EFSA (2024) Update of the Xylella spp. host plant database – Systematic literature search up to 31 December 2023. EFSA Journal 22, e8898. https://efsa.onlinelibrary.wiley.com/doi/epdf/10.2903/j.efsa.2024.8898
------- Xylella fastidiosa subsp. multiplex.
* Ruzzier E, Prazaru SC, Faccoli M, Duso C (2021) Xylosandrus germanus (Blandford, 1894) on grapevines in Italy with a compilation of world scolytine weevils developing on Vitaceae. Insects 12(10), 869. https://doi.org/10.3390/insects12100869
* Ruzzier E, Prazaru SC, Faccoli M, Duso C (2021) Xylosandrus germanus (Blandford, 1894) on grapevines in Italy with a compilation of world scolytine weevils developing on Vitaceae. Insects 12(10), 869. https://doi.org/10.3390/insects12100869
------- confirmed host.
* Hewitt WB, Frazier NW & Freitag JH (1949) Pierce’s disease investigations. Hilgardia 19, 207–264.
------- Not a favored food host. No breeding.
* Purcell AH, Frazier NW (1985) Habitats and dispersal of the principal leafhopper vectors of Pierce's disease bacterium in the San Joaquin Valley. Hilgardia 53(4), 1-32.
------- Occasional (or accidental) host.
* Özbek Çatal B, Çalişkan Keçe AF, Ulusoy MR (2021) Distribution and host plants of Drosophilidae (Diptera) species detected in fruit orchards of the Eastern Mediterranean Region of Turkey. Mustafa Kemal University Journal of Agricultural Sciences 26(2), 431-442. https://doi.org/10.37908/mkutbd.873838
* Soltani N, Hu R, Hensley DD, Lockwood DL, Perry KL, Hajimorad MR (2020) A survey for nine major viruses of grapevines in Tennessee vineyards. Plant Health Progress 157-161. https://doi.org/10.1094/PHP-03-20-0018-RS
* Barjadze S, Ben-Dov Y (2011) The grapevine aphid Aphis illinoisensis: an invasive pest in Israel. Phytoparasitica 39(1), 55–57.
* Barjadze S, Karaca I, Yasar B (2011) The grapevine aphid, Aphis illinoisensis Shimer, 1866 (Hemiptera: Aphididae): An invasive pest in Isparta Province (Turkey). Türkiye Entomoloji Bülteni 1(2), 119-121.
* Pérez Hidalgo N, Laguna Garcia F, Nieto Nafría JM (2011) First Spanish record of Aphis illinoisensis Schimer (Hemiptera: Aphididae), the grapevine aphid. Boletín de la Sociedad Entomólogica Aragonesa (S.E.A) n°49, 321-323.
* Kamel-Ben Halima M, Mdellel L (2010) First record of the grapevine aphid, Aphis illinoisensis Shimer, in Tunisia. EPPO Bulletin 40(2), 191-192.
* Chirecean C, Daniel N, Seljak G (2019) First record of the Japanese grape leafhopper Arboridia kakogawana (Matsumura, 1932) (Hemiptera: Cicadellidae) from Romania. EPPO Bulletin, 49: 391– 397. https://doi.org/10.1111/epp.12585
------- confirmed host
* Chiumenti M, Morelli M, Giampetruzzi A, Palmisano F, Savino VN, la Notte P, Martelli GP, Saldarelli P (2015) First report of grapevine roditis leaf discoloration-associated virus in Italy. Journal of Plant Pathology 97(3), 5
------- Confirmed host.
* Martelli GP (2017) An overview of grapevine viruses, viroids and the diseases they cause. In: Meng B, Martelli GP, Golino DA, Fuchs M (eds), Grapevine Viruses: Molecular Biology, Diagnostics and Management, Springer pp.31-46.
* Martelli GP (2017) An overview of grapevine viruses, viroids and the diseases they cause. In: Meng B, Martelli GP, Golino DA, Fuchs M (eds), Grapevine Viruses: Molecular Biology, Diagnostics and Management, Springer pp.31-46.
* Qiu W, Schoelz J (2017) Grapevine vein clearing virus: diagnostics, genome diversity and management. In Grapevine Viruses: Molecular Biology, Diagnostics and Management (Eds Meng BZ, Martelli GP, Fuchs M, Golino D), Springer International Publishing AG, pp 315-330.
------- Natural host.
* Qiu WP, Petersen SM, Howard S (2020) North American grape 'Norton' is resistant to Grapevine vein clearing virus. Plant Disease 104, 2051-2053.
------- Natural host.
* Schoelz J, Volenberg D, Adhab M, Fang ZW, Klassen V, Spinka C, Al Rwahnih MA (2021) A survey of viruses found in grapevine cultivars grown in Missouri. American Journal of Enology and Viticulture 72, 73-84.
------- Natural host.
* Saccaggi DL, Ueckermann EA, du Toit I, Ngubane-Ndhlovu NP (2017) First records of Brevipalpus lewisi McGregor (Acari: Trombidiformes: Tenuipalpidae) in South Africa, with notes on distribution and field ecology. African Entomology, 25(2), 523-528
------- confirmed host
* Atanasova B, Jakovljevic M, Spasov D, Jovic J, Mitrovic M, Toševski I, Cvrkovic T (2015) The molecular epidemiology of bois noir grapevine yellows caused by 'Candidatus Phytoplasma solani' in the Republic of Macedonia. European Journal of Plant Pathology 142(4), 759-770.
* Balakishiyeva G, Bayramova J, Mammadov A, Salar P, Danet JL, Ember I, Verdin E, Foissac X, Huseynova I (2018) ‘Candidatus Phytoplasma solani’ related strains associated with bois noir grapevine yellows and planthoppers in Azerbaijan. European Journal of Plant Pathology 151, 937–946.
* Quaglino F, Maghradze D, Casati P, Chkhaidze N, Lobjanidze M, Ravasio A, Passera A, Venturini G, Failla O, Bianco PA (2016) Identification and characterization of new 'Candidatus Phytoplasma solani' strains associated with bois noir disease in Vitis vinifera L. cultivars showing a range of symptom severity in Georgia, the Caucasus region. Plant Disease 100(5), 904-915.
* Quaglino F, Murolo S, Zhao Y, Casati P, Durante G, Wei W, Bianco PA, Romanazzi G, Davis RE (2017) Identification of new -J and -K 16SrXII subgroups and distinct single nucleotide polymorphism genetic lineages among 'Candidatus Phytoplasma solani' strains associated with bois noir in Central Italy. Australasian Plant Pathology 46(1), 31-34.
* Quaglino F, Zhao Y, Casati P, Bulgari D, Bianco PA, Wei W, Davis RE (2013) ‘Candidatus Phytoplasma solani’, a novel taxon associated with stolbur- and bois noir-related diseases of plants. International Journal of Systematic and Evolutionary Microbiology 63, 2879-2894.
* Salem NM, Quaglino F, Abdeen A, Casati P, Bulgari D, Alma A, Bianco PA (2013) First report of 'Candidatus phytoplasma solani' strains associated with grapevine bois noir in Jordan. Plant Disease 97(11), p 1505.
* Ji T, Languasco L, Salotti I, Li M, Rossi V (2024) Temporal dynamics and dispersal patterns of the primary inoculum of Coniella diplodiella, the causal agent of grape white rot. Plant Disease 108(3), 757-768.
* Bao LV, Scatoni IB, Gaggero C, Gutiérrez L, Monza J, Walker A (2015) Genetic diversity of grape phylloxera leaf-galling populations on Vitis species in Uruguay. American Journal of Enology and Viticulture 66, 46-53.
-------- Vitis vinifera cvs. Chardonnay, Moscatel, Syrah, Ugni Blanc, Viognier (European cultivars). Leaf (Scions). In commercial vineyards.
* Fahrentrapp J, Müller L, Schumacher P (2015) Is there need for leaf-galling grape phylloxera control? Presence and distribution of Dactulosphaira vitifoliae in Swiss vineyards. International Journal of Pest Management 61(4), 340-345.
------- Vitis vinifera cv. 'Charmont' (European cultivar). Leaf (Scions). In commercial vineyards.
* Forneck A, Mammerler R, Tello J et al. (2019) First European leaf-feeding grape phylloxera (Daktulosphaira vitifoliae Fitch) survey in Swiss and German commercial vineyards. European Journal of Plant Pathology 154, 1029–1039.
------- Vitis vinifera cv. 'Chardonnay' (European cultivar). Leaf (Scions). In commercial vineyards.
* Györffyné Molnár J, Németh CS, Májer J, Györffyné Jahnke G (2009) Assessment of phylloxera leaf galling incidence on European grapevines in Badacsony Hungary. Acta Horticulturae 816, 97-104.
------ Vitis vinifera cv. Sauvignon blanc (European cultivar). Leaf (Scions). In commercial vineyards.
* Lindner C, Kehrli P, Viret O (2016) Ravageurs et auxilliaires. Volume 2. Collection La Vigne. p.55.
-------- Vitis vinifera cv. Merlot (European cultivar). Leaf (Scions). In commercial vineyards.
* Viala P, Ravaz L (1901) American vines (resistant stock) : their adaptation, culture, grafting and propagation. San Francisco. California Ed. https://www.biodiversitylibrary.org/item/59934#page/201/mode/1up
------- Vitis vinifera sativa ssp. (European cultivar). Root (own-rooted).
* Vidart MV, Mujica MV, Bao L, Duarte F, Bentancourt CM, Franco J, Scatoni IB (2013) Life history and assessment of grapevine phylloxera leaf galling incidence on Vitis species in Uruguay. SpringerPlus 2, 181. https://doi.org/10.1186/2193-1801-2-181
-------- Vitis vinifera cvs. Cabernet Sauvignon, Viognier (European cultivar). Leaf (Scions). In commercial vineyards.
* Wapshere AJ, Helm KF (1987) Phylloxera and Vitis: an experimentally testable coevolutionary hypothesis. American Journal of Enology and Viticulture 38, 216–222.
-------- Vitis vinifera cv. Riesling (European cultivar). Leaf (Scions). In commercial vineyards.
* Wilmink J, Breuer M, Forneck A (2022) Effects of grape phylloxera leaf infestation on grapevine growth and yield parameters in commercial vineyards: a pilot study. OENO One 56(1). https://doi.org/10.20870/oeno-one.2022.56.1.4803
-------- Vitis vinifera cvs. Chasselas, Gelber Muskateller (European cultivars). Leaf (Scions). In commercial vineyards.
* Chireceanu C, Bosoi M, Podrumar T, Ghica M , Teodoru A, Chiriloaie-Palade A, Zaharia R (2020) Invasive Insect Species Detected on Grapevines in Romania during 2016–2019 and First Record of Erasmoneura vulnerata (Fitch, 1851) (Hemiptera: Cicadellidae). Acta Zoologica Bulgarica 72 (4), 649-659.
* Duso C, Moret R, Manera A, Berto D, Fornasiero D,Marchgiani G, Pozzebon A (2019) Investigations on the grape leafhopper Erasmoneura vulnerata in North-Eastern Italy. Insects 10, 44. https://doi.org/10.3390/insects10020044
* Broetto D, Baumann OJ, Sato AJ, Botelho RV (2011) Desenvolvimento e ocorrência de pérola-da-terra em videiras rústicas e finas enxertadas sobre os porta-enxertos 'VR 043-43' e 'Paulsen 1103. Revista Brasileira de Fruticultura 33 (special issue), 404-410.
* Martelli GP (2017) An overview of grapevine viruses, viroids and the diseases they cause. In: Meng B, Martelli GP, Golino DA, Fuchs M (eds), Grapevine Viruses: Molecular Biology, Diagnostics and Management, Springer pp.31-46.
* Bahder BW, Zalom FG, Sudarshana MR (2016) An evaluation of the flora adjacent to wine grape vineyards for the presence of alternative host plants of rapevine red blotch-associated virus. Plant Disease 100, 1571-1574. https://doi.org/10.1094/PDIS-02-16-0153-RE
* Perry KL, McLane H, Hyder MZ, Dangl GS, Thompson JR, Fuchs MF (2016) Grapevine red blotch-associated virus is present in free-living Vitis spp. proximal to cultivated grapevines. Phytopathology 106, 663-670. https://doi.org/10.1094/PHYTO-01-16-0035-R
* Fajardo TVM, Silva FN, Eiras M, Nickel O (2017) High-throughput sequencing applied for the identification of viruses infecting grapevines in Brazil and genetic variability analysis. Tropical Plant Pathology 42(4), 250-260.
* Martelli GP (2017) An overview of grapevine viruses, viroids and the diseases they cause. In: Meng B, Martelli GP, Golino DA, Fuchs M (eds), Grapevine Viruses: Molecular Biology, Diagnostics and Management, Springer pp.31-46.
* Reynard J S, Zufferey V, Brodard J, Rienth M, Gugerli P, Schumpp O, Blouin AG (2022) Nuances of responses to two sources of grapevine leafroll disease on pinot noir grown in the field for 17 years. Viruses 14(6), https://doi.org/10.3390/v14061333
* Martelli GP (2017) An overview of grapevine viruses, viroids and the diseases they cause. In: Meng B, Martelli GP, Golino DA, Fuchs M (eds), Grapevine Viruses: Molecular Biology, Diagnostics and Management, Springer pp.31-46.
* Martelli GP (2017) An overview of grapevine viruses, viroids and the diseases they cause. In: Meng B, Martelli GP, Golino DA, Fuchs M (eds), Grapevine Viruses: Molecular Biology, Diagnostics and Management, Springer pp.31-46.
* Brain CK (1915) The Coccidae of South Africa. Transactions of the Royal Society of South Africa. Cape Town 5, 65-194.
* de Klerk CA (1978) Morphology and taxonomy of the South African species of the genus Margarodes (Hemiptera: Margarodidea), with detailed studies on the biology of two vine infesting species. PhD thesis, Stellenbosch University, South Africa.
* de Klerk CA (1985) Occurrence of South African species of Margarodes Guilding (Homoptera: Coccoidea: Margarodidae) with special reference to vine infesting species. Phytophylactica 17(4), 215-216.
* Brain CK (1915) The Coccoidea of South Africa. Transactions of the Royal Society of South Africa 5(2), 65-194.
* De Klerk CA (1985) Occurrence of South African species of Margarodes Guilding (Homoptera: Coccoidea: Margarodidae) with special reference to vine infesting species. Phytophylactica 17(4), 215-216.
* Jakubski AW (1965) A critical revision of the families Margarodidae and Termitococcidae (Hemiptera, Coccoidea), 187 pp. British Museum (Natural History), London (UK).
* Foldi I, Soria SJ (1989) Les cochenilles nuisibles à la vigne en Amérique du Sud (Homoptera: Coccoidea). Annales de la Société entomologique de France 25, 411-430.
* Klerk CA de (1980) Biology of Margarodes vredendalensis de Klerk (Coccoidea: Margarodidae) in South Africa. South African Journal of Enology and Viticulture 1, 47-58. https://doi.org/10.21548/1-1-2413
* Klerk CA de (1983) Two new species of Margarodes Guilding (Homoptera: Coccoidea: Margarodidae) from South Africa. Phytophylactica 15, 85-93.
* Carneiro R M D G, Randig O, Almeida M R A, Gomes A C M M (2004) Additional information on Meloidogyne ethiopica Whitehead, 1968 (Tylenchida: Meloidogynidae), a root-knot nematode parasitising kiwi fruit and grape-vine from Brazil and Chile. Nematology 6(1), 109-123.
* Carneiro RM, Almeida MR, Cofcewicz ET, Magunacelaya JC, Aballay E (2007) Meloidogyne ethiopica, a major root-knot nematode parasitising Vitis vinifera and other crops in Chile. Nematology 9(5), 633-639.
* González (1989) Insectos y acaros de importancia agricola y cuarentenaria en Chile. Universidad de Chile: 310 pp
* Lanteri AA, del Río MG (2017) Naupactus xanthographus (Germar) species group (Curculionidae: Entiminae: Naupactini): a comprehensive taxonomic treatment. Journal of Natural History 51, 27-28, 1557-1587.
------- confirmed host.
* Sinavimo (2019) Naupactus xanthographus Sistema Nacional Argentino de Vigilancia y Monitoreo de plagas. Available at: https://www.sinavimo.gov.ar/plaga/naupactus-xanthographus
------- On buds, leaves, roots and leaf buds.
* Martelli GP (2017) An overview of grapevine viruses, viroids and the diseases they cause. In: Meng B, Martelli GP, Golino DA, Fuchs M (eds), Grapevine Viruses: Molecular Biology, Diagnostics and Management, Springer pp.31-46.
* Martelli GP (2017) An overview of grapevine viruses, viroids and the diseases they cause. In: Meng B, Martelli GP, Golino DA, Fuchs M (eds), Grapevine Viruses: Molecular Biology, Diagnostics and Management, Springer pp.31-46.
* Martelli GP (2017) An overview of grapevine viruses, viroids and the diseases they cause. In: Meng B, Martelli GP, Golino DA, Fuchs M (eds), Grapevine Viruses: Molecular Biology, Diagnostics and Management, Springer pp.31-46.
* Beaver-Kanuya EE, Harper SJ (2021) Seasonal fluctuation and host species affect Tobacco ringspot virus detection. Research Square. Available at https://doi.org/10.21203/rs.3.rs-369469/v1
* Martelli GP (2017) An overview of grapevine viruses, viroids and the diseases they cause. In: Meng B, Martelli GP, Golino DA, Fuchs M (eds), Grapevine Viruses: Molecular Biology, Diagnostics and Management, Springer pp. 31-46.
* Pope TW, Roberts JM (2022) Vine weevil, Otiorhynchus sulcatus (Coleoptera: Curculionidae), management: current state and future perspectives. Annual Review of Entomology 67, 221-238. https://doi.org/10.1146/annurev-ento-071221-060822
* Dlamini B.E., Addison P., and Malan A.P. (2019). A review of the biology and bontrol of Phlyctinus callosus (Schönherr) (Coleoptera: Curculionidae), with special reference to biological control using entomopathogenic nematodes and fungi. African Entomology 27(2), 279-288.
------- Adults feed on Vitis vinifera leaves and fruit.
* Cara C, Jermini M (2011) La mineuse américaine Phyllocnistis vitegenella un nouveau ravageur de la vigne au Tessin. Revue Suisse de Viticulture Arboriculture Horticulture 43(4), 224-230, 2011
* Jermini M, Cara C (2013) Mineuse américaine de la vigne: état des lieux au Tessin trois ans après son arrivée. Revue Suisse de Viticulture, Arboriculture, Horticulture 45(1), 71-72.
* Trencheva K, Trenchev G (2018) The first occurrence of Phyllocnistis vitegenella Clemens, 1852 (Lepidoptera: Gracillariidae) on Vitis vinifera L. in Bulgaria. Academia Journal of Agricultural Research 6(7), 264-267.
* Szabó M, Csikász-Krizsics A, Dula T, Farkas E, Roznik D, Kozma P, Deák T (2023) Black rot of grapes (Guignardia bidwellii)—a comprehensive overview. Horticulturae 9(2), 130. https://doi.org/10.3390/horticulturae9020130
* AliNiazee MT, Lynn CM, Stafford EM, Luvisi DA (1970) Integrated control of grape pests: effectiveness of cryolite and standard lead arsenate against the omnivorous leaf roller. California Agriculture 24(12), 8–10.
* AliNiazee MT, Stafford EM (1971) Evidence of a sex pheromone in the omnivorous leaf roller: laboratory and field testing of male attraction to virgin females. Annals of the Entomological Society of America 64, 1330–1335.
* AliNiazee MT, Stafford EM (1972) Notes on the biology, ecology, and damage of Platynota stultana on grapes. Journal of Economic Entomology 65, 1042–1044.
* AliNiazee MT, Stafford EM (1972) Seasonal flight patterns of the omnivorous leaf roller and grape leaf folder in central California vineyards as determined by blacklight traps. Environmental Entomology 1, 65–68.
* AliNiazee MT, Stafford EM (1973) Management of grape pests in central California vineyards. 1. Cultural and chemical control of Platynota stultana on grapes. Journal of Economic Entomology 656, 154–157.
* Varela L, Hailand DR, Bentley WJ, Zalom F, Bettiga LJ, Smith RJ, Daane KM (2015) UC IPM Agriculture. Grape Pest Management. Omnivorous leafroller, Platynota stultana. UC ANR Publication 3448. https://www2.ipm.ucanr.edu/agriculture/grape/omnivorous-leafroller/
* De Jager ZM (2013) Biology and Ecology of the False Codling Moth, Thaumatotibia leucotreta (Meyrick) (MSc thesis in Agriculture
(Entomology)). Stellenbosch University, Stellenbosch, South Africa.
* Steyn VM, Malan AP, Addison P (2019) Control of false codling moth, Thaumatotibia leucotreta (Lepidoptera: Tortricidae), using in vitro-cultured Steinernema jeffreyense and S. yirgalemense. Biological Control 138, 104052
* Fan XD, Zhang ZP, Ren F, Hu GJ, Zhou J, Li ZN, Wang G, Dong Y (2017) Occurrence and Genetic Diversity of Grapevine berry inner necrosis virus from Grapevines in China. Plant Disease 101(1), 144-149.
* Martelli GP (2017) An overview of grapevine viruses, viroids and the diseases they cause. In: Meng B, Martelli GP, Golino DA, Fuchs M (eds), Grapevine Viruses: Molecular Biology, Diagnostics and Management, Springer pp.31-46.
* Martelli GP (2017) An overview of grapevine viruses, viroids and the diseases they cause. In: Meng B, Martelli GP, Golino DA, Fuchs M (eds), Grapevine Viruses: Molecular Biology, Diagnostics and Management, Springer pp.31-46.
* Chand R, Kishun R (1990) Outbreak of grapevine bacterial cancer disease in India. Vitis 29, 183-188.
* Naue CR, Costa VSO, Barbosa MAG, Batista DC, Souza EB, Mariano RIR (2014) Xanthomonas campestris pv. viticola on grapevine cutting tools and water: survival and disinfection. Journal of Plant Pathology 96(3), 451-458.
* Commission database of host plants found to be susceptible to Xylella fastidiosa in the Union Territory (update 12 of 2019-04-11).
------- As X. fastidiosa subsp. fastidiosa.
* EFSA (2024) Update of the Xylella spp. host plant database – Systematic literature search up to 31 December 2023. EFSA Journal 22, e8898. https://efsa.onlinelibrary.wiley.com/doi/epdf/10.2903/j.efsa.2024.8898
------- Subspecies (fastidiosa, multiplex) and undetermined.
* Grall S & Manceau C (2003) Colonization of Vitis vinifera by a green fluorescence protein-labeled, gfp-marked strain of Xylophilus ampelinus, the causal agent of bacterial necrosis of grapevine. Applied and Environmental Microbiology 69,1904-1912.
* Panagopoulos CG (1987) Recent research progress on Xanthomonas ampelina. EPPO Bulletin 17(2), 225-230.
* Han Y, Lyu D (2010) Taxonomic review of the genus Xylotrechus (Coleoptera: Cerambycidae: Cerambycinae) in Korea with a newly recorded species. Korean Journal of Applied Entomology 49(2), 69-82.
* Lin M, Ge S, Xiao N (2021) A study of the genus Xylotrechus Chevrolat (Coleoptera: Cerambycidae) from Beijing, China. Entomotaxonomia 43(3), 20 pp. https://doi.org/10.11680/entomotax.2021021
* Eskalen A, Stouthamer R, Lynch SC, Twizeyimana M, Gonzalez A, Thibault T (2013) Host range of Fusarium dieback and its ambrosia beetle (Coleoptera: Scolytinae) vector in southern California. Plant Disease 97(7), 938-951.
------- Considered it as a host.
* de Jager M, Roets F (2022) Pathogenicity of Fusarium euwallaceae towards apple (Malus domestica) and grapevine (Vitis vinifera). Australasian Plant Disease Notes, 17(1), 1-4.
------- Inoculation studies showed that F. euwallaceae is not pathogenic to grapevine and does not persist internally longer than three months