* Bratsch SA, Grinstead S, Lockhart B, Mollov D (2020) Biological properties and genomic sequence of an isolate of cherry rasp leaf virus from tomato. Journal of Plant Pathology. https://doi.org/10.1007/s42161-020-00522-5
* Hansen AJ, Nylland G, McElroy FD, Stace-Smith R (1974) Origin, cause, host range and spread of cherry rasp leaf disease in North America. Phytopathology 64, 721-727.
* Singh RP (1973) Experimental host range of the potato spindle tuber 'virus'. American Potato Journal 50, 111-123.
------- At least 51 species, absence of symptoms (except for Solanum depilatum and S. lycopersicum)
* Elmore JC, Davis AC, Campbell RE (1934) The pepper weevil. USDA Techical Bulletin No. 447.
* Patrock RJ, Schuster DJ (1992) Feeding, oviposition and development of the pepper weevil (Anthonomus eugenii) on selected species of Solanaceae. Tropical Pest Management 38, 65-69.
* Allwood AL, Chinajariyawong A, Drew RAI, Hamacek EL, Hancock DL, Hengsawad C, Jipanin JC, Jirasurat M, Kong Krong C, Kritsaneepaiboon S, Leong CTS, Vijaysegaran S (1999) Host plant records for fruit flies (Diptera: Tephritidae) in Southeast Asia. Raffles Bulletin of Zoology, Supplement, 7, 1-92.
------- Confirmed host in Asia.
* McQuate GT, Liquido NJ (2016) Provisional list of suitable host plants of Bactrocera (Bactrocera) latifrons (Hendel) (Diptera: Tephritidae), Version 1.0. Available online at USDA Compendium of Fruit Fly Host Information (CoFFHI).
* Putruele MTG (1996) Hosts for Ceratitis capitata and Anastrepha fraterculus in the northeastern province of Entre Ríos, Argentina, pp. 343-345. In B. A. McPheron and G. J. Steck (eds.), Fruit Fly Pests: A World Assessment of Their Biology and Management. St. Lucie Press, Delray Beach, FL.
* Kogan M, Helm CG, Kogan J, Brewer E (1989) Distribution and economic importance of Heliothis virescens and Heliothis zea in North, Central, and South America and of their Natural Enemies and Host Plants. pp 241-297 In Proceedings of the Workshop on Biological Control of Heliothis: Increasing the effectiveness of natural enemies. USDA.
* EPPO (2024) EPPO Technical Document No. 1091. Pest risk analysis for Chloridea virescens. EPPO, Paris. Available at https://gd.eppo.int/taxon/HELIVI/documents
------- Likely host (reported as host in the literature but lacking evidence to consider it as main host – see PRA for further details on the host).
* Souza Dias JAC, Scagliusi SM, Costa AS (1994) Isalado do Andean potato mottle virus (APMV) ocorrendo naturalmente em Joa’ na Estação Experimental de Itararé (EEI) não infectou variedades de batata do local. [An isolate of Andean potato mottle virus (APMV) occurring naturally in solanaceous weed at the Itarare Experimental Station (EEI) did not infect varieties of local growing potato varieties] Fitopatologia Brasileira 19, 322 (Abstract).
* 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.
* Mally R, Korycinska A, Agassiz DJL, Hall J, Hodgetts J, Nuss M (2015) Discovery of an unknown diversity of Leucinodes species damaging Solanaceae fruits in sub-Saharan Africa and moving in trade (Insecta, Lepidoptera, Pyraloidea). ZooKeys 472, 117-162.
* Capps HW (1948) Status of the pyraustid moths of the genus Leucinodes in the world, with descriptions of new genera and species. Proceedings of the United States National Museum 98(3223), 69-83.
* Fowkes A, Skelton A, Frew L, Buxton‐Kirk A, Forde S, Ward R, Harju V, Weekes R, Fox A (2021) Potato spindle tuber viroid detected from Solanum sisymbriifolium seed in trade. New Disease Reports 44(2). https://doi.org/10.1002/ndr2.12043.
* NPPO of the Netherlands (2017) First finding of Potato spindle tuber viroid (PSTVd) in seeds of Solanum sisymbriifolium, originating in Asia - June 2017. https://english.nvwa.nl/documents/plant/plant-health/pest-reporting/documents/first-finding-of-potato-spindle-tuber-viroid-pstvd-in-seeds-of-solanum-sisymbriifolium-originating-in-asia
* Arruabarrena A, Rubio L, González‐Arcos M, Sánchez‐Campos S, Fonseca MEN, Boiteux LS (2015) First report of Solanum sisymbriifolium and S. americanum as natural weed hosts of Tomato chlorosis virus (Genus Crinivirus) in South America. Plant Disease 99(6), 895
------- confirmed host
* Boiteux LS, Lima MF, Fonseca MEN, Mendonça JL, Costa AF, Silva-Filho JG, Fontes MG, González-Arcos M (2018) Identification of eight Solanum (subgenus Leptostemonum) species a novel natural hosts of Tomato chlorosis virus in Brazil. Plant Disease 102, 1673.
* Bellé C, Ramos RF, Balardin RR, Nora DD & Kaspary TE (2020) Host weed species range of Meloidogyne ethiopica whitehead (Tylenchida: Meloidogynidae) found in Brazil. European Journal of Plant Pathology 156(3), 979-985.
-------In experiments, it was found to be a good host (RF>=1).
* Rusinque L, Maleita C, Abrantes I, Palomares-Rius JE, Inácio ML (2021) Meloidogyne graminicola - A threat to rice production: review update on distribution, biology, identification, and management. Biology 10, 1163. https://doi.org/10.3390/biology10111163
* British Columbia Ministry of Agriculture. Western yellowstriped armyworm (Spodoptera praefica). https://rdno.civicweb.net/document/127358/western-yellowstriped-armyworm.pdf?handle=3CD053B4F8D54F9CBB93F8D6D5572C27
