* Tanaka S, Kishi K & Yamada A (1965) Research on the indicator plants of Satsuma dwarf and Hassaku dwarf viruses. Proceedings of IOCV Conference 3(3), 260-267.
* Tanaka S, Kishi K (1963) Studies on indicator plants for citrus viruses. Mechanical inoculation on leguminous plants with sap from satsuma dwarf tree. Annals of the Phytopathological Society of Japan 28, 262–269.
* 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.
* 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, 1-476.
-------- Larval and adult host.
* Gill HK, Capinera JL, McSorley R (2017) Featured Creatures. Lesser cornstalk borer. Elasmopalpus lignosellus (Zeller) (Insecta: lepidoptera: Pyralidae). University of Florida (US). http://entnemdept.ufl.edu/creatures/field/lesser_cornstalk_borer.htm
* Mack TP, Backman CB (1990) Effects of two planting dates and three tillage systems on the abundance of lesser cornstalk borer (Lepidoptera: Pyralidae), other selected insects, and yield in peanut fields. Journal of Economic Entomology 83(3), 1034–1041.
* Neunzig HH (1979) Systematics of immature Phycitines (Lepidoptera: Pyralidae) associated with leguminous plants in the Southern United States. USDA Technical Bulletin no. 1589, 126 pp.
* Sandhu HS (2010) Biology and cultural control of lesser cornstalk borer on sugarcane. PhD thesis. University of Florida. https://ufdcimages.uflib.ufl.edu/UF/E0/04/14/72/00001/sandhu_h.pdf
* Fagoonee I, Toory V (1984). Contribution to the study of the biology and ecology of the leaf-miner Liriomyza trifolii and its control by neem. Insect Science and Its Application 5(1), 23-30.
* Thiengo SC, Faraco FA, Salgado NC, Cowie RH, Fernandez MA (2007) Rapid spread of an invasive snail in South America: the giant African snail, Achatina fulica, in Brasil. Biological Invasions 9, 693-702.
* Chang LWH, Miller CE (1996) Pathway Risk Assessment: Pink mealybug from the Caribbean. Animal and Plant Health Inspection Service, U.S. Dept. of Agriculture 61 pp.
* Sartiami D, Mound LA (2013) Identification of the terebrantian thrips (Insecta, Thysanoptera) associated with cultivated plants in Java, Indonesia. ZooKeys 306, 1–21. https://doi.org/10.3897/zookeys.306.5455
------- Collected from this plant in Java (Indonesia).
* Tillekaratne K, Edirisinghe JP, Gunatilleke CVS, Karunaratne WAP (2011) Survey of thrips in Sri Lanka: A checklist of thrips species, their distribution and host plants. Ceylon Journal of Science 40(2), 89-108.
* Santo GS, O'Bannon JH, Finley AM, Golden AM (1980) Occurrence and host range of a new root-knot nematode (Meloidogyne chitwoodi) in the Pacific northwest. Plant Disease 64, 951-952.
* Chadwick CF (1965) Checklist of the Brachyderinae (Col. Curculionidae) occurring in Australia. Journal of the Entomological Society of Australia (NSW) 2, 21-34.
* Mound LA, Palmer JM (1981) Identification, distribution and host-plants of the pest species of Scirtothrips (Thysanoptera: Thripidae). Bulletin of Entomological Research 71, 467-479.
------- only at genus level (Arachis) in Angola and Mauritius
* Kumar PS, Rachana RR (2021) Scirtothrips dorsalis (Thysanoptera: Thripidae) is a pest of celery, Apium graveolens (Apiales: Apiaceae): first report and diagnostic characters. Journal of Integrated Pest Management 12(1), 46. https://doi.org/10.1093/jipm/pmab039
------- Confirmed host.
* Dove H, Williams JR (1971) Pests of groundnuts and their control. Revue Agricole et Sucrière de l'Ile Maurice 50(3/4), 235-240 (abst.).
* Fenili GA, Dallai R, Abukar MM (1983) Groundnut pests in Somalia. Rivista di Agricoltura Subtropicale e Tropicale 77(3), 343-350 (abst.).
* Zaki FN, Abdel-Raheem MA (2010) Use of entomopathogenic fungi and insecticide against some insect pests attacking peanuts and sugarbeet in Egypt. Archives of Phytopathology and Plant Protection 43(18), 1819-1828.
* Wall R, Berberet RC (1974) The life-cycle of Euplectrus platyhypenae, a gregarious external parasitoid of peanut foliage feeders in Oklahoma. Environmental Entomology 3(5), 744-746.
* 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.
* Coto D, Saunders JL, Vargas-S CL, King ABS (1995) Plagas invertebradas de cultivos tropicales con énfasis em América Central-Um invetário. Turrialba, CATIE, 200 pp.
* Poveda BD, Schwitzer DA (1964) Estudio biológico del Prodenia ornithogalli Guen. y del Prodenia sunia (Guen.) en três hospedeiros. Acta Agronômica 14(1), 71-101.
* Robinson GS, Ackery PR, Kitching IJ, Beccaloni GW, Hernández LM (2010) HOSTS - A Database of the World's Lepidopteran Hostplants. Natural History Museum, London. http://www.nhm.ac.uk/hosts
* Chiavegato LG, Reis PR (1969) Ocorrência do àcaro Tetranychus evansi Baker and Pritchard, 1960 (Acarina, Tetranychidae) em Amendoim (Arachis hypogea L.) no Estado de Saõ Paulo. Ciencia e Cultura, 21: 372.
* Moutia LA (1958) Contribution to the study of some phytophagous Acarina and their predators in Mauritius. Bulletin of Entomological Research, 49: 59-75.
* Chatzivassiliou EK (2021) An annotated list of legume-infecting viruses in the light of metagenomics. Plants 10(7):1413. https://doi.org/10.3390/plants10071413
* Cho S, Kim, S, Kim S, Lee BC (2020) First report of tomato spotted wilt virus infecting Arachis hypogaea in Korea. Journal of Plant Pathology 102, 271. https://doi.org/10.1007/s42161-019-00410-7
------- Confirmed host.
* Parrella G, Gognalons P, Gebre-Selassie K, Vovlas C, Marchoux G (2003) An update of the host range of tomato spotted wilt virus. Journal of Plant Pathology 85(4), 227-264.
------- Confirmed host.
* Iwaki M, Thongmeearkom P, Honda Y, Prommin M, Deema N, Hibi T, Iizuka N, Ong CA, Saleh N (1986) Cowpea mild mottle virus occurring on soybean and peanut in Southeast Asian countries. Technical Bulletin of the Tropical Agriculture Research Center. (No. 21), 106-120.
* Jeyanandarajah P, Brunt AA (1993) The natural occurrence, transmission, properties and possible affinities of Cowpea mild mottle virus. Journal of Phytopathology 137(2), 148-156.
* Rosario K, Capobianco H, Ng TFF, Breitbart M, Polston JE (2014) RNA viral metagenome of whiteflies leads to the discovery and characterization of a whitefly-transmitted Carlavirus in North America. PLoS ONE 9(1), e86748. https://doi.org/10.1371/journal.pone.0086748
* Thouvenel JC, Monsarrat A, Fauquet C (1982) Isolation of cowpea mild mottle virus from diseased soybeans in the Ivory Coast. Plant Disease 66(4), 336-337.
* 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, 1-476.
------- Larval host.
* Abdurahman A, Parker ML, Kreuze J, Elphinstone JG, Struik PC, Kigundu A, Arengo E, Sharma K (2019) Molecular epidemiology of Ralstonia solanacearum Species Complex strains causing bacterial wilt of potato in Uganda. Phytopathology 109, 1922-1931
* Cellier G, Prior P (2010) Deciphering phenotypic diversity of Ralstonia solanacearum strains pathogenic to potato. Phytopathology 100:1250-1261.
* Pan ZC, Xu J, Prior P, Xu JS, Zhang H, Chen KY, Tian Q, Zhang LQ, Liu L, He LY, Feng J (2013) Development of a specific molecular tool for the detection of epidemiologically active mulberry causing-disease strains of Ralstonia solanacearum phylotype I (historically race 5-biovar 5) in China. European journal of plant pathology 137(2), 377-391.
* Xu J, Pan ZC, Prior P, Xu JS, Zhang Z, Zhang H, Zhang LQ, He LY, Feng J (2009) Genetic diversity of Ralstonia solanacearum strains from China. European Journal of Pathology 125(4), 641-653.
* Abdurahman A, Parker ML, Kreuze J, Elphinstone JG, Struik PC, Kigundu A, Arengo E, Sharma K (2019) Molecular epidemiology of Ralstonia solanacearum Species Complex strains causing bacterial wilt of potato in Uganda. Phytopathology 109, 1922-1931
* Cellier G, Prior P (2010) Deciphering phenotypic diversity of Ralstonia solanacearum strains pathogenic to potato. Phytopathology 100, 1250-1261.
* Pan ZC, Xu J, Prior P, Xu JS, Zhang H, Chen KY, Tian Q, Zhang LQ, Liu L, He LY, Feng J (2013) Development of a specific molecular tool for the detection of epidemiologically active mulberry causing-disease strains of Ralstonia solanacearum phylotype I (historically race 5-biovar 5) in China. European journal of plant pathology 137(2), 377-391.
* Xu J, Pan ZC, Prior P, Xu JS, Zhang Z, Zhang H, Zhang LQ, He LY, Feng J (2009) Genetic diversity of Ralstonia solanacearum strains from China. European Journal of Pathology 125(4), 641-653.
