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  1. Abad, J.A., J.W. Moyer, G.G. Kennedy, G.A. Holmes, and M.A. Cubeta.  2005.  Tomato spotted wilt virus on potato in eastern North Carolina.  American Journal of Potato Research 82: 255-261.
  2. Adam, D. B. (1937). “Notes on plant diseases in South Australia during the two-year period, 30th June, 1936.” Journal of Agriculture 40: 732-734.
  3. Adkins, S. and C.A. Baker.  2005.  Tomato spotted wilt virus identified in Desert Rose in Florida.  Plant Disease 89:526.
  4. Allen, C,T, M.S. Kharboutli, C.D. McAllister, C.M. Coker, Jr., and P.E. Cooper.  2000.  Thrips, weeds and tomato spotted wilt virus.  Research Series of the Arkansas Agricutlrual Experiment Station 475:11-16.
  5. Allen, T. C., J. P. McMorran, et al. (1983). “Isolation of tomato spotted wilt virus from hydrangea and four weed species.” Plant Disease 67: 429-431.
  6. Allen, W. R. and A. B. Broadbent (1986). “Transmission of tomato spotted wilt virus in Ontario Greenhouses by Frankliniella occidentalis.” Canadian Journal of Plant Pathology 8: 33-38.
  7. Allen, W. R. and J. A. Matteoni (1988). “Cylcamen ringspot:  Epidemics in Ontario Greenhouses caused by the tomato spotted wilt virus.” Canadian Journal of Plant Pathology 10: 41-46.
  8. Allen, W. R. and J. A. Matteoni (1991). “Petunia as an indicator plant for use by growers to monitor for thrips carrying the tomato spotted wilt virus in Greenhouses.” Plant Disease 75(1): 78-82.
  9. Arli-Sokmen, M., H. Mennan, M.A. Sevik, and O. Ecevit.  2005.  Occurrence of viruses in field-grown pepper crops and some of their reservoir weed hosts in Samsun, Turkey.  Phytoparasitica 33: 347-358.
  10. Al-Shahwan, I. M., O. A. Abdalla, et al. (1997). “Viruses in the northern potato-producing regions of Saudi Arabia.” Plant Pathology 46(1): 91-94.
  11. Amin, P.W. (1985). Apparent resistance of groundnut cultivar Robut-33-1 to bud necrosis disease.   Plant Disease 69:718-719.
  12. Amin, P.W., D.V.R. Reddy et al. (1981). Transmission of tomato spotted wilt virus, the causal agent of bud necrosis of peanut, by Scirtothrips dorsalis and Frankliniella schultzei. Plant Disease 65(8):663-665.
  13. Bald, J. G. (1937). “Investigations on spotted wilt of tomatoes.  III.  Infections in Field  plots.” Bulletin of the  Council for Scientific and Industrial Research in  Australia 106: 1-32.
  14. Bald, J. G. and G. Samuel (1931). “Investigations on spotted wilt of tomatoes.  II.” Bulletin of the  Council for Scientific and Industrial Research in  Australia, Melb. 54: 1-24.
  15. Barnes, L. W. and R. S. Halliwell (1985). “Tomato spotted wilt virus infecting begonias hybrids in Texas.” Plant Disease 67(7): 725.
  16. Bautista, R. C., R. F. L. Mau, et al. (1995). “Potential of tomato spotted wilt tospovirus plant hosts in Hawaii as virus reservoirs for transmission by Frankliniella occidentalis (Thysanoptera: Thripidae).” Phytopathology 85(9): 953-958.
  17. Beaumont, A. (1950). Diseases of china asters. The Gardener's Chronicle 128:140.
  18. Beaumont, A. (1954). “Diseases of Aquilegias.” The Gardener's Chronicle 135: 120.
  19. Berkeley, G. H. (1935). “Occurrence of spotted wilt' of tomato in Ontario.” Scientific Agriculture 15: 387-392.
  20. Bertaccini, A. and M. G. Bellardi (1990). “Tomato spotted wilt virus infecting gloxinia in Italy.” Phytopathogia Mediterranea 29: 205-208.
  21. Best, R. J. (1968). Tomato spotted wilt virus. Advances in Virus Research. K. M. a. L. Smith, M.S. New York, Academic Press. 13:65-146.
  22. Bezerra, I. .C., R. Resende, et al. (1999). Increase of tospoviral diversity in Brazil with the identification of two new tospovirus species, one from chrysanthemum and one from zucchini. Phytopathology 89(9):823-830.
  23. Bitterlich, I. and L. S. MacDonald (1993). “The prevalence of tomato spotted wilt virus in weeds and crops in southwesten British Columbia.” Canadian Plant Disease Survey 73(2): 137-142.
  24. Black, L. L., W. P. Bond, et al. (1986). Tomato spotted wilt virus: Epidemiological aspects. Third International Workshop on Plant Virus Epidemiology., Orlando, FL., International Society of Plant Pathology.
  25. Blockley, A.L. and R.A. Mumford.  2001.  The identification and isolation of Impatiens necrotic spot virus (INSV) from pirickly pear cactus (Opuntia microsdasys).  New Disease Reports http://www.bspp.org.uk/ndr/jul2001/2001-31.asp
  26. Boiteux, L. S. and T. Nagata (1993). “Susceptibility of Capsicum chinense PI 159236 to tomato spotted wilt virus isolates in Brazil.” Plant disease 77(2): 210.
  27. Bond, W. P., H. K. Whitam, et al. (1983). “Indigenous weeds as reservoirs of tomato spotted wilt virus in Louisiana.” Phytopathology 73(3): 499 (abstr.).
  28. Brittlebank, C. C. (1919). “Tomato Diseases.” Journal of the Department of Agriculture of Victoria Australia 17: 231-235.
  29. Broadbent, A. B., W. R. Allen, et al. (1987). “The association of Frankliniella occidentalis (Pergande) (Thysanoptera: Thripidae) with Greenhouse  crops and the tomato spotted wilt virus in Ontario.” The Canadian Entomologist 119: 501-503.
  30. Brown, L. G. (1988). “Tomato spotted wilt virus in ornamentals.” Plant Pathology Circular 313: 4  pp.
  31. Brunt, A. A. (1959). “Leaf enations in Dahlia variabilis Desf., induced by tomato spotted wilt virus.” Nature 183: 627-628.
  32. Bryan, D.E. and R.F. Smith (1956).  The Frankliniella occidentalis (Pergande) complex in California (Thysanoptera: Thripidae).  University of California Publications in Entomology 10 (6) 359-410.
  33. Calpas, J. T., B. J. Penner, et al. (1993). “Tomato Spotted Wilt Virus Survey in Alberta 1992.” Canadian Plant Disease Survey 73(1): 112-113.
  34. Camele, I., G. L. Rana et al. (1995). New epidemics of tomato spotted wilt virus (TSWV) in Basilicata and Apulia. Petria 5(2):137-141.
  35. Camele, I. and G.L. Rana.  (1998).  Tomato spotted wilt virus on melon and African eggplant in the Metapontum area of Italy.  Sixth SIPzV annual meeting "Plant Pathology and Sustainable Agricolture", Campobasso, Sept. 1998.
  36. Carter, W.  (1935). Mechanical  transmission of two viruses to pineapple. Phytopathology 25:10.
  37. Carter, W. (1939a). “Populations of Thrips tabaci, with special reference to virus transmission.” Journal of Animal Ecology 8: 261-276.
  38. Carter, W. (1939b). “Geographical distribution of yellow-spot of pineapples.” Phytopathology 29: 285-287.
  39. Chamberlain, E. E. (1954). Tomato Spotted Wilt. New Zealand Department of  Sci. Ind. Res. Soil. Bur. Bull. 108:87-130.
  40. Chamberlain, E. E. and G. G. Taylor (1936). “The occurrence of spotted-wilt on tomatoes in New Zealand.” New Zealand Journal of Agriculture 52: 9-17.
  41. Chen, C.C., T.C. Chen, Y.H. Lin, S.D. Yeh, and H.T. Hsu.  (2005).  A chlorotic spot disease on Calla Lilies (Zantedeschia spp.) is caused by a tospovirus serologically but distantly related to Watermelon silver mottle virus.  Plant Disease 89 (5) 440-445.
  42. Chen, C.C. and R.J.Chiu (1996).  A tospovirus infecting peanut in Taiwan.   Acta Horticulturae 431:57-67
  43. Chen, K., Z. Xu, L. Yan and G. Wang. ( 2007).  Characterization of a new strain of Capsicum chlorosis virus from peanut (Arachis hypogaea L.) in China.  Journal of Phytopathology 155: 178-181.
  44. Cho, J. J., R. F. L. Mau, et al.  (1989). “A multidisciplinary approach to management of tomato spotted wilt virus in Hawaii.” Plant Disease 73(5): 375-383.
  45. Cho, J. J., R. F. L. Mau, et al.  (1986). “Reservoir weed hosts of tomato spotted wilt virus.” Plant Disease 70(11): 1014-1017.
  46. Cho, J. J., R. F. L. Mau, et al. (1988). “Detection of tomato spotted wilt virus in individual thrips by enzyme-linked immunosorbent assay.” Phytopathology 78: 1348-1352.
  47. Cho, J. J., W. C. Mitchell, et al. (1987). “Epidemiology of tomato spotted wilt virus on crisphead lettuce in Hawaii.” Plant Disease 71(6): 505-508.
  48. Cho, J. J., W. C. Mitchell, et al. (1984). “Ecology and epidemiology of tomato spotted wilt virus (TSWV) and its vector, Frankliniella occidentalis.” Phytopathology 74: 866 Abstr.
  49. Chu, F-H, C-H Chao, M-H Chung, C-C Chen and S-D Yeh.  2001.  Completion of the genome sequence of Watermelon silver mottle virus and utilization of degenerate primers for detecting tospovirus in five serogoups.  Phytopathology 91 (4):361-368.
  50. Cook, A.A (1972). Virus diseases of Papaya. University of Florida Agricultural Experiment Station Bulletin 750, 19pp.
  51. Cordoba-Selles, C. and L. Martinez-Priego.  2005.  Iris yellow spot virus: a new onion disease in Spain.  Plant Disease 89:1243.
  52. Cortes, I., I. C. Livieratos, et al. (1998). “Molecular and serological characterization of iris yellow spot virus, a new and distinct tospovirus species.” Phytopathology 88(12): 1276-1282.
  53. Cortez, I, J. Saaijer, K.S. Wongjkaew, A.M. Pereira, R. Goldbach, D. Peters, and R. Kormelink.  2001.  Identification and characterization of a novel tospovirus species using a new RT-PCCR approach.  Archives of Virology 146(2): 265-278.
  54. Costa, A.S. and R. Forster (1941). Identidade do virus de vira-cabeça e sua inclusão no grupo do virus do 'spotted wilt'. Bragantia 1(7):491-516.
  55. Costa, A. S. and R. Forster (1942). “Lista de hospedeiras de virus vira-cabeca.” Bragantia 2(3): 83-91.
  56. Coutts, B.A., McMichael, L.A., Tesoriero, L., Rodoni, B.C., Wilson, C.R., Wilson, A.J., Persley, D.M., and Jones, RAC.  2003.  Iris yellow spot virus found infecting onions in three Australian states.  Australasian Plant Pathology 32 (4): 555-557.
  57. Creamer, R., S. Sanogo, A. Moya and J. Romero.  2004.  Iris yellow spot virus on onion in New Mexico.  Plant Disease 88:1049.
  58. Crowe, F.J. and H.R. Pappu.  2005.  Outbreak of Iris yellow spot virus in onion seed crops in central Oregon.  Plant Disease 89:105.
  59. Daughtrey, M.L. (1996).  Detection and identification of tospoviruses in Greenhouses. Acta Horticulturae 431:90-105.
  60. de Borbon, C.M., O. GRacia, and R. Piccolo.  2006.  Relationships between tospovirus incidence and thrips populations on tomato in Mendoza, Argentina.  Journal of Phytopathology 154: 93-99.
  61. De Bruin-Brink, G., H. P. Maas Geesteranus, et al. (1953). “Lycopersicum virus 3 (tomato spotted wilt virus), on Nicotiana tabacum and Impatiens holstii.” Tijdschr. PlZiekt. 59: 240-244.
  62. DeAndrade, L.G.S. et al. (2003).  "Caracterizacao molecular parcial de um tospovirus infectando plantas de fumo no estado de Alagoas."  Summa Phytopathologica 29(2): 196-198.
  63. DeAngelis, J. D., D. M. Sether, et al. (1994). “Transmission of impatiens necrotic spot virus in peppermint by Western flower thrips (Thysanoptera; Thripidae).” Journal of Economic Entomology 87(1): 197-201.
  64. DeGraca, J. V., T. N. Trench, et al. (1985). “TSWV in commercial Cape gooseberry (Physalis peruviana) in Transkei.” Plant Pathology (Oxford) 34: 451-453.
  65. DeHaan, P., L. Wagemakers, et al. (1989). “Molecular cloning and terminal sequence determining of the S and M RNAs of tomato spotted wilt virus.” Journal of General Virology 70: 3469-3473.
  66. Derks, A. F. L. M. and M. E. C. Lemmers (1996). “Detection of tospoviruses in bulbous crops and their transmissibility by vegetative propagation.” Acta Horticulturae 432: 132-139.
  67. Díaz-Pérez, J.C. and H.R. Pappu (2000).  First report of Tomato spotted wilt virus infection of Tomatillo in Georgia.   Plant Disease 84(10):1155.
  68. Doi, M., Zen., S. et al. (2003). "Leaf necrosis disease oflisianthus (Eustoma grandiflorum) caused by Iris yellow spot virus.  Japanese Journal of Phytopathology 69 (3) 181-188.
  69. Doolittle, S. P. and C. B. Sumner (1931). “The occurrence of the Austalian spotted wilt of tomatoes in Wisconsin.” Phytopathology 21: 106 (abstr.).
  70. Duarte, L. M. L., E. B. Rivas, et al. (1995). “Chrysanthemum stem necrosis caused by a possible novel tospovirus.” Journal of Phytopathology (Berlin) 143(9): 569-571.
  71. Dufrenoy, J. (1937). “Le spotted wilt.” Annals Epiphyties N.S. 3: 187-223.
  72. Dyer, R.A. (1949). Botanical surveys and control of plant diseases.   Farming in South Africa 24:119-121.
  73. Edwardson, J. R. and R. G. Christie (1986). Tomato spotted wilt virus. Viruses infecting forage legumes Vol III. Gainsville, Ag exp st., Inst. Food and Agr. Sci, U. Fl. Monograph 14:563-580.
  74. Edwardson, J. R. and R. G. Christie (1991). Tomato Spotted Wilt Virus, in CRC Handbook of Viruses Infecting Legumes, Boca Raton: CRC Press, pp. 465-477.
  75. Feldhoff, A. and G. Krczal (1994). “Artificial infection of ornamentals with tomato spotted wilt virus (TSWV) and the occurrence of TSWV in Rhineland-Palatinate.” Acta Horticulturae 377: 141-148.
  76. Ferguson, I. A. C. (1951). “Four virus disease of solanaceaous plants in Trinidad.” Plant Disease Report 35(2): 102-105.
  77. Floresca, E. T., R. K. Hishimoto, et al. (1978). “Susceptibility of Emilia species and types of tomato spotted wilt virus.” Plant Disease Reporter 62(1): 40-42.
  78. Francki, R. I. B. and C. J. Grivell (1970). “An electron microscope study of the distribution of tomato spotted wilt virus in systemically infected Datura stramonium leaves.” Virology 42: 969-978.
  79. Fulton, J. P. and K. S. Kim (1973). “A virus resembling tomato spotted wilt virus in black locust.” Plant Disease Reporter 57(2): 153-155.
  80. Gallitelli, D., G.L. Rana, C. Vovlas and G.P. Martelli.  2004.  Viruses of Globe Artichoke: an overview.  Journal of Plant Pathology 86 (4, special issue) 267-281.
  81. Garcia, O. and J. M. Feldman (1978). “Natural infection of artichoke by tomato spotted wilt virus.” Plant Disease Reporter 62: 1076-1077.
  82. Gardner, M. W., C. M. Tomkins, et al. (1935). “Spotted wilt of truck crops and ornamental plants.” Phytopathology 25: 17.
  83. Gardner, M. W., C. M. Tompkins, et al. (1937). “Factors affecting the prevalence of the spotted wilt virus.” Phytopathology 27: 129 (abstr.).
  84. Gardner, M. W. and O. C. Whipple (1934). “Spotted wilt of tomatoes and its transmission by thrips.” Phytopathology (abstr) 24: 1136.
  85. Gent, D.H., Schwartz, H.F. and Khosla, R.  2004.  Distribution and incidence of Iris yellow spot virus in Colorado and its relation to onion plant population and yield.  Plant Disease 88 (5):446-452.
  86. Gera, A., J. Cohen, et al. (1998). “Iris yellow spot tospovirus detected in onion (Allium cepa) in Israel.” Plant Disease 82(1): 127.
  87. Gera, A., A. Kritzman, et al. (1999). First report of Impatiens necrotic spot tospovirus (INSV) in Israel. Plant Disease 83(6):587.
  88. German, T. L., S. Adkins, et al. (1995). “Infection of Arabidopsis thaliana ecotype Columbia by tomato spotted wilt virus.” Plant Molecular Biology Reporter 13(2): 110-117.
  89. Ghanekar, A.M. , D.V.R. Reddy, et al (1979). Leaf curl disease of mung and urdbeans caused by tomato spotted wilt virus. Indian Phytopathology32:163.
  90. Ghotbi, T., N. Shahraeen, and S. Winter.  2005.  Occurrence of tospoviruses in ornamental and weed species in  Markasi and Tehran Provinces in Iran.  Plant Disease 89: 425-429.
  91. Gonsalves, D. and E. Trujillo (1986). “Tomato spotted wilt virus in papaya and detection of the virus by ELISA.” Plant Disease 70: 501-506.
  92. Gracia, O. and J. M. Feldman (1989). “First report of tomato spotted wilt virus on celery and three weed species in Argentina.” Plant Disease 73(10): 859.
  93. Greber, R. S. and G. J. P. McCarthy (1977). “A disease of Duboisia caused by tomato spotted wilt virus (TSWV).” Australian Plant Pathology Society Newsletter 6: 54-55.
  94. Green, D. E. (1934). “The virus of spotted wilt in Gloxinias.” Gardeners' Chronicle 96: 159-160.
  95. Green, J. L., T. C. Allen, et al. (1988). “Tomato spotted wilt in Stephanotis in an Oregon Greenhouse .” Plant Disease 72(10): 912.
  96. Grieco, P.D., D. Conte, et al. (2000). Tomato spotted wilt virus (TSWV) on weeds and wild plants in Metapontino, Basilicata. Infromatore Fitopatologico 50(6):43-46.
  97. Groves, R. L., G. G. Kennedy, et al. (1998). “Inoculation of tomato spotted wilt virus into cotton.” Plant Disease 82(8): 959.
  98. Groves, R.L., Walgenbach, J.F., Moyer, J.W. and Kennedy, G.G. (2001) Overwintering of Frankliniella fusca (Thysanoptera: Thripidae) on winter annual weeds infected with Tomato spotted wilt virus and patterns of virus movement between susceptible weed hosts.  Phytopathology 91(9):891-899.
  99. Gumpf, D. J. and L. G. Weathers (1972). “Identification and purification of tomato spotted wilt virus isolated from Ageratum.” Plant Disease Reporter 56: 859-872.
  100. Hagen, A.K., J.R. Weeks, et al. (1990). Tomato spotted wilt virus in peanut in Alabama. Plant Disease 74:615.
  101. Halliwell, R. S. (1988). “Tomato spotted wilt virus infection of cultivated malvaceous sp. and other crop plants in south Texas.” Phytopathology 78(5): 627 (abstr.).
  102. Halliwell, R. S. and L. W. Barnes (1987). “Tomato spotted wilt virus infection of commercial Aphelandra sp.” Journal of Environmental Horticulture 5(3): 120-121.
  103. Harris, M. R. (1939). “A survey of the spotted wilt disease of lettuce in the Salinas Valley.” California State Department of Agriculture Bulletin 28: 201-213.
  104. Hassani-Mehraban, A., Saaijer et al. (2005).  A new tomato-infecting tospovirus in Iran.  Phytopathology 95: 852-858.
  105. Hausbeck, M. K., R. A. Welliver, et al. (1992). “Tomato spotted wilt virus survey among Greenhouse ornamentals in Pennsylvania.” Plant Disease 76(8): 795-800.
  106. Hayati, I., A. S. Kline, et al. (1990). “A tomato spotted wilt virus from Verbesina alternifolia.” Phytopathology 80: 1060-1061 (abstr.).
  107. Hean, A. F. (1940). “Kromnek in South Africa.” Farming in South Africa 15: 388-390.
  108. Helms, K., N. E. Grylls, et al. (1961). “Peanut plants in Queensland infected with tomato spotted wilt virus.” Australian Journal of Agricultural Research 12: 239-246.
  109. Hill, M. F., R. J. Gilers, et al. (1996). “The incidence of chrysanthemum stunt viroid, chrysanthemum B carlavirus, tomato aspermy cucumovirus and toamto spiotted wilt tospovirus in Australian chrysanthemum crops.” Australasian Plant Pathology 25(3): 174-178.
  110. Hill, M. F. and J. R. Moran (1996). “The incidence of tomato spotted wilt tospovirus (TSWV) in Australian nursery plants.” Australasian Plant Pathology 25(2): 114-119.
  111. Hobbs, H. A., L. L. Black, et al. (1994). “Differences in reactions among tomato spotted wilt virus isolates to three resistant Capsicum chinense lines.” Plant Disease 78(12): 1220.
  112. Hobbs, H. A., L. L. Black, et al. (1993). “Transmission of Tomato Spotted Wilt Virus from Pepper and Three Weed Host by Frankliniella Fusca.” Plant Disease 77(8): 797-799.
  113. Holcomb, G.E., R.A. Valverde, et al. (1999). First report of Natural occurrence of tomato spotted wilt tospovirus in basil. Plant Disease 83(10):966.
  114. Holmes, F. O. (1939). Handbook of Phytopathogenic Viruses. Minneapolis, Minnesota, Burgess.
  115. Holmes, F. O. (1948). “Resistance to spotted wilt in tomato.” Phytopathology 38: 467-473.
  116. Holmes, F. O. (1948b), Elimination of spotted wilt from a stock of dahlia. Phytopathology 38:314.
  117. Honda, Y., M. Kameya-Iwaki, et al. (1989). “Occurrence of tomato spotted wilt virus in watermelon in Japan.” Techn. Bull, ASPAC Food and Fertilizer Techn. Center 114: 15-19.
  118. Hristova, D., Karadjova, O., Yankulova, M. Heinze, C. and Adam, G. (2001) A survey of Tospoviruses in Bulgaria.  Journal of Phytopathology 149(11-12): 745-749.
  119. Hsu, H. T. and R. H. Lawson (1991). “Direct tissue blotting for detection of tomato spotted wilt virus in Impatiens.” Plant Disease 75(3): 292-295.
  120. Hu, J. S., S. Ferreira, et al. (1993). “Detection of Cymbidium Mosaic Virus, Odontoglossum Ringspot Virus, Tomato Spotted Wilt Virus and Potyviruses infecting orchids in Hawaii.” Plant Disease 77(5): 464-468.
  121. Hurtt, S. S., S. C. Trees, et al. (1985). “Tomato spotted wilt virus associated with a lethal disease of Anemone coronaria.” Phytopathology 75: 1359.
  122. Hutton, E. M. and A. R. Peak (1949). “Spotted wilt resistance in tomato.” The Journal of the Institute of Agricultural Science 15: 32-36.
  123. Hutton, E. M. and A. R. Peak (1952). “The selection of spotted-wilt resistant phenotypes in the potato (Solanum tuberosum).” Australian Journal of Agricultural Research 3: 137-147.
  124. Ie, T. S. (1970). “Tomato spotted wilt virus.” Commonwealth Mycol. Inst./Assoc. Appl. Biol. Description of plant virus No. 39.
  125. Illingworth, J. F. (1931). “Yellow spot of pineapples in Hawaii.” Phytopathology 21: 865-880.
  126. Inouye, T. and N. Inouye (1972). “Tomato spotted wilt virus isolated from dahlia (Studies on the viruses of plants in compositae in Japan.  III.” Nogaku-Kenkyu 54(2): 79-90.
  127. Ivancheva-Gabrovska, T. (1970). “Tomato spotted wilt virus on tobacco.” Review of Plant Pathology 51: 342.
  128. Iwaki, M., Y. Honda, et al. (1984). “Silver mottle disease of watermelon caused by tomato spotted wilt virus.” Plant Disease 68(11): 1006-1008.
  129. Jain, R. K., S. S. Pappu, et al. (1998). Molecular diagnosis of tomato spotted wilt tospovirus infection of peanut and other Greenhouse  crops. Plant Disease 82(8):900-904.
  130. Jain, R.K., S. Bag, K. Umamaheswaran, and B. Mandal.  2007.  Natural infection by tospoviruses of cucurbitaceous and fabaceous vegetable crops in India.  Journal of Phytopathology 155: 22-25.
  131. Jayasena, K.W., D.V.R. Reddy et al. (1988).  First report of tomato spotted wilt virus infecting peanut in Sri Lanka.   Plant Disease 71(10):912.
  132. Johnson, R. R., L. L. Black, et al. (1995). “Association of Frankliniella fusca and three winter weeds with tomato spotted wilt virus in Louisiana.” Plant Disease 79(6): 572-576.
  133. Johnson, W. C. I., J. W. Todd, et al. (1996). “Role of warm-season weeds in spotted wilt epidemiology in the southeastern coastal plain.” Agronomy Journal 88(6): 928-933.
  134. Jones, L. K. (1944). “Streak and mosaic of Cineraria.” Phytopathology 34: 941-953.
  135. Jones, R.A.C. and M. Sharman (2005). Capsicum chlorosis virus infecting Capsicum annuum in the east Kimberley region of Western Australia.  Australasian Plant Pathology 34: 397-399.
  136. Jorda, C., A. Ortega, et al. (1995). “New hosts of tomato spotted wilt virus.” Plant Disease 79(5): 538.
  137. Jozsef, H., Gaborjanyi, R., Kazinczi, G. and Takacs, A.P.  2001.  A paradicsom bronzfoltossag virus (Tomato spotted wilt virus, TSWV) elso hazai elofordulasa burgonyan.  (Natural occurrence of tomato spotted wilt tospovirus (TSWV) on potato in Hungary).  Novenytermeles 50(5): 545-547.
  138. Kaminska, M. and M. Korbin (1994). “New Natural hosts of tomato spotted wilt virus.” Acta Horticulturae 377: 123-128.
  139. Kato, K., K. Hanada et al. (2000). Melon yellow spot virus: a distinct species of the genus tospovirus isolated from melon. Phytopathology 90(4):422-426.
  140. Kitajima, E.W. and A. S. Costa (1973). Particle morphology of the bean necrotic mosaic firus and the ultrastructure of the infected cells. Cien. Cult. (Sao Paulo) 25:1174.
  141. Klesser, P. J. (1960a). “Virus diseases of peas and sweet peas.” Bothalia 7: 253-282.
  142. Klesser, P. J. (1960b). Virus diseases of broad beans. Bothalia 7:283-294
  143. Kobatake, H., T. Osaki et al. (1976). Tomato spotted wilt virus. Annals of the Phytopathology Society of Japan 42:287-294.
  144. Kobatake, H., T. Osaki, et al. (1984). “The vector and resevoirs of tomato spotted wilt virus in Nara Prefecture.” Annals of the Phytopathological Society of Japan  50: 541-544.
  145. Kochman, J, and T. Stachyra (1958). Beiträge zur Kenntnis der pflanzlichen Viruskrankheiten und virusverdächtigen erscheinungen in Polen. Nachrichtenbl Dtsch. Pflanzenschutzdienst (Berlin) 12: 41.
  146. Kritzman, A., H. Beckelman, et al. (2000). Lisianthus leaf necrosis: a new disease of lisianthus caused by iris yellow spot virus. Plant Disease 84(11):1185-1189.
  147. Kritzman, A., M. Lampel, B. Raccah, and A. Gera.  2001.  Distribution and transmission of iris yellow spot virus.  Plant Disease 85(8): 838-842.
  148. Kumar, N. K. K., D. E. Ullman, et al. (1995). “Frankliniella occidentalis (Thysanoptera: Thripidae) landing and resistance to tomato spotted wilt tospovirus among Lycopersicon accessions with additional comments on Thrips tabaci (Thysanoptera: Thripidae).” Environmental Entomology 24(3): 513-520.
  149. Latham, L. J. and R. A. C. Jones (1997). “Occurrence of tomato spotted wilt tospovirus in native flora, weeds, and horticultural crops.” Australasian Journal of Agricultural Research 48(3): 359-369.
  150. Lavina, A., A. Armaburu, et al. (1996). “Occurrence of tomato spotted wilt and cucumber mosaic viruses in Field -grown tomato crops and associated weeds in northeastern Spain.” Plant Pathology (Oxford) 45(5): 837-842.
  151. Lavina, A. and A. Batlle (1993). “First report of tomato spotted wilt virus infection of ficus species in Spain.” Plant Disease 77(5): 536.
  152. Lee, T. C., R. I. B. Francki, et al. (1979). “A serious disease of gladiolus in Australia caused by tomato spotted wilt virus.” Plant Disease Reporter 63(5): 345-348.
  153. Lemmetty, A., I. Lindqvist (1993). Thrips tabaci Lind. (Thysanoptera, Thripidae ), another vector for tomato spotted wilt virus in Finland. Agricultural Science in Finland 2(2):189-194.
  154. Lima, M.F., A.C. de Ávila (1999). Coriander: a new Natural host of groundnut ring spot virus in Brazil. Plant Disease 83(9):978.
  155. Linford, M. B. (1932). “Transmission of the pineapple yellow-spot virus by Thrips tabaci.” Phytopathology 22: 301-324.
  156. Lisa, V., A. M. Vaira, et al. (1990). “Tomato spotted wilt virus in cinque species colivate in Liguria.” Informatore Fitopatologico 12: 34-41.
  157. Lisa, V., S. Gallo et al. (1992). "Suscettibilita a Tomato spotted wilt virus di piante ornamentali coltivate o coltivabili in Liguria.  Agricoltura Liguria 11: 7-11.
  158. Llamas-Llamas, M. E., E. Zavaleta-Mejia, et al. (1998). “Effect of temperature on symptom expression and accumulation of tomato spotted wilt virus in different host species.” Plant Pathology (Oxford) 47(3): 341-347.
  159. Luoro, D. (1996). “Detection and identification of tomato spotted wilt virus and impatiens necrotic spot virus in Portugal.” Acta Horticulturae 431: 99-105.
  160. MacDonald, L. S., R. R. Stace-Smith, et al. (1989). “Incidence of tomato spotted wilt virus in British Columbia.” Canadian Plant Disease Survey 69(1): 87-88.
  161. Madeira, M.C.B., A. N. Dusi, et al. (1989). Ocorrencia do virus do vira cabeça do tomateiro (TSWV) em Solanum mammosum no Distrito Federal. Fitopatologia Brasileira 14:163 (abstr.).
  162. Makkouk, K. M. and D. J. Gumpf (1974). “Further identification of naturally occurring virus diseases of pepper in California.” Plant Disease Reporter 58(11): 1002-1006.
  163. Manoussopoulos, I.N., E. K. Chatzivassiliou, et al. (1999). Two diseases of Dimorphotheca caused by lettuce mosaic potyvirus and tomato spotted wilt virus. Phytoparasitica 27(3):227-232.
  164. Marchoux, G., K. Gébré-Selassie, et al. (1991). “Detection of tomato spotted wilt virus and transmission by Frankliniella occidentalis in France.” Plant Pathology 40(3): 347-351.
  165. Marchoux, G., Hostachy, B., Gebre-Selassie, K. and Gognalons, P.  (2000). "Tomato spotted wilt virus: Hotes et methodes de lutte.  Tevue Horticole 418: 46-52.
  166. Martinez-Ochoa, N., S.W. Mullis and A.S. Csinos.  2004.  First report of Yellow Nutsedge (Cyperus esculentus) and Purple Nutsedge (C. rotundus) in Georgia naturally infected with Impatiens necrotic spot virus.  Plant Disease 88:771.
  167. Matteoni, J. A., W. R. Allen, et al. (1988). Host range and symptoms of tomato spotted wilt virus. Proceedings of the Fourth Conference on Insect and Disease Management on Ornamentals, Kansas City, MO.
  168. Matteoni, J. A., W. R. Allen, et al. (1988). “Tomato spotted wilt virus in Greenhouse crops in Ontario.” Plant Disease 72: 801.
  169. Matteoni, J. A., W. R. Allen, et al. (1989). “Diseases of ornamentals: diagnostic summary, Vineland Research Station.” Canadian Plant Disease Survey 69(1): 90-93.
  170. McCarthy, G. J. P. and R. S. Greber (1978). “Tomato spotted wilt virus in Duboisia.” Queensland Agricultural Journal 104: 336-338.
  171. McLean, G.D. and L.K. Price (1984). Virus, viroid, mycoplasma and rickettsial diseases of plants in Western Australia. Technical Bulletin (Western Australia Department of Agriculture) 68, 22pp.
  172. McMichael, L.A.D., Persley, L., et al. (2002).  A new tospovirus serogroup IV species infecting capsicum and tomato in Queensland, Australia.  Australasian Plant Pathology 31(3): 231-239.
  173. McPherson, R.M, Beshear, R.J., Johnson, W.C., Martinez-Ochoa, N. and Wells, M.L.  2003.  Winter and early-Spring survey of thrips vectors and host plants of tomato spotted wilt tospovirus in and near a flue-cured tobacco farmscape.  Journal of Entomological Science 38(4):660-668
  174. McPherson, R. M., H.R. Pappu, et al. (1999). Occurrence of five thrips species on flu-cured tobacco and impact on spotted wilt disease incidence in Georgia. Plant Disease 83(8):765-767.
  175. Mertelik, J., B. Götzová, et al. (1996). “Epidemiological aspects of tomato spotted wilt virus infection in the Czech republic.” Acta Horticulturae 432: 368-375.
  176. Middleton, J. T. (1939). “Occurrence of spotted wilt in Missouri.” Plant Disease Reporter 23: 204.
  177. Milbrath, J. A. (1939). “Tomato tip-blight virus.” Phytopathology 29: 156-168.
  178. Mildner, R. A. and R. P. Scheffer (1961). “Host ranges and properties of some viruses from Dahlia.” Phytopathology 51: 372-376.
  179. Momol, M. T., H. R. Pappu, et al. (2000). First report of tomato spotted wilt virus in Habanero and Tabasco peppers in Florida. Plant Disease 84(10):1154.
  180. Moore, E.S. (1933). The Kromnek or Kat river disease of tobacco and tomato in the East Province (South Africa).” Bulletin of the South Africa Department of Agriculture 123, 28pp.
  181. Morwood, R.B. (1945). Peanut diseases. Queensland Agricultural Journal 61:266-271.
  182. Mossop, D. W. and P. R. Fry (1983). “New plant disease records in New Zealand: arabis mosaic virus in celery, lettuce, and Chinese cabbage; tomato spotted wilt virus in celery.” New Zealand Journal of Agricultural Research 26: 257-259.
  183. Mullis, S.W., A.S. Csinos, R.D. Gitaitis, and N. Martinez_Ochoa.  2006.  First report of Pinaceae in Georgia naturally infected with tomato spotted wilt virus.  Plant Disease 90: 376.
  184. Mullis, S.W., R.D. Gitaitis, C. Nischwitz, and A.S. Csinos.  2006. First report of onion (Allium cepa) naturally infected with iris yellow spot virus in Peru.   Plant Disease 90:377.
  185. Mullis, S.W., D.B. Langston, R.D., Gitaitis, J.L., Sherwood, A.C., Scinos, D.G. Riley, A.N. Sparks, R.L. Torrance  and M.J.Cook.  2004.  First report of Vidalia onion (Allium cepa) naturally infected with Tomato spotted wilt virus and Iris yellow spot virus (Family Bunyaviridae, genus Tospovirus) in Georgia.  Plant Disease 88 (11):1285.
  186. Nagata, T., A. C. de Ávila, et al. (1995). “Occurrence of different tospoviruses in six states of Brazil.” Fitopatologia Brasileira 20(1): 90-95.
  187. Nagata, T., A.C.L  Almeida, et al. (1999). The identification of the vector species of iris yellow spot tospovirus occurring on onion in Brazil. Plant Disease 83(4):399.
  188. Nagata, T. and A.C. de Ávila (2000). Transmission of chrysanthemum stem necrosis virus, a recently discovered tospovirus, by two thrips species. Phytopatholigische Zeitshrift 148(2):123-125.
  189. Nagata, T., R. D. O. Resende, et al. (1998). “First report of Natural occurrence of zucchini lethal chlorosis tospovirus on cucumber and chrysanthemum stem necrosis tospovirus on tomato in Brazil.” Plant Disease 82(12): 1403.
  190. Nakahara, S. and R.C. Monteiro (1999). Franklinella zucchini (Thrysanoptera: Thripidae), a new species and vector of tospovirus in Brazil. Proceedings of the Entomological Society of Washington 101(2):290-294.
  191. Noordam, D. (1952). “Lycopersicum-virus 3 (tomato spotted wilt) on some ornamental plants.” Tijdschrift over Plantenziekten 58: 89-96.
  192. Noordam, D. (1943). “Over het voorkomen van spotted wilt in Nederland.” Tijdschrift over Plantenziekten 49: 117-119.
  193. Norris, D. O. (1946). “The strain complex and symptom variability of tomato spotted wilt virus.” Bulletin of the Council for Scientific and Industrial Research in  Australia 202: 1-51.
  194. Ogilvie, L. (1935). “Spotted wilt and its control.” Annual Report of the Long Ashton Research Station for 1934: 170-174.
  195. Paliwal, Y. C. (1974). “Some properties and thrip transmission of tomato spotted wilt virus in Canada.” Canadian Journal of Botany 52: 1177-1182.
  196. Pappu, H.R., B.C. Hellier and F.M. Dugan.  2006.  Wild Allium spp. as natural hosts of Iris yellow spot virus.  Plant Disease 90:378.
  197. Pappu, S.S., M. C. Black, et al. (1999). First report of Natural infection of peanut (groundnut) by impatiens necrotic spot tospovirus (family Bunyaviridae). Plant Disease 83(10):966.
  198. Pappu, S.S., H.R. Pappu, et al. (1998). First report of tomato spotted wilt tospovirus infection of watermelon in Georgia. Plant Disease 82(3):351.
  199. Parris, G. K. (1940). “ Mechanical  transmission of the pineapple yellow-spot virus: evidence for identity with spotted-wilt virus.” Phytopathology 30: 299-312.
  200. Perry, K.L., L. Miller and L. Williams.  2005.  Impatiens necrotic spot virus in greenhouse-grown potatoes in New York State.  Plant Disease 89:340.
  201. Pethybridge, S.J. and Wilson, C.R.  (2003)  A survey for viruses and a viroid in Tasmanian pyrethrum crops.  Australasian Plant Pathology 33: 301-303.
  202. Pitblado, R. E., W. R. Allen, et al. (1990). “Introduction of tomato spotted wilt virus and western flower thrips complex into Field  vegetables in Ontario.” Plant Disease 74(1): 81.
  203. Pittman, H. A. (1927). “Spotted wilt of tomatoes.” Journal of the Australian Council for Scientific and Industrial Research 1: 74-77.
  204. Pittman, H. A. (1934). “Virus diseases of plants with particular reference to the spotted or bronzy wilt disease of tomatoes.” Journal of the Department of Agriculture, Western Australia 11: 123-140.
  205. Pocsai, E. J. Horvath et al. (1998). New results on the occurrence of plant viruses in Hungarian rivers and lakes. Acta Botanica Croatica 57:1-10.
  206. Pontis, R. E. and J. M. Feldman (1967). “Tomato spotted wilt virus in lettuce in Argentina.” Plant Disease Reporter 51(3): 225.
  207. Pozzer, L., I. C. Bezerra, et al. (1999). Characterization of a tospovirus isolate of iris yellow spot virus associated with a disease in onion Fields in Brazil. Plant Disease 83(4):345-350.
  208. Premachandra, W.T.S.D., C. Borgemeister, E. Maiss, D. Knierim, and H.M. Poehling.  2005.  Ceratothripoides claratris, a new vector of a capsicum chlorosis virus isolate infecting tomato in Thailand.  Phytopathology 95: 659-663.
  209. Prentise, I. W. (1952). “New or uncommon plant diseases in England and Wales.” Plant Pathology 1(101-102).
  210. Reddy, D. V. R., P. W. Amin, et al. (1983). Epidemiology and control of groundnut bud necrosis and other diseases of legume crops in India caused by tomato spotted wilt virus. Plant Virus Epidemiology. R. T. Plumb and J. M. Thresh. Oxford, Blackwell Scientific Publications: 93-102.
  211. Rezende, J. A. M., S. R. Galleti, et al. (1997). Incidence, biological and serological characteristics of a tospovirus in Experimental Fields of zucchini in Sao Paulo State, Brazil. Fitopatologia Brasileira 22(1):92-95.
  212. Robène-Soustrade, I., B. Hostachy et al. (2005).  First report of Iris yellow spot virus in onion bulb and seed production fields in Reunion Island.  New Disease Reports http://www.bspp.org.uk/ndr/july2005/2005-33.asp
  213. Roca, E., J. Aramburu, et al. (1997). Comparative host reactions and Frankliniella occidentalis transmission of different isolates of tomat spotted witl tospovirus from Spain. Plant Pathology (Oxford) 46(3):407-415.
  214. Roggero, P. M. Ciuffo, et al (1999). Additional ornamental species as hosts of impatiens necrotic spot tospovirus in Italy. Plant Disease 83(10):967.
  215. Roggero, P., G. Dellavalle et al. (1999). Effects of temperature on infection in Capsicum sp. and Nicotiana benthamiana by impatiens necrotic spot tospovirus. European Journal of Plant Pathology 105(5):509-512.
  216. Rosales, M., H.R. Pappu, L. Lopez, R. Mora, and A. Aljaro.  2005.  Iris yellow spot virus in onion in Chile.  Plant Disease 89: 1245-1245.
  217. Ruter, J. M. and R. D. Gitaitis (1993a). “First report of tomato spotted wilt virus on bedding plants in Georgia.” Plant Disease 77(1): 101.
  218. Ruter, J. M. and R. D. Gitaitis (1993b). “Impatiens necrotic spot virus in woody landscape plants in Georgia.” Plant Disease 77(3): 318.
  219. Sakimura, K. (1940). “Evidence for the identity of the yellow-spot virus with the spotted-wilt virus: experiments with the vector Thrips tabaci.” Phytopathology 30(4): 281-299.
  220. Sakimura, K. (1961). “ Field  observations on the thrips vector species of the tomato spotted witl virus in the San Pablo area, California.” Plant Disease Reporter 45(10): 722-776.
  221. Sakimura, K. (1962). “Frankliniella occidentalis (Thysanoptera: Thripidae), a vector of tomato spotted wilt virus, with special reference to the color forms.” Annals of the Entomological Society of America 55: 387-389.
  222. Sakimura, K. (1963). “Frankliniella fusca, an additional vector for the tomato spotted wilt virus, with notes on Thrips tabaci, another vector.” Phytopathology 53: 412-415.
  223. Salomone, A., V. Masenga et al. (2003). First report of Tomato spotted wilt virus (Tospovirus, Bunyaridae) infecting Euphorbia eritrea and Asclepias curassavica in Liguria, Italy.  online at: http://www.bspp.org.uk/ndr/july2003/2003-33.htm .
  224. Salveira, W.F., A.C. Avila et al. (1985). Chuchu (Sechium edule S.): nova especie hospedeira do virus de vira-cabeca do tomateiro. Fitopatologia Brasileira 10:661.
  225. Samson, R. W. and E. P. Imle (1942). “A ring-spot type of virus disease of tomato.” Phytopathology 32(12): 1037-1047.
  226. Samuel, G. and J. G. Bald (1933). “On the use of the primary lesions in quantitative work with two plant viruses.” Annals of Applied Biology 20: 70-99.
  227. Samuel, G., J. G. Bald, et al. (1930). “Investigations on spotted wilt of tomatoes.” Bulletin of the  Council for Scientific and Industrial Research in  Australia, Melb. 44: 64 pp.
  228. Satyanarayana, T., K. Lakshminarayana Reddy, et al. (1996). Peanus yellow spot virus: a distinct tospovirus species based on serology and nucleic acid hybridisation. Annals of Applied Biology 129:237-245.
  229. Schmelzer, K., P. Wolf, et al. (1977). “Die bronzefleckenkrankheit der tomate.” Pflanzliche Virologie Bd 3: 69-71.
  230. Schuster, G. L. and R. S. Halliwell (1994). “Six new hosts of tomato spotted wilt virus in Texas.” Plant Disease 78(1): 100.
  231. Schwartz, H.F., K. Otto and H.R. Pappu.  2007.  First report of Iris yellow spot virus in commercial leak(Allium porrum) in the United States.  Plant Disease 91: 113.
  232. Sclar, C., T. Anisko, et al. (2001). Tospovirus Host List, Longwood Gardens, Kennett Square PA. 3pp.
  233. Sether, D. M., J. D. DeAngelis, et al. (1991). “First report of tomato spotted wilt virus in peppermint (Mentha x piperita).” Plant Disease 75(6): 644.
  234. Severin, H. H. P. (1942). “Viroses of annual larkspurs.” Hilgardia 14: 585-594.
  235. Sherf, A.F. (1948). Occurrence of tomato spotted wilt in Nebraska in 1948. Plant Disease Reporter 32(12):509.
  236. Sikora, E.J., R.T. Gaudauskas, et al. (1998). Á multivurs epidemic of tomatoes in Alabama. Plant Disease 81(1):117-120.
  237. Singh, S.J. and M. Krishna Reddy (1995). Thrips flavus Schrank (Thysanoptera: thripidae), a new insect vector of a tospovirus infecting watermelon in India. Pest Manaagement in Horticultural Ecosystems 1(2):115-118.
  238. Smith, K. M. (1931a). “Studies on potato virus diseases VIII.  On a ringspot virus affecting solanaceaous plants.” Annals of Applied Biology 18(1): 1-15.
  239. Smith, K. M. (1931b). “Thrips tabaci Lind. as a vector of plant virus disease.” Nature 127: 852-853.
  240. Smith, K. M. (1932). “Studies on plant virus diseases. XI.  Further experiments with a ringspot virus: its identification with spotted wilt of the tomato.” Annals of Applied Biology 18(3): 305-330.
  241. Smith, K. M. (1933). “Spotted wilt: an important virus disease of the tomato.” Journal of the Minsitry of Agriculture 39: 1097-1103.
  242. Smith, K. M. (1935). “Some diseases of ornamental plants caused by the virus of tomato spotted wilt.” Journal of the Royal Horticultural Society 60: 304-310.
  243. Smith, K. M. (1957). A Textbook of Plant Virus Diseases. London, Churchill.
  244. Smith, P. G. (1944). “Reaction of Lycopersicon spp. to spotted wilt.” Phytopathology 34: 504-505.
  245. Snyder, W. C. and H. R. Thomas (1936). “Spotted wilt of the sweet pea.” Hilgardia 10: 257-262.
  246. Stack, P. A., L. B. Stack, et al. (1997). “A two-year grower survey of thrips and Tospovirus incidence and management in Maine Greenhouses.” Journal of Agricultural Entomology 14(2): 205-224.
  247. Stobbs, L. W., A. B. Broadbent, et al. (1992). “Transmission of tomato spotted wilt virus by the western flower thrips to weeds and native plants in southern Ontario.” Plant Disease 76(1): 23-29.
  248. Stubbs, L. L. (1960). “Hoya carnosa infected with tomato spotted wilt virus.” Aust. Pl. Dis. Rec. 12: 33.
  249. Tehrani, B., W. R. Allen, et al. (1990). “Update on the incidence of tomato spotted wilt virus in Greenhouses .” Canadian Plant Disease Survey 70(1): 102-103.
  250. Tesoriero, L. and J. Lidbetter.  2001.  New host records for tomato spotted wilt virus: Kangaroo paws (Anigozanthos hybrids) and Everlasting daisies (Bracteantha bracteata).  13th Biennial conference, Cairns, 24-27 Sept. 2001: conference handbook.
  251. Thomson, A. D. (1976). “Virus diseases of Solanum laciniatum Ait. in New Zealand.” New Zealand Journal of Agricultural Research 19: 521-527.
  252. Tompkins, C. M. and H. H. P. Severin (1950). Spotted wilt of white, yellow and pink callas. Hilgardia 20(12):207-232.
  253. Trujillo, E.E. and D. Gonsalves (1967). Tomato spotted wilt virus in papaya. Phytopathology 57:9.
  254. Vaira, A.M., V. Lisa et al. (1992). Diffusione di due ceppi di tomato spotted wilt virus in Liguria. Informatore Fitopatologico 42(2):59-63.
  255. von Kammen, A., S. Henstra et al. (1955). Morphology of tomato spotted wilt virus. Virology 30:574-577.
  256. Venkata Subbaiah, K., D. V. R. Sai Gopal et al. (2000). First report of a tospovirus on sunflower (Helianthus annus L.) from India. Plant Disease 84(12):1343.
  257. Verhoeven, J. T. J. and J. W. Roenhorst (1994). “Tomato spotted wilt virus: ecological aspects in ornamental crops in the Netherlands from 1989 up to 1991.” Acta Horticulturae 377: 175-182.
  258. Verhoeven, J. T. J., J. W. Roenhorst, et al. (1996). “Detection of a novel tospovirus in chrysanthemum.” Acta Horticulturae 432: 44-50.
  259. Whipple, O. C. (1936). “Spotted wilt of garden pea.” Phytopathology 26: 918-920.
  260. Williams, L.V., Lambertini, P.M.L., Shohara, K. and Biderbost, E.B.  (2001) Occurrence and geographical distribution of tospovirus species infecting tomato crops in Argentina.  Plant Disease 85 (12):1227-1229.
  261. Wilson, C. R. (1998). “Incidence of weed reservoirs and vectors of tomato spotted wilt tospovirus on southern Tasmanian lettuce farms.” Plant Pathology (Oxford) 47(2): 171-176.
  262. Wilson, C.R. (1999).  Susceptibility of pyrethrum and opium poppy to tomato spotted wilt tospovirus infection.  Australasian Plant Pathology 28:333-335.
  263. Wilson, C.R. (2001).  Resistance to infection and translocation of Tomato spotted wilt virus in potatoes.  Plant Pathology 50(3):402-410.
  264. Winter, S. N. Shahraeen et al. (2005).  Characterisation of Tomato fruit yellow ring virus: a new Tospovirus species infecting tomato in Iran.  New Disease Reports http://www.bspp.org.uk/ndr/july2005/2005-34.asp
  265. Wongkaew, S. (1995). Peanut bud necrosis disease in Thailand. Proceedings from Recent Studies on Peanut Bud Necrosis Disease, ICRISAT, Wageningen, pp55-59.
  266. Yamamoto, T. and K.-i. Ohata (1977). “Some properties and electron microscopy of tomato spotted wilt virus isolated from Blackberry-lily (Belamcanda chinensis DC.).” Bulletin of the Shikoku Agricultural Experiment Station 30: 39-47.
  267. Yeh, S-D, Y-C Cheng et al. (1992). Identification of tomato spotted wilt virus on watermelon in Taiwan. Plant Disease 76:835-840.
  268. Yu, T. F. (1947). “Spotted wilt of broad bean.” Phytopathology 37: 191-192.
  269. Yudin, L. S., J. J. Cho, et al. (1986). “Host range of western flower thrips, Frankliniella occidentalis (Thysanoptera: Thripidae), with special reference to Leucaena glauca.” Environmental Entomology 15: 1292-1295.
  270. Zheng, Y-X., C.-C. Chen et al.  (2008).  Identification and characterization of a tospovirus causing chlorotic ringspots on Phalaenopsis orchids.  European Journal of Plant Pathology 120: 199-209.
  271. Zimmer, R.C. and S. Haber (1992). “First report of tomato spotted wilt virus in Manitoba and of Lathyrus sativus as a host.” Plant Disease 76:753.