http://orcid.org/0000-0002-0408-3638
References
- Aitchison J. 1986. The statistical analysis of compositional data. Monographs on statistics and applied probability. London: Chapman & Hall Ltd.
- Amaral I, de Moraes GJ, Melville CC, Andrade DJ. 2018. Factors affecting prevailing population levels of brevipalpus yothersi (acari: tenuipalpidae) in citrus areas affected by citrus leprosis in the state of sao paulo, brazil. Experimental and Applied Acarology. 74: 395–402.
- Arena GD, Ramos-González PL, Nunes MA, Ribeiro-Alves M, Camargo LEA, Kitajima EW, Machado MA, Freitas-Astúa J. 2016. Citrus leprosis virus C infection results in hypersensitive-like response, suppression of the JA/ET plant defense pathway and promotion of the colonization of its mite vector. Front Plant Science. 7: 1757.
- Bastianel M, Novelli VM, Kitajima EW, Kubo KS, Bassanezi RB, Machado MA, Freitas-Astúa J. 2010. Citrus leprosis: centennial of an unusual mite-virus pathosystem. Plant Disease. 94:284–292.
- Beard JJ, Ochoa R, Braswell WE, Bauchan GR. 2015. Brevipalpus phoenicis (Geijskes) species complex (Acari: Tenuipalpidae)-a closer look. Zootaxa. 3944:1–67.
- Belliure B, Janssen A, Maris PC, Peters D, Sabelis MW. 2005. Herbivore arthropods benefit from vectoring plant viruses. Ecology Letters. 8:70–79.
- Blanc S, Michalakis Y. 2016. Manipulation of hosts and vectors by plant viruses and impact of the environment. Current Opinion in Insect Science. 16:36–43.
- Brault V, Tanguy S, Reinbold C, Le Trionnaire G, Arneodo J, Jaubert-Possamai S, Guernec G, Tagu D. 2010. Transcriptomic analysis of intestinal genes following acquisition of Pea enation mosaic virus by the pea aphid Acyrthosiphon pisum. Journal of General Virology. 91:802–808.
- Carmo-Sousa TMD, Moreno A, Plaza M, Fereres A. 2016. Cucurbit aphid-borne yellows virus (CABYV) modifies the alighting, settling and probing behaviour of its vector Aphis gossypii favouring its own spread: persistent transmitted viruses effect on vector behaviour. Annals of Applied Biology. 169:284–297.
- Chen WT, Tseng CH, Tsai CW. 2014. Effect of Watermelon silver mottle virus on the life history and feeding preference of Thrips palmi. PLoS One. 9:e102021.
- Chiavegato-Gonzaga L. 1986. Biologiado ácaro Brevipalpus phoenicis em citros. Pesquisa Agropecuria Brasileira. 21:813–816.
- Childers CC, French JV, Rodriguez JCV. 2003. Brevipalpus californicus, B. obovatus, B. phoenicis, and B. lewisi (Acari: Tenuipalpidae): a review of their biology, feeding injury and economic importance. Experimental and Applied Acarology. 30:5–28.
- Donaldson JR, Gratton C. 2007. Antagonistic effects of soybean viruses on soybean aphid performance. Environmental Entomology. 36:918–925.
- Fiebig M, Poehling HM, Borgemeister C. 2004. Barley yellow dwarf virus, wheat, and Sitobion avenae: a case of trilateral interactions. Entomologia Experimentalis et Applicata. 110:11–21.
- Garita LC, Tassi AD, Calegario RF, Freitas-Astúa J, Salaroli RB, Romão GO, Kitajima EW. 2014. Experimental host range of Citrus leprosis virus C (CiLV-C). Tropical Plant Pathology. 39:043–055.
- Gergerich RC, Dolja VV. 2006. Introduction to plant viruses, the invisible foe. Plant Health Instructor. doi:10.1094/PHI-I-2008-0122-01
- Haramoto FH 1966. Biology and control of Brevipalpus phoenicis (Geijskes) (Acarina: Tenuipalpidae). University of Hawai. Ph.D. Thesis. Zoology. 113 p.
- Higashi CH, Bressan A. 2013. Influence of a propagative plant virus on the fitness and wing dimorphism of infected and exposed insect vectors. Oecologia. 172:847–856.
- Hogenhout SA, Ammar El D, Whitfield AE, Redinbaugh MG. 2008. Insect vector interactions with persistently transmitted viruses. Annual Review of Phytopathology. 46:327–359.
- Ingwell LL, Eigenbrode SD, Bosque-Pérez NA. 2012. Plant viruses alter insect behaviour to enhance their spread. Scientific Reports. 2:578.
- Kennedy JS, Impe G, Van Hance T, Lebrun P. 1996. Demecology of the false spider mite, Brevipalpus phoenicis (Geijskes) (Acari, Tenuipalpidae). Journal of Applied Entomology. 120:493–499.
- Kitajima EW, Alberti G. 2014. Anatomy and fine structure of Brevipalpus mites (Tenuipalpidae) economically important plant-virus vectors. Part 7. Ultrastructural detection of cytoplasmic and nuclear types of Brevipalpus-transmitted viruses. Zoologica. 160:173–192.
- Locali EC, Freitas-Astua J, Souza AA, Takita MA, Astúa-Monge G, Antonioli R, Kitajima EW, Machado MA. 2003. Development of a molecular tool for the diagnosis of leprosis, a major threat to citrus production in the Americas. Plant Disease. 87:1317–1321.
- Locali-Fabris E, Freitas-Astúa J, Souza AA, Takita MA, Astúa-Monge G, Antonioli-Luizoni R, Rodrigues V, Targon MLPN, Machado MA. 2006. Complete nucleotide sequence, genomic organization and phylogenetic analysis of Citrus leprosies virus cytoplasmic type. Journal of General Virology. 87:2721–2729.
- Maia AHN, Luiz AJB, Campanhola C. 2000. Statistical inference on associate fertility life table parameters using Jacknife technique: computational aspects. Journal of Economic Entomology. 93:511–518.
- Mesa NC, Ochoa R, Welbourn WC, Evans GA, Moraes GJ. 2009. A catalog of the Tenuipalpidae Berlese (Acari: prostigmata) of the world with a key to genera. Zootaxa. 2098:1–185.
- Offor E 2010. The nutritional requirements of phytophagous insects: why do insects feed on plants?. Available at SSRN: https://ssrn.com/abstract=1535274
- Payne RW, Murray DM, Harding SA, Baird DB, Soutar DM. 2005. GenStat for Windows. 8th Introduction. Hemel HempsteadUK: VSN International.
- Perring TM, Gruenhagen NM, Farrar CA. 1999. Management of plant viral diseases through chemical control of insect vectors. Annual Review of Entomology. 44:457–481.
- Rajabaskar D, Bosque-Pérez NA, Eigenbrode SD. 2014. Preference by a virus vector for infected plants is reversed after virus acquisition. Virus Research. 186:32–37.
- Roosien BK, Gomulkiewicz R, Ingwell LL, Bosque-Pérez NA, Rajabaskar D, Eigenbrode SD. 2013. Conditional vector preference aids the spread of plant pathogens: results from a model. Environmental Entomology. 42:1299–1308.
- Salinas-Vargas D, Santillán-Galicia MT, Guzmán-Franco AW, Hernández-López A, Ortega-Arenas LD, Mora-Aguilera G. 2016. Analysis of genetic variation in Brevipalpus yothersi (Acari: Tenuipalpidae) populations from four species of citrus host plants. PLoS One. 11:e0164552.
- Sánchez-Velázquez EJ, Santillán-Galicia MT, Novelli VM, Nunes MA, Mora-Aguilera G, Valdez-Carrasco JM. 2015. Diversity and genetic variation among Brevipalpus populations from Brazil and Mexico. PLoS One. 10:1–16 e0133861.
- SAS Institute. 2000. User’s guide, version 9. Cary: SAS Institute.
- Sisterson MS. 2009. Transmission of insect-vectored pathogens: effects of vector fitness as a function of infectivity status. Environmental Entomology. 38:345–355.
- Stafford CA, Walker GP, Ullman DE. 2011. Infection with a plant virus modifies vector feeding behaviour. Proceedings of the National Academy of Sciences of America. 108:9350–9355.
- Tassi AD, Garita-Salazar LC, Amorim L, Novelli VM, Freitas-Astúa J, Childers CC, Kitajima EW. 2017. Virus-vector relationship in the Citrus leprosis pathosystem. Experimental and Applied Acarology. 71:227–241.
- Teodoro AV, Reis PR. 2006. Reproductive performance of the mite Brevipalpus phoenicis (Geijskes, 1939) on citrus and coffee, using life table parameters. Brazilian Journal of Biology. 66:899–905.
- Welbourn WC, Ochoa R, Kane EC, Erbe EF. 2003. Morphological observations on Brevipalpus phoenicis (Acari: Tenuipalpidae) including comparisons with B. californicus and B. obovatus. Experimental and Applied Acarology. 30:107–133.
- Whitfield AE, Falk BW, Rotenberg D. 2015. Insect vector-mediated transmission of plant viruses. Virology. 479-480:278–289.