ABSTRACT

Mealybugs (Hemiptera: Pseudococcidae) are important pests of the grapevine Vitis spp. and are responsible for direct and indirect damage to production. The main mealybug species present in wine grapevine (Vitis vinifera L.) in Southern Brazil were identified and their incidence evaluated. Bunch-samples (n = 50) from 131 vineyards located in the Serra Gaúcha Region (RS) of Brazil were analyzed at harvest, and the occurrence of mealybugs in the roots was evaluated at the time of eradication of plants for replanting. Mealybugs were reared in laboratory until adulthood for species determination. The species Dysmicoccus brevipes (Cockerell, 1983), Dysmicoccus sp., Planococcus citri (Risso, 1813), Pl. minor(Maskell, 1897), Pseudococcus viburni (Signoret, 1875) and Pseudococcus sp. were identified in bunches. Dysmicoccus sp., D. umbambae Granara de Willink, 2009, Pl. citri and Pseudococcus sp. were found in the roots. Pl. citri (31.4%) and Dysmicoccus sp. (22.7%) were the most common species found in wine grape bunches in the Serra Gaúcha Region.

Keywords:
Dysmicoccus; Planococcus; Pseudococcus; Scale insects; Vitis spp

Introduction

Mealybugs (Hemiptera: Pseudococcidae) colonize all vegetative organs of vine plants but are not easily found due to their cryptic habits, living under the bark, on the abaxial leaf surface, inside the bunches, occasionally on berries, and, depending on soil texture, in the roots (Godfrey et al., 2005Godfrey, K., Haviland, D., Erwin, J., Daane, K., Bentley, W., 2005. Vine Mealybug: What You Should Know? California: ANR University of California, California, USA.; Becerra et al., 2006Becerra, V., González, M., Herrera, M.E., Miano, J.L., 2006. Dinámica poblacional de Planococcus ficus Sign. (Hemiptera - Pseudococcidae) en viñedos. Mendoza (Argentina). Revista de la Facultad de Ciencias Agrarias 1, 1-6.). When located, mealybugs are readily recognized by the presence of powdered wax deposited on the surface of the body and, in some species, by the presence of white waxy filaments distributed in the margins (Cox and Pearce, 1983Cox, J.M., Pearce, M.J., 1983. Wax produced by dermal pores in three species of mealybug (Homoptera: Pseudococcidae). Int. J. Insect Morphol. Embryol. 12, 235-248.).

Direct and indirect damage results from nymphs and adults phloem ingestion, resulting in degeneration of plants, decreased vigor, early defoliation, reduced bunch quality and decreased organoleptic characteristics of the obtained wines. They may also reduce the marketability of table grapes because of the excretion of honeydew, which covers the leaves and clusters, and serves as a substrate for sooty molt growing (Cox, 1989Cox, J.M., 1989. The mealybug genus Planococcus(Homoptera: Pseudococcidae). Bulletin of the British Museum (Natural History). Entomology 5, 1-78.; Godfrey et al., 2006; Bordeu et al., 2012; Daane et al., 2012). In addition, mealybugs are important vectors of viruses, such as the grapevine leafroll-associated Virus GLRaV (Closteroviridae), which is primarily transmitted in a semi-persistent way by different mealybug species (Naidu et al., 2014Naidu, R., Rowhani, A., Fuchs, M., Golino, D., Martelli, G.P., 2014. Grapevine leafroll: a complex viral disease affecting a high-value fruit crop. Plant Dis. 98, 1172-1185.). GLRaV complex viruses cause loss of quality of the produced grapes, delayed maturation, plant degeneration and death (Golino et al., 2002Golino, D.A., Sim, S.T., Gill, R., Rowhani, A., 2002. California mealybugs can spread grapevine leafroll disease. Calif. Agric. 56, 196-201.; Fajardo et al., 2003Fajardo, T.V.M., Kuhn, G.B., Nickel, O., 2003. Doenças Virais. In: Fajardo, T.V.M. (Ed.), Uva para processamento: Fitossanidade. Embrapa Informação Tecnológica, Brasília, pp. 45–63.; Golino and Almeida, 2008Golino, D.A., Almeida, R., 2008. Studies of vectors spreading leafroll disease in California vineyards. Calif. Agric. 62, 167-171.). Mealybugs have been reported to be the main vehicle for GLRaV-3 dispersion in vineyards in South Africa, Australia, USA, New Zealand, South America and Europe (Charles et al., 2006Charles, J.G., Cohen, D., Walker, J.T.S., Forgie, S.A., Bell, V.A., Breen, K.C., 2006. A review of the ecology of grapevine leafroll associated virus type 3 (GLRaV-3). NZ. Plant Prot. 29, 330-337.).

Due to the incidence of the virus, farmers are obliged to replace vineyards earlier than expected, resulting in high costs and losses (Golino et al., 2008Golino, D.A., Weber, E., Sim, S., Rowhani, A., 2008. Leafroll disease is spreading rapidly in a Napa Valley vineyard. Calif. Agric. 62, 156-160.). In Brazil, the main management strategy has been the plantation of new vineyards (Fajardo et al., 2003Fajardo, T.V.M., Kuhn, G.B., Nickel, O., 2003. Doenças Virais. In: Fajardo, T.V.M. (Ed.), Uva para processamento: Fitossanidade. Embrapa Informação Tecnológica, Brasília, pp. 45–63.). However, even with the introduction of virus-free material, field observations have shown a steady increase in the incidence of viral diseases in vineyards, probably associated with the presence of insect vectors (Fajardo et al., 2003Fajardo, T.V.M., Kuhn, G.B., Nickel, O., 2003. Doenças Virais. In: Fajardo, T.V.M. (Ed.), Uva para processamento: Fitossanidade. Embrapa Informação Tecnológica, Brasília, pp. 45–63.). Several mealybug species have been identified as pests in vineyards in major producing countries (Daane et al., 2012Daane, K.M., Almeida, R.P.P., Bell, V.A., Walker, J.T.S., Botton, M., Fallahzadeh, M., Mani, M., Miano, J.L., Sforza, R., Walton, V.M., Zaviezo, T., 2012. Biology and management of mealybugs in vineyards. In: Bostanian, N.J., Vincent, C., Isaacs, R. (Eds.), Arthropod Management in Vineyards. Springer, New York, pp. 271–307.). In Brazil, the species Dysmicoccus brevipes (Cockerell, 1983), Planococcus citri (Risso, 1813), Pseudococcus longispinus(Targioni Tozzetti, 1767), Ps. maritimus (Ehrhorn, 1900) and Ps. viburni (Signoret, 1875) have been reported (Silva et al., 1968Silva, A.G.A., Gonçalves, C.R., Galvão, D.M., Gonçalves, A.J.L., Gomes, J., Silva, M.N., Simoni, L., 1968. Quarto catálogo dos insetos que vivem nas plantas do Brasil: seus parasitas e predadores. Ministério da Agricultura, Rio de Janeiro.; Woerner, 1983; Foldi and Soria, 1989; Kuniyuki et al., 2005; Bertin et al., 2013). However, this information was obtained without an inventory of the species of mealybugs present in the main grape-producing areas intended for wine production. In table grapes (Vitis labrusca L.), 17 species of mealybug were identified in three major grape growing regions in Brazil, where D. brevipes, Pl. citri and Ps. viburni were the most frequently observed (Pacheco-da-Silva et al., 2014Pacheco-da-Silva, V.C., Bertin, A., Blin, A., Germain, J.-F., Bernardi, D., Rignol, G., Botton, M., Malausa, T., 2014. Molecular and morphological identification of mealybug species (Hemiptera: Pseudococcidae) in Brazilian vineyards. PLOS ONE 9, 1-7.).

Knowledge of mealybug species present in the vineyards is the basis for the establishment of integrated pest management strategies. This study aimed to survey the mealybug species associated with wine vineyards grown in the main wine grape-production area of Brazil.

Material and methods

Mealybugs were collected in grape clusters during harvest in different wineries located in Bento Gonçalves City, RS, Brazil, during 2006–2007. Grapes from 131 vineyards were analyzed. Fifty bunches per batch were sampled, and all development stages of the mealybugs (nymphs and/or females with or without ovisacs) were collected. The insects were reared to adulthood in the Laboratory of Entomology of Embrapa Grape and Wine for species determination. Pumpkins Cucurbita maxima Duchesne were used as the food substrate, and mealybugs were kept in plastic cages closed with voile tissue at 25 ± 1 °C, a relative humidity of 70 ± 10% and a photoperiod of 14 h.

Farms located in Monte Belo and Bento Gonçalves, RS, Brazil were visited when the plants were uprooted at the time of vineyard renewal. Likewise, the scale insects found were kept in laboratory for subsequent identification. Permanent slides were mounted, and identification was performed according with the methodology and identification key described by Williams and Granara-de-Willink (1992)Williams, D.G., Granara-de-Willink, M.C., 1992. Mealybugs of Central and South America. CAB International, Wallingford.. The species identifications were subsequently confirmed by Dr. MC Granara de Willink and Dr. E Prado. Vouchers for Dysmicoccus umbambae (Granara de Willink, 2009Granara de Willink, M.C., 2009. Dysmicoccus de la Región Neotropical (Hemiptera: Pseudococcidae). Revista de la Sociedad Entomológica Argentina 68, 11-95.) are kept at Instituto y Fundación Miguel Lillo, Tucumán, Argentina, and the others species at Laboratory of Entomology of Embrapa Grape and Wine.

Results

Seven species of mealybugs were observed in wine bunches: D. brevipes, Dysmicoccus sp., Pl. citri, Pl. minor (Maskell, 1897), Pseudococcus viburni and Pseudococcus sp. Four species were observed in wine roots: D. umbambae Granara de Willink, 2009Granara de Willink, M.C., 2009. Dysmicoccus de la Región Neotropical (Hemiptera: Pseudococcidae). Revista de la Sociedad Entomológica Argentina 68, 11-95., Dysmicoccus sp., Pl. citri and Pseudococcus sp. (Fig. 1). Mealybugs were detected in 27% of the sampling sites. Only one species was found in the same cluster, always represented by few individuals. Pl. citri was found in 11% of sampled sites, followed by Pl. minor, Dysmicoccus sp. and Pseudococcus sp. found in 6% of the sampled sites each one, and in lesser incidence D. brevipes and Ps. viburni found in 3% of sampling sites.

Discussion

A high diversity of mealybug species has been observed in vine culture in Brazil (Pacheco-da-Silva et al., 2014Pacheco-da-Silva, V.C., Bertin, A., Blin, A., Germain, J.-F., Bernardi, D., Rignol, G., Botton, M., Malausa, T., 2014. Molecular and morphological identification of mealybug species (Hemiptera: Pseudococcidae) in Brazilian vineyards. PLOS ONE 9, 1-7.), comparable to California (USA) (Daane et al., 2008Daane, K.M., Cooper, M.L., Triapitsyn, S.V., Walton, V.M., Yokota, G.Y., Haviland, D.R., Bentley, W.J., Godfrey, K.E., Wunderlich, L.R., 2008. Vineyard managers and researchers seek sustainable solutions for mealybugs, a changing pest complex. Calif. Agric. 62, 167-171., 2012Daane, K.M., Almeida, R.P.P., Bell, V.A., Walker, J.T.S., Botton, M., Fallahzadeh, M., Mani, M., Miano, J.L., Sforza, R., Walton, V.M., Zaviezo, T., 2012. Biology and management of mealybugs in vineyards. In: Bostanian, N.J., Vincent, C., Isaacs, R. (Eds.), Arthropod Management in Vineyards. Springer, New York, pp. 271–307.). Mealybugs associated with grapes showed a lower diversity in several other grape-producing countries such as Argentina, Chile, Italy, New Zealand, Portugal, South Africa and Tunisia, which show an average of three species present in the culture (Borbón et al., 2004Borbón, C.M., Gracia, O., Talquenca, G.S.G., 2004. Mealybugs and grapevine leafroll-associated virus 3 in Vineyards of Mendoza, Argentina. Am. J. Enol. Vitic. 55, 283-285.; Walton and Pringle, 2004Walton, V.M., Pringle, K.L., 2004. Vine mealybug, Planococcus ficus (Signoret) (Hemiptera: Pseudococcidae), a key pest in South African vineyards. A review. S. Afr. Soc. Enol. Vitic. 25, 54-62.; Mahfoudhi and Dhouibi, 2009Mahfoudhi, N., Dhouibi, M.H., 2009. Survey of mealybugs (Hemiptera: Pseudococcidae) and their natural enemies in Tunisian vineyards. Afr. Entomol. 1, 154-160.; Walton et al., 2009Walton, V.M., Krüger, K., Saccaggi, D.L., Millar, I.M., 2009. A survey of scale insects (Sternorryncha: Coccoidea) occurring on table grapes in South Africa. J. Insect Sci. 47, 1-6.; Bertin et al., 2010Bertin, S., Cavalieri, V., Graziano, C., Bosco, D., 2010. Survey of mealybug (Hemiptera: Pseudococcidae) vectors of Ampelovirus and Vitivirus in vineyards of northwestern Italy. Phytoparasitica 38, 401-409.; Charles et al., 2010Charles, J.G., Bell, V.A., Lo, P.L., Cole, L.M., Chhagan, A., 2010. Mealybugs (Hemiptera: Pseudococcidae) and their natural enemies in New Zealand vineyards from 1993-2009. NZ. Entomol. 33, 84-91.; Correa et al., 2012Correa, M.C.G., Germain, J.-F., Malausa, T., Zaviezo, T., 2012. Molecular and morphological characterization of mealybugs (Hemiptera: Pseudococcidae) from Chilean vineyards. Bull. Entomol. Res. 102, 524-530.; Mansour et al., 2012Mansour, R., Cavalieri, V., Mazzeo, G., Grissa Lebdi, K., Russo, A., 2012. A morphological and molecular characterization of vine mealybug populations (Hemiptera, Pseudococcidae) from Tunisia. J. Entomol. Acarol. Res. 44, 2-5.; Maia, 2013Maia, M.F., 2013. Cochonilhas em vinha. Potencialidades de interacção com os níveis de fertilização da vinha e tipos de poda, Ph.D. dissertation. Instituto Superior de Agronomia. Universidade Técnica de Lisboa, Lisboa.). The high species diversity in vineyards difficult the deployment of efficient control programs due to their different life cycles and respond differently to chemical and biological management strategies.

The citrus mealybug Pl. citri was the predominant species found in the analyzed clusters (Fig. 1). It is a polyphagous species associated with approximately 250 plant species in 90 families (Ben-Dov et al., 2015Ben-Dov, Y., Miller, D.R., Gibson, G.A.P., 2015. ScaleNet Query Results, Available at: http://www.sel.barc.usda.gov/scalenet/scalenet.htm (accessed 16.04.15).
http://www.sel.barc.usda.gov/scalenet/sc... ). The citrus mealybug is commonly found in Brazil infesting different cultures. It is considered an important coffee Coffea sp. pest (Santa-Cecília et al., 2002Santa-Cecília, L.V.C., Reis, P.R., Souza, J.C., 2002. Sobre a Nomenclatura das Espécies de Cochonilhas-Farinhentas do Cafeeiro nos Estados de Minas Gerais e Espírito Santo. Neotrop. Entomol. 31, 333-334., 2009Santa-Cecília, L.V.C., Corrêa, L.R.B., Souza, B., Prado, E., Alcantra, E., 2009. Desenvolvimento de Planococcus citri(Risso, 1813) (Hemiptera: Pseudococcidae) em cafeeiros. Acta Sci. Agron. 31, 13-15.) and is occasionally found in citrus Citrus sp. (Corrêa et al., 2005Corrêa, L.R.B., Bonani, J.P., Santa-Cecília, L.V.C., Souza, B., 2005. Aspectos biológicos da cochonilha-branca [Planococcus citri (Risso, 1813)] em citros. Laranja 26, 265-271.; Sousa et al., 2012Sousa, A.L.V., Souza, B., Santa-Cecília, L.V.C., Prado, E., 2012. Especificidade alimentar: Em busca de um caráter taxonômico para a diferenciação de duas espécies crípticas de cochonilhas do gênero Planococcus(Hemiptera: Pseudococcidae). Revista Brasileira de Fruticultura 34, 744-749.) and vineyards (Morandi Filho et al., 2008Morandi Filho, W.J., 2008. Cochonilhas-farinhentas associadas à videira na Serra Gaúcha, Bioecologia e controle de Planococcus citri (Risso, 1813) (Hemiptera: Pseudococcidae), Ph.D. dissertation. Universidade Federal de Pelotas, Pelotas.; Daane et al., 2012Daane, K.M., Almeida, R.P.P., Bell, V.A., Walker, J.T.S., Botton, M., Fallahzadeh, M., Mani, M., Miano, J.L., Sforza, R., Walton, V.M., Zaviezo, T., 2012. Biology and management of mealybugs in vineyards. In: Bostanian, N.J., Vincent, C., Isaacs, R. (Eds.), Arthropod Management in Vineyards. Springer, New York, pp. 271–307.). Pl. citriis also cited as a pest in vineyards in Spain, Italy and Tunisia (Mahfoudhi and Dhouibi, 2009Mahfoudhi, N., Dhouibi, M.H., 2009. Survey of mealybugs (Hemiptera: Pseudococcidae) and their natural enemies in Tunisian vineyards. Afr. Entomol. 1, 154-160.; Cid et al., 2010Cid, M., Pereira, S., Cabaleiro, C., Segura, A., 2010. Citrus mealybug (Hemiptera: Pseudococcidae) movement and population dynamics in an arbor-trained vineyard. J. Econ. Entomol. 103, 619-630.; Daane et al., 2012Daane, K.M., Almeida, R.P.P., Bell, V.A., Walker, J.T.S., Botton, M., Fallahzadeh, M., Mani, M., Miano, J.L., Sforza, R., Walton, V.M., Zaviezo, T., 2012. Biology and management of mealybugs in vineyards. In: Bostanian, N.J., Vincent, C., Isaacs, R. (Eds.), Arthropod Management in Vineyards. Springer, New York, pp. 271–307.), although it typically has not been reported in high densities in the main grape-producing countries.

In vineyards, the citrus mealybug is a vector of GLRaV-3 along with other species present in Brazil, such as Ps. longispinus and Ps. viburni (Cabaleiro and Segura, 1997Cabaleiro, C., Segura, A., 1997. Field transmission of grapevine leafroll-associated virus 3 (GLRaV-3) by the mealybug Planococcus citri. Plant Dis. 81, 283-288.; Kuniyuki et al., 2005Kuniyuki, H., Rezende, J.A.M., Granara de Willink, M.C., Novo, J.P.S., Yuki, V.A., 2005. Transmissão do grape vine leafroll-associated virus 3 pela cochonilha Pseudococcus longispinus Targioni-Tozetti (Hemiptera: Pseudococcidae). Summa Phytopathol. 31, 65-68.). The dispersion of Pl. citri in vine plants occurs mainly during the first instar, when it moves up the trunk and branches and is rarely found in the green parts (Cid et al., 2010Cid, M., Pereira, S., Cabaleiro, C., Segura, A., 2010. Citrus mealybug (Hemiptera: Pseudococcidae) movement and population dynamics in an arbor-trained vineyard. J. Econ. Entomol. 103, 619-630.). Even in vineyards where symptoms of GLRaV-3 are well distributed, Pl. citridispersion between plants is minimal, suggesting that this dispersion within the growing area occurs by other means, such as the wind, birds or the action of ants (Cid et al., 2010Cid, M., Pereira, S., Cabaleiro, C., Segura, A., 2010. Citrus mealybug (Hemiptera: Pseudococcidae) movement and population dynamics in an arbor-trained vineyard. J. Econ. Entomol. 103, 619-630.).

Planococcus minor is also an important coffee pest in Brazil (Santa-Cecília et al., 2007Santa-Cecília, L.V.C., Souza, B., Prado, E., Souza, J.C., Fornazier, M.J., 2007. Cochonilhas-farinhentas em cafeeiros: Reconhecimento e controle. Circ. Técnica, Epamig 8, 1-4.). In vineyards, this species was reported for the first time in South Brazil in 2008 (Morandi Filho, 2008Morandi Filho, W.J., 2008. Cochonilhas-farinhentas associadas à videira na Serra Gaúcha, Bioecologia e controle de Planococcus citri (Risso, 1813) (Hemiptera: Pseudococcidae), Ph.D. dissertation. Universidade Federal de Pelotas, Pelotas.).

The vine mealybug Pl. ficus (Signoret, 1869) is also often found in vineyards in addition to Pl. citri and Pl. minor(Daane et al., 2012Daane, K.M., Cooper, M.L., Triapitsyn, S.V., Walton, V.M., Yokota, G.Y., Haviland, D.R., Bentley, W.J., Godfrey, K.E., Wunderlich, L.R., 2008. Vineyard managers and researchers seek sustainable solutions for mealybugs, a changing pest complex. Calif. Agric. 62, 167-171.). Pl. citri and Pl. ficus are difficult to differentiate because they have great morphological and ecological similarity (Danzig and Gavrilov, 2010Danzig, E.M., Gavrilov, I.A., 2010. Mealybugs of the genera Planococcus and Crisicoccus(Sternorrhyncha: Pseudococcidae) of Russia and adjacent countries. Zoosystematica Rossica 19, 39-49.). Pl. ficus is distributed worldwide; it is economically important in many vine-producing regions such as California (Daane et al., 2008Daane, K.M., Cooper, M.L., Triapitsyn, S.V., Walton, V.M., Yokota, G.Y., Haviland, D.R., Bentley, W.J., Godfrey, K.E., Wunderlich, L.R., 2008. Vineyard managers and researchers seek sustainable solutions for mealybugs, a changing pest complex. Calif. Agric. 62, 167-171.), South Africa (Walton and Pringle, 2005Walton, V.M., Pringle, K.L., 2005. Developmental biology of vine mealybug, Planococcus ficus (Signoret) (Homoptera: Pseudococcidae), and its parasitoid Coccidoxenoides permitus(Timberlake) (Hymenoptera: Encyrtidae). Afr. Entomol. 13, 143-147.), Argentina (Borbón et al., 2004Borbón, C.M., Gracia, O., Talquenca, G.S.G., 2004. Mealybugs and grapevine leafroll-associated virus 3 in Vineyards of Mendoza, Argentina. Am. J. Enol. Vitic. 55, 283-285.) and Uruguay (Granara de Willink et al., 1997Granara de Willink, M.C., Scatoni, I.B., Terra, A.L., Frioni, M.I., 1997. Cochinillas harinosas (Homoptera, Pseudococcidae) que afectan plantas cultivadas y silvestres em Uruguay. Agrociencia 1, 96-100.). This species was not found in this study, although Foldi and Kozár (2006)Foldi, I., Kozár, F., 2006. New species of Cataenococcus and Puto from Brazil and Venezuela, with data on others species (Hemiptera: Coccidea). La Nouvelle Revue d’Entomologie 22, 305-312. reported this species from Veranópolis City, RS, located close to our survey region (26 km).

The pineapple mealybug, D. brevipes is a polyphagous species, widely distributed in South America (Granara de Willink, 2009Granara de Willink, M.C., 2009. Dysmicoccus de la Región Neotropical (Hemiptera: Pseudococcidae). Revista de la Sociedad Entomológica Argentina 68, 11-95.) and it is considered an important pest in pineapple crops Ananas comosus (L.) Merrill. Infestations occur mainly in the roots and lower parts of the plant (Sether et al., 1998Sether, D.M., Ullman, D.E., Hu, J.S., 1998. Transmission of pineapple Mealybug wilt-associated virus by two species of mealybug (Dysmicoccus spp.). Phytopathology 88, 1224-1230.). D. brevipes is a transmitter of pineapple mealybug wilt-associated virus PMWaV (Sether et al., 1998Williams, D.G., Granara-de-Willink, M.C., 1992. Mealybugs of Central and South America. CAB International, Wallingford.), however, there are no reports of virus transmission in vine. In Brazil, D. brevipes is considered a key pest due to its frequency and wide distribution; nevertheless it is regarded as a secondary pest in other countries (Daane et al., 2012Daane, K.M., Almeida, R.P.P., Bell, V.A., Walker, J.T.S., Botton, M., Fallahzadeh, M., Mani, M., Miano, J.L., Sforza, R., Walton, V.M., Zaviezo, T., 2012. Biology and management of mealybugs in vineyards. In: Bostanian, N.J., Vincent, C., Isaacs, R. (Eds.), Arthropod Management in Vineyards. Springer, New York, pp. 271–307.). Bertin et al. (2013)Bertin, A., Bortoli, L.C., Botton, M., Parra, J.R.P., 2013. Host plant effects on the development, survival, and reproduction of Dysmicoccus brevipes (Hemiptera: Pseudococcidae) on Grapevines. Ann. Entomol. Soc. Am. 106, 604-609. studied the bioecology of the species in Vitis spp., noting that it reproduces by thelytokous parthenogenesis and can complete its development feeding on leaves and/or roots.

Others species of Dysmicoccus Ferris were frequently observed in this study. Many undescribed species of this genus have been collected in Brazil on different hosts and it appears to present a wide diversity in the region. Among these, D. umbambae was recently described (Granara de Willink, 2009Granara de Willink, M.C., 2009. Dysmicoccus de la Región Neotropical (Hemiptera: Pseudococcidae). Revista de la Sociedad Entomológica Argentina 68, 11-95.), including specimens collected on grape roots in Monte Belo City. The presence of mealybugs on the roots increases the difficulty of handling the viruses in the vineyard, once when the plants are renewed, the roots remaining in the soil serve as source of inoculum for the virus and mealybugs (Bell et al., 2009Bell, V.A., Bonfiglioli, R.G.E., Walker, J.T.S., Lo, P.L., Mackay, J.F., Mcgregor, S.E., 2009. Grapevine leafroll-associated virus 3 persistence in Vitis vinifera remnant roots. J. Plant Pathol. 91, 527-533.), that are capable to develop within remaining roots up to 24 months after uprooting the plants (Walton and Pringle, 2004Walton, V.M., Pringle, K.L., 2004. Vine mealybug, Planococcus ficus (Signoret) (Hemiptera: Pseudococcidae), a key pest in South African vineyards. A review. S. Afr. Soc. Enol. Vitic. 25, 54-62.).

The obscure mealybug, Ps. viburni is also a polyphagous species and has a cosmopolitan distribution occurring in approximately 50 countries (Ben-Dov et al., 2015Ben-Dov, Y., Miller, D.R., Gibson, G.A.P., 2015. ScaleNet Query Results, Available at: http://www.sel.barc.usda.gov/scalenet/scalenet.htm (accessed 16.04.15).
http://www.sel.barc.usda.gov/scalenet/sc... ). Its morphology is highly variable and probably more than one species are identified as Ps. viburni in South America (Charles, 2011Charles, J.G., 2011. Using parasitoids to infer a native range for the obscure mealybug, Pseudococcus viburni, in South America. BioControl 56, 155-161.; Malausa et al., 2011Malausa, T., Fenis, A., Warot, S., Germain, J.-F., Ris, N., Prado, E., Botton, M., Vanlerberghe-Masutti, F., Sforza, R., Cruaud, C., Couloux, A., Kreiter, P., 2011. DNA markers to disentangle complexes of cryptic taxa in mealybugs (Hemiptera: Pseudococcidae). J. Appl. Entomol. 135, 142-155.; Pacheco-da-Silva et al., 2014Pacheco-da-Silva, V.C., Bertin, A., Blin, A., Germain, J.-F., Bernardi, D., Rignol, G., Botton, M., Malausa, T., 2014. Molecular and morphological identification of mealybug species (Hemiptera: Pseudococcidae) in Brazilian vineyards. PLOS ONE 9, 1-7.). P. viburni can be found in the roots and shoots of the host plant (González, 2003bGonzález, R.H., 2003. Manejo cuarentenario de chanchitos blancos de pomáceas en Chile (Hemiptera: Pseudococcidae). Revista Frutícola (Chile) 24, 89-98.). During winter it is found in protected locations in the plant, such as bark, and migrates to the shoots during the vegetative and reproductive period, when it occasionally infests bunches (González, 2003aGonzález, R.H., 2003. Chanchitos blancos de importancia agrícola y cuarentenaria, en huerstos frutales de Chile (Hemiptera: Pseudococcidae). Revista Frutícola (Chile) 24, 5-17.). In Serra Gaúcha Region, Ps. viburni has been found mainly in plastic covered table grapes, most likely due to increased temperatures that favor its development (Bertin, 2011Bertin, A., 2011. Bioecologia de Dysmicoccus brevipes (Cockerell, 1893) e Pseudococcus viburni (Signoret, 1875) (Hemiptera: Pseudococcidae) em videira, M.S. thesis. Universidade de São Paulo, Escola Superior de Agricultura “Luiz de Queiroz”, Piracicaba, Brasil.).

Misidentifications of Ps. maritimus or Ps. viburniare common due to the complexity of identifying the mealybugs belonging to the Ps. maritimus Complex and the high number of probably undescribed species. Specimens of Pseudococcus that could not be assigned to a specific name corresponding to 20% of the collected specimens (Fig. 1). Polymorphism is common inside this genus and molecular data is not available for all species. There is a high diversity of specie of Pseudococcus in South America. At least five groups of mealybugs collected in Brazil belonging to this genus have been identified through molecular and morphological analysis as species closely related (aff. or near) and determined only to genus level (Pseudococcus sp.). They showed no similarity to species whose sequences are deposited in the international database (GenBank) and had differences in the morphological specific characters (Pacheco-da-Silva et al., 2014Pacheco-da-Silva, V.C., Bertin, A., Blin, A., Germain, J.-F., Bernardi, D., Rignol, G., Botton, M., Malausa, T., 2014. Molecular and morphological identification of mealybug species (Hemiptera: Pseudococcidae) in Brazilian vineyards. PLOS ONE 9, 1-7.). New species belonging to the Ps. maritimus Complex were recently described in South America found in Chilean vineyards, Ps. cribata González, 2011 and Ps. meridionalis Prado, 2011 (Correa et al., 2011Correa, M.C.G., Aguirre, C., Germain, J.-F., Hinrichsen, P., Zaviero, T., Malausa, T., Prado, E., 2011. A new species of Pseudococcus (Hemiptera: Pseudococcidae) belonging to the “Pseudococcus maritmus” complex from Chile: molecular and morphological description. Zootaxa 2926, 46-54.; González, 2011González, R.H., 2011. Pseudocóccidos de importancia Frutícola en Chile (Hemiptera: Pseudococcidae). Publicaciones en Ciencias Agrícolas N 18, Santiago, Chile. Ediciones Universidad de Chile, Santiago.).

Pl. ficus and the pink hibiscus mealybug Maconellicoccus hirsutus (Green, 1908) are considered primary pests in vineyards (Daane et al., 2012Daane, K.M., Almeida, R.P.P., Bell, V.A., Walker, J.T.S., Botton, M., Fallahzadeh, M., Mani, M., Miano, J.L., Sforza, R., Walton, V.M., Zaviezo, T., 2012. Biology and management of mealybugs in vineyards. In: Bostanian, N.J., Vincent, C., Isaacs, R. (Eds.), Arthropod Management in Vineyards. Springer, New York, pp. 271–307.), but were not found in this study. M. hirsutus is an invasive species recently recorded in Brazil damaging different crops (Culik et al., 2013Culik, M.P., Martins, D.D.S., Zanuncio, J.R.J.S., Fornazier, M.J., Ventura, J.A., Peronti, A.L.B.G., Zanuncio, J.C., 2013. The invasive Hibiscus mealybug Maconellicoccus hirsutus (Hemiptera: Pseudococcidae) and its recent range expansion in Brazil. Fla. Entomol. 96, 638-640.; Marsaro Júnior et al., 2013Marsaro Júnior, A.L., Peronti, A.L.B.G., Penteado-Dias, A.M., Morais, E.G.F., Pereira, P.R.V.S., 2013. First report of Maconellicoccus hirsutus (Green, 1908) (Hemiptera: Coccoidea: Pseudococcidae) and the associated parasitoid Anagyrus kamali Moursi, 1948 (Hymenoptera: Encyrtidae), in Brazil. Revist. Bras. Biol. 73, 413-418.).

Ants Linepithema micans (Forel, 1908) were found associated to mealybugs, species previously reported in association with cochineal Eurhizococcus brasiliensis (Wille, 1922) in Brazil (Nondillo et al., 2013Nondillo, A., Sganzerla, V.M.A., Bueno, O.C., Botton, M., 2013. Interaction between Linepithema micans (Hymenoptera: Formicidae) and Eurhizococcus brasiliensis (Hemiptera: Margarodidae) in Vineyards. Environ. Entomol. 42, 460-466.). Within the genus Linepithema Mayr, the species L. humile (Mayr, 1868) is best known associated to scale insects feeding on honeydew (Daane et al., 2007Daane, K.M., Sime, K.R., Fallon, J., Cooper, M.L., 2007. Impacts of Argentine ants on mealybugs and their natural enemies in California's coastal vineyards. Ecol. Entomol. 32, 583-596.).

Although the scale insects found in clusters do not cause direct damage to grapes used for wine, the presence of different mealybug species in approximately 30% of the vineyards is considered a treat for virus infection. Cabaleiro and Segura (2006)Cabaleiro, C., Segura, A., 2006. Temporal analysis of grapevine leafroll associated virus 3 epidemics. Eur. J. Plant Pathol. 114, 441-446. observed that even with low populations of mealybugs at early planting, approximately 100% of the plants are infected with GLRaV-3 after 15 years.

In this study, seven species of mealybugs were found to be associated with the wine grapes. The species Pl. citri and Dysmicoccus sp. were the most frequently observed, followed by Pseudococcus sp., Pl. minor, Ps. viburni and D. brevipes. The species Dysmicoccus sp., Dysmicoccus umbambae, Pl. citri and Pseudococcus sp. were also found on roots.

Acknowledgements

The authors acknowledge research assistants Léo Antônio Carollo and Vânia Maria Ambrosi Sganzerla of Embrapa Grape and Wine and CAPES and CNPq for the scholarship awarded to Dr. W.J. Morandi Filho.

References

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