Natural enemies associated with Maconellicoccus hirsutus (Hemiptera: Pseudococcidae) in the state of Sao Paulo, Brazil.
In Sao Paulo State, M. hirsutus was first recorded on H. rosa-sinensis in an urban area of Sao Carlos in 2012 (Morais et al. 2015). Between 2013 and early 2014, Peronti & Martinelli (2014) recorded this pest in 11 municipalities of the state, infesting Erythrina spp. (Fabales: Fabaceae), Ficus pumila L. (Rosales: Moraceae), and Eugenia uniflora L. (Myrtales: Myrtaceae), but mainly Hibiscus species in urban areas and some teak, Tectona grandis L.f. (Lamiales: Lamiaceae), plantations in the northwest region of the state.
Because of its wide host range and its rapid geographic expansion, not only to agricultural land but also to home gardens and forest areas, biological control appeared as the most suitable method to manage populations of M. hirsutus (Sagarra & Peterkin 1999). Additionally, chemical management is hindered by (1) the waxy deposit on the mealybug bodies, which reduces penetration of the chemical solution (Kairo et al. 2000), and (2) the cryptic behavior of this insect which congregates in protected parts of the plants (Kairo et al. 2000; Chong 2009).
Among the 39 parasitoids and 42 predators of M. hirsutus known worldwide (Chong et al. 2015), 27 species are known to the Neotropical region (Culik et al. 2013; Chong et al. 2015). The mealybug destroyer, Cryptolaemus montrouzieri Mulsant (Coleoptera: Coccinellidae), and the parasitoids Anagyrus kamali Moursi, Gyranusoidea indica Shafee, Alam & Agarwal (Hymenoptera: Encyrtidae) are used in large-scale biological control programs against M. hirsutus in many parts of the world (Culik et al. 2013; Chong et al. 2015).
In Brazil, only A. kamali was previously recorded as a natural enemy of M. hirsutus. It emerged from specimens collected on H. rosa-sinensis and Glycine max (L.) Merr. (Fabales: Fabaceae) in Boa Vista in the state of Roraima, and was probably introduced together with M. hirsutus in Brazil (Marsaro Junior et al. 2013). The objective of this study was to survey species of natural enemies associated with M. hirsutus in the state of Sao Paulo, checking for pest-natural enemy associations known in other countries, and to document new associations.
Materials and Methods
A survey of the natural enemies associated with M. hirsutus on H. rosa-sinensis was conducted in urban areas of 3 municipalities of Sao Paulo State. Occasional samplings were carried out in Sao Carlos (22.0152778[degrees]S, 47.8911111[degrees]W) and Campinas (22.8554167[degrees]S, 47.0569722[degrees]W) in Jul 2012 and Jan 2013, respectively. Afterwards, monthly samplings were carried out in Jaboticabal (21.2552778[degrees]S, 48.3225000[degrees]W) between Mar and Jul 2014.
Infested plant parts were inspected visually for adult predators and, if present, were collected with an aspirator. Coccinellid and chrysopid larvae were placed in Petri dishes covered with muslin netting and fed with nymphs and adults of M. hirsutus. The adult insects that emerged were preserved by pinning. To obtain parasitoids of M. hirsutus, darkened specimens that showed a decrease in mobility were placed in glass tubes with a cotton lid. The emerging adult parasitoids were subsequently preserved in 100% ethanol.
The mealybugs previously preserved in 75% ethanol were mounted on microscopic slides following the method described by Gullan (1984) and identified according to morphological characteristics of the adult female as described by Miller (1999) and Miller et al. (2011). The hymenopterous parasitoids were identified using the keys by Noyes & Hayat (1994), the coccinellids were identified according to the keys by Gordon (1985), Araujo-Siqueira & Almeida (2006), and Costa et al. (2008), and the chrysopids were identified by using the keys by Brooks & Barnard (1990).
Voucher specimens were deposited in the following institutions: mealybugs and chrysopids at the Department of Plant Protection, Universidade Estadual Paulista [FCAV/UNESP]; parasitoids at the Department of Ecology and Evolutionary Biology at Universidade Federal de Sao Carlos [UFSCar]; coccinellids at the Colecao Entomologica Pe. J.S. Moure, Department of Zoology, Universidade Federal do Parana [UFPR].
All pseudococcids collected were confirmed to be M. hirsutus. Natural enemies recovered were the parasitoid G. indica (Hymenoptera: Encyrtidae) and the predators Cycloneda sanguinea (L.), C. montrouzieri, Chilocorus nigrita (F.), Exoplectra sp., Harmonia axyridis (Pallas), and Tenuisvalvae notata (Mulsant) (Coleoptera: Coccinellidae) and Ceraeochrysa sp. (Neuroptera: Chrysopidae) (Table 1).
Cryptolaemus montrouzieri (larvae and adults) was the most commonly observed predator associated with colonies of M. hirsutus in the state of Sao Paulo, mainly on plants heavily infested by this pest. The remaining species of predators were generally in the adult stage, and the parasitoid G. indica was sporadically collected. Larval stages of the coccinellid C. nigrita and the green lacewing Ceraeochrysa sp. were also observed on a hedge of hibiscus plants in Jaboticabal. Chilocorus nigrita, Exoplectra sp., H. axyridis, T. notata, and Ceraeochrysa sp. were recorded for the first time associated with M. hirsutus, and G. indica was recorded for the first time in Brazil (Table 1).
Chilocorus nigrita is indigenous to the Indian sub-continent and Indo-China and has been introduced into many regions for biological control purposes (Ponsonby 2009). Currently, C. nigrita is distributed in Bangladesh, Brazil, Chagos Archipelago, China, Fiji, Ghana, India, Indonesia, Madagascar, Malaysia, Mauritius, Myanmar, Oman, Pacific, Seychelles, South Africa, Sri Lanka, Thailand, Western Samoa, and Yemen (Poorani 2004).
Recorded prey of C. nigrita are: Aleyrodidae (1 species), Aphididae (2 species), Psyllidae (1 species), Monophlebidae (1 species), Pseudococcidae (3 species), Asterolecaniidae (2 species), Coccidae (10 species), and Diaspididae (26 species) (Samways 1984). In South Africa, C. nigrita occasionally feeds on young mealybugs, and in the laboratory it sometimes feeds on young Planococcus citri (Risso) (Pseudococcidae), but not on the adults (Samways 1984). In northeastern Brazil, C. nigrita was first recorded in 1983 in Recife, state of Pernambuco (Samways 1989) and was observed preying on Diaspis echinocacti (Bouche) (Hemiptera: Diaspididae) infesting several cacti species in the states of Alagoas and Pernambuco (Lima & Gama 2001). Also, 1st-instars (crawlers) of this mealybug were phoretic on C. nigrita adults, which contributed to the spread of this pest (Lima & Gama 2001).
Cryptolaemus montrouzieri is native to the Australasian Zoogeographic Region, but now has a world-wide distribution due to its introduction in many countries for biological control purposes. This beetle is one of the most widely used biological control agents and has been used to target more than 16 pest species (Kairo et al. 2013). Cryptolaemus montrouzieri is a polyphagous predator with prey documented from at least 8 hemipteran families, including scale insects (Coccoidea). Most recently, it was introduced in parts of the Caribbean and Central and South America for control of the pink hibiscus mealybug M. hirsutus (Kairo et al. 2013). In Brazil, C. montrouzieri was introduced in 1997 from Chile to target Praelongorthezia praelonga (Douglas) (Hemiptera: Ortheziidae) and Dysmicoccus brevipes (Cockerell) (Hemiptera: Pseudococcidae), which are pests of citrus and pineapple, respectively (Vilela et al. 2000). Cryptolaemus montrouzieri was initially documented in Cruz das Almas (Bahia) and Jaboticabal (Sao Paulo) and is reported in other parts of Brazil.
Cycloneda sanguinea is a Neotropical species that is currently distributed in Argentina, Bolivia, Brazil (Amapa, Amazonas, Para, Tocantins, Paraiba, Piaui, Bahia, Mato Grosso, Distrito Federal, Goias, Mato Grosso do Sul, Minas Gerais, Espirito Santo, Rio de Janeiro, Sao Paulo, Parana, Santa Catarina, Rio Grande do Sul), Chile, Colombia, Costa Rica, Ecuador, Guatemala, Honduras, Mexico, Nicaragua, Panama, Paraguay, Peru, Uruguay, USA, and Venezuela (Araujo-Siqueira & Almeida 2006). This species feeds primarily on aphids but is a generalist predator (Araujo-Siqueira & Almeida 2006). Michaud & Evans (2000) observed this coccinellid and C. montrouzieri (adults and larvae) preying upon M. hirsutus on Hibiscus shrubs in Puerto Rico.
Exoplectra is a Neotropical genus with 14 species reported in Brazil. Exoplectra species feed mainly on aphids and whiteflies (Costa et al. 2008), but E. miniata (Germar) was observed feeding on extrafloral nectaries of Inga edulis Mart. (Fabales: Fabaceae) in Nova Friburgo, Rio de Janeiro, Brazil (Almeida et al. 2011). Exoplectra erythrogaster Mulsant was recorded feeding on Mimosicerya hempeli (Cockerell) (Hemiptera: Coelostomidiidae) infesting Cassia fistula L. (Fabales: Fabaceae) in Sao Paulo, SP, Brazil (Mariconi & Zamith 1960). Oliveira et al. (2008) reported that E. erythrogaster preyed on Protortonia navesi Fonseca (Hemiptera: Monophlebidae), a pest of cassava that is native to central Brazil.
Harmonia axyridis is an Asiatic polyphagous coccinellid and has been used successfully as a biological control agent of aphids around the world (Koch 2003). In the absence of aphids, H. axyridis may feed on prey such as Tetranychidae, Psyllidae, Coccoidea, Curculionidae, and Lepidoptera or plant material, damaged fruits, nectar, and pollen, all of which can be used to complete its development (Berkvens et al. 2008). Xie et al. (2004) observed H. axyridis associated with Phenacoccus azaleae Kuwana (Hemiptera: Pseudococcidae) on bunge pricklyash tree Zanthoxylum simulans Hance (Sapindales: Rutaceae) in China.
In the late 1990s, H. axyridis was first introduced in South America in Mendoza Province, Argentina, to control aphids affecting peach orchards (Saini 2004). According to Kondo & Gonzalez (2013), H. axyridis was introduced to Colombia in 1989 or earlier, making it the second oldest record of the species in South America after the deliberate releases of the species in Mendoza, Argentina in 1986 (Garcia et al. 1999). In Brazil, it was probably accidently introduced and first detected in Curitiba, Parana State, in 2002, feeding on 2 species of aphids (Almeida & Silva 2002). In the same municipalities, Martins et al. (2009) collected H. axyridis associated with potential prey species of aphids, scales, and psyllids that may be alternate prey sources, although most of the prey species were aphids. Harmonia axyridis was recorded in the states of Sao Paulo, Minas Gerais, and Goias (Harterreiten-Souza et al. 2012).
Tenuisvalvae notata is native to South America and a predator of mealybugs (Dreyer et al. 1997a,b). Recently, it was reported in the semiarid region of Pernambuco, Brazilian State, associated with Ferrisia virgata (Cockerell) (Hemiptera: Pseudococcidae) on cotton and with Dactylopius opuntiae (Cockerell) (Hemiptera: Dactylopiidae) on cactus forage. In South America, it is distributed in Bolivia, Brazil (Amapa, Bahia, Mato Grosso do Sul, Rio de Janeiro, Rondonia, Sao Paulo), Colombia, and Paraguay (Barbosa et al. 2014). In 1980, it was introduced into Africa to control the cassava mealybug, Phenacoccus manihoti Matille-Ferrero (Hemiptera: Pseudococcidae) (Herren & Neuenschwander 1991; Chakupurakal et al. 1994).
Ceraeochrysa species are distributed from southeast Canada to Argentina, and it is the largest genus of Neotropical Chrysopinae (Brooks & Barnard 1990). Freitas et al. (2009), in the last review of the genus, recognized 63 species in the Neotropics, 21 of which occur in Brazil (Freitas & Penny 2001). According Sosa & Freitas (2010), larvae of Ceraeochrysa species feed on aphids, thrips, whiteflies, mites, and neonatal larvae of Lepidoptera in various types of agroecosystems. However, other authors have associated these species as predators of coccoids. De Bortoli et al. (2005) demonstrated that this species had potential as a control agent of Selenaspidus sp. (Hemiptera: Diaspididae) and Coccus sp. (Hemiptera: Coccidae). Ceraeochrysa paraguaria (Navas) preferred the armored scale Selenaspidus sp. (De Bortoli & Murata 2006), and Ceraeochrysa cincta (Schneider) was observed on colonies of Leptococcus eugeniae (Miller & Denno) (as Plotococcus eugeniae) (Hemiptera: Pseudococcidae) (Eisner & Silberglied 1988). Eight species of Chrysopidae were associated with M. hirsutus, but of these only Chrysoperla carnea (Stephens) is known in Brazil (Chong et al. 2015).
Gyranusoidea indica was described from India and introduced into Australia, Egypt, Guyana, several Caribbean countries (Noyes 2015), and California (USA) (Goolsby et al. 2002). In conjunction with the parasitoid A. kamali and the predator C. montrouzieri, G. indica has been widely used in biological control programs against the pink hibiscus mealybug. Gyranusoidea mirzai (Agarwal) is associated with M. hirsutus, but it is restricted to the Oriental region (Chong et al. 2015). Gyranusoidea indica has also been recorded as a parasitoid of other pseudococcids, including F virgata, Nipaecoccus viridis (Newstead), and Pseudococcus longispinus (Targioni Tozzetti) (Sharaf & Meyerdirk 1987; Meyerdirk & Warkentin 1999; Abd-Rabou 2001). Evans et al. (2012) reported A. kamali and G. indica associated with M. hirsutus on San Andres Island, Colombia, and provided information and illustrations to differentiate the 2 species.
Mutual occurrence of coccinellids and potential prey insects on a given plant does not necessarily indicate a prey-predator relationship, which must be positively observed in the field and/or tested in the laboratory (Hodek & Honek 1996). Of the insects collected on H. rosa-sinensis infested by M. hirsutus in the state of Sao Paulo, the predators C. montrouzieri and C. sanguinea and the parasitoid G. indica have already been recorded as natural enemies of this pest in other countries. Of the new associated species, only T. notata has Pseudococcidae as main prey or host. Harmonia axyridis is a generalist predator that will take coccoids as prey but feeds mainly on aphids. Species of Exoplectra are associated with the scale insect families Coelostomidiidae and Monophlebidae, and Ceraeochrysa species are generalist predators.
Secondary predators, or those species that will take prey beyond the species typically preferred, can be important in pest management. For example, Nesticoccus sinensis Tang (Hemiptera: Pseudococcidae) and Eriococcus transversus Green (synonym Rhizococcus transversus) (Hemiptera: Eriococcidae) are important pests of bamboo forests in southern Jiangsu (China), and the strategy used to control these pests involved using oil seed rape planted among the bamboo to attract aphids, which in turn attracted Harmonia obscurosignata (Liu) and H. axyridis (Xu & Wu 1989). After rape harvest, the coccinellids dispersed to the bamboo and fed on scales, reducing the scale population by 97 to 99%.
In our collections from some plants infested by the pink hibiscus mealybug, we observed aphids and/or other species of coccoids such as Aphis gossypii Glover (Aphididae), Phenacoccus solenopsis Tinsley (Pseudococcidae), Parasaissetia nigra (Nietner) (Coccidae), and Pinnaspis sp. (Diaspididae), and it is possible that some coccinellids documented in association with M. hirsutus were initially attracted to the plant because of the presence of one of these other pests. Furthermore, ladybeetles may provide some suppression when the pest population is high, but not in lower populations because the beetles require large numbers of mealybugs to survive (Hoy et al. 2002), in which case other parasitoids and predators may provide some control.
In our observations, it was clear that C. montrouzieri was prevalent on large populations of M. hirsutus on H. rosa-sinensis in the state of Sao Paulo. However, additional ecological work in the field and tests in the laboratory are needed before proposing good management strategies against this pest in the state of Sao Paulo or other regions of Brazil.
We are grateful to Francisco Jose Sosa Duque from Universidad Centroccidental "Lisandro Alvarado," Venezuela, who contributed with necessary information to identify the genus Ceraeochrysa (Neuroptera: Chrysopidae); to Takumasa Kondo (CORPOICA, Palmira, Colombia) for reviewing the manuscript; and to CAPES (Coordenacao de Aperfeicomento de Pessoal de Nivel Superior) for financial support.
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Ana Lucia B. G. Peronti (1) *, Nilza Maria Martinelli (1), Julia Godoy Alexandrino (1), Alberto Luiz Marsaro Junior (2), Angelica Maria Penteado-Dias (3), and Lucia M. Almeida (4)
(1) Departamento de Fitossanidade, Faculdade de Ciencias Agrarias e Veterinarias, Universidade Estadual Paulista Julio de Mesquita Filho, Caixa Postal, 14.884-900, Jaboticabal, SP, Brazil
(2) Laboratorio de Entomologia, Embrapa Trigo, Caixa Postal 3081, 99050-970, Passo Fundo, RS, Brazil
(3) Departamento de Ecologia e Biologia Evolutiva, Universidade Federal de Sao Carlos, Caixa Postal, 13565-905, Sao Carlos, SP, Brazil
(4) Laboratorio de Sistematica e Bioecologia de Coleoptera (Insecta), Departamento de Zoologia, Universidade Federal do Parana, Caixa Postal 19020, 81531-980, Curitiba, PR, Brazil
* Corresponding author; E-mail: email@example.com
Table 1. Parasitoids and predators of Maconellicoccus hirsutus (Hemiptera: Pseudococcidae) from 3 municipalities in the state of Sao Paulo, Brazil. Natural enemies Origin Material studied Coleoptera: Coccinellidae Chilocorus nigrita * Oriental 10-I-2013, Campinas, S , Marsaro Junior AL col. (1 ex.); VI-2014, Jaboticabal, SP, Alexandrino JG col. (6 ex.). Cryptolaemus montrouzieri Australasian 6-XII-2012, Sao Carlos, SP, Peronti ALBG col. (8 ex.); 10-I-2013, Campinas, SP, Marsaro Junior AL col. (4 ex.); III-2014, IV-2014, V-2014, Jaboticabal, SP, Alexandrino JG col. (20 ex.) Cycloneda sanguinea Neotropical 6-XII-2012, Sao Carlos, SP, Peronti ALBG col. (1 ex.) Exoplectra sp. * Neotropical 10-I-2013, Campinas, SP, Marsaro Junior AL col. (1 ex.) Harmonia axyridis * Palearctic VI-2014, Jaboticabal, SP, Alexandrino JG col. (4 ex.) Tenuisvalvae notata * Neotropical 10-I-2013, Campinas, SP, Marsaro Junior AL col. (1 ex.) Neuroptera: Chrysopidae Ceraeochrysa sp. III-2014, Jaboticabal, SP, Alexandrino JG col. (2 ex.) Hymenoptera: Encyrtidae Gyranusoidea indica ** Oriental VII-2014, Jaboticabal, SP, Alexandrino JG col. (4 ex.) * First association with M. hirsutus. ** First report in Brazil.
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|Author:||Peronti, Ana Lucia B.G.; Martinelli, Nilza Maria; Alexandrino, Julia Godoy; Junior, Alberto Luiz Mar|
|Date:||Mar 1, 2016|
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