Ablerus Howard (Chalcidoidea: Azotidae)

Species of Ablerus (=Azotus Howard) are most commonly recorded as primary, or hyperparasitoids, of immature Sternorrhyncha (Hemiptera) although certain species are known to attack lepidopteran eggs (Darling & Johnson 1984) and the pupae of chamaemyiid Diptera (Blanchard 1936). Material bred from whiteflies is typically assumed to be hyperparasitic on aphelinid primary parasitoids developing in the same host (Viggiani 1982; Evans 2007). Recently, Ablerus macrochaeta Silvestri was reported from B. tabaci in Guangxi and Yunnan Provinces in the People's Republic of China following a 10 yr natural enemy census (Li et al. 2011). Additional whitefly host records for A. macrochaeta include Aleurocanthus inceratus Silvestri, and the citrus blackfly, Aleurocanthus woglumi Ashby. The only other instance of an Ablerus species attacking a whitefly in the genus Bemisia is Ablerus inquirenda Silvestri parasitizing Bemisia (as Lipaleyrodes) euphorbiae (David and Subramaniam) (Evans 2007).

Cales Howard (Chalcidoidea: Aphelinidae)

Cales is a relatively poorly known genus whose members, where host relationships are known, are primary parasitoids of aleyrodine whiteflies. Cales are morphologically conserved and character poor making their identification difficult without the use of molecular tools (Mottern 2012). Abd-Rabou (1997, 2002) reported a Cales sp. from B. tabaci in Beni-Suef, Egypt, citing rare incidence. At least one species, Cales noacki Howard, is globally distributed having been implemented in successful biological control programs for control of woolly whitefly, Aleurothrixus floccosus (Maskell), a severe pest of Citrus in many countries (Meyerdirk et al. 1980; Miklasiewicz & Walker 1990; Rose & DeBach 1994). This same species was reared from the B. tabaci complex in Tanzania on cassava (Manihot esculenta Crantz) (Guastella et al. 2014). It is important to note, however, that recent morpho-molecular analyses have identified C. noacki as a cryptic complex composed of at least 9 other species, some of which are indistinguishable morphologically (Mottern & Heraty 2014).

Mottern (2012) recently revised the Neotropical fauna adding an additional 21 new species. Further information is available from Mottern et al. (2011), Mottern (2012), and Mottern & Heraty (2014). The latter includes a key to male and female species and species complexes.

Encarsia Förster (Chalcidoidea: Aphelinidae)

Encarsia is the most speciose genus of Aphelinidae with more than 450 described species which mainly parasitize either whiteflies (Aleyrodidae) or armored scale insects (Diaspididae). The number of species recorded from the B. tabaci species complex has greatly increased over recent years from the 35 listed in Gerling et al. (2001), to 55 in Arnó et al. (2010) to 81 here. Minus a few exceptional cases, female Encarsia are primary endoparasitoids whereas males develop as ectophagous hyperparasitoids on conspecific or heterospecific individuals including those of other genera (Walter 1983; Hunter & Woolley 2001). The host-associations of females appear to be obligate insomuch as they are restricted to a particular host family (e.g., Aleyrodidae; Diaspididae; Hormaphididae) (Polaszek et al. 2009). Conversely, although male Encarsia are usually reared from the same host(s) as the females, they have also been obtained from alternative hosts, including soft scales (Coccidae) (Myartseva & Evans 2007), psyllid nymphs (Liviidae; Triozidae) (Polaszek et al. 1992; Butler & Trumble 2011), and the eggs of Lepidoptera (Polaszek 1991) and Cicadellidae (Hemiptera: Auchenorrhyncha) (Polaszek & Luft Albarracin 2011). The reports of the armored scale parasitoids Encarsia aspidioticola (Mercet) and Encarsia lounsburyi (Berlese & Paoli) from B. tabaci should be treated with caution (Greathead & Bennett 1981; Li et al. 2011), especially in regard to En. lounsburyi, where males are unknown.

Identification aids to Encarsia species are available for the following localities: Australia (Schmidt & Polaszek 2007), China (Huang & Polaszek 1998), Egypt (Polaszek et al. 1999), Hispaniola (Evans & Serra 2002), Italy (Viggiani 1987), India (Hayat 2011), Mexico (Myartseva & Evans 2007), North America (Schauff et al. 1996), and Taiwan (Shih et al. 2008). Polaszek et al. (1992) and Evans & Polaszek (1997) treated the species parasitizing the B. tabaci species complex. Heraty et al. (2008) recently discussed the systematics and biology of Encarsia with an emphasis on those attacking Bemisia species.

Eretmocerus Haldeman (Chalcidoidea: Aphelinidae)

The genus Eretmocerus contains 78 nominal species all of which are solitary, obligate, primary ecto-endoparasitoids of the whitefly subfamily Aleyrodinae. Myriad undescribed species exist including several that have been reared from Bemisia (Zolnerowich & Rose 2008). Twenty-three of the 78 described species have reportedly been reared from the B. tabaci species complex. In our list, we exclude 3 species that continue to be, or have been, commonly recorded as parasitizing B. tabaci, namely Eretmocerus californicus Howard, Eretmocerus corni Haldeman, and Eretmocerus haldemani Howard. We follow the convention of Zolnerowich & Rose (2008) that these taxa, or their host whitefly, are being misidentified (Rose et al. 1996; Rose & Zolnerowich 1997a).

Recent efforts have been made to utilize Eretmocerus in biological control programs against B. tabaci MEAM1 at the international level. Five exotic species were released in the United States for control of MEAM1 in Florida, Texas, Arizona, and California (Nguyen & Bennett 1995; Gould et al. 2008). Following the success of one of these species, Eretmocerus hayati Zolnerowich & Rose, importation for evaluation and/or releases have been made in Australia (De Barro & Coombs 2009), Egypt (Abd-Rabou 2004), the People's Republic of China (Yang & Wan 2011), and Tanzania (Guastella et al. 2014). Eretmocerus hayati appears to display a precise level of host specificity limited to the genus Bemisia (De Barro & Coombs 2009), a trait possibly shared by other Eretmocerus from the Old World that have been reported only from this genus (e.g., Er. emiratus Zolnerowich & Rose, Er. sp. nr. emiratus [Ethiopia and Sudan], Er. melanoscutus Zolnerowich & Rose) (Zolnerowich & Rose 1998). Castillo & Stansly (2011) created a nomen nudem for Er. sp. nr. emiratus (Sudan) when they published its bionomics under the name Eretmocerus sudanensis Zolnerowich & Rose. This species is excluded from the list because it currently is not a valid species, despite being the dominant Eretmocerus parasitoid of B. tabaci in Florida (Z. Lahey, unpublished data).

Accurate identification of Eretmocerus depends, in large part, on the examination of properly curated material (Rose & Zolnerowich 1997a). Keys to species have been produced for the following world regions: Australia (De Barro et al. 2000), China (Wu et al. 2009), Egypt (Abd-Rabou & Evans 2002), India (Hayat 1972, 1998), Iran (Abd-Rabou et al. 2005), Italy (Viggiani & Battaglia 1983), Mexico (Myartseva 2006a), and the United States (Rose & Zolnerowich 1997a,b; Zolnerowich & Rose 1998).

Metaphycus Mercet (Chalcidoidea: Encyrtidae)

Metaphycus are primary endoparasitoids of scale insects in the Coccoidea, although a few New World species are known to parasitize whiteflies (Myartseva 2006b) and jumping plant lice (Hemiptera: Triozidae) (Guerrieri & Noyes 2000). An as yet undescribed Metaphycus sp. was reared from B. tabaci collected in Venezuela by F.D. Bennett, providing the first record of the genus attacking an aleyrodid (Evans 1993). A recent survey of whitefly natural enemies conducted in Columbia also yielded a Metaphycus sp. (Bellotti et al. 2005). In the continental United States, there exists at least a single species capable of parasitizing B. tabaci. Recently, specimens were reared from B. tabaci (presumably MEAM1) as part of a survey of the parasitoid Hymenoptera associated with the B. tabaci species complex in southwest Florida (Z. Lahey, unpublished data). In all instances, the adults emerged through a hole chewed in the side of the whitefly and not through the dorsum, which is the typical escape route of whitefly parasitoids. This unusual emergence behavior may be explained, in part, by the subsequent rearing of the same species from a mealybug (Hemiptera: Pseudococcidae) found inhabiting the same host plant, Pluchea baccharis (Miller) Pruski (Asterales: Asteraceae). This bi-parental species probably utilizes B. tabaci facultatively and is so infrequently collected from the whitefly that it is not of economic importance.

The species of Metaphycus known to attack whiteflies are all from the New World with those that are described known solely from the Neotropical realm. A key to those species is available in Myartseva (2006b), but many remain undescribed (Guerrieri & Noyes 2000).

Signiphora Ashmead (Chalcidoidea: Signiphoridae)

Signiphora is a relatively small genus that contains primary and hyperparasitoids, most of which are distributed throughout the Neotropics (Woolley 1988). Signiphora aleyrodis Ashmead has been reared in small numbers from B. tabaci in numerous surveys throughout the Neotropics (Schuster et al. 1998; Viscarret et al. 2000; de Oliveira et al. 2003) and represents the only nominal signiphorid associated with the species complex. This species is an obligate hyperparasitoid of Aphelinidae and Platygastridae (Woolley 1988). Additional reports of unidentified Signiphora species reared from the B. tabaci complex exist from Cuba (Castineiras 1995), Columbia (Bellotti et al. 2005), Martinique (Ryckewaert & Alauzet 2002), and Argentina (Viscarret et al. 2000).

A key to the species and species groups of Signiphora is provided in Girault (1913) and Woolley (1988), respectively.

Amitus Haldeman (Platygastroidea: Platygastridae)

Amitus is 1 of 3 genera of whitefly parasitoids in the Platygastridae, all of which are primary endoparasitoids of whiteflies. Of the 19 species that comprise the genus, 4 (bennetti, fuscipennis, hesperidum, and longicornis) are recorded as parasitoids of B. tabaci. Amitus bennetti Viggiani & Evans was introduced into Florida from Puerto Rico for control of MEAM1 in the early 1990's (Nguyen & Bennett 1995). Although recoveries were made several weeks after initial field releases, it is unknown if this species established. Surveys conducted in southwest Florida in the mid 1990s, and from 2012–2013 did not recover this species, or any other species of Amitus, from B. tabaci (Stansly et al. 1997; Z. Lahey, unpublished data). Amitus fuscipennis MacGown & Nebeker is a well-known parasitoid of the greenhouse whitefly, Trialeurodes vaporariorum (Westwood), and appears capable of utilizing B. tabaci in the laboratory (reference in Gerling et al. 2001); to our knowledge A. fuscipennis has never been reared from B. tabaci in the field. Both A. hesperidum Silvestri and A. longicornis (Förster) parasitize citrus pests in the genus Aleurocanthus Quaintance. Additional Amitus have been reared from B. tabaci in Honduras (Vélez 1993) and Nicaragua (Nunes et al. 2006).

Identification of Amitus is difficult due to a lack of information regarding the genus. Viggiani & Mazzone (1982) provided a key to the species of Italy. MacGown & Nebeker (1978) reviewed the species of the Western Hemisphere, and Polaszek (1997) discussed the European species. Some of the New World species were addressed by Viggiani & Evans (1992).