Phytoseiidae (McMurtry and Croft, 1997)
publication ID |
https://doi.org/ 10.1051/acarologia/20142123 |
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https://treatment.plazi.org/id/0D1B87A3-FF92-6376-FF31-984AEBE9343D |
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Marcus |
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Phytoseiidae |
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Phytoseiidae View in CoL View at ENA species found and their biological control efficiency
Among the thirteen Phytoseiidae species collected in this survey, five were found in the three orchards: E. stipulatus , P. persimilis , N. barkeri , N. californicus and T. (A.) rhenanoides . The majority of these species are, according to McMurtry and Croft’s classification (1997), generalist predators that feed on a great variety of food sources including mites, insects, pollen ... This may explain their high abundance in absence of pest preys.
Euseius stipulatus View in CoL was the dominant species on citrus trees in the three orchards. This species also prevails in other citrus orchards in Tunisia ( Sahraoui et al., 2012), Spain ( Pereira et al., 2006; Abad-Moyano et al., 2009, 2010) and in the Mediterranean citrus orchards in general ( McMurtry, 1977). Euseius stipulatus View in CoL was found even when Tetranychidae View in CoL were absent. This species is considered according to McMurtry and Croft (1997) as specialized pollen feeder (Type 4). Several authors reported that its development rate is higher fed on pollen than on phytophagous mites (i.e. Ferragut et al., 1987, Zhimo and McMurtry, 1990). Furthermore, some studies have shown that its occurrence could be related to pollen abundance ( Villanueva and Childers, 2004). The abundance of E. stipulatus View in CoL in spring (in the three orchards) could thus be due to the presence of pollen. However, in orchard (1), this species was also abundant in December whereas pollen quantity was low. This species is also known to feed on Panonychus citri (McGregor) View in CoL ( Ferragut et al., 1988, 1992), T. urticae ( Abad-Moyano et al., 2009) View in CoL and eriophyid mites ( Ferragut et al., 1987). Its abundance in December could thus be due to the occurrence in orchard (1) of specimens of Tetranychus sp. , of eriophyid mites, or tydeid mites (which are abundant during this period) suggesting that this species could feed on these preys in citrus orchards. This species was present throughout the year during the surveys except in summer (July-August) when the temperature exceeds 30 – 35 ºC. Ferragut et al. (1987) showed that this species stops laying eggs at 32 °C.
Among the other Phytoseiidae View in CoL species present on citrus trees, N. californicus View in CoL and P. persimilis View in CoL can be considered as good candidates for biological control of phytophagous citrus. Phytoseiulus persimilis View in CoL is known as a specialist predator, especially efficient to control T. urticae View in CoL in greenhouses all over the world ( McMurtry and Croft, 1997).
Neoseiulus californicus View in CoL is reported to control mites of the family Tetranychidae View in CoL ( Escudero et al., 2004; Greco et al., 2005; Katayama et al., 2006; Gomez et al., 2009), but can also consume other mite species as Phytonemus pallidus (Banks) ( Easterbrook et al., 2001) and small insects, as Thripidae (Rodriguez et al., 1992) View in CoL .
Typhlodromus (A.) rhenanoides View in CoL is a generalist species, but also reported to reproduce and develop on T. urticae View in CoL and the red mite P. citri ( Tsolakis et al., 2012) View in CoL , two pest mites of citrus in Tunisia ( Grissa and Khoufi, 2012).
In regards to N. barkeri View in CoL , this species is known to control Frankliniella occidentalis (Pergande) ( Rodriguez-Reina et al., 1992) View in CoL and Thrips tabaci (Lindeman) View in CoL ( Hansen, 1988; Desgaard et al., 1992). Yet, these thrips species are commonly reported in Tunisian citrus orchards (Belaam and Boulahia, 2012).
Even if the three species P. persimilis , N. californicus and T. (A.) rhenanoides are known to feed on some citrus pests, their densities in the present surveys were too low to play a key role in biological control.
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Phytoseiidae
Sahraoui, H., Tixier, M. - S., Lebdi-Grissa, K. & Kreiter, S. 2014 |
Phytonemus pallidus (Banks) (
Easterbrook et al. 2001 |
Frankliniella occidentalis (Pergande) (
Rodriguez-Reina et al. 1992 |
Typhlodromus (A.) rhenanoides
Athias-Henriot 1960 |
P. persimilis
Athias-Henriot 1957 |
Phytoseiulus persimilis
Athias-Henriot 1957 |
N. barkeri
Hughes 1948 |