Spiralling Whitefly and Its Management Practices in the South Pacific

Spiralling Whitefly and Its Management Practices in the South Pacific

Adv. Hort. Sci., 2019 33(1): 123-131 DOI: 10.13128/ahs-22952 Mini review Spiralling whitefly and its management practices in the South Pacific. A review Advances inH HorticulturaS l Science R.R. Chand 1, 2 ( *), A.D. Jokhan 2, R. Kelera 1 1 School of Biological and Chemical Sciences, Faculty of Science, Technology and Environment, The University of the South Pacific, Private Mail Bag, Suva, Fiji. 2 School of Science and Technology, The University of Fiji, Private Mail Bag, Lautoka, Fiji. Key words: abundance, Aleurodicus dispersus Russell, management, South Pacific, spiralling whitefly. Abstract: A few species of whiteflies are considered a serious insect pest of veg - etation and ornamental plants across many countries. The Spiralling whiteflies, Aleurodicus dispersus Russell has been recorded on many different plant species across countries. These whiteflies feed exclusively on leaves and have (*) Corresponding author: the ability to spread plant diseases. A great deal of research has been done on [email protected] whiteflies in relation to which control methods would be most effective in pest management. The management of Spiralling whitefly in the South Pacific is heavily reliant on biological control (using the parasitic wasps, predators and Citation: entomopathogenic fungi). Other control methods include physical, botanical, CHAND R.R., JOKHAN A.D., KELERA R., 2019 - Spiralling whitefly and its management practices and chemical to keep the whitefly population at lower levels. In this paper, an in the South Pacific. A review . - Adv. Hort. Sci., overview of Spiralling whiteflies and its management practices in the South 33(1): 123-131 Pacific will be reviewed. Copyright: © 2019 Chand R.R., Jokhan A.D., Kelera R. This is 1. Introduction an open access, peer reviewed article published by Firenze University Press (http://www.fupress.net/index.php/ahs/) and Spiralling whiteflies, Aleurodicus dispersus Russell, 1965 ( Hemiptera: distributed under the terms of the Creative Aleyrodidae ), are polyphagous pest of agricultural and horticultural crops Commons Attribution License , which permits unrestricted use, distribution, and reproduction in glasshouses and fields worldwide (Oliveira et al. , 2001; Mani and in any medium, provided the original author and Krishnamoorthy, 2002; Stansly and Natwick, 2010). It is a native to the source are credited. Caribbean region and Central America (Waterhouse and Norris, 1989). It was first noticed as a pest in Hawaii in 1978 and since then has spread to the Pacific islands and other continents (Kumashiro et al. , 1983; Data Availability Statement: All relevant data are within the paper and its Waterhouse and Norris, 1989). Supporting Information files. Whitefly adults and larvae feed on leaves, stems and fruits by inserting stylets into the plant. Some specific plants that are usually attacked include cassava, pepper, papaya, mango, eggplant, citrus, guava, banana, Competing Interests: coconut, breadfruit, tropical almond, sea grape, paper bark and rose The authors declare no competing interests. (Russell, 1965; Jayma et al. , 1993; Neuenschwander, 1994; Reddy, 2015). When the stylets are in the phloem, the whiteflies ingest large quantities Received for publication 31 March 2018 of sap that contains a lot of sugar. They excrete the excess liquids and Accepted for publication 7 September 2018 sugar which is called honeydew. The honeydew is deposited on leaves 123 Adv. Hort. Sci., 2019 33(1): 123-131 and fruits, fostering the growth of black sooty mould America) and since then it has expanded its range to fungi and falling of premature leaves. In addition, most regions around the world including North these moulds influence the rate of photosynthesis America, South America, Asia, Africa, Australia and and transpiration as it hinders the light penetration, several Pacific Islands (Russell, 1965; Waterhouse vapour movement and exchange, leading plants to and Norris, 1987; Reddy, 2015). In the South Pacific, exhibit yellowish specks on leaves, to wilt or die off the pest has been reported in Majuro (1986) (McAuslane et al. , 2004; Al-Shareef, 2011; Reddy, (Marshall Is), Cook Islands (1984), Fiji (1985), Nauru 2015) . (1987), Papua New Guinea (1987), Kiribati (June Spiralling whiteflies have caused detrimental 1988), Tokelau (late 1988) and Tonga (November effects in the production of crops and ornamental 1988) (Waterhouse and Norris, 1987). plants. It is one of the most common pest that has The lifecycle stages of A. dispersus are eggs, four the ability to spread diseases and influence the global larval instars and adults. The eggs (0.3 mm long) are food production (ECPA, 2015). Over 300 plant species usually smooth surfaced, yellow and tan elliptical in from approximately 77 families have been recorded shape (Reddy, 2015). These are laid at an angle of 90° as hosts of A. Dispersus worldwide (Lambkin, 1999). with Spiralling deposits of white flocculence on The spread of the Spiralling whitefly continues to underside of the leaves. The first instars are mobile increase rapidly due to the general ineffectiveness of and called crawlers. They can travel to a short dis - chemical control and other pest control measures tance to select their feeding sites (Martin, 1987). (Mani and Krishnamoorthy, 2002). Alternative mea - They are usually 0.32 mm long and settle near the sures for controlling Spiralling whiteflies include spiral pattern of the eggs from which they hatched. physical, cultural and biological control. These As the crawler grows, they develop mid-dorsal waxy approaches have been used in the South Pacific but tufts and the secretion of wax is usually from the nar - there is no data available (except biological control) row band of sub-margin. The second and third instars that supports their practice and effectiveness in are 0.5-0.65 mm long and remains feeding at same terms of whitefly management (Waterhouse and place. The distinguishing feature about the third Norris, 1987). Hence, the present review builds infor - instar larvae is the presence of glass-like rods of wax mation on studies carried in the South Pacific on A. (usually short and evenly-spaced) lined along the dispersus Russell alternative control methods, which body. These cottony secretion is much less abundant would be valuable in terms of effective management than on the fourth instar [Russell (1965) cited in The of the pest. Centre for Agriculture and Bioscience International (CABI, 2015)]. The fourth instar or puparium is 1.06 mm long 2. Origin, biology and whitefly-plant interactions and covered with numerous amounts of white mate - rials and long glass-like rods (~8 mm in length); due Aleurodicus dispersus is a tropical pest to a variety to fragmentation some are shorter (Fig. 1). The sec - of horticultural crops, ornamental plants and shade ond to fourth instars are protected by waxy secre - trees (Department of Agriculture and Fisheries, tions making them sessile and scale-like (Martin, 2015). It was first reported in Florida in late 1957 1987; Banjo, 2010). The adults are mobile and most (native area being the Caribbean and Central active during the morning. The bodies of males are Glassy wax rods emanating from each compound spores. These glassy rods are whitish in colour, translucent and longer (3-4 times) than the width of the body From the dorusm (extending upwards and outwards) of mature pupa - rium, a copious amount of white cottony substance is secreted Fig. 1 - Mature puparium of Spiralling whitefly 124 Chand et al. - Whitefly management in the South Pacific usually 2.28 mm and females are usually 1.74 mm These insect pests are reported to alter the chemical (3-4 times longer than the body width). The adults processes, growth and photosynthesis (Schröder et develop white translucent powder covering on their al. , 2005; Fatouros et al. , 2012). Moreover the plants bodies. These whiteflies also have a pair of antenna. primary metabolism is also altered by this particular The males have several pores on the abdomen scat - infestation. For example, egg deposition by a particu - tered dorsally, laterally and ventrally on the first 2 lar species of moth ( Podoptera frugiperda) demon - segments posterior to wax plates while the females strated inhibitory effect towards the production of are without pores [Russell (1965) cited in The Centre herbivore induced plant volatiles in maize plants for Agriculture and Bioscience International (2015)]. (Fatouros et al. , 2012). The egg deposition has also The eye is reddish-brown in colour. The Spiralling shown to influence the rate of photosynthesis by whiteflies also have two characteristic dark spots on reducing the amount of carbon dioxide diffusion in their forewings (Fig. 2). After mating adult females the mesophyll cells (Fig. 3) (Schröder et al. , 2005; lay eggs in irregularly spiralling patterns and it is Fatouros et al. , 2012). For instance, the study by where whiteflies derived their common name, Shannag and Freihat (2009) concluded that gas Spiralling whitefly (Reddy, 2015). exchange in cucumber plants infested by whiteflies Heavy occasional rains and cool temperatures (Bemisia tabaci ) caused photosynthesis to decline by result in a temporary reduction in A. dispersus popu - up to 30%. The feeding behaviour of whiteflies also lation (Mani, 2010). The mortality rate of immature stages increase between 40-45°C, and for adults the mortality rate increases at 35-40°C. Temperature below 10°C also lead to increased mortality (Cherry, 1979; Waterhouse and Norris,

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