Planococcus ficus

Last updated

Planococcus ficus
Mealybugs on flower stem, Yogyakarta, 2014-10-31.jpg
Planococcus ficus on a stem
Scientific classification OOjs UI icon edit-ltr.svg
Domain: Eukaryota
Kingdom: Animalia
Phylum: Arthropoda
Class: Insecta
Order: Hemiptera
Suborder: Sternorrhyncha
Family: Pseudococcidae
Genus: Planococcus
Species:
P. ficus
Binomial name
Planococcus ficus
Ben-Dov, 1994

Planococcus ficus, commonly known as the vine mealybug, is a species of mealybug, belonging to the family Pseudococcidae, native to tropical and subtropical regions. [1] The vine mealybug is found in Europe, Northern Africa, Southern Africa, the Americas, and the Middle East. The vine mealybug is invasive to weedy plants in many different regions of the world.

Contents

Description

Planococcus ficus are bilaterally symmetric, triploblastic, coelomic, protostomes

Female description

Planococcus ficus exhibits sexual dimorphism. Adult females are about 4 mm long, 2 mm wide and 1.5 mm thick. [2] Female P. ficus are wingless and generally larger than males. They have a segmented, humpbacked, pale white or flesh colored body. [2] With a girdle of frilly white projections and a thin dark line of denuded wax running on the dorsal surface, [3] the female bodies are covered in a fine, white, powdery wax secretion. [2]

Male description

Adult male P. ficus are about 1 mm long and have transparent wings. [3] They have a brown body with beaded antenna and filamentous anal setae for flight stabilization. [3] Adult males do not possess mouth parts and use their anal setae for feeding. [3]

Taxonomy

Planococcus ficus were most recently classified by Ben-Dov in 1994 as being insects of the kingdom Animalia, phylum Arthropoda, class Insecta, order Hemiptera, suborder Homoptera, family Pseudococcidae and superfamily Coccoidea. They belong to the genus Planococcus and species Ficus. [4]

Ecology

Planococcus ficus are herbivores that feed on all parts of the grape vine plant and weedy plants. They are found on apples, avocados, banana, date palm, fig, mango, and citrus fruits. [3] They specifically feed on the phloem sap of their host plants. [3]

host plants of Planococcus ficus Host plants for Planococcus ficus.png
host plants of Planococcus ficus

Distribution

natural predators of Planococcus ficus Natural Predators of Planococcus ficus.png
natural predators of Planococcus ficus

Vine mealybugs are found in tropical and subtropical regions of the world such as Europe, Northern Africa, South Africa, Argentina, the Middle East, and Mexico. [5] The vine mealybug has been reported in over 47 countries and is thought to have originated from Israel. [6] Transportation of the vine mealybug has occurred through the movement of infected plants and agricultural equipment. This has allowed the vine mealybug to be invasive to many different regions of the world. [3]

The vine mealybug lives in colonies on host plants and migrates between different parts of the plant depending on seasonal changes. [3] The vine mealybug is usually distributed along the bark of the host plant’s trunk and arms and underground in the roots during the winter seasons. [7] Vine mealybugs then move to the base of the plant’s shoots during the spring and become densely distributed on leaf foliage during summer and fall seasons. [7]

Ecological relationships

Many P. ficus form mutualistic relationships with neighboring ant colonies. Ant colonies feed on the honeydew produced by the vine mealybug and in the winter, vine mealybugs utilize the underground tunnels that the ants dig. [3]   Additionally, ants protect the vine mealybug from natural predators such as predatory beetles. [3]

Predators

Vine mealybugs have multiple natural predators such as predatory beetles like the Lady bird, parasitoid wasps such as Leptomastidea abnormis and entomopathogenic nematodes Steunernematidae and Heterorhabditidae. [8]

Morphology

Male and Female vine mealybugs reach maturity at about 31.6 days and live for approximately 68 days depending on environmental conditions. [3]

life cycle of male and female Planococcus ficus Planococcus ficus life cycle.png
life cycle of male and female Planococcus ficus

Male life cycle

Male P. ficus go through a holometabolous metamorphosis with seven growth phases. [3] Males start as light yellow or brown eggs. [2] They then enter the first nymphal instar and have a dark yellow coloration and six antennal segments. [2] The male then molts and enters the second nymphal instar. [2] During the second instar the male spins a cocoon, the third nymphal instar, prepupa and pupa stages all occur within the cocoon. [3] During the prepupa stage one pair of lateral ocelli and visible wing buds form. During the pupae stage males develop three pairs of lateral ocelli and the wing buds grow to reach the third abdominal segments. [2] Adult males then emerged from the cocoon with a fully developed set of wings. [3]

Female life cycle

Female P. ficus are hemimetabolous and have five growth stages. [3] Like male eggs, they are light yellow or brown eggs. [2] They then enter the first nymphal instar and have a dark yellow coloration and six antennal segments. [2] At the second instar females grow larger and turn a yellowish, brown color. [2] The females grow larger again during the third instar and have a more defined waxy layer and eight antennal segments. [3] Adult Females are wingless and coated in a waxy covering. [2] At each molt the female becomes more sessile, grows larger and secretes more wax. [3]

Both male crawlers and adult females have sucking mouthparts to pierce host plants and suck sap. [3]

Reproduction

Planococcus ficus reproduces sexually through internal fertilization. [9] Sessile females release pheromones to attract motile males. Males practice a walking behavior and walk on the female’s back and use their antennae to probe for the female’s genitalia. [9] The female lifts its abdomen to allow for mating.

Females can mate multiple times a day and most males die after mating. Mating occurs year-round but is highest in warmer months. [3] Typically, anywhere from 3- 6 generations are bred per year depending on geographical location and temperatures. [10]

Females lay eggs in an egg sac made of filamentous waxy hairs. [2] These sacs can be placed anywhere on the host plant or underground. P. ficus has little parental investment and hatched young are left to provide for themselves. [3]

Environmental impacts

The vine mealybug has emerged as a large pest in vineyards due to agricultural practices such as nitrogen fertilizer use and irrigation techniques. [7]  Vine mealybugs are known to produce large amounts of honey dew that can lead to mold development on foliage and branches. [11] The vine mealybug is also a vector for plant disease like grapevine leaf roll that can cause discoloration and rolling of vine leaves. This can lead to poor fruit production in the grapevine plant. [10] The vine mealybug is also a vector for corky-bark disease [12] and shiraz disease in vines. [13]

Management

The vine mealybug is often treated with insecticides such as a two-part application of chlorpyrifos or prothiophos. [14] While insecticides have some success, they are often not complete solutions because mealybugs are able to withstand insecticides. The vine mealybug's distribution under the bark and roots of host plants make it hard to exterminate. [15] Additionally, the waxy covering of the vine mealybug make it hydrophobic and able to avoid contact with insecticides. [15]

Monitoring

Physical sampling of infested vines and pheromone monitoring are often used to assess treatment options. [16] Physical sampling is most effective in summer seasons to estimate the population size to determine if insecticide intervention is needed. Pheromone sampling utilizes pheromone bait traps to attract and capture males. Female population sizes are estimated based on the male population sizes. [16]

Biological enemy usage

Planococcus ficus infestations are often controlled through biological enemies of the vine mealybug. Surrounding foliage and cover crops are planted to increase natural populations of vine mealybugs natural enemies. [8]

Additionally, proper pruning regimens for host plants are used to increase biological predators’ effectiveness by reducing hunting area. [17]

Related Research Articles

<span class="mw-page-title-main">Whitefly</span> Family of insects

Whiteflies are Hemipterans that typically feed on the undersides of plant leaves. They comprise the family Aleyrodidae, the only family in the superfamily Aleyrodoidea. More than 1550 species have been described.

<i>Helicoverpa zea</i> Species of moth

Helicoverpa zea, commonly known as the corn earworm, is a species in the family Noctuidae. The larva of the moth Helicoverpa zea is a major agricultural pest. Since it is polyphagous during the larval stage, the species has been given many different common names, including the cotton bollworm and the tomato fruitworm. It also consumes a wide variety of other crops.

<span class="mw-page-title-main">Mealybug</span> Family of insects (Pseudococcidae)

Mealybugs are insects in the family Pseudococcidae, unarmored scale insects found in moist, warm habitats. Of the more than 2,000 described species, many are considered pests as they feed on plant juices of greenhouse plants, house plants and subtropical trees and also act as a vector for several plant diseases. Some ants live in symbiotic relationships with them, protecting them from predators and feeding off the honeydew which they excrete.

<span class="mw-page-title-main">Viticulture</span> Cultivation and harvesting of grapes

Viticulture, viniculture, or winegrowing is the cultivation and harvesting of grapes. It is a branch of the science of horticulture. While the native territory of Vitis vinifera, the common grape vine, ranges from Western Europe to the Persian shores of the Caspian Sea, the vine has demonstrated high levels of adaptability to new environments, hence viticulture can be found on every continent except Antarctica.

<span class="mw-page-title-main">Scale insect</span> Superfamily of insects

Scale insects are small insects of the order Hemiptera, suborder Sternorrhyncha. Of dramatically variable appearance and extreme sexual dimorphism, they comprise the infraorder Coccomorpha which is considered a more convenient grouping than the superfamily Coccoidea due to taxonomic uncertainties. Adult females typically have soft bodies and no limbs, and are concealed underneath domed scales, extruding quantities of wax for protection. Some species are hermaphroditic, with a combined ovotestis instead of separate ovaries and testes. Males, in the species where they occur, have legs and sometimes wings, and resemble small flies. Scale insects are herbivores, piercing plant tissues with their mouthparts and remaining in one place, feeding on sap. The excess fluid they imbibe is secreted as honeydew on which sooty mold tends to grow. The insects often have a mutualistic relationship with ants, which feed on the honeydew and protect them from predators. There are about 8,000 described species.

<i>Maconellicoccus hirsutus</i> Species of true bug

Maconellicoccus hirsutus, is a pest of many plants, trees, and shrubs. It infests hibiscus, citrus, coffee, sugar cane, annonas, plums, guava, mango, okra, sorrel, teak, mora, pigeon pea, peanut, grapevine, maize, asparagus, chrysanthemum, beans, cotton, soybean, cocoa, and many other plants. The pest forms colonies on the host plant, and if left undisturbed, the colonies will grow into large masses of white waxy coverings on branches, fruiting structures, leaves, and even whole plants, including large trees.

<i>Aonidiella aurantii</i> Species of true bug

Aonidiella aurantii or red scale is an armored scale insect and a major pest of citrus. It is thought to be a native of South China but has been widely dispersed by the agency of man through the movement of infected plant material. In the United States it is known as California red scale. It was first found in California between 1868 and 1875, apparently brought there on planting material imported from Australia.

<span class="mw-page-title-main">Brown marmorated stink bug</span> Species of Pentatomid insect

The brown marmorated stink bug is an insect in the family Pentatomidae, native to China, Japan, Korea, and other Asian regions. In September 1998, it was collected in Allentown, Pennsylvania, where it is believed to have been accidentally introduced. The nymphs and adults of the brown marmorated stink bug feed on over 100 species of plants, including many agricultural crops, and by 2010–11 had become a season-long pest in orchards in the Eastern United States. In 2010, in the Mid-Atlantic United States, $37 million in apple crops were lost, and some stone fruit growers lost more than 90% of their crops. Since the 2010s, the bug has spread to countries such as Georgia and Turkey and caused extensive damage to hazelnut production. It is now established in many parts of North America, and has recently become established in Europe and South America.

<i>Pseudococcus viburni</i> Species of true bug

Pseudococcus viburni is a close relative of the grape mealybug and a pest of the vineyards around the world.

<i>Adelphocoris lineolatus</i> Species of true bug

Adelphocoris lineolatus, is commonly known as the Lucerne bug or the alfalfa plant bug, and belongs to the family Miridae. It is an agricultural pest causing vast amounts of damage to numerous crops, but primarily to alfalfa crops around the globe.

<i>Aleurocanthus woglumi</i> Citrus pest from India, now worldwide

Aleurocanthus woglumi is a species of whitefly in the family Aleyrodidae. It is a pest of citrus crops, and is commonly known as the citrus blackfly because of its slate-blue colour. It originated in Asia, but has spread to other parts of the world. The parasitic wasps, Encarsia perplexa and Amitus hesperidum can help control the pest.

<i>Paracoccus marginatus</i> Species of true bug

Paracoccus marginatus, commonly known as the papaya mealybug, is a small sap-sucking insect in the mealybug family, Pseudococcidae. It is found on a number of different hosts, including economically important tropical fruit trees and various ornamental plants.

<i>Crematogaster peringueyi</i> Species of ant

Crematogaster peringueyi is a southern African arboreal species of ant. They are commonly known as the black cocktail ant or swartwipgatmier (Afrikaans) for their colour and habit of arching their abdomens when alarmed.

<i>Planococcus citri</i> Species of true bug

Planococcus citri, commonly known as the citrus mealybug, is a species of mealybugs native to Asia. It has been introduced to the rest of the world, including Europe, the Americas, and Oceania, as an agricultural pest. It is associated with citrus, but it attacks a wide range of crop plants, ornamental plants, and wild flora.

The mango mealybug is a pest of mango crops in Asia. The nymphs and females suck plant sap from inflorescences, tender leaves, shoots and fruit peduncles. As a result, the infested inflorescences dry up, affects the fruit set, causing fruit drop. These bugs also exude honey dew over the mango tree leaves, on which sooty mold fungus develops reducing the photosynthetic efficiency of the tree. It is a polyphagous pest and is found on over 60 other plant species.

<span class="mw-page-title-main">Spotted lanternfly</span> Species of planthopper indigenous to Southeast Asia

The spotted lanternfly is a planthopper indigenous to parts of China and Vietnam. It has spread invasively to Japan, South Korea, and the United States, where it is often referred to by the acronym "SLF". Its preferred host is the 'tree of heaven', but it also feeds on other trees, and on crops including soybean, grapes, stone fruits, and Malusspp. In its native habitat, L. delicatula populations are regulated by parasitic wasps.

<i>Planococcus</i> (bug) Genus of bugs

Planococcus is a genus of true bugs belonging to the family Pseudococcidae. The genus has a cosmopolitan distribution. A number of species are invasive agricultural pests.

Ferrisia is a genus of mealybugs.

<i>Erasmoneura vulnerata</i> Species of leafhopper

Erasmoneura vulnerata is a species of leafhopper native to North America. The species was found to be in Europe in 2004 where it causes significant economic damage to grapevine yards. E. vulnerata is commonly found on wild and cultivated grapes from both continents. Its Latin name translates to "wounded Erasmoneura" from its original description.

<span class="mw-page-title-main">Grape cultivation in California</span>

The 2020 table grape harvest was worth $2.12 billion while wine grapes brought in $1.7 billion, down 15.3% year-on-year. By weight this was 17% lower versus 2018. The next year, 2021 saw a much better yield. From 829,000 acres (335,000 ha) viniculturists got 6.94 short tons per acre (15.6 t/ha) for a total harvest of 5,755,000 short tons (5,221,000 t). At an average of $909 per short ton ($1,002/t) they were paid $5,229,902,000 for the season. Of that, 4,844,600 short tons (4,394,900 t) were for destined for processing industries and at $835 per short ton ($920/t) that was worth $4,046,382,000. The fresh harvest was 910,400 short tons (825,900 t) and selling at a price of $1,300 per short ton ($1,433/t), this sector was worth $1,183,520,000 for the season.

References

  1. Daane, Kent M.; Cooper, Monica L.; Triapitsyn, Serguei V.; Walton, Vaughn M.; Yokota, Glenn Y.; Haviland, David R.; Bentley, Walt J.; Godfrey, Kris E.; Wunderlich, Lynn R. (2008). "Vineyard managers and researchers seek sustainable solutions for mealybugs, a changing pest complex". California Agriculture . 62 (4). UC Agriculture and Natural Resources (UC ANR): 167–176. doi: 10.3733/ca.v062n04p167 . ISSN   0008-0845. S2CID   54928048.
  2. 1 2 3 4 5 6 7 8 9 10 11 12 Κοντοδήμας, Δημήτριος (2004). Μελέτη της οικολογίας των αρπακτικών εντόμων nephus bisignatus ( boheman) και nephus includens ( kirsch) ( coleoptera: coccinellidae), φυσικών εχθρών του Planococcus citri ( risso) ( homoptera : pseudococcidae) (Thesis). National Documentation Centre (EKT). doi:10.12681/eadd/22110.
  3. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 Foggia, Dylan Berning; Graham Dawson; Mike. "Planococcus ficus (Mediterranean vine mealybug)". Animal Diversity Web. Retrieved 2021-11-08.{{cite web}}: CS1 maint: multiple names: authors list (link)
  4. Ben-Dov, Yair (2020-08-17). A Systematic Catalogue of the SOFT SCALE INSECTS of the World. CRC Press. doi:10.1201/9781003072287. ISBN   978-1-003-07228-7. S2CID   226194765.
  5. Daane, Kent M.; Cooper, Monica L.; Triapitsyn, Serguei V.; Walton, Vaughn M.; Yokota, Glenn Y.; Haviland, David R.; Bentley, Walt J.; Godfrey, Kris E.; Wunderlich, Lynn R. (May 2008). "Vineyard managers and researchers seek sustainable solutions for mealybugs, a changing pest complex". California Agriculture. 62 (4): 167–176. doi: 10.3733/ca.v062n04p167 . ISSN   0008-0845.
  6. Daane, Kent M.; Vincent, Charles; Isaacs, Rufus; Ioriatti, Claudio (2018-01-07). "Entomological Opportunities and Challenges for Sustainable Viticulture in a Global Market". Annual Review of Entomology. 63 (1): 193–214. doi:10.1146/annurev-ento-010715-023547. ISSN   0066-4170. PMID   29324036.
  7. 1 2 3 Cocco, Arturo; Muscas, Enrico; Mura, Alessandra; Iodice, Andrea; Savino, Francesco; Lentini, Andrea (2018-07-12). "Influence of mating disruption on the reproductive biology of the vine mealybug, Planococcus ficus (Hemiptera: Pseudococcidae), under field conditions". Pest Management Science. 74 (12): 2806–2816. doi:10.1002/ps.5067. ISSN   1526-498X. PMID   29737603. S2CID   13701787.
  8. 1 2 Bugg, Robert L.; Waddington, Carol (August 1994). "Using cover crops to manage arthropod pests of orchards: A review". Agriculture, Ecosystems & Environment. 50 (1): 11–28. doi:10.1016/0167-8809(94)90121-x. ISSN   0167-8809.
  9. 1 2 Waterworth, Rebeccah A; Wright, Ian M; Millar, Jocelyn G (2011-03-01). "Reproductive Biology of Three Cosmopolitan Mealybug (Hemiptera: Pseudococcidae) Species, Pseudococcus longispinus, Pseudococcus viburni, and Planococcus ficus". Annals of the Entomological Society of America. 104 (2): 249–260. doi: 10.1603/an10139 . ISSN   1938-2901. S2CID   85719217.
  10. 1 2 Walton, V.M.; Pringle, K.L. (May 2017). "Vine mealybug, Planococcus ficus (Signoret) (Hemiptera: Pseudococcidae ), a Key Pest in South African vineyards. A Review". South African Journal of Enology & Viticulture. 25 (2). doi: 10.21548/25-2-2140 . ISSN   2224-7904.
  11. Chiotta, M.L.; Ponsone, M.L.; Torres, A.M.; Combina, M.; Chulze, S.N. (2010-07-02). "Influence of Planococcus ficus on Aspergillus section Nigri and ochratoxin A incidence in vineyards from Argentina". Letters in Applied Microbiology. 51 (2): 212–218. doi: 10.1111/j.1472-765x.2010.02884.x . hdl: 11336/130308 . ISSN   0266-8254. PMID   20672440. S2CID   29528560.
  12. Tanne, Edna; Ben-Dov, Y.; Raccah, B. (March 1989). "Transmission of the corky-bark disease by the mealybugPlanococcus ficus". Phytoparasitica. 17 (1): 55. doi:10.1007/bf02979605. ISSN   0334-2123. S2CID   33447097.
  13. Allsopp, E. (September 2016). "Transmission of Grapevine Leafroll-associated Virus 3 by Vine Mealybug, Planococcus ficus (Signoret), to Grapevines Treated with Imidacloprid". South African Journal of Enology & Viticulture. 36 (2). doi: 10.21548/36-2-958 . ISSN   2224-7904.
  14. Nel, A (1999). "A guide to the control of plant pests".{{cite journal}}: Cite journal requires |journal= (help)
  15. 1 2 Hollingsworth, Robert G. (2005-06-01). "Limonene, a Citrus Extract, for Control of Mealybugs and Scale Insects". Journal of Economic Entomology. 98 (3): 772–779. doi:10.1603/0022-0493-98.3.772. ISSN   0022-0493. PMID   16022305. S2CID   21153802.
  16. 1 2 Walton, V.M.; Pringle, K.L. (May 2017). "Effects of Pesticides and Fungicides Used on Grapevines on the Mealybug Predatory Beetle Nephus 'boschianus' (Coccinellidae, Scymnini)". South African Journal of Enology & Viticulture. 22 (2). doi: 10.21548/22-2-2204 . ISSN   2224-7904.
  17. Flaherty, D (1982). "Major insect and mite pests; In: Grape Pest Management". Agricultural Sciences Publications. 4105: 412.
This page is based on this Wikipedia article
Text is available under the CC BY-SA 4.0 license; additional terms may apply.
Images, videos and audio are available under their respective licenses.