Kerria lacca

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Kerria lacca
02-Indian-Insect-Life - Harold Maxwell-Lefroy - Kerria-Lacca.jpg
Drawing of the insect Kerria lacca and its shellac tubes, by Harold Maxwell-Lefroy, 1909
Scientific classification OOjs UI icon edit-ltr.svg
Domain: Eukaryota
Kingdom: Animalia
Phylum: Arthropoda
Class: Insecta
Order: Hemiptera
Suborder: Sternorrhyncha
Family: Kerriidae
Genus: Kerria
Species:
K. lacca
Binomial name
Kerria lacca
(Kerr, 1782)
Synonyms
  • Coccus laccaKerr, 1782
  • Coccus ficusFabricius, 1787
  • Chermes laccaRoxburgh, 1791
  • Carteria laccaSignoret, 1874
  • Lakshadia indicaMahdihassan, 1923
  • Tachardia laccaChamberlin, 1923
  • Laccifer laccaCockerell, 1924
Lac tubes created by Kerria lacca Kerria-lacca.jpg
Lac tubes created by Kerria lacca

Kerria lacca is a species of insect in the family Kerriidae, the lac insects. These are in the superfamily Coccoidea, the scale insects. This species is perhaps the most commercially important lac insect, being a main source of lac, a resin which can be refined into shellac and other products. [1] This insect is native to Asia. [2]

Contents

Biology

Kerria lacca produces a dye and a wax as natural secretions. The life cycle of this scale insect proceeds with the first instar of the larval stages, which are known as "crawlers". Larvae in this stage crawl along the branches of their host plants and feed on the phloem. As they pierce the branches to reach the phloem, they cover the holes with their wax secretions. [3]

More than 400 host plants have been noted. [2] Three are used for the majority of commercial cultivation of the insect: palas (Butea monosperma), kusum (Schleichera oleosa), and ber (Ziziphus mauritiana). [3]

There are at least two strains of the insect that are characterized by aspects of their life cycle and their host plant preferences. [4]

The species was described and given the binomial name Coccus lacca in 1781 (published formally in 1782) by the Scottish surgeon James Kerr (1737–1782) in Patna. [5] It was then placed a new genus named after Kerr as Kerria in 1884[ citation needed ] by Adolfo Targioni-Tozzetti (who had noted that it did not belong to Coccus even in1868 [6] ). [7]

Natural predators of this species include several parasitoids, such as the parasitoid wasps Tachardiaephagus tachardiae and Coccophagus tschirchii . Predators include the moths Eublemma roseonivia and Holcocera pulverea . These moths can interfere with lac cultivation in India. [8]

These insects, as well as many types of fungal pathogens, form an ecological web that is important to local biodiversity. [4]

Kerria lacca has been reported as a pest insect. It is reared on ber trees (Ziziphus mauritiana), but these trees are also cultivated for fruit, the Indian jujube. K. lacca sometimes invades Indian jujube orchards and degrades the fruit crop. [9]

Economy

Millions of people are engaged in the farming of lac insects. [4] At least half of lac production occurs in India, where about 20,000 metric tons of raw lac are produced annually. It is a versatile product used in a wide array of applications, and demand for it in many industries provides economic resources that filter down to rural tribes. [4] In Vietnam, the introduction of K. lacca cultivation has brought economic recovery to impoverished mountain villages and has helped to revegetate deforested hillsides. [10] [11] Demand, while still strong, is shrinking over time, reducing the economic viability of lac growing. [4]

This species is also one of several similar insects used to produce a strong red dye historically used to color wool and silk. [12] The dye originates in the hemolymph of the insect; the fluid analogous to blood. [4]

While K. lacca is the most commonly cultivated species in many areas, the related K. yunnanensis is the most widely used species in China. [13]

Lac dye

Lac insects showing diverse body colours have been reported, they may show crimson or yellow body colours. Colour difference in lac insect is inherited as a unit character and crimson is dominant to yellow. Wild type insect possesses crimson body colour due to the presence of a complex closely resembling water-soluble polyhydroxy-anthraquinones, collectively called lac dye. Apart from their usage in food and cosmetics, these anthraquinones also exhibit many pharmaceutical properties, including antibiotic, antiviral, antifeedant effect. A recent study has shown that the anthraquinone component of lac dye also possess antineoplastic or anticancer effects. [14]

It is proposed that lac insects employ polyketide pathway catalysed by polyketide synthase to produce laccaic acid D, a common precursor molecule for the biosynthesis of other lac dye constituents. [15]

Lac resin

Lac is the only commercial resin of animal origin and is a natural polymer. It is made up of hydroxy fatty acids, principally aleuritic acid (9,10,16-trihydroxyhexadecanoic acid), and hydroxy sesquiterpenic acids. A recent study proposes the possible biosynthetic pathway for the constituents of lac resin which identifies acetyl-CoA as a common precursor molecule and the role of prenyltransferases in the biosynthesis of sesquiterpenes along with cytochrome P450 enzyme. [16]

Related Research Articles

<span class="mw-page-title-main">Lac (resin)</span> Resinous secretion of lac insects

Lac is the resinous secretion of a number of species of lac insects, of which the most commonly cultivated is Kerria lacca.

<span class="mw-page-title-main">Resin</span> Solid or highly viscous substance

In polymer chemistry and materials science, a resin is a solid or highly viscous substance of plant or synthetic origin that is typically convertible into polymers. Resins are usually mixtures of organic compounds. This article focuses mainly on naturally occurring resins.

<span class="mw-page-title-main">Hemiptera</span> Order of insects often called true bugs

Hemiptera is an order of insects, commonly called true bugs, comprising over 80,000 species within groups such as the cicadas, aphids, planthoppers, leafhoppers, assassin bugs, bed bugs, and shield bugs. They range in size from 1 mm (0.04 in) to around 15 cm (6 in), and share a common arrangement of piercing-sucking mouthparts. The name "true bugs" is often limited to the suborder Heteroptera.

<span class="mw-page-title-main">Jujube</span> Species of plant with edible fruit

Jujube, sometimes jujuba, known by the scientific name Ziziphus jujuba and also called red date, Chinese date, and Chinese jujube, is a species in the genus Ziziphus in the buckthorn family Rhamnaceae. It is often confused with the closely related Indian Jujube, Z. mauritiana. The Chinese jujube enjoys a diverse range of climates from temperate to tropical, whereas the Indian jujube is restricted to warmer subtropical and tropical climates.

A lake pigment is a pigment made by precipitating a dye with an inert binder, or mordant, usually a metallic salt. Unlike vermilion, ultramarine, and other pigments made from ground minerals, lake pigments are organic. Manufacturers and suppliers to artists and industry frequently omit the lake designation in the name. Many lake pigments are fugitive because the dyes involved are not lightfast. Red lakes were particularly important in Renaissance and Baroque paintings; they were often used as translucent glazes to portray the colors of rich fabrics and draperies.

<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.

<span class="mw-page-title-main">Carminic acid</span> Chemical compound

Carminic acid (C22H20O13) is a red glucosidal hydroxyanthrapurin that occurs naturally in some scale insects, such as the cochineal, Armenian cochineal, and Polish cochineal. The insects produce the acid as a deterrent to predators. An aluminum salt of carminic acid is the coloring agent in carmine, a pigment. Natives of Peru had been producing cochineal dyes for textiles since at least 700 CE. Synonyms are C.I. 75470 and C.I. Natural Red 4.

<span class="mw-page-title-main">Anthraquinones</span>

For the parent molecule 9,10-anthraquinone, see anthraquinone

Paratachardina pseudolobata, the lobate lac scale, is a polyphagous and pestiferous lac scale insect, which damages trees and woody shrubs in Cuba, Florida, the Bahamas and the Australian territory of Christmas Island. It was mistakenly identified as Paratachardina lobata (Chamberlin), an insect native to India and Sri Lanka, but was in 2007 recognized and named as a distinct species based on material from Florida; its native distribution is as yet unknown. The new lac insect was described based on all stages of the female, during the revision of the genus Paratachardina, wherein all its known species were redescribed.

<span class="mw-page-title-main">Kerriidae</span> Family of true bugs

Kerriidae is a family of scale insects, commonly known as lac insects or lac scales. Some members of the genera Metatachardia, Tachardiella, Austrotacharidia, Afrotachardina, Tachardina, and Kerria are raised for commercial purposes, though the most commonly cultivated species is Kerria lacca. These insects secrete a waxy resin that is harvested and converted commercially into lac and shellac, used in various dyes, cosmetics, food glazes, wood finishing varnishes and polishes.

<i>Coccus</i> (insect) Genus of true bugs

Coccus is a genus of scale insects in the family Coccidae. Several species, such as Coccus viridis, a major pest of coffee, are major agricultural pests. The type species is Coccus hesperidumLinnaeus.

<i>Schleichera</i> Genus of trees

Schleichera is a monotypic genus of plants in the soapberry family, Sapindaceae. There is only one species, Schleichera oleosa, a tree that occurs in the Indian Subcontinent and Southeast Asia.

<i>Antheraea paphia</i> Species of moth

Antheraea paphia, known as the South India small tussore, the tasar silkworm and vanya silkworm is a species of moth of the family Saturniidae found in India and Sri Lanka. The bulk of the literature on this species uses a junior synonym, Antheraea mylitta, rather than the correct name, A. paphia. It is one of a number of tasar silkworms, species that produce Tussar silk, a kind of wild silk that is made from the products of saturniid silkworms instead of the domesticated silkworm.

<i>Dactylopius</i> Genus of insects

Dactylopius is a genus of insect in the superfamily Coccoidea, the scale insects. It is the only genus in the family Dactylopiidae. These insects are known commonly as cochineals, a name that also specifically refers to the best-known species, the cochineal. The cochineal is an insect of economic and historical importance as a main source of the red dye carmine. It has reportedly been used for this purpose in the Americas since the 10th century. Genus Dactylopius is also important because several species have been used as agents of biological pest control, and because several are known as invasive species.

<span class="mw-page-title-main">Indian Institute of Natural Resins and Gums</span>

The Indian Institute of Natural Resins and Gums, formerly known as the Indian Lac Research Institute, is an autonomous institute, established under the umbrella of Indian Council of Agricultural Research (ICAR) by the Ministry of Agriculture, Government of India for advanced research on lac and other natural resins and gums. The Institute is located at Namkum, Ranchi in Jharkhand, India.

<span class="mw-page-title-main">Armenian cochineal</span> Species of true bug

The Armenian cochineal, also known as the Ararat cochineal or Ararat scale, is a scale insect indigenous to the Ararat plain and Aras (Araks) River valley in the Armenian Highlands, including East of Turkey. It was formerly used to produce an eponymous crimson carmine dyestuff known in Armenia as vordan karmir and historically in Persia as kirmiz. The species is critically endangered within Armenia.

<i>Physokermes</i> Genus of true bugs

Physokermes are a genus of scale insects known as the bud scales. They are restricted to the Holarctic, though Physokermes hemicryphus has been introduced to North America. Some species are plant pests.

Paratachardina lobata, the lobate lac scale, is a polyphagous lac scale insect, which damages trees and woody shrubs. It is native to India and Sri Lanka, but has been introduced to Florida where it is regarded as an invasive species.

Kerria yunnanensis is a species of scale insect found in China. Eleven different species of ants are known to feed on the honeydew K. yunnanensis produces.

<span class="mw-page-title-main">Laccaic acid</span> Chemical compound

Laccaic acids or laccainic acids are a group of five anthraquinone derivatives, designated A through E, which are components of the red shellac obtained from the insect Kerria lacca, similar to carminic acid and kermesic acid. This article focuses primarily on laccaic acid A (LCA).

References

  1. Raman, A. (2014). Discovery of Kerria lacca (Insecta: Hemiptera: Coccoidea), the lac insect, in India in the late 18th century. Current Science 106(6), 886.
  2. 1 2 Ahmad, A., et al. (2012). Mouthparts and stylet penetration of the lac insect Kerria lacca (Kerr) (Hemiptera: Tachardiidae). Arthropod Structure & Development 41, 435-441.
  3. 1 2 Mohanta, J., Dey, D. G., and Mohanty, N. (2014). Studies on lac insect (Kerria lacca) for conservation of biodiversity in Similipal Biosphere Reserve, Odisha, India. Archived 2016-03-02 at the Wayback Machine Journal of Entomology and Zoology Studies 2(1) 1-5.
  4. 1 2 3 4 5 6 Sharma, K. K., Jaiswal, A. K., and Kumar, K. K. (2006). Role of lac culture in biodiversity conservation: issues at stake and conservation strategy. Archived 2017-03-05 at the Wayback Machine Current Science 91(7) 894-98.
  5. Kerr, James (1781-12-31). "XXIV. Natural history of the insect which produces the Gum Lacca". Philosophical Transactions of the Royal Society of London. 71: 374–382. doi:10.1098/rstl.1781.0048. ISSN   0261-0523.
  6. Targioni Tozzetti, Adolfo (1868). "Introduzione alla seconda Memoria per gli studi sulle Cocciniglie, e Catalogo dei generi e delle specie della famiglia dei Coccidi, rivista e ordinata da Adolfo Targioni-Tozzetti". Atti della Società Italiana di Scienze Naturali. 11: 694–738.
  7. Trengove, Leonard (1970). "Chemistry at the royal society of London in the eighteenth century—IV. Dyes". Annals of Science. 26 (4): 331–353. doi:10.1080/00033797000203567. ISSN   0003-3790.
  8. Pemberton, R. W., et al. (2006). Host acceptance trials of Kerria lacca (Kerriidae) parasitoids from northern Thailand on the pest lobate lac scale (Paratachardina lobata) (Kerriidae). Florida Entomologist 89(3), 336-339.
  9. Lakra, R. K. and Kher, S. (1990). Effect of incidence of lac insect, Kerria lacca (Kerr) on bearing and quality of jujube fruits in Haryana. Indian Journal of Plant Protection 18(1), 125-127.
  10. New rural development in Huoi Leng commune, Điện Biên Province. Vov World Service. December 5, 2013.
  11. More than 900 ethnic minority households in Mường Lát District escape from poverty. Archived 2017-07-27 at the Wayback Machine Press Release: United Nations Development Programme, Vietnam. June 27, 1014.
  12. Wouters, J. and Verhecken, A. (1989). The coccid insect dyes: hplc and computerized diode-array analysis of dyed yarns. Studies in Conservation 34(4), 189-200.
  13. Chen, Y., et al. (2014). Multiple ant species tending lac insect Kerria yunnanensis (Hemiptera: Kerriidae) provide asymmetric protection against parasitoids. PLoS ONE 9(6), e98975.
  14. Shamim, G.; et al. (2016). "Lac dye as a potential anti-neoplastic agent". Journal of Cancer Research and Therapeutics. 12 (2): 1033–1035. doi: 10.4103/0973-1482.155975 . PMID   27461693.
  15. Shamim, G.; et al. (2016). "Genes Involved in the Biosynthesis of Lac Dye Constituents in Indian Lac Insect, Kerria lacca (Kerr)". Journal of the Entomological Research Society. 18 (1): 07–17.
  16. Shamim, G.; et al. (2014). "Identification of genes related to resin biosynthesis in the Indian lac insect, Kerria lacca (Hemiptera: Tachardiidae)". International Journal of Tropical Insect Science. 34 (2): 149–155. doi:10.1017/S1742758414000277. S2CID   84673193.
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