Hyblaea puera

Hyblaea puera
Scientific classification
Kingdom: Animalia
Phylum: Arthropoda
Class: Insecta
Order: Lepidoptera
Family: Hyblaeidae
Genus: Hyblaea
Species: H. puera
Binomial name
Hyblaea puera
(Cramer, 1777)
Synonyms
  • Noctua puera Cramer, 1777
  • Noctua saga Fabricius, 1787
  • Noctua unxia Hübner, 1813
  • Heliothis apricans Boisduval, 1833
  • Nabara limacodella Walker, 1866
  • Aenigma mirificum Strecker, 1876
  • Hyblaea puera nigra Stebbing, 1903

Hyblaea puera, commonly known as the teak defoliator, is a moth native to southeast Asia. The species has also been recently reported to be present in Central America and Africa. The caterpillar feeds on teak and other species of trees common in the region.[1]

Hyblaea puera in Kerala. Here we can partially see the black and orange-yellow hind wings under the grayish-brown fore-wings.

Distribution and habitat

Hyblaea puera occurs in forests across southern Asia from India and Bangladesh, through Thailand and the rest of Southeast Asia to New Guinea, and north Queensland in Australia. Recent reports place it in Guadeloupe, and Surinam.[1]

Life cycle

The adult moths are comparatively small, with a wing span of 3 – 4 cm, and have a characteristic resting posture that conceals the black and orange-yellow hind wings under the grayish-brown fore-wings. Males and females emerge more or less simultaneously and mating takes place within a couple of days. Eggs are laid on tender new leaves, placed singly near the veins, and usually on the undersurface. They are oval, flat, and white and measure about 1 mm in length. About 500 eggs are laid per female with a recorded maximum of 1000. Larvae hatch in about 2 days. There are five larval instars. The first and second instars mainly feed on the leaf surface. Starting with the third instar, the larva cuts out a leaf flap, usually at the edge of the leaf, folds it over, fastens it with silk, and feeds from within. The entire leaf, excluding the major veins of tender leaves, is eaten, but more veins are left in older leaves. Under the optimal conditions, the larval period lasts 10–12 days. The full grown larva measures about 3.5 – 4.5 cm, and there is considerable color variation in the fourth and fifth instars; the body may be either wholly black or dark grayish to black, with longitudinal colored bands may include a dorsal orange or ocherous band and lateral white lines. A recent study revealed the existence of density-dependent colour polyphenism and resistance build-up against invading baculovirus by H. puera larvae.[2] The mature larvae descend to the ground on silken threads and pupate under a thin layer of leaf litter or soil, within loosely built cocoons made of dry or decayed leaves, or soil particles held together with silk. Pupation may some times occur within green leaves of other plants in the under growth, folded or juxtaposed with silk. On Avicennia plants the caterpillars pupate inside the cases made out of the host plant leaves itself. It is probably an adaptive trait acquired by the species for surviving in the hostile mangrove environment, since the pupation is not possible in the muddy and inundated soils of mangroves. The average pupal period lasts six to eight days under optimal conditions. There is no evidence of hibernation or aestivation of pupa.

Temporal and Spatial dynamics

The teak defoliator is present the year round in teak plantations, but in varying population densities. During the period of natural defoliation of teak (November, December, January), the pest density is very low (endemic). Every year high intensity outbreaks of teak defoliator occurs immediately after the pre monsoon showers in late February or early march in Kerala. These centers are highly localized outbreaks which represents the transitional stage between very sparse endemic population and high density outbreak population. These centers will be 5,000 to 15,000 square metres in area and are characterized by heavy tree top infestation. The months of April, may, June and July witness a series of large outbreaks. During late July or September, the population declines to the endemic level. In some years, there will be fresh outbreaks during the month of October. From then on until the next year, the population remains at the endemic level.

Natural Control

Parasitoids

The main parasitoids attacking teak defoliator include the tachinid Palexorisa solennis, a eulophid Sympiesis hyblaeae, the chalicid Brachymeria lasus and the three ichneumonids, Eriborus gardneri, Stictopisthus sp.,and Echthromorpha agrestoria notulatoria. B. lasus is a pupal parasitoid and all others are larval parasitoids. The overall parasitism by all species is about 9%.

Predators

Predatory insects including wasps, spiders, birds and Bonette macaque are known to comprise the predator complex of H. puera. Forty eight species of birds have been recorded as feeding on teak defoliator larvae during the large scale outbreaks.

Pathogens

The bacteria Enterobacter aerogenes, Bacillus thuringiensis, Pseudomonas aeruginosa and Serratia marcescens are identified as causing mortality to the teak defoliator. A synnematous fungus of the genus Hirsutella is found to be pathogenic to this pest. An absolutely specific virus with refractile polyhedral inclusion bodies, staining blue in Giemsa and thick blue in Buffalo black, named as Hyblaea puera Nucleopolyhedrovirus (HpNPV) is found to be very effective in the biological control of this pest.

Hyblaea puera Nucleopolyhedrovirus (HpNPV)

Large scale deaths of teak defoliator larvae characterized by cessation of feeding, flaccidity and subsequent liquefaction of body tissues has been reported by Stebbing as early as 1903. During 1985, an investigation on microbial pathogens of H. puera was undertaken in the plantations of Nilambur Forest Divisions of Kerala, India by KFRI detected several dead insects with the characteristic symptoms as observed by Stebbing. Microscopic observation of tissues revealed the presence of refractile polyhedral inclusions bodies, which stained blue in Giemsa, and measuring 0.9 – 2.4 micrometers in diameter in the scanning Electron Micrograph taken by Jean Adams at USDA, confirmed its identity as NPV. The NPVs come under the family of baculoviridae and its virions are enveloped rod shaped nucleocapsids containing circular, supercoiled, double stranded DNA.

Mode of action

Mode of in vivo NPV infection

The NPV which enters the insect gut, lyses in the alkaline environment of the midgut, releasing virions. Virions invade the columnar cells of midgut epithelium and integrate DNA into the nucleus of midgut cells. Later the viral DNA takes over control of the cellular machinery to reproduce itself. The ECVs which are the progenies released into the haemocoel from the midgut cells are more infectious than the PIBs and mediate disease spread within the insect body. A rapid spread of infection in the insect body leads immediately to cessation of feeding and later on, to death. Even in the fully mature larvae, HpNPV can cause a kill in 60–72 hours, making it one of the fastest acting insect viruses.

The discovery of virus disease on H. puera was a major break through in the teak defoliator management research.

As food

The teak moth, in Indonesia known as Entung Jati, is commonly eaten in the regions where they thrive. They are usually caught for consumption at the cocoon stage, at which point they are easily collected from the ground. This serves as an essential, readily accessible source of protein for the villagers, commonly farmers, around these areas.

References

  1. 1 2 Herbison-Evans, Don (2007-09-06). "Hyblaea puera". University of Technology, Sydney. Archived from the original on 2008-07-24. Retrieved 2008-03-12.
  2. Bindu T. N., Balakrishnan,P., Sudheendrakumar, V.V., and Sajeev T.V. (2012). Density-dependant polyphenism and baculovirus resistance in teack defoliator, Hyblaea puera (Cramer). Ecological Entomology 37, 536-540. DOI: 10.1111/j.1365-2311.2012.01389.x
This article is issued from Wikipedia - version of the Monday, July 20, 2015. The text is available under the Creative Commons Attribution/Share Alike but additional terms may apply for the media files.