Description
''Calliphora stygia'' has a brassy abdomen with a dense, tessellate golden dusting. The underside of the body and the femora and tibiae of the legs are yellow. Males areForensics
Due to being a prominent colonizer ''C. stygia'' has an important role in Australian forensics. When a body has been dead for more than 72 hours, prolong enough that temperature cannot give an accurate time of death, insects can be used instead. Larval secession can aid in determining the time of death through aging the insects that are removed from the body; however insect age can be altered by temperature, humidity, larval density in and on the corpse, and the location on the body after death. Also the presence of drugs can affect the succession rate and relative age on any insects feeding on the flesh of the corpse. The study of drug effects on insects is known as entomotoxicology, and research in this field has been lacking, especially in terms of ''C. stygia''. Some important findings have been made recently, one in particular is the effect of morphine on ''C. stygia'' development, or lack thereof. It s unclear as to why exactly ''C. stygia'' is not affected by the drug though it has been consumed by the from, which came from the fly's food source, when most other insects show severe impairments in larval development. What is known is the malpighian tubules of ''C. stygia'' are connected with reduced levels of morphine in the fly's systems. When morphine levels are high in the fly's food source there are more secretions from the larva. Methamphetamine, on the other hand, does affect the ''C. stygia'' larval development. Larvae that had been raised on meth-infused meat developed faster and ended up larger in size, and weight. The increase in body size poses a problem for determining relative ages of larvae since most use body size as an indication of age. Time estimates can be up to 78 hours off. The other difficulty for establishing time of death is determining what species of insect is coming off a cadaver. Since methamphetamines are toxic to ''C. stygia'' most flies die in the pupal stage, it is difficult to make proper identifications.Life history
''Calliphora stygia'' has three life stages; 3 larval instars, pupa, and adult. In the larval stage, it is very difficult to determine the species; most entomologists wait until the adult emerges to identify specimens. Larvae feed on the soft tissues of a corpse or host that they were placed on by their parent. Due to their main source of food, ''C. stygia'' bioaccumulate toxins and heavy metals that may be present in the flesh. Insects can hold these toxins for months after the tissues disappear. These flies are also affected by weather conditions. The third instar is extremely tolerant to wet conditions, but perish at temperatures greater than 35 degree Celsius. Pupation, on average, take around 32 hours, but can take up to 48. This state can last as long as 3 weeks in wet, dark, and highly oxygenated conditions. Dry conditions tend to increase mortality rates. Emergence typically happens at dawn when environmental conditions are more humid, and more favorable to young flies. ''C. stygia'' don't appear to have a seasonal dependence for emergence; however they do have light and temperature cues. These flies are capable of emerging in the absence of those cues, and this is thought to be done with circadian rhythms that are set during the last instar before pupation. ''C. stygia''s circadian rhythm tends to be 23 hours on average. Adults tend to produce equal proportions of male and female offspring, and are capable of laying eggs all year round. Life spans of ''C. stygia'' adults range on average from 15–91 days depending on the temperature in their early adult life, as well as their levels the fat concentration received from their diets. Low temperatures and low fat diets appear to prolong their adult life span. As they age they decrease their caloric intake. Female flies on high fat diets lived longer than males on the same food, and the reverse happened with low fat diets. Diet does not appear to affect ''C. stygia'' egg production, though warmer temperature will delay egg laying. ''Calliphora stygia'' are capable of detecting the odors that occur immediately after death. Their chemosensory sensilla, which have their olfactory neurons are primarily located at the tips of their antennae, as well as on their maxillary palps, aid in their hunt for food sources. They have three part to their antennal receptors: odorant receptors, gustatory receptors, and ionotropic receptors. There does not appear to be any difference in the olfactory capabilities of ''C. stygia'' between sexes, but it is believed the male and females flies perceive scents differently, especially pheromones. This area needs more insight from future research.Genetics
The DNA and RNA sequences for olfaction receptors in ''C. stygia'' are more similar to those found in the Lepidopteran order than other Dipterans. ''Calliphora stygia'' is believed to have recently speciated less than one million years ago, making it a relatively new species. The COI and the COII genes, which have been used to determine dipteran relatedness, are so similar that it is difficult to distinguish ''C. stygia'' from ''C. albifrontalis''; ''C. stygia'' sister species.Effects
''Calliphora stygia'' affects living animals, particularly in New Zealand agriculture. The fly can cause theReferences
External links
* * {{Taxonbar, from=Q5022714 Calliphoridae Insects of Australia Diptera of New Zealand Insects described in 1781