Forensic Entomology Insect Life Cycles & Development
Basic Insect Development Metamorphosis = change in form over time Ametabolous without metamorphosis Hemimetabolous incomplete metamorphosis Holometabolous complete metamorphosis
Ametabolous No larvae stage go from egg to smaller looking adult (juvenile), then adult E.g. Silverfish
Hemimetabolous Egg Nymph Adult E.g. Milkweed Bug
Holometabolous Egg Larvae Pupa Adult E.g. Butterflies, Blow Flies, and Beetles
Terminology: Oviposition egg laying Eclosion egg hatching Molting shedding outermost skin Instar period between molts Prepupa inactive stage just before pupa Pupation the process of becoming a pupa Puparium/Puparia outer skin forming pupa casing Emergence when the adult leaves the puparium
Oviposition Eclosion 1 st molt 2 nd molt Emergence
Temperature, Temperature, Temperature! Insects have no internal mechanism for regulating body temperature Ways animals regulate body temperature: Endothermic generates own body heat (humans) Ectothermic exchanges heat with surroundings Poikilothermic body heat varies with surroundings **Insects**
Physiological Time The rate of growth and development of insects is proportional to ambient temperature There is a min. and max. for each stage of development
Typical Blowfly Development constant temp of 70 C Oviposition Eclosion 23h 27h (50) 1 st molt 22h (72) 2 nd molt 130h (202) 143h (345) Emergence
Typical Blowfly Development constant temp of 70 C Oviposition Eclosion 23h 27h (50) 1 st molt 22h (72) 2 nd molt 130h (202) 143h (345) Emergence
What does this mean????? From egg to adult takes about 2 weeks at 70 C
Forensic Entomology Decomposition and Insect Succession
Insect Succession on Pig Carcasses 1960s Jerry Payne identified more than 500 species that colonized decomposing pig carcasses We will focus on the most COMMON and PREDICTABLE!
Don t Forget Those That Colonize the Living! Insects that may be present prior to death, may remain on the corpse through the fresh stages of decomposition E.g. The rate of algor mortis (body temp lower) will influence the presence or absence of body lice
Fresh Stages: 1-2 days Insects may appear minutes after death to feed, mate and reproduce They are attracted to odors associated with decay and insect activity Common Insects: Blow flies, Flesh flies, and some predators
Fresh Stages: 1-2 Days In the absence of wounds, blow flies colonize the mucus membranes (eyes, nose, mouth)
Bloat Stages: 2-6 Days Adult blow flies and flesh flies may still be arriving, but as the body odors change, the flies will seek fresh remains Early bloat early instars will be present Late bloat late instars will be present
Active Decay Stages: 5-11 Days Adult blow flies leave Maggot mass is present Some maggots beginning to wander and pupate Common insects arriving: secondary flies, predators, beetles
Post Decay Stages: 10-25 Days Blow flies complete life-cycle and do not return As body starts to dry out more beetles arrive Mature beetle larvae start to appear around 2 week mark 80% biomass loss due to maggot feeding
Post Decay Stages: 10-25 Days Secondary flies continue to arrive E.g. adult Cheese skippers (Piophilidae) Some larvae may be present How do these flies know when to arrive? Butyric acid (what make feet stink and some cheeses smell) is a byproduct of fermenting bodies
Dry, skeletal Remains: 25+ Days Some predators Early beetles are pupating Secondary flies and their larvae Dermestid beetles colonize the dry remains
How Can Insect Succession Estimate PMI? How it can work (scenario): 1. 15 species are collected from corpse 2. All are identified and stage of development recorded 3. Stage of decomposition, location, and temperatures noted 4. This assemblage is compared to an occurance matrix 5. PMI is estimated based on where the assemblage falls *Basically you compare your evidence data with a reference data table
Groups of 4 Each person read one section of the paper Intro Methods Results Discussion That person should report to the group what that section was about Answer questions together on 1 sheet to turn in
Gruner et al. 2007 article questions 1. What is succession? 2. Besides PMI, what other factors can be concluded based on entomological evidence? 3. Why are there not very many studies on insect succession? 4. What is the purpose of this study? 5. How were the pig carcasses protected from predators during the study? 6. Why were temperatures near the surface recorded? 7. How many fly species were collected during the 16 trials? 8. During most of the study (except for the coldest days) how long did it take for the first flies to appear? 9. Compare Figure 2 with Figure 3 (Spring vs. Summer), why do you think the abundance of each type of species changes from Spring to Summer? 10. Refer to Figure 5 (Winter), why do you think there is such a low abundance of C. rufifaces compared with other seasons? (Hint: think about rate of decomposition) 11. How would the heavy rain in the Summer months impact the study? 12. What were the results in terms of aerial samples versus larval samples? Why is this important?