Chemical Mimicry Submitted by: Sean Brady Sean Brady Matthew Forte Matthew Forte Michael Mourouzis Michael Mourouzis Lenora Overstreet Lenora Overstreet Dana Wilson Dana Wilson

Chemical Mimicry The use of chemical signals may be the dominant form of communication in the insect world. The use of chemical signals may be the dominant form of communication in the insect world. Many insects have evolved highly complex and specific chemical signals with which to communicate within their own species. Many insects have evolved highly complex and specific chemical signals with which to communicate within their own species. It is not surprising that other organisms have evolved the ability to exploit these communication systems in order to fulfill their own needs. It is not surprising that other organisms have evolved the ability to exploit these communication systems in order to fulfill their own needs.

Chemical Mimicry One method of exploitation involves mimicking the chemical signals used by insects. One method of exploitation involves mimicking the chemical signals used by insects. In a system of chemical mimicry, a single compound or a mixture of compounds is produced by an organism to elicit a specific behavioral response by an organism of a different species. In a system of chemical mimicry, a single compound or a mixture of compounds is produced by an organism to elicit a specific behavioral response by an organism of a different species.

Chemical Mimicry Chemical mimicry, which is used by vertebrates, invertebrates, plants and fungi, can be divided into unique categories based on the outcome of the relationship. Chemical mimicry, which is used by vertebrates, invertebrates, plants and fungi, can be divided into unique categories based on the outcome of the relationship. These different classes include aggressive mimicry, reproductive mimicry, dispersal mimicry, group mimicry, and predator mimicry. These different classes include aggressive mimicry, reproductive mimicry, dispersal mimicry, group mimicry, and predator mimicry.

Chemical Mimicry One of the most intriguing systems is the use of chemical mimicry by plants in order to attract insect pollinators. One of the most intriguing systems is the use of chemical mimicry by plants in order to attract insect pollinators. Most pollination systems have evolved as mutualistic relationships in which both organisms are rewarded: Most pollination systems have evolved as mutualistic relationships in which both organisms are rewarded:

Chemical Mimicry the insect obtaining pollen, nectar, waxes or scents from the flower and the plant achieving reproduction through the transfer of its pollen by the insect. the insect obtaining pollen, nectar, waxes or scents from the flower and the plant achieving reproduction through the transfer of its pollen by the insect.

Chemical Mimicry Chemical mimicry has evolved in insect/flower systems where no reward is received by the insect. The plant, which is the sole benefactor, lures the insect to its flower by producing specific scents. These odors may mimic insect pheromones, food sources, brood sites or prey odors. Chemical mimicry has evolved in insect/flower systems where no reward is received by the insect. The plant, which is the sole benefactor, lures the insect to its flower by producing specific scents. These odors may mimic insect pheromones, food sources, brood sites or prey odors.

Chemical Mimicry In addition to this, numerous examples of pheromone and brood-site mimicry have been observed. The similarities in compounds produced by flowers and their insect pollinators provides some possible explanations for differences that have been found between insect and plant-produced compounds. It is also true that possible evolutionary patterns for various classes of chemical mimicry exist. In addition to this, numerous examples of pheromone and brood-site mimicry have been observed. The similarities in compounds produced by flowers and their insect pollinators provides some possible explanations for differences that have been found between insect and plant-produced compounds. It is also true that possible evolutionary patterns for various classes of chemical mimicry exist.

Chemical Mimicry It is true that some flowers mimic the odors of dung and/or carrion to attract insects (mostly beetles and flies) for pollination. It is true that some flowers mimic the odors of dung and/or carrion to attract insects (mostly beetles and flies) for pollination. These systems are widespread in the plant kingdom and have been extensively reported on. This type of relationship is found in ten plant families (Annonaceae, Araceae, Aristolochiaceae, Asclepiadaceae, Burmanniaceae, Hydnoraceae, Orchidaceae, Rafflesiaceae, Sterculiaceae, and Taccaceae) These systems are widespread in the plant kingdom and have been extensively reported on. This type of relationship is found in ten plant families (Annonaceae, Araceae, Aristolochiaceae, Asclepiadaceae, Burmanniaceae, Hydnoraceae, Orchidaceae, Rafflesiaceae, Sterculiaceae, and Taccaceae)

Chemical Mimicry In conclusion, many plants and animals use repellent chemicals to deter predation. In conclusion, many plants and animals use repellent chemicals to deter predation. Millipedes secrete hydrocyanic acid when disturbed. Millipedes secrete hydrocyanic acid when disturbed. Some beetles squirt potential predators with such mixtures as 85% acetic acid or 40% formic acid. Some beetles squirt potential predators with such mixtures as 85% acetic acid or 40% formic acid. The discharge of the skunk is another familiar example. The discharge of the skunk is another familiar example. But what if you have a powerful defensive weapon but no potential predator notices until it has launched an attack? But what if you have a powerful defensive weapon but no potential predator notices until it has launched an attack?

Examples Millipedes of the family Glomeridae, for example, secrete a bitter substance (a quinazoline) that repels birds; Millipedes of the family Glomeridae, for example, secrete a bitter substance (a quinazoline) that repels birds; Millipedes

Millipedes similar substances, differing only slightly in molecular structure, are found in palms. similar substances, differing only slightly in molecular structure, are found in palms. molecular structure molecular structure

Ants Ants use specific mixtures of cuticular hydrocarbons (CHCs) as recognition labels, but this simple mechanism is frequently circumvented by nest parasites that engage in 'chemical mimicry' of their host ants by producing or acquiring a critical suite of these CHCs. Ants use specific mixtures of cuticular hydrocarbons (CHCs) as recognition labels, but this simple mechanism is frequently circumvented by nest parasites that engage in 'chemical mimicry' of their host ants by producing or acquiring a critical suite of these CHCs.

Ants Ants usually possess an elaborate nestmate recognition system, which is based on cuticular hydrocarbons and allows them to distinguish nestmates from non-nestmates through quantitative or qualitative differences in the hydrocarbon composition. Ants usually possess an elaborate nestmate recognition system, which is based on cuticular hydrocarbons and allows them to distinguish nestmates from non-nestmates through quantitative or qualitative differences in the hydrocarbon composition.

Ants Hence, living in a parabiotic association probably necessitates changes of the nestmate recognition system in both species, since heterospecific ants have to be accepted as nestmates. Hence, living in a parabiotic association probably necessitates changes of the nestmate recognition system in both species, since heterospecific ants have to be accepted as nestmates.

Chemical Mimicry So, let’s think…. So, let’s think…. Recall all that we have learned about the different types of mimicry presented in this chapter….. Recall all that we have learned about the different types of mimicry presented in this chapter….. Describe the type of mimicry that you feel would best analyze this situation…. Describe the type of mimicry that you feel would best analyze this situation…. Put this in your notes and ask questions if you need to because this will be important on your test….Good Luck!!!! Put this in your notes and ask questions if you need to because this will be important on your test….Good Luck!!!!