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Antipredator Behavior “How to avoid being eaten”. avoid being seen advertise unprofitability be vigilant if caught, go for broke. How not to be seen Method 1a: Pick a background with similar color or pattern (minimize contrast ). Camouflage in moths
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Antipredator Behavior “How to avoid being eaten” avoid being seen advertise unprofitability be vigilant if caught, go for broke
How not to be seen Method 1a: Pick a background with similar color or pattern (minimize contrast )
Camouflage in moths How can we experimentally determine that it works? Pin moths to tree and see which get eaten…
Crab Spiders Crab spiders mimic flowers to both escape detection by predators and to attract prey
How not to be seen Method 1b: Mimic some aspect of the environment (be cryptic)
How not to be seen Method 2: Use the environment to manipulate your pattern/color to match environment Caddisfly
Artificial camouflage Decorator crabs Crabs put algae on their backs, which increases their survival In areas with Dictyota algae, use this species for decoration, but rarely food
Artificial camouflage Decorator crabs Crabs put algae on their backs, which increases their survival In areas with Dictyota algae, use this species for decoration, but rarely food
Decorator crabs, cont. Did this preference arise by natural selection? All crabs in areas with Dictyota show preference. Crabs with Dictyota have survival advantage. Algae produces chemicals that are distasteful to fish!
How not to be seen Method 3: Manipulate your pattern/color directly to match environment.
Rapid adaptive camouflage in tropical flounders V. S. Ramachandran and colleagues Nature. 1996 Flounders (flat fish) can mimic backgrounds within 2-8 seconds!
Advertise unprofitability An alternative to hiding is to be dangerous and let predators know. aposematic (warning) coloration
Produce toxins – Monarch butterfly Actually subverts plant’s anti-herbivore chemical defenses to it’s own anti-predator defenses!
Why be toxic and advertise if predators have to eat you to learn to avoid you? No group selection needed: Not always killed by attack Predators learn very quickly
Other producers of nasty chemicals: Skunk Bombardier beetle Eyelash viper
Mullerian Mimicry: 2 or more distasteful or harmful organisms resemble each other Monarch butterfly Viceroy butterfly
High toxicity correlated with diet specialization (ants). Santos et al. 2003 PNAS
Ants appear to be the source of pumiliotoxin alkaloids. Saporito et al. 2004. PNAS
Batesian Mimicry: defenseless species (mimic) is protected from predation by its resemblance to a species that is dangerous (toxic). fly (bee mimic) bumble bee
Texas coral snake Kingsnake
Eastern Hognose snake Western Hognose snake
Edible prey warning behavior: I see you, and I can run faster than you, so do both of us a favor and don’t even bother trying! Stotting behavior in ungulates
Why do ungulates stot? H1: Advertise unprofitability H2: Alarm signal to offspring/others H3: Social cohesion H4: Confusion effect
Be vigilant – don’t get eaten Many prey constantly watching for predators, even while sleeping Vigilance behavior shapes morphology – eyes on side of head, antlers… Effective level of vigilance increases in groups (another lecture)
American Woodcock “flatfish”
Antlers: grow from pedicels (bony supporting structures), males only, shed annually (family Cervidae) Horns: composed of a bony core covered with a sheath of keratin, never branched (unlike antlers), occur in males and often females (family Bovidae)
What to do if you’re caught? Anything possible! Geckos can drop their tails when threatened by a predator, which is not as bad as death!
Death (?) screams Why do some prey scream loudly after being caught? H1: It’s a response to pain receptors being activated (proximate!) H2: It warns conspecifics (but it says the predator is currently busy!) H3: It elicits parental help
H4: Screaming attracts other predators Pike & fathead minnows- When captured, minnows release chemical that attracts other predators Presence of two pike and one minnow increased the time to swallow the minnow, and a few times the minnow escaped!
Stephen Yanoviak, Robert Dudley, and Michael Kaspari Direct aerial descent in canopy ants. Nature. 2005