Carnivorous Plants

1. Carnivorous Plants

2. Carnivorous Plants Why be carnivorous?

3. Carnivorous Plants Why be carnivorous? Obtain nutrients in poor environments

4. Carnivorous Plants Why be carnivorous? Obtain nutrients in poor environments Often N

5. Carnivorous Plants Why be carnivorous? Obtain nutrients in poor environments Often N > 600 spp in 6 different orders

6. Carnivorous Plants Why be carnivorous? Obtain nutrients in poor environments Often N > 600 spp in 6 different orders > 12 genera

7. Carnivorous Plants Why be carnivorous? Obtain nutrients in poor environments Often N > 600 spp in 6 different orders > 12 genera Evolved 6 times independently

8. Carnivorous Plants Why be carnivorous? Obtain nutrients in poor environments Often N > 600 spp in 6 different orders > 12 genera Evolved 6 times independently Also have >300 paracarnivorous spp

9. Carnivorous Plants Why be carnivorous? Obtain nutrients in poor environments Often N > 600 spp in 6 different orders > 12 genera Evolved 6 times independently Also have >300 paracarnivorous spp Described by Darwin (1875) Insectivorous Plants

10. Carnivorous Plants Why be carnivorous? Obtain nutrients in poor environments Often N > 600 spp in 5 different orders > 12 genera Evolved 6 times independently Also have >300 paracarnivorous spp Described by Darwin (1875) Insectivorous Plants Adaptation to nutrient

11. Carnivorous Plants Obtain nutrients in poor environments Often N > 600 spp in 5 different orders > 12 genera Evolved 6 times independently Also have >300 paracarnivorous spp Described by Darwin (1875) Insectivorous Plants Adaptation to nutrient\ Only if lots of light & water = bogs

12. Carnivorous Plants Why be carnivorous? Obtain nutrients in poor environments How to become carnivorous?

13. Carnivorous Plants How to become carnivorous? 1: catch prey

14. Carnivorous Plants • How to become carnivorous? • 1: catch prey • mainly insects

15. Carnivorous Plants • How to become carnivorous? • 1: catch prey • mainly insects • 2: digest prey

16. Carnivorous Plants • How to become carnivorous? • 1: catch prey • mainly insects • 2: digest prey • 3: absorb nutrients

17. Carnivorous Plants • How to become carnivorous? • 1: catch prey • mainly insects • 2: digest prey • 3: absorb nutrients • 4: kill competing • Bacteria & fungi

18. Carnivorous Plants • How to become carnivorous? • 1: catch prey • mainly insects • 2: digest prey • 3: absorb nutrients • 4: kill competing • Bacteria & fungi • How to avoid eating • Pollinators?

19. Catching Prey 5 basic trapping mechanisms 1: Pitfall traps (e.g.pitcher plants) trap prey in a rolled leaf.

20. Catching Prey • 5 basic trapping mechanisms • 1: Pitfall traps (e.g.pitcher plants) • trap prey in a rolled leaf. • evolved independently ≥ 4 x

21. Catching Prey • 5 basic trapping mechanisms • 1: Pitfall traps (e.g.pitcher plants) • trap prey in a rolled leaf. • evolved independently ≥ 4 x • recently discovered a 2 liter • Pitcher in Phillipines

22. Catching Prey • 5 basic trapping mechanisms • 1: Pitfall traps (e.g.pitcher plants) • trap prey in a rolled leaf. • evolved independently ≥ 4 x • recently discovered a 2 liter • Pitcher in Phillipines • Similar spp live in Indonesia • http://www.youtube.com/watch?v=NJCaG4tOaAU&feature=related • http://www.youtube.com/watch?v=trWzDlRvv1M&feature=player_embedded#!

23. Catching Prey • 5 basic trapping mechanisms • 1: Pitfall traps (e.g.pitcher plants) • trap prey in a rolled leaf. • evolved independently ≥ 4 x • fuse leaves & alter shape to form • cup trapping rain and prey

24. Catching Prey • 5 basic trapping mechanisms • 1: Pitfall traps (e.g.pitcher plants) • trap prey in a rolled leaf. • evolved independently ≥ 4 x • fuse leaves & alter shape to form • cup trapping rain and prey • rely on bacteria for digestion

25. Catching Prey • fuse leaves & alter shape to form • cup trapping rain and prey • rely on bacteria for digestion • Others protect opening

26. Catching Prey • fuse leaves & alter shape to form • cup trapping rain and prey • rely on bacteria for digestion • Others protect opening • Add enzymes to cup solution

27. Catching Prey • fuse leaves & alter shape to form • cup trapping rain and prey • rely on bacteria for digestion • Others protect opening • Add enzymes to cup solution • Absorb nutrients @ cup surface

28. Catching Prey 5 basic trapping mechanisms 1: Pitfall traps (pitcher plants trap prey in a rolled leaf. 2:Flypaper traps (sundews) use a sticky mucilage http://www.flickr.com/photos/12289718@N00/3685555296

29. Catching Prey 5 basic trapping mechanisms 1: Pitfall traps (pitcher plants) trap prey in a rolled leaf. 2:Flypaper traps (sundews) use a sticky mucilage Evolved independently ≥ 5 x

30. Catching Prey Stalked glands secrete mucilage & enzymes Sessile glands absorb nutrients

31. Catching Prey Stalked glands secrete mucilage & enzymes Sessile glands absorb nutrients Have flowers on long stalks to avoid trapping pollinators

32. Catching Prey 5 basic trapping mechanisms 1: Pitfall traps (pitcher plants) trap prey in a rolled leaf. 2:Flypaper traps (sundews) use a sticky mucilage 3: Bladder traps vacuum in prey: only Utricularia, but 214 spp

33. Catching Prey • 5 basic trapping mechanisms • 1: Pitfall traps (pitcher plants) trap prey in a rolled leaf. • 2:Flypaper traps (sundews) use a sticky mucilage • 3: Bladder traps vacuum in prey: only Utricularia • bladders sealed w hinged doors expel ions

34. 5 basic trapping mechanisms • 1: Pitfall traps (pitcher plants) trap prey in a rolled leaf. • 2:Flypaper traps (sundews) use a sticky mucilage • 3: Bladder traps vacuum in prey: only Utricularia • bladders sealed w hinged doors expel water • Osmosis creates vacuum

35. 5 basic trapping mechanisms • 1: Pitfall traps (pitcher plants) trap prey in a rolled leaf. • 2:Flypaper traps (sundews) use a sticky mucilage • 3: Bladder traps vacuum in prey: only Utricularia • bladders sealed w hinged doors expel water • Osmosis creates vacuum • Trigger hairs @ door release vacuum when touched

36. Bladder traps vacuum in prey: only Utricularia • bladders sealed w hinged doors expel water • Osmosis creates vacuum • Trigger hairs @ door release vac when touched • Sucks prey into digestive bladder

37. Bladder traps vacuum in prey: only Utricularia • bladders sealed w hinged doors expel water • Osmosis creates vacuum • Trigger hairs @ door release vac when touched • Sucks prey into digestive bladder • Flowers on long stalks

38. 5 basic trapping mechanisms • 1: Pitfall traps (pitcher plants) trap prey in a rolled leaf. • 2:Flypaper traps (sundews) use a sticky mucilage • 3: Bladder traps vacuum in prey • 4: Lobster-pot traps trap prey • chamber is easy to enter, hard to exit

39. 5 basic trapping mechanisms • 4: Lobster-pot traps trap prey • chamber is easy to enter, hard to exit • inward-pointing hairs • prevent escape

40. 5 basic trapping mechanisms • 1: Pitfall traps (pitcher plants) trap prey in a rolled leaf. • 2:Flypaper traps (sundews) use a sticky mucilage • 3: Bladder traps vacuum in prey • 4: Lobster-pot traps trap prey • 5: Snap traps use rapid leaf • Movements • http://www.youtube.com/watch?v=ktIGVtKdgwo&feature=channel

41. 5 basic trapping mechanisms • Snap traps use rapid leaf Movements • two stimuli are required, 0.5 to 30 seconds apart

42. 5 basic trapping mechanisms • Snap traps use rapid leaf Movements • two stimuli are required, 0.5 to 30 seconds apart • Touched trigger hair cells open channels, generating an action potential that propagates to midrib cells

43. 5 basic trapping mechanisms • Snap traps use rapid leaf Movements • two stimuli are required, 0.5 to 30 seconds apart • Touched trigger hair cells • open channels, generating • an action potential that • propagates to midrib cells • These respond by pumping • out ions, resulting in rapid • growth

44. 5 basic trapping mechanisms • Touched trigger hair cells open channels, generating an action potential that propagates to midrib cells • These respond by pumping • out ions, resulting in rapid • growth • Open lobes are convex, • Closed are concave

45. 5 basic trapping mechanisms • Touched trigger hair cells open channels, generating an action potential that propagates to midrib cells • These respond by pumping • out ions, resulting in rapid • growth • Open lobes are convex, • Closed are concave • AP triggers switch

46. 5 basic trapping mechanisms • Touched trigger hair cells open channels, generating an action potential that propagates to midrib cells • These respond by pumping out ions, resulting in rapid • growth • Open lobes are convex, Closed are concave • AP triggers switch • Seal to form stomach, fill w enzymes that digest prey • (& leaf) w/in 1-2 weeks

47. 5 basic trapping mechanisms • Touched trigger hair cells open channels, generating an action potential that propagates to midrib cells • These respond by pumping out ions, resulting in rapid • growth • Open lobes are convex, Closed are concave • AP triggers switch • Seal to form stomach, fill w enzymes that digest prey • (& leaf) w/in 1-2 weeks • Also digest leaf, resorb • both

48. 5 basic trapping mechanisms • Touched trigger hair cells open channels, generating an action potential that propagates to midrib cells • These respond by pumping out ions, resulting in rapid • growth • Open lobes are convex, Closed are • concave • AP triggers switch • Seal to form stomach, • fill w enzymes that digest prey • (& leaf) w/in 1-2 weeks • Also digest leaf, resorb • Both • Flowers on long stalk

49. Evolution • Pitchers fuse leaves, then • pump enzymes into pitcher

50. Evolution • Pitchers fuse leaves, then • pump enzymes into pitcher • Resorb nutrients across pitcher • surface