1. Island Biogeography

2. Dan Simberloff and Mangrove Islands

3. Simberloff’s defaunation experiment on Mangroves

5. Results from Simberloff’s Experiment Islands recovered to pre-defaunation number of species, but only 30% of original species resident on each island returned after defaunation.

6. Bracken Fern

7. Bracken fern stand Australia

8. Number of species found on Bracken Fern

9. Speciation – Picture-Winged Drosophila - Hawaii

12. Professor Axel Meyer – Cichlid Man

13. Lake Malawi Cichlids Adaptive radiation within cichlid lineages

14. Ecosystem Ecology

18. Raymond Lindeman Sir Arthur Tansley

19. Some Energy Flow Definitions Gross primary production (GPP) - total fixation of energy by autotrophs - usually just due to photosynthesis, primarily by plants Net primary production (NPP) = GPP - respiration, autotrophs use some energy for their own growth and that is lost as respiratory heat, so NPP represents what is available to heterotrophs - NPP is often 10% of GPP Secondary productivity - production of biomass by heterotrophs Standing crop - amount of biomass of living organisms in a unit of area

24. P – productivity tn/ha/yr; B – biomass tn/ha; R - solar radiation – kcal/m2/yr

25. Temperature, Precipitation and Productivity

26. Limits to Terrestrial Productivity a) shortage of water restricts rate of photosynthesis b) shortage of mineral nutrients slows down rate of production of photosynthetic tissue and the effectiveness of photosynthesis c) temperatures that are lethal or too low for growth d) insufficient depth of soil (deserts, mountain tops) e) incomplete vegetation canopy cover so that much sunlight lands on the ground and not on foliage

27. Comparison of productivity by a deciduous tree and an evergreen tree

28. Limits to Aquatic Productivity a)Lack of nutrients b)Light is limiting – suspended particles in water reduce light penetration c)Intensity of grazing

29. Coastal Upwelling

30. Light Penetration in Oceanic Waters

31. Basic ecosystem - nutrient cycling in red, energy flow in grey

32. Basic Energy Flow

35. Energy Flow Expanded

36. Energy Flow in Different Ecosystems

37. Transfer Efficiency

38. 10% Rule for Transfer Efficiency

39. Consumption Efficiency CE = food ingested/food produced How much of prey population that consumer eats For herbivores – 5% in forests, 25% in grasslands, 50% in phytoplankton ecosystems For vertebrate predators – 50-100% vertebrate prey; 5% invertebrate prey For invertebrate predators – 25% invertebrate prey

40. Assimilation Efficiency AE = food assimilated/food ingested How much of prey eaten is digested AE usually low for herbivores, microbivores, detritivores – 20-50% AE usually high for carnivores – 80%

41. Production Efficiency PE = new biomass produced/food assimilated How much of prey digested is converted to consumer biomass and used in reproduction – rest is lost as respiratory heat PE high for invertebrates – 30-40% Intermediate for ectotherm vertebrates – 10- 20% Low for endotherm vertebrates – 1-2%

42. Lindeman’s Efficiency LE = assimilation at trophic level n assimilation at trophic level n – 1 LE examines efficiency of transfer between trophic levels – often assumed to be 10% but…is actually more complex

43. Light Absorption

44. Lindeman’s Efficiencies