1. Environmental Systems TAKS Review Session Spring 2007 Lecture 1 Energy Flow in Ecosystems

2. Movement of Energy Almost all of the life forms on earth get their energy from the sun and its light energy

3. Primary Productivity All photosynthetic (like plants) organisms take the light from the sun and convert it to chemical stored energy. This chemical energy is an organic compound (organic means having carbon).

4. Producers and Consumers All creatures and plants that create food with photosynthesis are called primary producers Creatures that eat the plants are called consumers

5. Trophic Levels Energy travels through the ecosystem and goes through levels. Each level is called a trophic level

6. Flow of Energy To understand the flow of energy lets say that when energy leaves the sun it is worth 100 dollars. Next when the plant makes food the energy is now worth 10 dollars When the rabbit eats the plant the energy is worth 1 dollar When the wolf eats the rabbit it is worth 0.1 dollars or 10 cents

7. Flow… So, as the energy moves through the ecosystem only 1/10th of it makes it to the next level!

8. The Trophic Levels The lowest level of the food chain is made up of the producers The second level of the chain is the herbivores (plant eaters) The third level is made up of the omnivores (eats plants and animals) and the carnivores (eats only meat)

9. Producer

10. Herbivore

11. Omnivore

12. Carnivore

13. The Special Case The Detritivores-worms, fungus, and bacteria-all survive by eating the dead things and returning the nutrients to the soil and air. If these creatures cause the decay they are called decomposers. They are on all trophic levels except the first

14. Energy As the energy moves from the producers to the herbivores, then to the carnivores, energy is lost in the form of heat. Because energy is lost, each level gets smaller (fewer # of organisms) For instance, there are more blades of grass than there are zebras and more zebras than there are lions.

15. Energy Pyramid Producers have the most members, then the herbivores have less, and the carnivores even less. This is because there is less energy available at each level. Think about it, there are many many plants (producers), many rabbits (herbivores), and few wolves (carnivores).

16. Pyramid of Energy

17. Biomass If we add up all the dry weight of tissue and other organic material in an ecosystem it is called Biomass

18. Pyramid of Biomass

19. Environmental Systems TAKS Review Session Spring 2006 Organism Interactions

20. Interactions among species 5 types of close interactions 1.Predation 2.Parasitism 3.Competition 4.Mutualism 5.Commensalism

21. Predation – Co-evolution of Predator and Prey Tools: Predator – Improve efficiency at finding, capturing and consuming prey Sharp Teeth Keen senses; sight, hearing, smell Strong, fast legs Camouflage

23. Tools: Prey – Improve efficiency at hiding, evading and avoiding being eaten. Sharp Teeth Keen senses; sight, hearing, smell Strong, fast legs Camouflage Spines Bad Taste / Warning Coloration / Mimicry Predation – Co-evolution of Predator and Prey

25. Parasitism One individual benefits (parasite) while another is harmed (host). Examples: Ticks Fleas Tape Worms Malaria

26. Parasitism – Co-evolution of Parasite and Host Tools: Parasite – Highly specialized physiologically and anatomically Feeding apparatus Small size, hard to see Strong, attachment apparatus Natural pain killers at feeding site

27. Parasitism – Co-evolution of Parasite and Host Tools: Host – Defense Eyes, nose and mouth are protected by tears, mucous and saliva Grooming behaviors Natural body defenses

28. TAPE – WORM DIET!

29. Competition Use of a limited resource by two or more species Resources could be food (prey) or nesting sites, for example. Hyenas and Lions Hawks and Eagles Ducks and Geese

30. Competitive Exclusion One species uses a resource more efficiently and has a reproductive advantage over a competitor Character Displacement Two species anatomical differences which lessen the intensity of competition.

31. Resource Partitioning When similar species share a resource Each species will use only part of the available resource; such as stories or levels with a forest canopy

32. Commensalism When one species benefits and the other is not affected. Example: Bromeliads (Spanish Moss) grow on trees to obtain sunlight Barnacles on a whale Birds that follow behind elephants and eat the insects stirred up by the elephant

33. Questions?