Species Interactions and Community Ecology Chapter 6 Part 1 Species Interactions and Community Ecology
Zebra Mussels Invade the Great Lakes Polluted waters Great Lakes became cleaner after the Clean Water Act of 1970 – used again for recreation and fishing Zebra mussel arrived, native to western Asia and eastern Europe. Larval stage is well adapted for long-distance dispersal, and it encountered none of the predators, competitors, and parasites it was used to
Zebra Mussels (continued) Zebra mussels can clog up water intake pipes damage boat engines, docks, and fishing gear sink buoys that ships use for navigation Zebra mussels also have severe impacts on the ecological systems they invade take large quantities of food (phytoplankton) needed by native molluscs for food It is being displaced by the quagga mussel, which has a larger niche than even the zebra mussel.
Species Interactions Most common interactions Competition Predation Parasitism Herbivory Mutualism
Competition Occurs when resources are limited Intraspecific competition – between members of the same species Limits population growth Interspecific competion – among members of at least 2 different species Affects composition (what is in) of communities *interstate runs between more than one state
Competitive Exclusion One species is a very effective competitor Excludes another species from a resource completely Example: zebra mussel outcompeted the native mussel in the Great Lakes
Species Coexistence When one species does not fully exclude another from resources State of equilibrium – population size of each species remains constant Species that use the same resources can minimize competition
Minimizing Competition Use only a portion of the total array of resources (niche) that they are capable of using Full niche of a species is called its fundamental niche An individual that plays only part of its role because of competition or other species interactions - displaying a realized niche. (page 143, Fig. 6.2)
Minimizing Competition (continued) Resource partitioning - competing species may evolve to use slightly different resources or to use their shared resources in different ways. Over time, character displacement may occur as they evolve physical characteristics that reflect their use of a specific portion of the resource Natural Selection!
Exploitative Interactions Exploitation occurs when one member of an interaction exploits or uses another for its own gain. Examples: Predation Parasitism Herbivory
Predation Predation - an individual of one species hunts, captures, kills, and consumes an individual of another species, its prey. Predation can sometimes drive population dynamics, causing cycles in population sizes. Better predators will leave more and healthier offspring – making them better hunters. Prey species - evolve defense mechanisms
Parasitism Parasitism - the parasite, depends on the host, for nourishment or some other benefit while doing the host harm. Many parasites live in close contact with their hosts, such as tapeworms, ticks, and lamprey. Other types of parasites are free-living and come into contact with their hosts only infrequently (e.g., nest parasites such as cuckoos and cowbirds).
Parasitism (contiued) Some parasites cause little harm, but others may kill their hosts Examples: Parasitic wasps Lay eggs on caterpillars Larvae burrow into and eat caterpillar’s tissue Larvae turn into wasps that fly out of dead cateripillar Sea lampreys (see handout)
Herbivory Herbivores exploit (use) plants. Herbivory occurs when animals feed on the tissues of plants Plant defenses: Production of toxic chemicals Thorns, spines, irritating hairs Other insects working with plant to attack the predators (ants protect some plants)
Mutualism Mutualists help one another. Mutualism - two or more species benefit from interaction with one another. Many mutualistic relationships occur between organisms that live in close physical contact; this is called symbiosis. Bees and flowers engage in mutualism in the process of pollination.
Use Your Book! Use your text to list examples of mutualism – you have 5 minutes.
Commensalism Some interactions have no effect on some participants. Commensalism occurs when one organism benefits and the other is unaffected. Barnacles – barnacles attach to skin of whales and can be transported to new sources of food Remora sharks – have an adhesive (sticky) disk on their head and can attach to whales. After the whale eats, the shark detaches and eats the leftovers!
Book Work! SAVE THIS PAPER! YOU WILL BE ADDING MORE TO IT! Page 171, Testing Your Comprehension, numbers 1 – 3 SAVE THIS PAPER! YOU WILL BE ADDING MORE TO IT!
Ecological Communities Energy passes among trophic levels. As organisms feed on one another - energy moves through the community from one trophic level to another. Producers are the first trophic level. Examples: Grasses, algae, chemosynthetic bacteria
Consumers Second trophic level - primary consumers Most of them consume plants and are called herbivores (deer or grasshoppers eat grass) Third trophic level - secondary consumers prey on primary consumers (rodents eat grasshoppers that eat grass)
Consumers (continued) Higher trophic levels –tertiary consumers hawks eat rodents that eat grasshoppers that eat grass * Secondary and tertiary consumers are carnivores because they eat animals
Consumers (continued) Animals that eat both plant and animal food are omnivores. Detritivores (scavengers) and decomposers (break down) consume nonliving organic These “eat” the dead material from all other trophic levels Look at page 149, Fig. 6.10 The arrow points to what is doing the “eating”
Rule of 10 Think back to our Rule of 10 pyramid! Only 10% of the usable energy is passed on. The producers start with the most energy, and it decreases with every step up. Being a vegetarian, rather than a meat-eater, decreases a person’s ecological footprint. Why? Page 150, Weighing the Issues
Biomass Biomass – organic material that makes up living organisms Biomass energy – energy harnessed from plant and animal matter The Rule of 10 applies to Energy amount of biomass/biomass energy and number of organisms
Food Webs Show feeding relationships and energy flow Visual map Shows the many paths by which energy passes among organisms as they consume one another. Page 151, Fig. 6.12
With a Partner: 20 Minutes Draw a food web that could be found in TN Use colored pencils Do not have to have elaborate drawings Stick drawings (like Mrs. Alred’s drawings) are fine Must include Producer (10 points) Primary consumer (10 points) Secondary consumer (10 points) Tertiary consumer (10 points) Decomposer/Detritivore (10 points)