1 / 41

Option G: Ecology & Conservation

Option G: Ecology & Conservation. (22 hours). G1: Community Ecology. (5 hours). G.1.1 Outline the (a biotic) factors that affect the distribution of plant species-- . Example: sand dune community Temperature ( xref- photosynthesis- 3.8.8) & Water

river
Download Presentation

Option G: Ecology & Conservation

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Option G: Ecology & Conservation (22 hours)

  2. G1: Community Ecology (5 hours)

  3. G.1.1 Outline the (abiotic) factors that affect the distribution of plant species-- • Example: sand dune community • Temperature(xref- photosynthesis- 3.8.8) & Water • Foredune—very hot in summer, little water • Grass adapted to conditions • Long roots find water; leaves can curl to save water and resist heat • Mature dune—much cooler, more moist • More species diversity • Example – @ “forest” floor--ferns (low light, moist conditions)

  4. G.1.1 Outline the (abiotic) factors that affect the distribution of plant species-- • Light(xref- photosynthesis- 3.8.8) • Grasses in high light • Thin leaves reduce water loss, withstand heat • Ferns – low light • Wide leaves capture the small amt light / shade • Soil pH (xref-pH on enzymes- 3.6.3) • pH varies among dune regions • Yellow dune- soil pH 7.5 (grass here too, thrives @ pH) • Grey dune-decomposition of lots grasses, soil more rich, more acidic (acid-loving heathers here)

  5. G.1.1 Outline the (abiotic) factors that affect the distribution of plant species-- • Salinity • Foredunes get salt spray • Grasses can tolerate it • Grey dune less salty • Small shrubs, mosses, lichen • Mineral nutrients • Grey dune – diversity of plants, older region, has mineral content to support shrubs, etc. • Mature dune – way inland, lots of nutrient-rich soil, oldest region (soil building up 100s yrs), can support large trees (ash, birch, oak) HEINEMANN.CO.UK/HOTLINKS 4242P, 18.2

  6. G.1.2 Explain the factors that affect the distribution of ANIMAL species, including • Example: Indiana Dunes, Lake Michigan • Temperature • Animals adapted for hot/cold temps • Sand wolf spider: foredune dweller, extreme high temps—lives in deep burrow (behavioral adaptation) • Woodland spider: live in trees (shade, cooler)-mature dune • Water • Water for eggs, aquatic animals for food • Heron-catches fish/frogs, lives near water • Woodpecker-eats insects in trees, lives in mature dune

  7. G.1.2 Explain the factors that affect the distribution of ANIMAL species, including • Breeding sites • Nesting sites • Protection from sun, wind; mature dune, wetlands • Habitat loss!  • Food supply • Generalists, specialists • Raccoons, skunks, foxes-move to where food is located; nocturnal • Rabbits-burrows in foredune, near grass (food) • Territory • Packs of coyotes, scent to mark space • May or may not overlap

  8. G.1.3 Describe one method of random sampling, based on quadrat methods, that is used to compare the population size of two plant or two animal species. • Statistics- Topic 1!!! • Easier than counting every individual • Random = each organism has equal chance of being selected for the count • Quadrat: square (certain size, dep. on organism) • Map the whole area • Determine quadrat size • Use a #d grid over the map • Random # table to decide which squares (quadrats) to sample • Count # of xxxx and # of yyyy within sample quadrats • Calculateavg # xxxx and avg # yyyy in each • Multiply avg (for xxxx, for yyyy) x total # quadrats in whole area to estimate population of xxxx and yyyy

  9. G.1.4 Outline the use of a transect to correlate the distribution of plant or animal species with an abiotic variable. • Common for studying distribution of plants/animals in ecosystem, abiotic factors affecting it • Use a tape/line through the area • Every 10-20 m along tape, mark a quadrat (use consistent size for all) • Identify, count plant/animal species of interest in quadrats • Measure abiotic feature in each quadrat (temp, light, soil pH, water, mineral nutrients) • Determine pattern of distrib of species  correlation w/abiotic factor??

  10. Hmmm...quadrat or transect?? Depends on if habitat’s fairly uniform –or- if you see a progression along an environmental gradient

  11. G.1.5 Explain what is meant by the niche concept, including an organism’s spatial habitat, its feeding activities its interactions with other species. • Niche = role in ecosystem • Spatial habitat: where it lives • Presence of organism changes the habitat (frogs burrow in mud @ pond bank) • Feeding activities: keep prey pop in check • Frog eats larvae of mosquitoes, flies, etc. • Interactions w/other species: competition, herbivory, predation, parasitism, mutualism • Heron is predator for frog • Frog is host to parasite

  12. Who Cares?!?!?!? • We Do!  • Ecologists study niches to measure impacts on populations • Danger of extinction  need to understand as much as possible about species • Habitat Loss = biggest threat 

  13. G.1.6 Outline the following interactions between species, giving two examples of each: • Competition (2 sp compete for same resource) • Coyote (grassland) & red fox (edges of forests & meadows): both eat small rodents, birds; more farmland reduces forest  fox overlapping w/coyote, compete for food • Natterjack toad & common toad: disturbance in coastal dunes in UK, limiting habitat for both • Herbivory (primary consumer feeds on producer: growth of producer critical to primary consumer’s survival) • Rabbits eat grass in sand dune ecosystem • Monarch b’fly larvae eat leaves of milkweed

  14. G.1.6 Outline the following interactions between species, giving two examples of each: • Predation (consumer-pred. eats consumer-prey; # prey affects # pred, vice versa) • Canadian lynx and arctic hare: lynx pop changes followed by hare pop changes • Blue heron pred. for frogs in sand dune ponds • Parasitism (lives in/on host, depends on host, host is harmed) • Plasmodium (malaria in humans) reproduces in human liver and RBCs; part of life cycle in Anopheles mosquito (vector, transmits from human to human) • Leeches—hosts are humans/mammals, puncture skin & secrete enzyme to prevent clotting • Mutualism (2 sp live together, both benefit) • Lichen= algae + fungi (photosynthesis, make food; absorb minerals algae need) • Rhizobium = N-fixing bacteria in legume roots (fixes N for plant; plant makes carbs for bacteria) • Clownfish & anemone (fish has mucusto protect it, fish lures other fish to anemone...food for anemone...clownfish eats leftovers

  15. G.1.7 Explain the principle of competitive exclusion. • No two species in same community can occupy same niche: one will be excluded • 1934, Gause: Paramecium expts • Interspecific competition • Red fox & coyote • If they do inhabit same area, same niche... • 1 will die out, other will survive Fig. 19.1. Competitive exclusion of one species of the ciliate protozoan Paramecium by another. Data from Gause (Gause, G.F. 1934. The Struggle for Existence. Williams and Wilkins, Baltimore, MD.).

  16. G.1.8 Distinguish between fundamental niche & realized niche. • fundamental niche of a species • potential mode of existence, given the adaptations of the species • Complete range of biological and physical conditions within which it can live • (red fox used to live @ forest edge & meadows) • realized niche of a species • actual mode of existence, narrower range • results from its adaptations and competition with other species • (now red fox habitat shrunk, competing w/coyote, in the realized niche)

  17. G.1.9 Define biomass. • Total mass of organic matter • Carbs, lipids, proteins • DRY the matter 1st to remove water content • g m-2 yr -1

  18. G.1.10 Describe one method for the measurement of biomass of different trophic levels in an ecosystem. • Aim 8: Ethical issues of returning the species and destructive techniques should be considered. • Tables/charts to get biomass of animal vs size/weight  , small plants too  • Biomass of ecosystem of terrestrial community: • Measure total area of forest • Divide into small area (grids, plots) • Sample one plot • Measure size of each plant species, including trees (height, diameter) & low-growing. • Cut down ALL the trees and vegetation on that ONE plot

  19. G.1.10 Describe one method for the measurement of biomass of different trophic levels in an ecosystem. • Dry all plant samples (circulating drying oven) • Math. Model: relationship b/w weight and height of each plant species and its biomass • Sample other plots for height and size only—no need to cut down/dry/killlllll....use the model! • ANIMALS: set traps in the plot, weigh, measure & use tables to get biomass • Avg data for all species per plot • Multiply x # plots in ecosystem  biomass for whole ecosystem • Seasonal/yearly sampling to track changes over time

More Related