1 / 49

Community structure The following organisms form part of a community

Community structure The following organisms form part of a community. A community is a group of populations (producers, consumers and decomposers) living together in a habitat. Predator-prey relationships.

grady
Download Presentation

Community structure The following organisms form part of a community

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. Community structureThe following organisms form part of a community

  2. A community is a group of populations (producers, consumers and decomposers) living together in a habitat

  3. Predator-prey relationships

  4. Competition1. Intraspecific competition: the competition between organisms of the same species depending on the same resources like food, space, shelter, water and access to mates.2. Interspecific competition: the competition between organisms of different species depending on the same resources e.g. light, space, water, shelter, food

  5. Competition: Intraspecific competition

  6. Intraspecific competition: males compete for territory.

  7. Interspecific competition:In the African savanna, hyenas and vultures compete with one another for the flesh of dead animals such as the dead elephant pictured here.

  8. Interspecific competitionLion and hyenas fighting for the same food resources

  9. Jackal and a hyena fighting for the same food source

  10. Specialisation for specific modes of lifeWhen two similar species co-exist, they will start to specialize in their habitats and feeding habits and undergo character displacement to reduce the severity of interspecific competition.This is demonstrated by Galapagos finches described by Charles Darwin.  The ancestral bird from the mainland of Ecuador had an intermediate-sized beak to consume insects and seeds of all sizes. Notice, however, how the break size has changed, to reflect specialization in feeding habits.  (In fact, there is one finch, the woodpecker finch, which uses a twig as a tool to dig out insects from holes in trees.)

  11. Specialisation of the Galapagos finches

  12. 1. Competitive exclusion: the competition in which one of the two competing species is much more successful that the other such that the successful species survives and the other species disappears.2. Resource partitioning: The kind of competition situation in which competing species coexist in the same habitat since they use the resources slightly differently

  13. Paramecium aurelia and P. caudatum: In a classic study in the 1930’s, Gauss cultured P. aurelia and P. caudatum both alone and together in culture tubes.  When grown separately, the populations grew to a fairly predictable density.  However, when grown together, P. caudatumalways lost and eventually went extinct.

  14. Resource partitioning amongst plants Different species of plants in the same habitat will compete for the same resources like light, water, mineral salts, etc. Different species of plants grow to different heights or have roots that are different lengths so they divide the resources, accessing them in slightly different ways

  15. Resource partitioning: co-existing shore birds

  16. Symbiosis: The close association of two organisms such that one or both benefit form the associationParasitism: a relationship in which one of the species benefits and the other is harmed by the relationshipMutualism: The symbiotic relationship in which both of the species benefit form the association Commensalism: Two species living together where one species benefits and the other neither benefits nor suffers disadvantage

  17. Parasitism: malaria mosquito sucking human blood

  18. Life cycle of the malaria mosquito

  19. Parasitism: Ticks feeding on animals or humans

  20. A tick bite can cause tick bite fever in humans

  21. Parasitism: swimming habits may influence parasitic infections

  22. Life cycle of the bilharzia parasite

  23. World distribution of bilharzia

  24. Sanitation may influence parasitic infections

  25. Parasitism: cholera

  26. One species is harmed in a parasitic relationship –some scientists regard it as predataion since the host may be killed

  27. The spreading of cholera from Zimbabwe

  28. Platyhelminthes: taenia solium/tapeworm

  29. Tapeworm with hooks with which it attach to the wall of the small intestine

  30. With its long, narrow shape the tapeworm is well adapted to attach to the small intestine of the human

  31. Life cycle of a tapeworm

  32. Mutualism: oxpeckers on a giraffe. The oxpecker gets food form the giraffe and the giraffe benefits by getting rid of its parasites

  33. Mutualism: Lichens is an organism made up of fungi and algae. The fungus provides the external structure of the lichen and provides the algae wit a protected place to live. Algae photosynthesise and provide the fungus with food.

  34. Mutualism: Bees collect pollen and nectar from flowers, flowers are pollinated in the process

  35. Some bees pollen collect in a packet around their legs

  36. Mutualism: Ants get nectar from the Acacia tree as well as shelter in specialised swollen thorns. Ants defend the tree against herbivorous and wood boring insects.

  37. Commensalism: The egret catch insects which are disturbed by the activity of a large animal. The herbivore are neither helped nor harmed by the egret

  38. Commensalism: Remora fish swim next to sharks or attach to them. It gets protection and scraps of leftover food from the shark. The shark is neither helped nor harmed by the remora fish

  39. Human influence on community structure The elephant herd in the Kruger National Park increased from 8, 000 to 12,500 in 2008 and to 19 000 in 2009. The elephant population is increasing by 7% per year, and might reach 20 000 by 2012. This large herd cannot be sustained since adult elephants consume 130 kg food a day and they live for 55 – 65 years. On 25 February 2008 the SA Government finally concluded it would have to lift a 17 year-old moratorium on the culling of the native elephant to cope with its booming population. Minister van Schalkwyk announced that killing of excess animals would only be allowed once all other options (translocation and contraception) had been ruled out. Minister van Schalkwyk said:”Our simple reality is that elephant population density has risen so mulch in some southern African countries that there is concern about impacts on the landscape, the viability of other species and the livelihoods and safety of people living within elephant ranges.”

  40. Extinct: a species of plant or animals that does not exist any more as all the individuals have died.Biodiversity: the variety of different kinds of living organisms (species0 that exist on earth.

  41. The aesthetic value placed on South Africa’s biodiversity.Discuss the values placed on “large and fury’ animals compared to “small and slimy” animals1. Which of these animals will attract most tourists?

  42. ‘Small and slimy” can be very interesting.

  43. Primary succession: the sequence of organisms that occupy a new habitat. 2. Pioneer plant: a plant that can colonise bare soil and that is part of the community that forms the first stage in the process of succession 3. Secondary succession: the sequence of organisms that occupy a disturbed habitat or when an established community has been disturbed in a catastrophic manner. 4. Climax community: the final stage in the process of succession that refers to a mature community of plants that will remain stable with few, if any, changes over time Community change over time: Ecological succession

  44. Succession Primary succession begins in areas consisting of bare, lifeless substrate such as rocks or a car path. Organisms gradually move into the area and begin to change its nature, Secondary succession occurs when a established community has been disturbed in a catastrophic manner, e.g. after a veld fire or a flood. In the disturbance all the vegetation is destroyed, but all or some of the soil remains. The same process occurs as in primary succession, but as there is soil for grasses and small plants to grow in, these plants form the pioneer communities.

  45. Pioneer plants Lichens are pioneer plants as they are the first organisms to colonise a bare area. Acidic secretions from the lichens help to break down the hard surface of the rocks and slowly bits of soil accumulate, mosses may grow on these small pockets of soil, enriching the quality and quantity of the soil with the organic material that they add to it. As time passes and the soil becomes richer and deeper, other plants like grasses and small herbaceous plants become established in the larger pockets of soil , small animals may also move into an area when these plants become established.

  46. An example of primary succession

  47. Pioneer grass on a sand dune

  48. Climax community

  49. Random sampling: a sample that is not deliberately selected but is selected by chance. This means that any area being sampled or any individual in a population being sampled has an equal probability of being selected

More Related