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How Changes Occur Naturally in Ecosystems

How Changes Occur Naturally in Ecosystems. The Stickleback: Adapt or Die. Occupied oceans of the northern hemisphere Trapped in lakes as the glaciers retreated Adapted to freshwater environment, forming a new species of sticklebacks In BC pairs of sticklebacks developed

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How Changes Occur Naturally in Ecosystems

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  1. How Changes Occur Naturally in Ecosystems

  2. The Stickleback: Adapt or Die • Occupied oceans of the northern hemisphere • Trapped in lakes as the glaciers retreated • Adapted to freshwater environment, forming a new species of sticklebacks • In BC pairs of sticklebacks developed • Lake bottom: feed on snails and clams – chunky bodies with wide mouths – little armour and fewer spines than ancestors • Open water: slender bodies and narrow mouths – retained more spines and armoured side plates – lighter in colour

  3. How Organisms Adapt to Change • Living organisms changes as the abiotic and biotic elements of an ecosystem change • Natural Selection: members of a species having certain characteristics that give them an advantage will be in better condition to mate • Will pass on favourable characteristics to offspring Example: the Galapagos finches • Scientists believe that 13 species developed from a single species from South America

  4. Adaptive Radiation: the change from a common ancestor into a number of different species that “radiate out” to inhabit different niches • Examples: Sticklebacks and Cichlid (more than 300 species from a single ancestor) • Galapagos finches: each species adapted to the ground or in trees; each gathers and eat different food; evolved different size beaks and shapes depending on food source

  5. How Ecosystems Change Over Time Ecological Succession: changes that take place over time in the types of organisms that live in an area There are 2 types of ecological succession: Primary Succession Secondary Succession

  6. 1. Primary Succession • Occurs in an area where no soil exists (bare rock) • Natural events (ex. retreating glaciers) can scrape rock bare, or new rock could form after a volcanic eruption • Wind and rain carry spores of organisms, like lichens, to these areas • Lichens... • An organism consisting of a fungus and an alga • Obtain nutrients from rocks by secreting chemicals that break down the rock

  7. Weathering by lichens, wind, rain, and freezing begin soil formation Dead lichens provide additional organic matter to developing soil RESULT: Soil accumulates (even though it could take hundreds of years

  8. Spores from plants, like mosses, will be deposited by the wind and start to grow • Most have adapted to grow in harsh/nutrient poor conditions • Pioneer Species: lichens and plants that are the 1st organisms to survive and reproduce in an area • Pioneer species change the biotic and abiotic environment in many ways... • Decay and create more soil • Make soil more fertile and increase ability to hold moisture • Provide food for insects and other organisms, introducing animals to the community

  9. Each stage of primary succession is gradual and introduces different populations of micro-organisms, plants and animals that will compete for nutrient, moisture, and sunlight As these organisms decompose, they contribute more organic matter to the soil layer Eventually, seeds of trees will germinate

  10. 1st trees usually requires lots of light (ex. deciduous trees of boreal forests) • The shade will change abiotic conditions as soil becomes cooler and more moist • Only shade tolerant plants will grow • As more niches are created, there is be greater diversity in organisms  creating more complex food webs

  11. Primary succession occurs in the same way globally • Coniferous forests in northern latitudes • Deciduous forests in temperate zones • Tropical forests in tropical zones See Figure 3.8 on page 112-113 for a detailed breakdown!

  12. 2. Mature Communities • Climax Community: a mature community that is the result of primary succession • Includes boreal forests, tropical rainforests, grasslands, and deserts • Even though a climax community may appear unchanged, there was always changes occurring because of small disturbances • Alder may grow because a tree has fallen, allowing more sunlight through • Scientists now prefer “mature community”, reflecting the idea that it is always changing

  13. 3. Secondary Succession • Occurs as a result of a disturbance to an area that already has soil and was once the home of living organisms • Occurs much faster than primary succession because soil and nutrients already exist • Primary might takes 100’s of years, secondary could only take decades • Often depends on the recovery of existing plants, such as trees, and on species that can rapidly reproduce in new conditions of increased sunlight and open areas

  14. How Natural Events Affect Ecosystems 1. FLOODING Occurs in coastal areas, rivers, and lakes when the volume of water exceeds the ability of the water body to contain it Can be part of a normal cycle or caused by heavy rainfall, increased run-off, melting snow, or an extreme natural event (tsunami) Can result in soil erosion and soil pollution (if chemicals are present)

  15. Can cause widespread disease if untreated sewage enters drinking water supplies Climate change could cause an increase in flooding due to heavier rains

  16. 2. TSUNAMIS A huge, rapidly moving ocean wave Usually caused by large earthquakes or underwater volcano eruptions On land, the wave carries away or destroys plants and animals (affecting food webs) Salt water changes composition of soil  plants that can’t survive salty environment won’t grow

  17. 3. DROUGHT • Usually occurs when there is a below-average amount of precipitation over a period of many months or years • Ecosystems usually recover when regular precipitation pattern re-establish • destroys habitats when water is scarce and animals die • Can result in crop failure and livestock deaths • Made worse by climate change • Experienced by Australia, western Europe, and Africa

  18. 4. INSECT INFESTATIONS • Have an important role in natural succession of forests • Mountain pine beetle destroys older trees  nutrients get recycled • Younger trees usually able to resist by producing resin • If many insects attack or if tree is stressed (overcrowding, drought, grazing) it won’t produce as much resin • Beetle carries a fungus which than destroys plant tissues and prevent resin production

  19. Cold winters, which kill beetle larvae, are affected by global warming Suppression of forest fires has resulted in a large number of host trees Because beetle population isn’t in check, other species are losing their homes

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