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Geoecology. Option. 2008: Q.18. Examine 2 of the natural processes that influence soil formation (80). What you need to do. Explain how soils form Name 2 processes influencing soil formation Explain in detail how each process affects soil Refer to 2 named soil types in your answer.
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Geoecology Option
2008: Q.18 • Examine 2 of the natural processes that influence soil formation (80)
What you need to do • Explain how soils form • Name 2 processes influencing soil formation • Explain in detail how each process affects soil • Refer to 2 named soil types in your answer
2008: Q.18 • Soil : loose material on earth’s surface formed by weathering and erosion of rocks. • Formed due to a combination of factors such as climate, relief, living organisms, parent material and time. • E.g., latosols form in tropical wet climates and brown earth soil form in temperate climates where deciduous trees are present.
2008: Q.18 • Climate: affects temperature and rainfall in a region. They have important effects on soil. • Rainfall washes nutrients + humus down through soil. • Temperature affects activity of living things. • Climate affects the vegetation that can grow in a region. E.g.: Arctic region; few plants can survive • Vegetation is important in developing soil type, e..g. brown earth + podzol • Climate affects weathering that takes place in a region; colder regions > more freeze – thaw action • Climate controls the amount of leaching in a region
2006, q 16: Examine the factors that influence soil characteristics. • What you need to do: • Choose 3- 4 soil characteristics • Discuss how these characteristics are affected by soil – forming processes • Refer to specific soils in your answer
2008: Q.18 • Relief: means ‘ lay of the land’ or angle and length of slopes. • Relief influences the amount of water that runs off soil, how much water seeps into soil + amount of erosion. • Steep slopes have thinner soils due to mass movement such as soil creep and landslides. • Soils on flatter land is deeper and has more organic content because more plants can grow. • Relief influences aspect aswell . Which in turn affects soil quality as north facing slopes receive less heat + light.
2006, q 16 • Characteristics of soil: colour, texture, structure, pH, humus content, water content
2006, q 16 • Factors affecting soil colour: • Colour of soil depends on soil – forming processes acting upon it. • Humification tends to produce dark – coloured or black soils. Humification is method by which dead organic matter converted to humus by action of fungi and bacteria. • Leaching affects soil colour as it tends to lighten the colour of soils. It washes nutrients such as phosphorous down through soil, leaving soil pale and ash coloured.
2006, q 16 • Factors affecting soil texture: • Soil texture is the way soil feels when rubbed in our hands > soil can have 4 types of texture; a) sandy, b) silty, c) clay, d) loam • Freeze – thaw action and other mechanical weathering processes acting on sandstone rocks can produce sandy soils. Marine action can also produce these soils. • Granite rocks are chemically weathered by hydrolysis. This is the action of water on feldspar minerals in granite. The feldspar is converted to clay which produces clay – texture soil. • Soils with a silty texture are found in areas where river deposition has occurred.
2006, q 16 • Factors affecting humus content: • Humus content is affected by factors such as climate and relief • Climate: affects temperature and rainfall in a region. They have important effects on soil. • Rainfall washes nutrients + humus down through soil. • Temperature affects activity of living things. • Climate affects the vegetation that can grow in a region. E.g.: Arctic region; few plants can survive • Vegetation is important in developing soil type, e..g. brown earth + podzol • Climate affects weathering that takes place in a region; colder regions > more freeze – thaw action • Climate controls the amount of leaching in a region
2006, q 16 • Relief: means ‘ lay of the land’ or angle and length of slopes. • Relief influences the amount of water that runs off soil, how much water seeps into soil + amount of erosion. • Steep slopes have thinner soils due to mass movement such as soil creep and landslides. • Soils on flatter land is deeper and has more organic content because more plants can grow. • Relief influences aspect aswell . Which in turn affects soil quality as north facing slopes receive less heat + light.
2007, q 17: Examine the general composition and characteristics of any one soil type that you have studied • What you need to do: • Name the soil type you’re discussing • Discuss composition and characteristics giving reasons
2007, q 17 • In this answer the composition and characteristics of brown earth soil will be examined • Zonal soil: developed in response to a climatic zone and its natural veg. • In this case, BES have developed in response to cool temp. oceanic and mixed deciduous forest
2007, q 17 • Composition of BES: • BES contain all materials> mineral matter, air, water, living things, humus. • BES contain mineral matter that has developed in response to mechanical and chemical weathering > freeze thaw action in uplands and sheltered lowlands. • BES contain air and water held in the pore spaces btwn grains. Water comes from moderate amounts of rainfall. • Organic matter and humus present in BES because cool, temperate oceanic climate is mild; BES contains lots of living things
2007, q 17 • Characteristics of BES: • Texture: loam texture. Loam have roughly equal mix of sand, silt and clay particles. BES developed on variety of parent rock such as limestone, slate and sandstone • Humus content: High because of action of humification. Soil – forming process dominant in cool temperate oceanic climates. • pH: Varies from mildly acidic to mildly alkaline. Due to moderate rainfall that only mildly leaches soil. • Structure: BES have a crumb structure, where peds are clumped together in round grains or crumbs. Crumb soil structures develop in soils with lots of living things. • Colour: BES are uniformly brown due to being well mixed by plant roots and animal activity. High humus content.
2007, q 17 • Variations of BES • Acidic BES: developed in upland areas 500m + in altitude • Shallow BES: limestone areas such as Burren • Podzolised BES: Developed where podzolisation has occurred in low – lying areas.
Biomes Tropical Rainforest
Vegetation: Emergent Layer • Emergent layer consists of tops of tallest trees, from 40m to 80m • Trees have small, pointed leaves • Trees have straight smooth trunks • Root system shallow
Emergent Species Hummingbird Squirrel Monkey Scarlet Macaw
Vegetation: Canopy • Canopy upper parts of trees which grow below emergent • Canopy found 20-40m above ground
Canopy Species Toucan Hornbill Orangutan
Vegetation: Understorey • Dark environment under canopy • Plant growth limited • Short, leafy, mostly non – flowering shrubs
Understorey: Species Jaguars Beetle Lizard
Forest Floor • Teeming with animal life • Less than 1% of light that strikes top of forest reaches forest floor • Few plants grow
Forest Floor: Species Tapir Anteater
Leaves • High Level Rainfall > Plants have made adaptations • Drip tips • Grooved leaves • Oily coatings • Large leaves to absorb light
Roots and Trunks • Emergents grow fast to absorb light • ‘Stilt’ roots for support • Smooth, thin bark • Epiphytes
Parasitic Plants • Live off nutrients of host plant • Lianas catch a host tree and take lift to light
Deforestation and intensive agriculture in Brazil Causes of deforestation in Brazil: • Intensive agriculture • Logging • Demand for wood as fuel • Construction of large dams / reservoirs drown forest • Mining and industry clear forest • Government – organised colonisation schemes clear forest
Underlying social and economic conditions in Brazil • Overpopulation and poverty in Brazil creates political difficulties • Government wants to open up rainforest to take advantage of timber and mineral wealth • Beef producers require more land • Industry requires more power
Deforestation • Timber companies given rights to remove forest and sell timber abroad • Licences given to mining companies to clear forests and mine for metals • Roads are being built across the Amazon rainforest to allow access to logging companies • New capital city, Brasilia, built from scratch during 50s and 60s in heart of Amazon • Over 125 new HEP dams have been built in the Brazilian rainforest area • January 2000: Brazilian government announced plans for Avanca Brasil > €30m plan to develop much of Amazon rainforest
Impact of agriculture on biome Effects of intensive agriculture: • Deforestation • Destruction of natural habitat: soils damaged due to intensive agriculture, animals and plants cant survive in the plantations • Introduction of exotic species
Impact of clearance on people and wildlife • Suggested that some Amazonian Indians may have been murdered for resistance • Area of natural habitat has been severely reduced • Many species of plant have been lost > serious concern as some contain chemicals that could 1 day cure illnesses • Increase in global warming
Impact on Brazilian soils • When forest is cleared, nutrient cycle is destroyed • Soil then becomes baked hard which cannot support plant growth • Useless for farming
