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Learn about physical and chemical weathering, factors affecting weathering, and its impact on rocks and environments. Discover how weathering processes like erosion, faulting, and volcanic events shape landscapes.
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Introduction • Weathering is the breakdown of rock which is in contact with the atmosphere • It includes physical weathering and chemical weathering • Physical disintegration of rock masses into smaller particles • Chemical weathering alter the particular materials into dissolved ions or clay material • These sand and rock fragment form regolith
The depth of the regolith will depend on the nature of the rock,the intensity of atmospheric process and the rates of removal • Weathering is the process by which rocks adjusted to their environment • It prepare rocks for the process of slope movement
Causes of weathering • Erosion uncovers underlying rocks • Faulting and folding push rocks that were deep within the crust to the surface • Volcanic eruptions may cause magmas to be the subject to weathering • A fall in sea level may expose marine sediments • Changes in the climate • Man changes the weathering environment by putting pollutants into the atmosphere
Factors affecting weathering • The nature and structure of rock material Mechanical structure: • Many sedimentary rock posses bedding planes (層面).They are used by the weathering process • Joints are line of weakness. They are formed under cooling and contraction,compression,tension and dilation(膨脹) • Cleavage (裂痕)is the small parallel cracks formed in platy minerals such as mica • Some rocks such as sandstone or conglomerate (礫岩)may contain pores and allow water to enter
Chemical composition • As rock is a collection of various materials,each of which has a different chemical changes through weathering than others • For example : limestone composed of CaCO3(炭酸鈣) is slowly dissolved by rainwater • Quartz is very resistant
Climatic condition • The importance of water • Changes in the volume caused by the addition or removal of water produce mechanical stresses in a rock and may cause it to split apart or crumble(碎裂) • Most chemical changes requires the presence of water: solution , carbonation, hydration and hydrolysis, oxidation (溶解、炭化、水化、水解、氧化作用)
Temperature • a wide temperature range causes the surface layers of exposed rock to expand and contract. • The rate of chemical reaction tend to rise if the temperature increase • This is also same to biological activities
The vegetation cover,the topography and the length of time may all affect the weathering process
Weathering and Man • Weathering produced by weathering have economic value • Bauxite (鋁土礦) provides aluminium, kaolinite(高嶺石) is used in paper and ceramics industries • Weathering is a fundamental process in soil formation,thus influencing man’s use of land • Weathering alters the stability of materials,affecting construction work and road building • Man is reinforcing the weathering process.For example,salt is used to keep roads free of ice
Weathering in the tropical rain forest • Chemical weathering • The high rainfall and temperature favours chemical weathering • There is break down of silicates into regolith, consist of sand and clay • The rock which is highly permeable allow chemical weathering of fresh rock • Hydrolysis and oxidation results in igneous rocks being disintegrated to form laterite soil (磚紅壤) and bauxite,while sedimentary rocks are converted to soft clay
Biological Weathering in tropical rain forest • Plants root wedging cause the joint block separate • Fauna and burrowing animal help to disintegrate the rock Transport • The rocks are decomposed to great depths over 30 meter • That means the TRF has a thick regolith • The river also carry a lot of solute load too
Weathering in tropical desert • Mechanical weathering • It is important because of the diurnal range of temperature • Minerals expand when heated and contract when cooled • The continue expansion and contraction can break up the rock • This can be seen in granular disintegration(粒狀崩解)
Exfoliation • it occurs when there is release of the pressure on granite rocks when the overlying material is removed. The rock expands,producing sheeting layers • More resistant rock ,like gneiss, stand up as inselbergs(島山). This is produced by the process of parallel retreat.
Chemical weathering • no frost weathering • There is little chemical weathering as the supply of water is limited • The upward movement of water by capillary action may occur after rain • Honeycomb(蜂窩狀),deep tafoni(風化窗),niches(雪凹),shallow caves ,rock arches (拱頂)and pit (坑)are produced by chemical weathering
There is also hydrolysis of exposed granite ,creating egg-shaped boulders and pinnacles (尖石) • The end product is sand and the regolith is thin. Little clay and solute will result • Alluvial fan (冲積扇)will be form by this deposit
Weathering in tundra • Frost action is the most important • As water freeze, its volume will be 10% larger • The repeated growth and melting of ice crystal produce frost-shattering (凍裂作用) • Talus slope (岩屑堆)may accumulate along the cliff
Heaving (隆起) • The cold in winter will cause the permanently frozen subsoil to heave upwards • There is the growth of ice lenses/needles(冰晶狀體), water beneath the stones freeze faster than the surrounding silt
Water from the silt migrates to the crystals and begins to form an ice lens or perpendicular (垂直的) ice needles • Such growth can push the stone upwards,sorting soil material
Freeze and thaw action assists the flow of debris by solifuction (融凍泥流) • the meltwater cannot penetrate the permafrost,it mixes the semi-frozen mud and flow down the slope • The thawing of frozen ground can produce karst scenery(岩溶景色)
The intense contraction of the frozen ground produce a serious of cracks.These cracks may fill with water which freezes at depth to form an ice-wedge. Continue contraction and expansion may produce hexagonal pattern – stone polygon (石多邊形)
