Contents 1 The ResTless eaRTh 5 2 Rocks, ResouRces and sceneRy 25 3 challenGe of WeaTheR and climaTe 43 4 livinG WoRld 61 5 WaTeR on The land 79 6 ice on The land 99 7 The coasTal Zone 115 8 populaTion chanGe 133 9 chanGinG uRban enviRonmenTs 153 10 chanGinG RuRal enviRonmenTs 173 11 The developmenT Gap 193 12 GlobalisaTion 213 13 TouRism 233 exam café 253 GRade sTudio 256 GlossaRy 259 index 262 1 y h p a R o e G e s c G G n di n a T s R e d n u 2 Chapter 1 The Restless Earth Plymouth, island of Montserrat in the Caribbean, was destroyed by the massive eruption of the Soufrière Hills volcano in 1997. Ten years on and the volcano still erupts from time to time. Why could this not happen in Plymouth, UK? 1 h T R a e s s e l T s e R e h T Questions • Why are plate margins so important – for landforms and people? • Why do high fold mountain ranges, active volcanoes and main earthquake zones hug plate margins? • How can the risks to life and property be reduced in countries located on plate margins? Does it matter whether they are rich or poor? • Why are people in countries away from plate margins not completely safe? Remember the Asian tsunami of 2006? What could happen if a super volcano were to blow its top? The Earth’s crust is unstable What happens at different plate margins? We live on a thin skin of cool rock - the crust (Figure 1). Crust At the centre of the Earth is the core surrounded by a large mass of molten rock called the mantle. There are two main Mantle types of crust: oceanic crust which is denser and about five Core kilometres thick and continental crust which is lighter but 30 or more kilometres thick. The Earth’s crust is not one continuous layer but is made up of seven large tectonic plates and many smaller ones. Figure 2 shows the distribution of the main tectonic plates. The Earth’s crust is unstable because the plates are moving in response to rising hot currents called convection currents within the mantle. The movement of the plates has greatest impact at the plate margins, where two tectonic plates meet. The centres of the plates, away from the margins, tend to be stable and away from major tectonic activity. How far away is the UK from the nearest plate margin? Figure 1 The structure of the Earth. Plates may move apart, or closer together, or slide past each other. These movements lead to earthquakes and the 1 oceanic crust sinks into the mantle where formation of fold mountains and volcanoes. it melts in the subduction zone, an y h destructive plate margins oceanic trench. Energy builds up in the p Ra subduction zone – at certain times this mCaliyen t: Heinemann o Plates move together. Figure 3 shows what happens. The e be released as an earthquake. The moltenJo b No: J6644 G se Nazca plate is made of oceanic crust which is denser than rock, called magma, may rise upwards, FAirgtw Noork: SB3y5 H1l7 S10tu_daiows_193 c the continental crust of the South American plate. The Nazca G causing volcanic eruptions and leading G plate is forced to sink below the South American plate. The din to the creation of composite volcanoes. n a T s R e d n u Eurasian Plate North American Plate N CaPrilbabteean APfrlaictaen Arabian Plate hilippin ePlate P Pacific Plate South American Indo-Australian 0 1000 Miles Nazca Plate Plate Plate 0 2000 Kilometres Key Plate margins Antarctic Plate Direction of plate movement Figure 2 Earth’s tectonic plates. 4 The lighter continental crust stays at the surface but sediment becomes crumpled into fold mountains. The Andes are the fold mountains that have formed along the west coast of South America. Fold mountains (Andes) W E Pacific Ocean Volcano Approx. Rising magma depth (km) Ocean trench 0 10 Nazca Plate South American Plate 20 Subduction zone Earthquake focus Figure 3 A destructive plate margin. Figure 5 The San Andreas fault, which passes through the constructive plate margins San Francisco Bay where 7 million people live. Some plates, like the North American and Eurasian plates, are moving in opposite directions, away from Activities each other. This type of movement mostly happens under the oceans. As the plates move apart the gap is Cl1ie n(t:a H) eWinehmaat nanre the differences between (i) plates made filled by magma rising up from the mantle below. The Job No: J6644 of oceanic and continental crust (ii) destructive rising magma creates shield volcanoes which, if they Fig No: S351710_aw_195 Artwork Bay nHdl Sctoundisotsructive margins? 1 become high enough, form volcanic islands, such as (b) How is a conservative margin different? Iceland. So much magma is poured out that ridges are built up from the sea bed, like the Mid-Atlantic ridge 2 Copy and complete a table like the one below: h T R shown in Figure 4, upon which Iceland is located. a e Type of Examples Features Example s s plate margin of plates produced country/area e l T s e R e W Mid-Atlantic Volcanic island E h T Ridge (e.g. Iceland) Approx. 3 Study Figure 2. depth (km) (a) What does it show about the likelihood of 0 North tectonic activity in the UK? American Eurasian (b) Tectonic activity in Europe is concentrated in Plate Plate 10 Iceland and southern Italy. State one tectonic similarity and one difference between Iceland and Rising magma 20 Italy. 4 Scientists warn that San Francisco is more than 60 Figure 4 A constructive plate margin. per cent likely to experience a damaging earthquake by 2038. Why? conservative plate margins At the San Andreas fault in California, the North exAm prepArAtion American plate and the Pacific plate are sliding past each other. They are moving in the same direction TracCe litehnet: mHeainine mpalantne margins in Figure 2. Keep it at hand but the North American plate is moving slightly for uJsoeb wNoh:e Jn6 6s4t4udying: faster. Pressure builds up along the fault until one Fig No: S351710_aw_196 • Fold mountains plate jerks past the other, causing an earthquake. Artwork By Hl Studios • Volcanoes The movement has also caused the land to become • Earthquakes. ridged and crumpled, as shown in Figure 5. 5 Landforms at plate margins – Fold mountains and ocean trenches Highest mountain 8848m. Deepest ocean 11 022m. How can tectonic activity explain both? Roc ki e s Alps Pyrenees Caucasus Himala y a s N Atlas 0 1000 Miles An d e 0 2000 Kilometres s Key Young fold mountains Ocean trenches 1 Mount Everest Mariana trench y h Figure 1 The world distribution of young fold mountains and ocean trenches. p a R o e G fold mountains se A Geosyncline Rivers carry Gc Young fold mountains are found in many parts of the world Rivers sediment G din (Figure 1) and a glance back at Figure 2 on page 6 shows Plates Plates an that they form along the plate margins where great Earth Sea Sediment sT movements have taken place. Client:a Hcceuinmeumlaatnens eR Job Noo:n J t7h3e3 6sea bed d n Figure 2 shows the formation of fold mountains. There Fig No: 045353308_aw_1.5 u Artwork By Hl Studios were long periods of quiet between Earth movements during which sedimentary rocks, thousands of metres thick, B Geosyncline filled with sediments compressed formed in huge depressions called geosynclines. Rivers into rock carried sediments and deposited them into the depressions. Over millions of years the sediments were compressed into Plate Plate sedimentary rocks such as sandstone and limestone. These movement movement Compression sedimentary rocks were then forced upwards into a series of folds by the movement of the tectonic plates. Sometimes the folds were simple upfolds (anticlines) and downfolds Sediments folded (synclines), as shown in Figure 3. In some places the folds C into fold mountains were pushed over on one side, giving overfolds. Fold mountains have been formed at times in the Earth’s geological history called mountain-building periods. Recent Continued compression mountain-building movements have created the Alps, the from plate movement Himalayas, the Rockies and the Andes, some of which are still rising. For this reason many of these ranges are called Figure 2 The formation of fold mountains. young fold mountains. 6 Client: Heinemann Job No: J6644 Fig No: S351710_aw_198 Artwork By Hl Studios Simple folds Anticline Syncline possibilities for human use Simple folds Overfolds Anticline Ocean trenches are inaccessible to humans. The Syncline ocean area of greatest importance is the continental shelf, the shallow zone less than 200 metres deep off the coast. The main opportunities here are for fishing and drilling for oil and gas. Figure 3 Types of folds. On land, most high fold mountains are places with Overfolds low densities of population. Physical problems can be formidable: • Relief – mainly high and steep. Rock outcrops are frequent and many mountain valleys are narrow and gorge-like. There is little flat land for farming and building settlements. • Climate – with increasing heigChliet nitt: bHeecinoemmaensn colder, windier and wetter, anJdo bm Noor:e J 6o6f4 t4he Fig No: S351710_aw_199 precipitation falls as snow. The growing season is Artwork By Hl Studios short and it is often impossible to grow crops at high levels. • Soils – mountain soils are typically stony, thin and Figure 4 Evidence of folding can be seen where layers of rock are infertile. exposed. • AcceCsliseinbt:i lHiteyin –e mroanands and railways are expensive and Jdoibf fiNcou: Jlt6 6to44 build; travel on them is frequently ocean trenches Fig No: S351710_aw_199 disrupted by rock falls, avalanches and bad Notice from Figure 1 that the majority of ocean Artwork By Hl Studios 1 weather. High mountains in inland locations, such trenches are located around the sides of the Pacific as the Himalayas, are the least accessible of all. Ocean. Take another look at Figure 2 on page 6 h There are exceptions. Parts of the Andes are well T R – with which type of plate margin are the ocean a settled. Countries such as Chile, Bolivia and Peru e trenches associated? s are rich in mineral resources including copper, tin, es l The subduction zone is an ocean trench (Figure silver and gold. Volcanic soils can be very fertile sT e 3 on page 7). One wall is formed by subducted (pages 14–15). R e h ocean plate (the Nazca plate in this Figure), the T other by the overriding continental plate (the South Activities American plate). These ocean trenches are very deep, typically 5000-10 000 metres. 1 Study Figure 1. (a) Describe the two main directions in which ranges Figure 5 The Earth’s surface from of young fold mountains are aligned. highest to lowest. (b) For one range of fold mountains, name the two tectonic plates responsible for its formation. Mount Everest 8848m (c) Explain why fold mountains are formed along destructive plate margins. 2 Draw a simple labelled sketch to show the evidence that the mountains in Figure 4 are fold mountains. Island arc Sea Continental shelf (e.g. Philippines) 3 Describe how tectonic activity explains the big 0 Level difference between highest and lowest. Further reseArch Mariana Calculate the height difference between the highest trench mountain and lowest ocean on Earth. Check on the 11 022m companion website. 7 Client: Heinemann Job No: J7336 Fig No: 045353308_aw_1.8 Artwork By Hl Studios CasE sTudy The alps Case study of a range of fold mountains – The alps The Alps were formed about 35 million years ago 1. farming and forestry by the African plate pushing north against the Most farms are located on the sunnier and warmer Eurasian plate. As it moved, sediments which had south-facing slopes. The traditional pattern of farming accumulated in the sea of Tethys (the geosyncline is dairy farming using a system called transhumance, between the plate) were squeezed upwards to form a the seasonal movement of animals. In summer the fold mountain range. Today the Alps form the border cattle are taken up to the high Alp to graze, which between Italy and the neighbouring countries of allows hay and other fodder crops to be grown on the France, Switzerland, Austria and Slovenia. The small fields on the flat land in the valley floor. Here highest peak is Mont Blanc near the Franco-Italian summers are warmest and soils are deepest and most border at 4810 metres, but there are many other fertile. In winter the animals return to the farm on peaks above 3800 metres (Figure 1 on page 102). the valley floor, where they are kept in cattle sheds From above, the Alps look like a wasteland of rock, and stall-fed on the fodder crops grown in summer. ice and snow: only the valleys give a hint that human settlement may be possible (Figure 1). Over the years there have been many changes to this traditional system of farming. human activities in the alps • Cable cars (built for skiers and tourists) are now These vary according to height, which creates used to bring milk to the co-operative dairies vertical zones of land use. Figure 2 summarizes down on the valley floor. In the past the farmers typical land uses in an Alpine valley. Many Alpine stayed with the cattle all summer and turned valleys are aligned west to east so that better the milk into butter and cheese (which keep for opportunities for settlement, farming and other longer) on the high Alp. economic activities are created on sunny south- • Farmers buy in additional feedstuffs, so that they facing slopes. Land uses are less varied on more and their cattle can stay on the valley floor farm shaded north-facing slopes. all year. S N Rocky peaks Snowfields high alp Village/small Winter ski town Glaciers resorts Winter ski Summer pastures slopes Summer Snow line Coniferous forest grazing <insert figure 2 from previous book Railway Cultivated fields – same size but with changes as indi- for crops in summer cateTdun>nel Farming and Figure 1 Aerial view over the Alpine settlement fold mountain range. Figure 2 Land use and human activities in an Alpine valley. 8 Client: Heinemann Job No: J7336 Fig No: 045353308_aw_1.9 Artwork By Hl Studioss 3. hydro-electric power (hep) and industry The steep slopes, high precipitation and summer melting of the glaciers produce fast- flowing rivers that are ideal for generating HEP. The narrow valleys are easy to dam and there are lakes in which to store water. Some of the cheap HEP is used by industries which require a high input of electricity, such as sawmills, electrochemicals, fertilizer manufacture and aluminium smelting. Some of the electricity is also exported to other regions to supply towns and cities. how do human activities in the alps compare with other fold mountains? The Alps are not mineral-rich like the Andes. However, compared with most Figure 3 Alpine view – the Jungfrau region of the other fold mountain ranges, Alpine areas Lauterbrunnen valley in Switzerland. are well populated. Because the countries are rich, they have the money and Coniferous trees cover many of the slopes, especially north- technology to overcome high mountain facing ones. Wood, as a plentiful local resource, has always transport problems. Modern road tunnels, been the main building material and winter fuel in Alpine such as the St Bernard and Mont Blanc lands. Most sawmills are located on the valley floors near to 1 have replaced old routes over the high rivers; timber that cannot be used for construction is made into passes. Many electrified railways link the pulp and paper. s Alpine valleys to the cities; rail tunnels p l a 2. Tourism under the Alps include the Brenner and St he T Bernard. Mountain cog railways, cable cars – The Alps have physical advantages for tourism all year round, y and chair lifts link the valley floors to high d attracting skiers, climbers and walkers as well as those who level benches and ski slopes above them. sTu simply want to admire the spectacular scenery. These activities e s a are a major industry. Activities c A For winter tourism (examples of resorts are St Moritz, 1 Study Figures 1, 2 and 3. Chamonix): (a) List the problems for (i) settlement • snow for skiing and other winter sports; in between the (ii) farming (iii) transport in the Alps. days with heavy snowfall are many sunny, crisp and (b) Describe the attractions of the Alps for clear days tourism. • flatter land on the high-level benches for easy building of (c) Explain why most human activities in the hotels, restaurants, ski-lifts and other facilities Alps are concentrated on valley floors. • steep slopes above the resorts for ski runs amid great 2 How have people tried to reduce the mountain views. problems B For summer tourism (examples of resorts are Interlaken and (a) in farming (b) for transport? Garda): 3 Using Figure 2 on page 8 and information • large glacial lakes on valley floors about the Alps, draw labelled diagrams to • beautiful mountain scenery with snow-capped peaks. show how the Alps were formed. The main worry is that Alpine winters are warming up and becoming less snowy than they used to be. More people Further reseArch are skiing on worn slopes, damaging the vegetation and the surface below and thereby increasing the number of bare Find out about the Andes on the companion surfaces and the risk of soil erosion on steep slopes. website. 9 Landforms at plate margins – Volcanoes and supervolcanoes Where are active volcanoes found? Why are not all volcanoes the same? What is different about supervolcanoes? Iceland Rock i e s Mount Yellowstone St Helens Mount Etna Hawaii N Montserrat El Chichon Lake Toba 0 1000 Miles Krakatoa 0 2000 Kilometres 1 Key Main active volcanoes y ph Supervolcanoes a R o Figure 1 World distribution of active volcanoes. e G e s A volcano is a cone-shaped mountain formed by eruption and the form (height and shape) of the c G G surface eruptions from a magma chamber inside volcanic cone produced. These differences are n Client: Heinemann ndi the Earth. The magma that reaches the surface in shown in Figure 3. Basically Jtohbe N doi: vJ7is3i3o6n is between a an eruption is called lava, and is one of the many volcanoes formed along constFriug cNtoi:v 0e4 5p3l5a3t3e0 8m_aawr_g1i.n10s T Rs different products that can be thrown out, including and along destructive marginsA,r tbweorcka Buys Hel Sotfu dthioes e d n ash, cinders, pumice, dust, gases and steam. The different types of lava emitted. Along constructive u world distribution of active volcanoes (Figure 1) margins the basic lava that has come from within shows an almost perfect fit with the locations of the the mantle has a low silica content: it pours out tectonic plate margins (see Figure 2 on page 6). easily, is runny and flows long distances, building up shield volcanoes. However, along destructive margins how are volcanoes formed? the acid lava has a high silica content, which makes it more viscous so that it travels shorter distances Volcanoes form where magma escapes through a before cooling; these are more explosive volcanoes. vent, which is a fracture or crack in the Earth’s crust. After an eruption the vent becomes blocked, which This happens most often at plate margins. Lava and results in great pressure building up before the next other products are thrown out from the circular hole eruption. During explosive eruptions lava is shattered at the top called the crater. Each time an eruption into pieces so that bombs, ash and dust are showered takes place, a new layer of lava is added to the over a wide area. surface of the volcano; since more accumulates closer to the crater during every eruption, a mountain that is cone-shaped is formed (Figure 2). Figure 2 The Osorno volcano different types of volcanoes in Chile, an almost perfect cone shape. Volcanoes are divided into two main types, Last eruption 1869. depending upon the material thrown out in an 10