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River Erosion and Transportation Processes
Quiz by Roisin Kidd
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River processes of erosion, transportation and deposition1. [Force] Part A: A student wants to test how friction affects a toy car. She rolls the car across a sheet of sandpaper and then across a sheet of wax paper. Which is the independent (changing) variable? A. The speed of the car B. The type of surface C. The distance traveled D. The size of the car Part B: On which surface will the car likely stop the SOONEST? A. The wax paper B. The sandpaper C. Both will be the same D. Neither surface has friction 2. [Magnets] Which of these is a measurable question for a magnet experiment? A. Are magnets more fun than springs? B. What is the prettiest color for a magnet? C. How many steel paperclips can a bar magnet lift? D. Why were magnets invented? 3. [Earth's Changes] A student observes a statue in a park that has lost its nose and has smooth edges after many years of rain and wind. What process caused this? A. Erosion B. Deposition C. Weathering D. Evaporation 4. [Earth's Changes] When a river reaches the ocean, it slows down and creates a landform called a delta by dropping sand and silt. This "dropping off" is called: A. Weathering B. Deposition C. Condensation D. Friction 5. [Resources] Why is coal considered a nonrenewable resource? A. It can be burned to make electricity. B. It is found deep underground. C. It takes millions of years to form and cannot be replaced quickly. D. It is made from ancient plants. 6. [Conservation] A school replaces all its old lightbulbs with energy-efficient LED bulbs. This is an example of: A. Weathering a resource B. Conserving a resource C. Deposition of energy D. Creating a renewable resource 7. [Aquifers] An aquifer is like a giant underground sponge. What characteristic of the rocks allows them to hold water? A. The rocks are solid and water-proof. B. The rocks are porous, with tiny spaces for water to sit. C. The rocks are magnetic and pull water toward them. D. The rocks are melted into a liquid state. 8. [Water Cycle] On a humid morning, you see dew on the grass even though it didn't rain overnight. Which part of the water cycle formed the dew? A. Evaporation B. Precipitation C. Condensation D. Transpiration 9. [Climate] Which of the following is a description of CLIMATE? A. "It is currently 85 degrees in McAllen." B. "There is a 40% chance of rain this afternoon." C. "South Texas typically has mild winters and very hot summers." D. "The wind is blowing from the North at 10 mph today." 10. [Weather/Climate] A scientist is looking at a chart that shows the total annual rainfall in a city from 1990 to 2020. What is the scientist most likely studying? A. The daily weather forecast B. The climate of the region C. The water cycle of a single pond D. The rate of erosion on a local hillRiver landforms caused by erosion and depositionSoils Southeast Asia, on balance, has a higher proportion of relatively fertile soils than most tropical regions, and soil erosion is less severe than elsewhere. Much of the region, however, is covered by tropical soils that generally are quite poor in nutrients. Often the profusion of plant life is more related to heat and moisture than to soil quality, even though these climatic conditions intensify both chemical weathering and the rate of bacterial action that usually improve soil fertility. Once the vegetation cover is removed, the supply of humus quickly disappears. In addition, the often heavy rainfall leaches the soils of their soluble nutrients, hastens erosion, and damages the soil texture. The leaching process in part results in laterites of reddish clay that contain hydroxides of iron and alumina. Laterite soils are common in parts of Myanmar, Thailand, and Vietnam and also occur in the islands of the Sunda Shelf, notably Borneo. The most fertile soils occur in regions of volcanic activity, where the ejecta is chemically alkaline or neutral. Such soils are found in parts of Sumatra and much of Java in Indonesia. The alluvial soils of the river valleys also are highly fertile and are intensively cultivated. Climate All of Southeast Asia falls within the warm, humid tropics, and its climate generally can be characterized as monsoonal (i.e., marked by wet and dry periods). Changing seasons are more associated with rainfall than with temperature variations. There is, however, a high degree of climatic complexity within the region. Temperatures Regional temperatures at or near sea level remain fairly constant throughout the year, although monthly averages tend to vary more with increasing latitude. Thus, with the exception of northern Vietnam, annual average temperatures are close to 80 °F (27 °C). Increasing elevation acts to decrease average temperatures, and such locations as the Cameron Highlands in peninsular Malaysia and Baguio in the Philippines have become popular tourist destinations in part because of their relatively cooler climates. Proximity to the sea also tends to moderate temperatures. Precipitation Much of Southeast Asia receives more than 60 inches (1,500 millimeters) of rainfall annually, and many areas commonly receive double and even triple that amount. The rainfall pattern is distinctly affected by two prevailing air currents: the northeast (or dry) monsoon and the southwest (or wet) monsoon. The northeast monsoon occurs roughly from November to March and brings relatively dry, cool air and little precipitation to the mainland. As the southwestward-flowing air passes over the warmer sea, it gradually warms and gathers moisture. Precipitation is especially heavy where the airstream is forced to rise over mountains or encounters a landmass. The east coast of peninsular Malaysia, the Philippines, and parts of eastern Indonesia receive the heaviest rains during this period. The southwest monsoon prevails from May to September, when the air current reverses and the dominant flow is to the northeast. The mainland receives the bulk of its rainfall during this period. Over much of the southern Malay Peninsula and insular Southeast Asia there is little or no prolonged dry season. This is especially marked in much of the equatorial region and along the east coast of the Philippines. While the dry and wet monsoons are important in explaining rainfall patterns, so too are such factors as relief, land and sea breezes, convectional overturning and cyclonic disturbances. These factors often are combined with monsoonal effects to produce highly variable rainfall patterns over relatively short distances. While many of the cyclonic disturbances produce only moderate rainfall, others mature into tropical stormsâcalled cyclones in the Indian Ocean and typhoons in the Pacificâthat bring heavy rains and destruction to the areas over which they pass. The Philippines are particularly affected by these storms. Plant life Tropical forests in Southeast Asia Tropical forests in Southeast Asia The seasonal nature and pattern of Southeast Asiaâs rainfall, as well as the regionâs physiography, have strongly affected the development of natural vegetation. The hot, humid climate and enormous variety of habitats have given rise to an abundance and diversity of vegetative forms unlike that in any other area of the world. Much of the natural vegetation has been modified by human action, although large areas of relatively untouched land still can be found. The vegetation can be grouped into two broad categories: the tropical-evergreen forests of the equatorial lowlands and the open type of tropical-deciduous, or âmonsoon,â forests in areas of seasonal drought. The evergreen forests are characterized by multiple stories of vegetation, consisting of a variety of trees and plants. Although a large diversity of tree species is found in these forests, members of the Dipterocarpaceae family account for roughly half of the varieties. Deciduous forests are found in eastern Indonesia and those parts of the mainland where annual rainfall does not exceed 80 inches. Just as in the equatorial forest, a wide variety of species is normally the rule. Certain species, such as teak, have become highly valued commercially. Teak is found in parts of Indonesia, Myanmar, Thailand, and Laos. In addition to these two basic types of vegetation, other regional patterns reflect topography. Especially noteworthy are coastal and highland plant communities. Mangrove belts, of which there are more than 30 varieties, occur where silt is deposited in coastal areas. Upland forests dominated by maples, oaks, and magnolias are found especially on mainland mountain slopes. Human activity has been rapidly altering the stands of virgin forest in Southeast Asia. Most deforestation results from removal for fuelwood and clearing for agriculture and grazing. Although only a relatively small portion of the total land area has been permanently cleared for cultivationâe.g., in Java (Indonesia) and western Luzon (the Philippines)âin some areas shifting cultivation has brought about the replacement of virgin forest with secondary growth. In addition, nearly all countries have commercial logging industries; notable are those in Indonesia, Malaysia, Thailand, and Myanmar. A growing problem has been illegal logging. Thus, timber harvesting has come to contribute significantly to deforestation. Programs in social forestry and reforestation have yet to halt the rapid denuding of the landscape. Animal life Southeast Asia is situated where two major divisions of the worldâs fauna meet. The region itself constitutes the eastern half of what is called the Oriental, or Indian, zoogeographic region (part of the much larger realm of Megagaea). Bordering along the south and east is the Australian zoogeographic region, and the eastern portion of insular Southeast AsiaâCelebes (Sulawesi), the Moluccas, and the Lesser Sunda Islandsâconstitutes a transition zone between these two faunal regions. a classroom in Brazil More From Britannica education: Southeast Asia Southeast Asia is notable, therefore, for a considerable diversity of wildlife throughout the region. These differences are especially striking between the species of the eastern and western fringes as well as between those of the archipelagic south and the mainland north. The differences stem largely from the isolation, over varying lengths of geologic time, of species following their migration from the Asian continent. In addition, the tropical rain forests in many parts of the region, with their great diversity of vegetation, have made possible the development of complex communities of animals that fill specialized ecological niches. Especially numerous are arboreal and flying creatures. orangutans orangutansOrangutans (Pongo pygmaeus) in Sumatra, Indonesia. The distinction between the two faunal regions is best depicted by their mammal populations. In general, Australia is inhabited largely by marsupials (pouched mammals) and monotremes (egg-laying mammals), while Southeast Asia contains placental mammals and such hybrid species as the bandicoot of eastern Indonesia. Small mammals such as monkeys and shrews are the most numerous, while in many areas the larger mammals have been pushed into more remote areas and national preserves. Bears, gibbons, elephants, deer, civets, and pigs are found in both mainland and insular Southeast Asia, as are diminishing numbers of tigers. The Malayan tapir, a relative of the rhinoceros, is native to the Malay Peninsula and Sumatra, while the tarsier is found in the Philippines and parts of Indonesia. A number of rare endemic species are found in Indonesia and East (insular) Malaysia, including the Sumatran and Javan rhinoceros, the orangutan, the anoa (a dwarf buffalo), the babirusa (a wild swine), and the palm civet. As the pace of development accelerates and populations continue to expand in Southeast Asia, concern has increased regarding the impact of human activity on the regionâs environment. A significant portion of Southeast Asia, however, has not changed greatly and remains an unaltered home to wildlife. The nations of the region, with only few exceptions, have become aware of the need to maintain forest cover not only to prevent soil erosion but to preserve the diversity of flora and fauna. Indonesia, for example, has created an extensive system of national parks and preserves for this purpose. Even so, such species as the Javan rhinoceros face extinction, with only a handful of the animals remaining in western Java 1 .Sand soil ⢠Has course/ large particles ⢠they are larger than those of clay ⢠Loses water quickly ⢠Has less organic matter ⢠Has good aeration ⢠Allows good root penetration ⢠Leaching of nutrients is more in sand soil. ⢠Does not stick when wet 2. Clay soil ⢠Has very fine particles which are closely packed ⢠The soil is sticky when wet and can be moulded into any shape ⢠It holds more water than sand and loam ⢠It has poor drainage ⢠It cracks when dry ⢠It has poor aeration ⢠It does not allow good root penetration 2 .Loam soil ⢠Is a mixture of sand and clay particles ⢠It half clay half sand ⢠It can be easily moulded into a shape but easily crumbles ⢠Holds water for a longer time than sand ⢠It sticks on the hands when wet ⢠It has good drainage ⢠It has good aeration ⢠It allows good root penetration ⢠Loam is the best soil Soil Fertility ⢠When soil has enough plant nutrients it is fertile ⢠Soil fertility is the presence of nutrients in the soil ⢠A farmer can add nutrients to the soil to make it fertile ⢠This is done by applying fertilizers and compost.â ⢠A fertiliser is a substance that is added to the soil to increase fertility ⢠Nutrients found in the soil include Nitrogen, Phosphorus and Potassium ( NPK ) ⢠They are called major nutrients or macro nutrients because they are needed in large quantities â Minor nutrients ⢠Minor nutrients are needed in smaller quantities ⢠Minor nutrients are also called micro nutrients or trace elements ⢠Examples of minor nutrients are boron, iron, zinc, manganese, magnesium and molybdenum Soil erosion ⢠Is the washing away of top soil by agents such as ďźWater ďźWind ďźAnimals ďźHumans 1. Water: ⢠Water washes away soil when it rains. ⢠Loose soil is washed away into dams and rivers. ⢠Steep slopes also lead to soil erosion. ⢠Ploughing 2 . Wind ⢠The blowing away of soil by wind causes soil erosion. ⢠When people cut down trees wind erosion easily takes place. ⢠Type of soil also leads to wind erosion. ďśWhich soil type is easily eroded by wind? 3 . Animals ⢠Animal cause soil erosion by overgrazing. ⢠Overgrazing is when animals eat plant or vegetation leaving the ground surface bare. ⢠Animals walking on the same pathway for a long time make the soil loose. ⢠Animals that live underground also burrow loosening the soil. ⢠This makes soil break easily and get washed away. WATER WATER CONSERVATION Water ⢠Water is important in agriculture ⢠It is used to: ďśClean farm tools ďśMould bricks ďśWash milking equipment ďśCool machines ďśProvide homes(habitat) for fish ďśGive animals drinking and bathing water Sources of Water Natural sources 1. Natural rains: ⢠rain water from the clouds is a primary source of water. ⢠It is used to water crops such as maize, millet, sorghum and so on during the rainy season. ⢠Rain water that collects into the rivers and dams is used by animals and people for drinking. 2 . Rivers : ⢠Rivers are some of the major sources of water for different activities such as fishing, boat cruising and irrigation. 3 . Streams : ⢠A stream is a small river. ⢠Streams supply water for irrigating garden crops especially in rural areas. ⢠They are also a source of water for animals to drink and bath. Sources of Water 4 . Springs : ⢠Springs are usually found on hilly areas. ⢠They result from pressure of underground streams. ⢠The pressure forces water underground to form a channel to the surface of the soil and flow above the ground. Sources of Water Man made sources ďśMan discovered that water for agriculture was not enough during the rain and cool dry seasons. ďśThey decided to make structures which would harvest or collect and store water for future use. 1.Protected well: ⢠Wells are dug in the ground by hand. ⢠They are often lined with bricks and concrete so that they do not cave in. ⢠Protected wells are covered, therefore are safe to drink from. 2 . borehole : ⢠They are deep holes made by drilling machines. ⢠Drilling can be done up to 70 metres deep. ⢠Water is pumped using an electric pump or hand pump. Sources of Water 3 . Dams : ⢠A dam is a large wall or barrier built to hold water to save it for future use. 4 . Weir : ⢠A weir is made by construction a cement brick wall or concrete wall across a river to trap water and eroded soil. ⢠water flows over the wall when the river is inflood. 5 .Water tank : ⢠Is a temporary manmade water source. ⢠Water from a water tank is usually harvested from roof tops or it works along a borehole or protected well as temporary storage. ⢠Water is pumped from the borehole or protected well into the water tank. 6 . reservoir : ⢠A large natural or manmade lake used as a source of water. PLANTS Uses of plants ⢠Fibre for making clothes ⢠Oil for cooking, making paint and chemicals ⢠Sugar for tea ⢠Wood for timber ⢠Refreshing drinks and alcohol ⢠Food for people and animals ⢠Protect the soil from erosion ⢠Plants supply us with fresh oxygen for breathing. ⢠Some plant parts are used as medicine. CONTENT A disaster is a sad event that happens suddenly. A disaster can come from nature or by accident. Natural disaster is disaster caused by nature. They are not caused by manâs carelessness. The following are examples of natural disaster: i) Earthquakes ii) Floods iii) Tornadoes iv) Windstorms v) Volcanoes vi) Erosion vii) Tsunami viii) Thunderstorm. BAD EFFECTS OF NATURAL DISASTER ARE AS FOLLOWS: i) Loss of human lives. ii) Loss of animal lives. iii) Damages to building iv)Damages to roads and bridges v) Pollution of land, air and water. vi)Destruction of electric poles and cables. WAYS OF CONTROLLING NATURAL DISASTER ARE: i) Building houses far away from rivers. ii) Thunder- catchers should be used in areas where thunder and lightning are common. iii) Planting of trees around our houses. iv) By not throwing refuse into gutters because this causes flooding.There are slow changes to the surface of Earth that can take millions of years. Weathering is the breaking up of rock. Plant roots grow in the cracks of rocks. The roots can break the rocks into pieces. Water and ice can also break rocks into pieces. Erosion happens when soil, sand, and small bits of a rock are removed. Rain, snow, and wind cause erosion. People and animals can erode rock and dirt on a mountain when they walk on it. Crosscutting Concepts > Toolbox Stability and Change Tell how erosion is different from on earthquake. Tell how e it is r similar. " Deposition happens when wind and water , and small bits of rock in new place. Rivers drop most of these materials at deltas. These are places where ow i cean.Create a multiple choice quiz with the following information: Earthâs Sphere Everything on Earth can be placed into one of four major subsystems: land, water, living things, and air. These four subsystems are called "spheres." Specifically, they are the "geosphere" (land), "hydrosphere" (water), "biosphere" (living things), and "atmosphere" (air). Geosphere All the rock, soil and sediments that makeup Earthâs land. It comes from the word âGeoâ which means âEarth.â Hydrosphere All the oceans, rivers, lakes and water on Earth. It comes from the word âHydroâ which means âwater.â Atmosphere All the gasses surrounding the earth. It comes from the word âAtmosâ which means âair.â Biosphere All the living things on Earth. It comes from the word âBioâ which means âlife.â Interact act in such a way as to have an effect on another; Freshwater naturally occurring water that is not salty, and is suitable for consumption if clean or processed. Groundwater water held underground in the soil or in pores and crevices in rock Recycling To reuse something that would have otherwise been thrown out or to turn it into something usable again instead of sending it to a landfill. Erosion After pieces of the earth are broken down through weathering, those pieces are moved through Erosion. Erosion is the process of moving things from one place to another. Mushroom Rocks Naturally occurring rocks that look like a mushroom. They can be formed when sand gets carried by wind and hits the rock. This weathers the bottom of the rock more than the top. Dry Ice A solid form of carbon dioxide that is very cold and turns directly from a solid to a gas.