Water Cycles Flashcards

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1
Q

What is the global water budget?

A
  • The largest store is the Ocean with 97% of all water
  • 2.5% of all water is freshwater, of which 69% is glaciers, ice caps, ice sheets and 30% is groundwater
  • Surface and other freshwater is 1% of stores which is permafrost, lakes, swamps, marshes etc.
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2
Q

What is the hydrology like in polar regions?

A
  • 85% of solar radiation is reflected
  • Permafrost creates impermeable surfaces
  • Lakes and rivers freeze
  • Rapid runoff in spring
  • Seasonal release of biogenic gas into atmosphere
  • Orographic and frontal precipitation
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3
Q

What is the hydrology like in tropical regions?

A
  • Dense vegetation consuming 75% of precipitation
  • Limited infiltration
  • Deforestation leads to less evapotranspiration and precipitation
  • Very high temperatures and humidity causing convectional rainfall
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4
Q

What is a drainage basin?

A
  • An open subsystem operating within the closed global hydrological cycle
  • An area of land drained by a river and tributaries with a boundary known as a watershed usually a hill or mountains
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5
Q

What is the difference between open and closed systems?

A
  • Closed systems, a system that has no inputs or outputs, only throughputs
  • Open Systems, a system of inputs, outputs and throughputs
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6
Q

What is precipitation and how does it act as an input to drainage basin’s?

A
  • Caused by the cooling and condensation of evaporated water vapour in the atmosphere formed of clouds
  • When condensed, it is released as rain, snow, hail, sleet etc.
  • Primary factors influencing volume of precipitation include seasonality, variability and latitude
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7
Q

What are the different fluxes within a drainage basin?

A
  • Due to gravity and rely on the relief of the land
  • Interception
  • Infiltration
  • Surface runoff
  • Throughflow
  • Percolation
  • Groundwater flow
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8
Q

What is interception?

A
  • Intervention of plant’s leaves changing the direction or temporarily stopping water form reaching the ground
  • Varies depending on the type of vegetation
  • Water trapped on leaves is known as interception store which is the greatest at the start of storms
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9
Q

What is infiltration?

A
  • Movement of water from the ground into the soil
  • The infiltration capacity is the max amount of infiltration that can take place which can be affected by

Soil composition - Sandy soils are more porous than clay ones

Previous Precipitation - Saturation will reduce infiltration and increase the surface runoff

Type and amount of vegetation - Deep root growth can stop infiltration

Relief of land - Sloped land will encourage

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10
Q

What is surface runoff?

A
  • Water flows overland rather than infiltrating the ground
  • Occurs when the gradient of land is greater
  • Primary transfer of water to river transfers
  • Moderate/fast
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11
Q

What is throughflow?

A
  • Water flows through the soil into streams and rivers
  • Speed is dependent on the type of soil
  • Clay soils with smaller pore spaces have a slower flow rate
  • Sandy soils drain faster due to larger pore spaces and natural channels due to worms etc.
  • Moderate/fast
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12
Q

What is percolation?

A
  • Water moves from the ground and soil into porous rock and rock faults such as bedrock and aquifers
  • Percolation rate depends on the fractures or the permeability of the rock
  • Slow
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13
Q

What is groundwater flow?

A
  • Gradual transfer of water through porous rock due to gravity
  • Water can become trapped long term in the deepest layers of bedrock creating water stores such as aquifers for the drainage basin
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14
Q

What outputs are there for the drainage basin system?

A
  • Evaporation
  • Transpiration
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15
Q

What is transpiration?

A
  • Direct loss of water from the water source, interception storage and soil moisture into the atmosphere
  • Rates increase when it’s warmer, windier or drier

Other factors influencing the rate of evaporation:

  • Volume and surface area of the water body
  • Vegetation cover or buildings surrounding water
  • Colour of surface beneath the water, black will absorb, white will reflect
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16
Q

What stores are there in a drainage basin?

A
  • Soil water, used by plants ,mid term
  • Groundwater, stored in the pores of water, loong term
  • River channel, stored in rivers, short term
  • Interception, stored on the leaves and branches of plants, short term
  • Surface storage, puddles, ponds, lakes etc. Variable
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17
Q

What is a water table?

A
  • Upper level of pore spaces and fractures become saturated
  • Used by researches to assess levels of drought, health of wetlands success of restoration programmes etc.
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18
Q

What are some physical factors influencing drainage basins?

A
  • Climate, Amount of rainfall and vegetation growth
  • Soil composition, Amount of composition, throughflow and infiltration
  • Geology, affects percolation and groundwater flow
  • Relief, Steeper gradients of land influence amount of groundwater flow and infiltration
  • Vegetation, Affects interception and overland flow
  • Size, larger basins collect more precipitation
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19
Q

What are some anthropogenic factors influencing drainage basin?

A
  • Deforestation/afforestation, affects infiltration, interception, overland flow and evapotranspiration meaning more or less flooding
  • Changes in land use Converting
    land to farmland means less interception, increased soil compaction and more surface runoff
  • Urbanisation, impermeable surfaces reduce infiltration, and increases surface runoff and river discharge
  • Ground water abstraction, water table drops due to water being taken out faster than its being replenished
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20
Q

What is a water budget?

A
  • Measures the difference between the input and output of water in an open system
  • January, precipitation is greater than evaporation creating a soil moisture surplus
  • June, temperature increases so does evaporation and the soil moisture surplus is used through soil moisture utilisation
  • August, Maximum amount of evaporation and biggest risk of drought
  • September, precipitation increases but soil moisture deficit due to amount of evaporation in August
  • October-December, soil moisture recharge occurs as precipitation exceeds evaporation
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21
Q

What is a river regime?

A
  • Annual variation of river discharge
  • Most water isn’t from precipitation but from steady groundwater flow
  • Seasonality variation caused by glacial meltwater, snowmelt or monsoons causing sudden fluctuations
  • Larger rivers have more complex regimes due to spanning across multiple reliefs and climactic zones such as the Mississippi river
22
Q

What factors influence a river’s regime?

A
  • Channel capacity of the river
  • Area and relief of the drainage basin
  • Volume, pattern and intensity of precipitation
  • Climate
  • Geology of soil
  • Anthropogenic activities such as dam building or terracing
23
Q

What is a storm hydrograph?

A
  • Represent that variation of discharge in a short period (a few days)
  • Before storm, main inputs into a river are groundwater flow or base flow
  • After/during a storm, main inputs are infiltration and surface runoff increasing throughflow
24
Q

What are some features of a storm hydrograph?

A
  • Rising limb, increase of river discharge
  • Peak flow, maximum discharge, delayed after maximum precipitation has occurred
  • Lag time, time delay between peak rainfall and peak discharge
  • Base flow, discharge returns to its normal level
25
Q

What are some sustainable methods of managing drainage basins?

A
  • Growing vegetation on roofs to increase interception and temporarily increase green water
  • Create permeable pavements, to increase infiltration and reduce surface runoff
  • Rainwater harvesting, Collecting greywater to use as domestic water
  • Create wetlands, act as natural temporary soil moisture storage
26
Q

What are some anthropogenic impacts on drainage basins?

A
  • Deforestation, soil becomes exposed as roots and trees are lost which binded the soil together leading to soil erosion and more surface runoff
  • Impermeable soils, less infiltration on topsoil increasing surface runoff
  • Bridges can act as dams reducing river discharge increasing the impacts and chance of flooding
  • Drainage and sewer systems reduce lag times, therefore refreshing rivers faster, increasing the risk of flash floods
27
Q

What are the different types of droughts?

A
  • Meteorological drought, low precipitation
  • Hydrological drought, reduced stores in river, lakes etc.
  • Agricultural drought, Lack of soil moisture leading to reduced growth of crops
  • Socioeconomic drought, widespread lack of water to supply commercial demand of water
28
Q

What is an el Nino event?

A
  • Change of water body patterns in the southern hemisphere causing unusual weather patterns
  • Warm water found in Peru and cool water in Australia
  • Occurs every 3-7 years lasting 18 months
  • Can trigger extreme conditions in South-East Asia, Eastern Australia and North-East Brazil. In South Asia, ENSO can weaken the
    annual monsoon.W
29
Q

What is a wetland?

A
  • Act as temporary water stores reducing risk of floods after sudden storm discharge
  • Trap and recycle nutrients and pollutants maintaining quality of the river
  • High biological productivity and have very diverse food webs
30
Q

What value do wetlands have?

A
  • Supporting life, Stores and flows of carbon and nutrient recycling
  • Provision of resources, Fuelwood, fisheries, mammals and birds for tourism
  • Regulating conditions, Regular supply of groundwater for the water, Water purification and reduced flood risk
31
Q

How do meteorological droughts impact wetlands?

A
  • reduced interception due to
    less precipitation will cause vegetation to wilt and die, which in turn impacts soil nutrients levels and the rest of the complex food web.
32
Q

What are the physical causes of precipitation?

A
  • Low precipitation, vegetation dies removing the protective layer for the soil increasing soil erosion increasing the positive feedback loop of soil erosion and vegetation death
  • Global warming, Increase in temperature increases evaporation reducing precipitation stunting plant growth causing desertification

-

33
Q

What are the anthropogenic causes of desertification?

A
  • Population growth, increases demand for food, water and other resources and agricultural methods change to provide more supplies
  • Farming can lead to overgrazing, trampling causing soil erosion causing a positive feedback loop of more food, more desertification
34
Q

Which type of environments are prone to water surpluses?

A
  • Low lying land, ground becomes saturated leading to river and land flooding leaving the land next to the river vulnerable
  • Urbanised/built environments, reduction of infiltration, increase of surface runoff and reduced lag times all increase the chance of flooding
  • Small basins, prone to flash floods due to small lag times
35
Q

How can high flood risks be mitigated?

A
  • Afforestation of upland areas, will reduce infiltration due to increase of interception
  • Reduction of building on floodplains to increase permeability of soils and increase infiltration to reduce flood risks
  • Establishing extra flood plains, to increase soil moisture storage to reduce chance of soil runoff or complete soil saturation
36
Q

What are the impacts of anthropogenic climate change on the hydrological cycle?

A

An increase of carbon in the atmosphere can have many impacts:

  • Period between ENSO cycles (2-3 years) could decrease increasing extreme weather patterns for South America and Australia
  • Increase in temperature increases drought due to increase in evaporation
  • Increase in convectional rainfall leading to an increase of extreme weather events such as monsoons leading to floods
37
Q

What reasons are there for water insecurity?

A
  • Water distribution is spatially distributed unevenly with 66% of the world’s population living in areas with 25% of rainfall
38
Q

Which factors have increased the demand for water?

A
  • Population growth, more people need more water
  • Growing global middle class, increase of industrialisation etc. means a higher water demand
  • Economic growth means industrial demand may also increase
39
Q

What human factors influence the amount of water available?

A
  • Overabstraction means water tables are reducing and soil is being faster than it can be recharged
40
Q

What are some physical factors that affect water security?

A
  • Precipitation varies across different climates: mid-latitude areas generally receive the most rainfall.
  • Topography is also significant because areas with high relief generally get more precipitation and surface runoff is greater for more inclined planes, so channel flow tends to be larger and so water can be easily stored by dams and reservoirs.
  • Geology also determines water security or insecurity; permeable rocks can be infiltrated, and water can be easily stored underground.
41
Q

What are some human factors affecting water security?

A
  • Pollution. Industrial activity (especially in developing countries with slack environmental laws) and population pressure (lack of treatment of sewage, the “plastic tide”) are reducing accessibility to clean freshwater.
  • Saltwater encroachment due to over extraction and rising sea levels (Climate Change) is further reducing freshwater stores,
42
Q

What are some consequences of water insecurity?

A
  • Price of freshwater has increased in some regions
  • Water is very important in economic productivity, crop yield and manufacturing capacity. Agriculture consumes around 67% of all water extractions and industrial water consumption is on the rise especially in developing and industrialising countries.
  • Fields and grazing lands are dependent on rainwater and aquaculture (fish farming) has been on the rise as wild fish supplies have diminished. Over 20% of all extracted water is used in industries and for energy production
43
Q

What are some hard engineering solutions to increase water security?

A
  • Mega dams
  • Desalination plants
  • Water transfer schemes
44
Q

What are the advantages and disadvantages to using mega dams to reduce water insecurity?

A

Advantages
- Can provide large volumes of water
- Can generate HEP
- Reduces demand for groundwater

Disadvantages
- Floods land
- Expensive
- Areas downstream suffer from lack of water
- Water gets evaporated quickly due to being on the surface

45
Q

What are the advantages and disadvantages to using desalination plants to reduce water insecurity?

A

Advantages
- Can provide a large volume of water
- Reduces demand for groundwater

Disadvantages
- Energy intensive
- Releases carbon emissions
- Very expensive
- Produces salt waste
- Expensive to build and maintain

46
Q
A
47
Q

What are the advantages and disadvantages of using mega dams to increase water security?

A

Advantages
- Provides very large volumes of water
- Provides very large amounts of HEP
- Reduces demand for groundwater

Disadvantages
- Floods land
- Extremely expensive
- Areas downstream suffer from lack of water
- Water is stored on surface so prone to evaporation

48
Q

What are the advantages and disadvantages of using desalination plants to increase water security?

A

Advantages
- Can provide a large volume of water
- Reduces demand for groundwater

Disadvantages
- Energy intensive
- Huge carbon emissions
- Extremely expensive
- Produces salt waste
- Expensive to build and maintain

49
Q

What are the advantages and disadvantages of using water transfer schemes to increase water security?

A

Advantages
- Can provide water for arid land
- Reduces demand for groundwater

Disadvantages
- Can dry up source areas
- Expensive
- Lots of water evaporated
- People relocated in order to construct

50
Q

What is the water poverty index?

A
  • Used by national governments to measure localised water stress

Focuses on 5 components
- Water resources, availability and quality of water

  • Access to water, distance from safe water for cooking, cleaning etc,
  • Handling capacity, management, capacity, income
  • Use of water, domestic, agricultural and industrial
  • Environmental indicators, ability to sustain nature and ecosystems

Each component is scored out of 20 with Finland being the highest with 78 and Haiti the lowest with 35

51
Q

What are some methods of sustainable water management?

A
  • Advanced irrigation systems to monitor dry weather patterns
  • Recycling city waste water, very cheap especially in areas of high demand. Grey water needs to be cleaned less in order to drink meaning less energy intensive
  • GM crops are being developed to be more tolerant to dry conditions
  • Domestic conservation such as installing smart metres, charging more for water in dry times, taking showers instead of baths
  • Restoration of rivers, lakes, wetlands and vegetation to increase water storage
52
Q

What is integrated water resource management and how does it ensure equal distribution of water?

A
  • Approaches bodies of water as a strategic base for planning the distribution of water ensuring equality through:
  • Freedom from corruption
  • Environmental protection of supplies and ecosystems
  • Food and water security for poorer people
  • Effective dialogue of shareholders
  • Decentralised approach so everyone has a say
  • Cash recovery of schemes through effective planning