The Water Cycle

Question 1

Precipitation

Answer 1

The input into a drainage basin system. It includes all forms of moisture entering: hail, snow, dew, frost, sleet and rain.

Question 2

Interception

Answer 2

The storage of water when it lands on vegetation (or structures like buildings) before it reaches the soil. It is a temporary store before evaporation or stemflow

Question 3

Surface storage

Answer 3

storage of water on the surface including puddles, ponds and lakes

Question 4

Soil moisture

Answer 4

The storage of water in soil. Water is held in the small gaps between soil particles

Question 5

Groundwater storage

Answer 5

The storage of water in the ground rocks of permeable rock. The water is held in cracks (limestone) bedding planes (sedimentary rock) or pores (chalk). Rocks with lots of water storage are called aquifers

Question 6

Channel storage

Answer 6

The storage of water in the river channel. As water is being transported to the sea it is a store of water

Question 7

Vegetation storage

Answer 7

The storage of water in the vegetation. Plants and trees take up water through their roots and water is stored here.

Question 8

Surface runoff/overland flow

Answer 8

The horizontal flow of water over the surface of the land either in little channels or over the whole surface – this is usually a quick flow.

Question 9

Stem flow

Answer 9

The downwards flow of water moving downwards from interception storage to the surface

Question 10

Throughfall

Answer 10

The downwards movement of water as it drips from one leaf to another

Question 11

Throughflow

Answer 11

The horizontal flow of water moving through soil (between the particles) towards the river

Question 12

Interflow

Answer 12

The horizontal movement of water through rock above the water table. (Below water table is groundwater flow)

Question 13

Infiltration

Answer 13

The downwards movement of water from the surface into the soil.

Question 14

Percolation

Answer 14

The downwards movement of water from the soil to the permeable ground rock

Question 15

Groundwater flow

Answer 15

The horizontal movement of water through the rocks below the water table

Question 16

Baseflow

Answer 16

Groundwater flow that feeds into rivers

Question 17

Channel flow

Answer 17

The movement of water in the river channel moving towards the sea.

Question 18

Evaporation

Answer 18

The output of water when water is heated and turned from a liquid into a gas. Rates are affected by temperature, wind, humidity, and water availability

Question 19

Transpiration

Answer 19

The output of water where moisture is taken into plants through their roots, moved to the leaves by capillary action and then evaporates from the leaves into a gas.

Question 20

Evapotranspiration

Answer 20

The combined output of water from evaporation and transpiration. Potential evapotranspiration is the amount that could occur if water were available. Actual evapotranspiration is the amount that actually occurs. Eg deserts have a very high potential evapotranspiration due to the high temperature however actual evapotranspiration is low as there is very little water available.

Question 21

Condensation

Answer 21

Transfer of water from a gaseous state to a liquid state, for example, the formation of clouds

Question 22

Condensation nuclei

Answer 22

Microscopic particles on which water vapor condenses to form cloud droplets – eg dust or smoke

Question 23

Dew point

Answer 23

The temperature at which the water vapor in the air becomes saturated and
condensation begins.

Question 24

Sublimation

Answer 24

Transfer from a solid state (ice) to a gaseous state (water vapour)

Question 25

Deposition

Answer 25

Transfer from a gaseous state (water vapour) to a solid state (ice) – eg hoar frost

Question 26

Latent heat

Answer 26

The heat required to convert a solid into a liquid or vapor, or a liquid into a vapor, without change of temperature.

Question 27

Discharge

Answer 27

The output of water from a river channel out to sea.

Question 28

Aquifer

Answer 28

A vast underground reservoir most commonly formed in rocks such as chalk and sandstone

Question 29

Impermeable surface

Answer 29

Does not allow water to pass through

Question 30

Permeable surface

Answer 30

Allows water to pass through

Question 31

Urbanisation

Answer 31

The increasing proportion of people living in towns and cities as opposed to the countryside, leading to the replacement of vegetated ground with impermeable concrete and tarmac

Question 32

Deforestation

Answer 32

The removal of trees, leading to surface runoff and soil erosion and reducing soil water stores

Question 33

Drainage basin

Answer 33

The area of land that is drained by a river and its tributaries

Question 34

Source

Answer 34

The point where the river begins. The river is both narrow and shallow here, discharge is low.

Question 35

Mouth

Answer 35

The point where the river meets the sea. The river is wide and deep here, and discharge is high.

Question 36

Watershed

Answer 36

The edge of a drainage basin

Question 37

Tributary

Answer 37

Smaller rivers that feed into the main channel

Question 38

Confluence

Answer 38

The point where two rivers meet

Question 39

Flood (storm) hydrograph

Answer 39

A graph showing the discharge of a river following a particular storm event

Question 40

Lag time

Answer 40

Time between peak rainfall and peak discharge. Longer lag time = less likely to cause a flood

Question 41

River regime

Answer 41

The pattern of discharge over the course of a year. Affected by geology, vegetation, urbanisation, size/shape of drainage basin, rainfall intensity etc.

Question 42

Soil moisture (water) budget

Answer 42

Describes the changes in the soil water store during the course of a year. It is determined by precipitation and evapotranspiration. There are several stages in a soil moisture budget graph including: Soil moisture utilisation; Soil moisture deficit; Soil moisture recharge; Field capacity; Soil moisture surplus.

Question 43

Soil moisture utilisation

Answer 43

The extraction of soil moisture by plants for their needs; efficiency of withdrawal decreases as the soil-moisture storage is reduced.

Question 44

Soil moisture deficit

Answer 44

The point at which soil moisture falls below field capacity - caused by a lack of precipitation and large amounts of evapotranspiration

Question 45

Soil moisture recharge

Answer 45

Following soil moisture deficit, precipitation is greater than potential evapotranspiration moisture will be added to the soil.

Question 46

Field capacity

Answer 46

The point at which soil becomes saturated.

Question 47

Soil moisture surplus

Answer 47

The period when soil is saturated and water cannot enter, and so flows over the surface – caused by low levels of evapotranspiration and high levels of precipitation

Question 48

Soil porosity

Answer 48

Pores or spaces in the soil. The greater pores or spaces, the greater the water holding ability.

Question 49

Water balance

Answer 49

An equation used to express the relationship between the main water stores – the lithosphere, the hydrosphere, the cryosphere and the atmosphere

Question 50

Hillslope system

Answer 50

The way in which water moves down a typical hillslope towards a river, involving stores and transfers

Question 51

Irrigation

Answer 51

The supply of water to the land by means of channels, streams and sprinklers in order to permit the growth of crops

Question 52

Water table

Answer 52

The upper level of saturated rock

Question 53

Water abstraction

Answer 53

The extraction of water from rivers or groundwater aquifers

Question 54

Saltwater intrusion

Answer 54

The movement of saltwater into an aquifer, which may cause contamination. Often caused by over abstraction of groundwater from an aquifer.

Question 55

Relief/Orographic rainfall

Answer 55

Rainfall formed due to warm moist air being forced to rise by the relief of the land. Once risen, the air cools and condenses forming rain.

Question 56

Frontal rainfall

Answer 56

Rainfall formed when warm air meets cold air. Warm air is less dense and therefore rises above the cold air, cooling, condensing and forming rain.

Question 57

Convectional rainfall

Answer 57

Rainfall formed when heat from the sun heats the ground. The warm ground heats the air above causing it to rise, cool, condense and form rain.

Question 58

Ablation

Answer 58

Outputs from a glacial system due to melting (size of glacier decreases)

Question 59

Accumulation

Answer 59

Inputs to a glacial system due to snowfall (builds a glacier)