arid environments

Question 1

What are the 4 processes in how arid environments are formed?

Answer 1

Pressure systems, continentality, offshore currents and rain shadow effect

Question 2

What are the key features of arid environments?

Answer 2

High-wind energy environments, diurnal and seasonal variations in precipitation and in temp

Question 3

What are the main weathering processes which operate in an arid environment?

Answer 3

Thermal fracture, exfoliation, salt weathering and chemical weathering

Question 4

Weathering in deserts is _______ and _______ ________

Answer 4

Superficial and highly selective

Question 5

What are the two types of salt crystal growth?

Answer 5

Temperature fluctuation leading to expansion of crystals by 300% and evaporation of water leaving salt crystals behind

Question 6

What is the rate of disintegration of rocks closely related to?

Answer 6

Porosity and permeability

Question 7

What is thermal fracturing?

Answer 7

Refers to the break-up of rock as a result of repeated changes in temperature over a prolonged period of time

Question 8

Where does the stress occur in rock?

Answer 8

Outer layers of rock

Question 9

What did Griggs (1936) show?

Answer 9

Moisture is essential for thermal fracturing to occur

Question 10

How does granular disintegration occur?

Answer 10

Certain grains are more prone to expansion and contraction than others – exerts great pressure on the grains surrounding them and forces them to break off

Question 11

What is hydration?

Answer 11

When certain minerals absorb water, expand and change

Question 12

Give an example of hydration?

Answer 12

Anhydrite to Gypsum

Question 13

When does freeze thaw occur?

Answer 13

When water in joints and cracks freeze and expand by 10%

Question 14

What are the processes of erosion, transport and deposition by wind?

Answer 14

Corrasion/abrasion, deflation, traction, saltation and suspension

Question 15

What is sand mainly made of?

Answer 15

Quartz which is 7 out of 10 on the Mohs hardness scale

Question 16

What is the zone of maximum abrasion called?

Answer 16

Saltation zone

Question 17

The form taken by deposited material is influenced by?

Answer 17

The nature of any surface irregularity, the amount and type of material carried by the wind, the flow pattern of the dominant wind and the presence or absence of vegetation and groundwater

Question 18

What are zeugens?

Answer 18

Develop where differing rock strata lie horizontally – eroded by the wind

Question 19

What are Yardangs?

Answer 19

Occur when hard and soft rocks lie side by side; the softer rocks are worn down to form troughs, while the harder rocks stand up as wind-worn ridges or yardangs

Question 20

What is a hydrological regime?

Answer 20

The annual and seasonal pattern of river flow and can be both irregular and unpredictable

Question 21

What contributes to a flash flood environment?

Answer 21

Intense rainfall + impermeable soil

Question 22

What are the three types of rivers in arid environments?

Answer 22

Exogenous, Endoric and Ephemeral

Question 23

How is a wadi formed?

Answer 23

Formed from intense storms during pluvial times and are further eroded by infrequent flash floods

Question 24

What are the characteristics of a wadi?

Answer 24

A broad, flat bottom, heavily braided channels formed on thick beds of sediment, steep-sided banks and rills and gullies

Question 25

What is an alluvial fan?

Answer 25

A cone of sediment occurring between a mountain and a lowland plain

Question 26

What is a bajada?

Answer 26

When a number of alluvial fans merge together

Question 27

What are pediments?

Answer 27

Gently sloping areas of bare rock where there is a distinct break with the mountain region

Question 28

What is a playa?

Answer 28

A thick crust of salt which has formed after water has flowed into a depression and then evaporated, leaving behind a crust

Question 29

What is a Mesa?

Answer 29

plateau-like features with steep sides at their edges

Question 30

what are Buttes?

Answer 30

• smaller versions of Mesas
• they are thinner landforms that have very steep sides and a flat top

Question 31

what are inselbergs?

Answer 31

freestanding mounds of hard rock

Question 32

what is Equifinality?

Answer 32

different processes produce the same result

Question 33

what does pluvial mean?

Answer 33

a geological change, process or feature that is the result of the action or effects of rain

Question 34

Evidence for Pluvials in desert regions

Answer 34

• river systems now blocked by sand dunes
• animal and plant remains found in areas too arid to support such species
• Lake Chad said to have been 120m deeper than it is now and 100s of km further north
• numerous Wadis now in hot arid environments
• sunken civilisations - the Garamantes in North Sahara lived from 500BC to 500AD

Question 35

what does interpluvial mean

Answer 35

dry periods between periods of greater precipitation

Question 36

interpluvial evidence in desert regions

Answer 36

• sand dune systems in areas now too wet for sand movement to occur
• if rainfall is over 150mm then it supports enough vegetation to restrict the formation of sand dunes
• satellite imagery suggests areas of savanna and rainforest with over 750mm of rainfall have shown evidence for degraded sand dunes

Question 37

what is soil?

Answer 37

the top layer of the earth that is composed of disintegrated rock particles, humus, water and air

Question 38

what is litter?

Answer 38

organic matter in and on the soil, it includes humus and leaf litter

Question 39

what is Biomass?

Answer 39

• the total mass of living organisms, mainly plant tissue, per unit area
• it is a store of energy and is also known as standing crop

Question 40

what is leaching?

Answer 40

removal of nutrients from the top soil

Question 41

what is biomass productivity?

Answer 41

the amount of new organic matter produced each year by the existing biomass

Question 42

what is physical drought?

Answer 42

describes water shortages over a long period of time

Question 43

what is physiological drought?

Answer 43

• describes water shortages experienced by plants despite there being sufficient water moisture available
• mainly caused by high evapotranspiration rates

Question 44

do deserts have a high or low biomass productivity and do they have great or limited biodiversity?

Answer 44

• Low
• net primary productivity of 90g/m2/year
• Limited biodiversity

Question 45

characteristics of desert vegetation

Answer 45

• ephemeral (appears or flowers after rain)
• some have very short life-cycle (some less than 8 weeks)
• generally shallow-rooted
• small size
• small leaves

Question 46

characteristics of Semi-arid vegetation

Answer 46

• succulent
• more vegetation occurring near to sources of water

Question 47

temperature adaptations of plants

Answer 47

• changing the orientation of the whole body
• light colours maximise the reflection of solar radiation
• surface growth can absorb/reflect heat which keeps the under-surface cooler
• smaller body size - large surface-volume ratio

Question 48

how do plants avoid intense solar radiation and overheating

Answer 48

• more vertical orientation of leaves
• rolling their leaves along the axis
• reflective leaf hairs
• waxy leaf surfaces
• smaller, deeply dissected leaves to minimise the boundary layer thickness, maximising heat loss by convection and conduction

Question 49

examples of temperature adapted plants

Answer 49

Agaves:
- thick leaves to hold water and protect from sunburn

cacti:
- leaves are reduced to spines to reduce water loss through transpiration

Question 50

water loss adaptations in plants

Answer 50

• small surface area to volume ratio
• water regulation by plants can be controlled by diurnal closure of the stomata
• xerophytic plants have a mix of thick, waxy cuticles, sunken stomata and lead hairs
• stores water in leaves
• rolled structure - stomata not exposed
• hairs/pits - traps any water lost and holds onto it increasing water concentration outside leaves

Question 51

examples of water loss adapted plants

Answer 51

cacti:
- thick, waxy cuticle stops water evaporating too easily
- deep roots called ‘tap’ roots
- extensive shallow root system with large surface area
- thick, fleshy stems, which means they can store water inside

Creosole bush:
- shedding of its leaves
- small leaves
- low surface area
- high water potential tissues
- greater root pressure (faster uptake of water)

Question 52

examples of water loss adapted plants

Answer 52

cacti:
- thick, waxy cuticle stops water evaporating too easily
- deep roots called ‘tap’ roots
- extensive shallow root system with large surface area
- thick, fleshy stems, which means they can store water inside

Creosote bush:
- shedding of its leaves
- small leaves
- low surface area
- high water potential tissues
- greater root pressure (faster uptake of water)

Question 53

what is an aridisol?

Answer 53

desert soil with a low organic content

Question 54

What are Solonchaks?

Answer 54

soils with a saline horizon of Sodium chloride (also known as white alkali soils)

Question 55

what are Solonetz?

Answer 55

soils with a horizon of sodium carbonate (also known as black alkali soils)

Question 56

what are duricrusts?

Answer 56

when the accumulation of salts become so great they form a distinctive crust on the surface

Question 57

what are factors leading to salinisation?

Answer 57

• lack of rainfall and high temperatures resulting in potential evaporation exceeding rainfall amounts
• this brings soluble salts up into the soil from the water table
• the poor structure of the soils, lacking in humus
• clay rich soils
• over irrigation which brings the water table near the surface
• irrigating with water rich in salts; this includes from inland lakes and from coastal areas

Question 58

what is salinisation?

Answer 58

the concentration of saline salts, usually in the upper horizon of a soil which can be toxic to plants

Question 59

what is soil degradation?

Answer 59

decline in quantity and quality of soil

Question 60

what are the causes of soil degradation?

Answer 60

• water erosion
• wind erosion
• acidification
• Eutrophication (nutrient enrichment)
• salt affected soils
• atmospheric deposition
• climate change

Question 61

Human activities and their impact on the soil

Answer 61

removal of woodland or ploughing existing pasture:
- the vegetation cover is removed, roots binding the soil die and the soil is exposed to wind and water
- particularly susceptible to erosion if on slopes

Cultivation:
- exposure of bare soil surface before planting and harvesting
- cultivation on slopes can generate large amounts of runoff and create rills and gullies

Grazing:
- overgrazing can severely reduce the vegetation cover and leave the surface vulnerable to erosion
- grouping of animals can lead to over trampling and creation o bare patches
- dry patches are particularly susceptible to wind erosion

Roads:
- they collect water due to reduced infiltration that can cause rills and gullies to form

Mining:
- exposure of the bare soil

Question 62

Causes of salinisation

Answer 62

• the presence of soluble salts, such as sulphates of sodium, calcium, and magnesium in the soil
• A high water table - The water table lies underground and is the level at which the soil and gravel are completely saturated with water. This means the salt cannot effectively drain away
• A high rate of evaporation - Causing salt crystals to be left behind on the soil surface.
• Low annual rainfall meaning salts are not leached away

Question 63

Problems with salinisation

Answer 63

• Has impacts on native vegetation especially on floodplains and wetlands which decreases biodiversity
• High levels of salt in the soil have a similar effect as drought by making water less available for uptake by plant roots
• Agricultural land suffers since crops have difficulty surviving with low water has meant that many salt-affected lands have become non-arable
• In the hot and dry regions of the world the soils are frequently saline with low agricultural potential. In these areas most crops are grown under irrigation, and to exacerbate the problem, inadequate irrigation management leads to secondary salinization that affects 20% of irrigated land worldwide
• Irrigation systems contain salt which may remain on the soil surface
• These factors lead to food insecurity and food poverty
• Soil erosion - Salinity is often associated with prolonged wetness and lack of surface cover and therefore increases the vulnerability of soils to erosion
• Without plant roots to hold the soil in place, the soil washes away causing erosion of land, leading to desertification

Question 64

Prevention/management of salinisation

Answer 64

• Maintaining adequate vegetation cover
• using crop rotations and conservation farming methods in cropping areas
• maintaining soil health to maximise plant growth

Question 65

Egypt case study - salinsation

Answer 65

• Every year the Nile River overflows with summer rains
• Due to the river dams upstream the local water table have increased
• So when the river floods, excess salt cannot leach away as it once did
• Up to 40% of all land around the river delta is suffering from soil salinization due to inadequate drainage
• Improved drainage systems- with help from both public and private sectors, 50% of cultivated area in Egypt now has subsurface drainage
• Saline agriculture- A recent study on tomato irrigation found that the crops irrigated with higher salinity levels produced more fruits per plant and had a longer shelf-life. This also includes informing local farmers of these benefits
• These solutions have not yet come to full fruition, so only time will tell if they are successful or not

Question 66

what is desertification?

Answer 66

land degradation in drylands resulting from human actions

Question 67

Causes of desertification

Answer 67

Climatic factors:
- High rainfall variability
- High temperatures

Soil and Water factors:
- Low clay content
- Humid zones

Biological factors:
- High disease and pest occurrence

Social factors:
- uncertain tenure
- Overuse of land

Question 68

Environmental consequences of desertification

Answer 68

• loss of nutrients through wind and water erosion
• Changes in composition of vegetation and loss of biodiversity
• reduction in land available for cropping and pasture
• increased sedimentation of streams due to soil erosion
• expansion of areas under sand dunes

Question 69

Economic consequences of desertification

Answer 69

• reduced income form traditional economy
• decreased availability of fuelwood (have to buy alternatives such as oil)
• increased dependence on food aid
• increased rural poverty

Question 70

Social/cultural consequences of desertification

Answer 70

• loss of traditional knowledge and skills
• forced migration due to food scarcity
• social tensions in reception areas for migrants

Question 71

Human causes of desertification

Answer 71

• overgrazing
• overcultivation
• deforestation

Question 72

strategies for prevention of human causes of desertification

Answer 72

Overgrazing:
- improved stock quality - vaccination programs and use of better breeds provides a greater meat, wool and milk yield without increasing the herd size
- better management - reducing herd sizes and grazing over wider areas would reduce soil damage
- Problems: Vaccination programs increase survival rate so increase herd sizes and population pressure often prevents these measures

Overcultivation:
- Use of fertilisers - increases crop yields without using more land
- New and improved crops - high yielding and drought resistant
- improved farming methods - crop rotation, irrigation and grain storage can all increase and hence reduce pressure on the land
Problems:
- cost to farmers
- artificial fertilisers may damage the soil
- some crops require expensive fertiliser
- some methods require special technology and expertise

Deforestation:
- no deforestation

Question 73

Successes and failures of attempts to prevent desertification in China

Answer 73

Successes:
- Natural forest Conservation program - launched in 2000 to conserve natural forests and reduce deforestation - reduced deforestation rates and forest cover has increased by 1.3% between 2000 and 2013
- Grain for Green program - launched in 1999 to convert marginal agricultural land into forest and grassland - led to the conversion of over 24 million hectares of cropland into forests and grasslands
- Ecological compensation mechanisms - encourages forest conservation and management - in Guangxi Province, the gov has provided financial incentives to farmers who have established forest plantations

Failures:
- illegal Logging - still remains a significant problem and it undermines the conservation work
- forest degradation - still remains a problem partly due to the conversion of natural forests into monoculture plantations, which can lead to soil erosion and biodiversity loss
- enforcement challenges - challenging due to inadequate monitoring and law enforcement capacity - in some cases has been undermined by corruption and a lack of accountability