Geography SL
Geography SL
10
Chapters
152
Notes
Option A - Freshwater – Drainage basins
Option A - Freshwater – Drainage basins
Option B - Oceans & coastal margins
Option B - Oceans & coastal margins
Option C - Extreme Environments
Option C - Extreme Environments
Option D - Geophysical Hazards
Option D - Geophysical Hazards
Option E - Leisure, Tourism And Sport
Option E - Leisure, Tourism And Sport
Option F - The Geography Of Food & Health
Option F - The Geography Of Food & Health
Option G - Urban Environments
Option G - Urban Environments
Unit 1 - Changing Population
Unit 1 - Changing Population
Unit 2 - Global Climate - Vulnerability & Resilience
Unit 2 - Global Climate - Vulnerability & Resilience
Unit 3 - Global Resource Consumption & Security
Unit 3 - Global Resource Consumption & Security
IB Resources
Option A - Freshwater – Drainage basins
Geography SL
Geography SL

Option A - Freshwater – Drainage basins

Unlocking Flood Mitigation: From Dams to Afforestation

Word Count Emoji
685 words
Reading Time Emoji
4 mins read
Updated at Emoji
Last edited on 5th Nov 2024

Table of content

Hard engineering - dams & reservoirs

  • Hard engineering schemes like dam construction can be used to reduce flood risk. Dams are not just for flood control, but have a myriad of benefits, like aiding agriculture, navigation, recreation, and hydroelectric power generation.
  • Real-World Example: The Aswan High Dam on the River Nile, Egypt. This dam not only prevents lower Nile from flooding but also provides multiple benefits. However, it's not without downsides, like increased water loss due to evaporation, downstream channel erosion, decline in sediments reaching the Nile Delta, and the spread of diseases like schistosomiasis and malaria.

  • Reservoirs are used to store excess rainwater in the upper drainage basin. However, they may not be efficient in large drainage networks.

Soft engineering - afforestation & land management

  • Soft engineering schemes like afforestation and land management practices are also effective in reducing flood risk.
  • Afforestation helps to reduce the amount of runoff, hence lessening flood peak in a drainage basin. More trees mean more water interception and reduced overland flow, therefore reducing flood risk.

  • Real-World Example: In parts of the Severn catchment (UK), afforestation initially led to increased sediment loads due to factors like increased overland run-off and sparse ground vegetation. However, the situation improved as the trees matured and started intercepting more rainfall.

  • Other measures like reseeding of sparsely vegetated areas, slope treatments like contour ploughing, protection of vegetation, sediment clearance, construction of small water and sediment holding areas, and preservation of natural water storage zones like lakes also contribute to reducing flood peaks.

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IB Resources
Option A - Freshwater – Drainage basins
Geography SL
Geography SL

Option A - Freshwater – Drainage basins

Unlocking Flood Mitigation: From Dams to Afforestation

Word Count Emoji
685 words
Reading Time Emoji
4 mins read
Updated at Emoji
Last edited on 5th Nov 2024

Table of content

Hard engineering - dams & reservoirs

  • Hard engineering schemes like dam construction can be used to reduce flood risk. Dams are not just for flood control, but have a myriad of benefits, like aiding agriculture, navigation, recreation, and hydroelectric power generation.
  • Real-World Example: The Aswan High Dam on the River Nile, Egypt. This dam not only prevents lower Nile from flooding but also provides multiple benefits. However, it's not without downsides, like increased water loss due to evaporation, downstream channel erosion, decline in sediments reaching the Nile Delta, and the spread of diseases like schistosomiasis and malaria.

  • Reservoirs are used to store excess rainwater in the upper drainage basin. However, they may not be efficient in large drainage networks.

Soft engineering - afforestation & land management

  • Soft engineering schemes like afforestation and land management practices are also effective in reducing flood risk.
  • Afforestation helps to reduce the amount of runoff, hence lessening flood peak in a drainage basin. More trees mean more water interception and reduced overland flow, therefore reducing flood risk.

  • Real-World Example: In parts of the Severn catchment (UK), afforestation initially led to increased sediment loads due to factors like increased overland run-off and sparse ground vegetation. However, the situation improved as the trees matured and started intercepting more rainfall.

  • Other measures like reseeding of sparsely vegetated areas, slope treatments like contour ploughing, protection of vegetation, sediment clearance, construction of small water and sediment holding areas, and preservation of natural water storage zones like lakes also contribute to reducing flood peaks.

Unlock the Full Content! File Is Locked Emoji

Dive deeper and gain exclusive access to premium files of Geography SL. Subscribe now and get closer to that 45 🌟