Devon County Council Minerals and Waste Development Framework
Devon Minerals Plan
Strategic Flood Risk Assessment
River Exe 2012
March 2013
Devon Minerals Plan: Strategic Flood Risk Assessment March 2013
2 Devon Minerals Plan: Strategic Flood Risk Assessment March 2013
Executive Summary
This Strategic Flood Risk Assessment (SFRA) has been produced by Devon County Council as the Mineral Planning Authority for Devon. The National Planning Policy Framework (NPPF) requires that Mineral Planning Authorities (MPAs) prepare an SFRA to inform the development of their Minerals planning policy.
The findings of this SFRA will be used to inform spatial planning, providing an evidence base for mineral site identification in relation to flood risk. The SFRA will also assist the Sustainability Appraisal in the evaluation of proposed polices.
Data was used from a variety of sources to inform the assessment of flood risk. A desk review of districts SFRAs and other supporting documents provided the flood risk context whilst current flood zone and surface water mapping provided an indication of the likelihood of future flooding.
The flood zones provided by the Environment Agency illustrate the extent of the flooding from rivers and sea. Flood zone 3 is divided into 3a and 3b. Flood zone 3b is the area at most risk of flooding and is termed “functional floodplain”. Flood zone 3a and flood zone 2 both offer a high probability of flooding. Flood zone 1 covers all the other areas that are not within flood zone 2 or 3, and have a low probability of flooding. Flood zone 1 is therefore the area where development should ideally be located.
These flood zones do not illustrate the risk of flooding from other sources such as surface water, groundwater, sewer and infrastructure failure. These forms of flooding must be assessed with additional information. In the case of surface water flood risk, information is gathered from the Lead Local Flood Authority (LLFA).
A sequential approach will be required to ensure that development is directed to areas at least risk of flooding from both a catchment wide and site specific scale. In this approach the vulnerability of the development must be assessed and its appropriate location determined accordingly. Development in higher risk areas should only occur if there are no suitable alternatives in the low risk zones. Development in higher risk areas should take into account type, layout and lifetime of development.
Flood risk information and knowledge is regularly enhanced as more information becomes available and as data is updated and reassessed. This SFRA will therefore act as a “living” document that will develop with updated information and emerging policy directives. This will ensure that the SFRA evolves as the nature of flooding in the County is better understood.
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Table of Contents
Executive Summary .3
List of Figures ....5
1. Introduction 6
2. Planning Policy Context 11
3. Profile of the Plan Area . ..17
4. Mineral Development and Flood Risk 26
5. Assessment of Flood Risk .. . .30
6. Catchment Area Flood Risk Characteristics . .38
7. Sequential Approach to Flood Risk in the .. .62 Planning Process
8. Sustainable Management of Flood Risk .. .68 Through Development
9. Mitigation of Residual Flood Risk 73
10. Conclusions and Recommendations ... ..76
References 78
Appendix A: Glossary 79 Appendix B: Sequential Test Template for Planning Authorities .. .83 Appendix C: Environment Agency Comments on Draft SFRA . ..86
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List of Figures Figure 1.1: The of Mineral and Waste Development Framework 6 Figure 1.2: The Flood Risk Management Hierarchy 7 Figure 1.3: Section breakdown in accordance with the Flood Risk Hierarchy 8 Figure 1.4: Devon County Council Plan Area 9 Figure 2.1: District Council SFRAs within the Plan Area 14 Figure 2.2: Table of adjacent Councils SFRAs adjoining the Plan Area 15 Figure 3.1: The key environmental designations within Devon 17 Figure 3.2: The Topography of Devon 18 Figure 3.3: The Watercourse Network within Devon 19 Figure 3.4: The Road Network within Devon 20 Figure 3.5: Recommended contingency allowances for the net sea level rises 21 Figure 3.6: Recommended national precautionary sensitivity ranges 22 Figure 3.7: Indication of the mineral concentrations within the Plan Area 25 Figure 4.1: Minerals spatial strategy within the Plan Area 27 Figure 5.1: Flood Risk Hierarchy 30 Figure 5.2: Source Pathway Receptor approach 30 Figure 5.3: Flood Zone Classification 31 Figure 5.4: Example of flood zone mapping 32 Figure 5.5: Example of flood zone mapping in a tidal area 33 Figure 5.6: Example of FMfSW and AStSWF surface water flood mapping 34 Figure 5.7: Map of areas at possible risk of groundwater flooding 36 Figure 5.8: Table of South West Water reservoirs 37 Figure 6.1: The catchment area breakdown 38 Figure 6.2: North Devon Catchment Area 39 Figure 6.3: North Devon Catchment historic sources of flooding 40 Figure 6.4: North Devon Catchment flood zones 41 Figure 6.5: North Devon Inset Map A 41 Figure 6.6: North Devon Inset Map B 41 Figure 6.7: North Devon Inset Map C 42 Figure 6.8: North Devon Inset Map D 42 Figure 6.9: North Devon Inset Map E 42 Figure 6.10: River Tamar Catchment area 44 Figure 6.11: River Tamar historic sources of flooding 45 Figure 6.12: River Tamar catchment flood zones 46 Figure 6.13: Tamar Inset Map A 47 Figure 6.14: Tamar Inset Map B 47 Figure 6.15: Tamar Inset Map C 47 Figure 6.16: Tamar Inset Map D 47 Figure 6.17: South Devon Catchment Area. 49 Figure 6.18: South Devon Catchment historic sources of flooding 50 Figure 6.19: South Devon Catchment flood zones 51 Figure 6.20: South Devon Inset Map A 51 Figure 6.21: South Devon Inset Map B 51 Figure 6.22: South Devon Inset Map C 52 Figure 6.23: South Devon Inset Map D 52 Figure 6.24: River Exe Catchment area 53 Figure 6.25: River Exe Catchment historic sources of flooding 54 Figure 6.26: River Exe Catchment flood zones 55 Figure 6.27: River Exe Inset Map A 56 Figure 6.28: River Exe Inset Map B 56 Figure 6.29: River Exe Inset Map C 56 Figure 6.30: River Exe Inset Map D 56 Figure 6.31: East Devon Catchment Area 57 Figure 6.32: East Devon Catchment historic sources of flooding 58 Figure 6.33: East Devon Catchment flood zones 59 Figure 6.34: East Devon Inset Map A 60 Figure 6.35: East Devon Inset Map B 60 Figure 6.36: East Devon Inset Map C 60 Figure 7.1: Flood Risk Hierarchy 62 Figure 7.2: Flood Risk Vulnerability Classification 63 Figure 7.3: Flood Risk Vulnerability and Flood Zone Compatibility 63 Figure 7.4: Guidance for developers when making planning applications 67 Figure 8.1: Flood Risk Hierarchy 68 Figure 8.2: Table of SuDS components 70 Figure 8.3: Diagram of how SuDS can be used at a local scale 72 Figure 9.1 Flood Risk Hierarchy 73
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1. Introduction
1.1 Devon County Council adopted its Minerals Local Plan in June 2004, and its policies are “saved” until the adoption of a replacement plan. The County Council began the preparation of the Minerals and Waste Development Framework in 2006, and this will contain a new plan the Devon Minerals Plan for the period until 2031 that will replace the existing plan.
1.2 The Devon Minerals Plan will provide the long term, strategic planning policy direction for mineral development in Devon, informing decisions on mineral planning applications. It will include the spatial approach for delivering an appropriate supply of mineral resources over the plan period in the context of promoting environmental, economic and social benefits.
1.3 The Devon Minerals Plan is required to undergo Sustainability Appraisal (SA). This evaluates the possible environmental, social and economic effects of proposed polices, fulfilling the requirements of the European Union Strategic Environmental Assessment (SEA) Directive. Figure 1.1 demonstrates the documents that will deliver the Minerals & Waste Development Framework, and the SA process that sits within this framework.
Minerals and Annual Waste Minerals and Monitoring Development Waste Report Scheme Development Framework
Statement of Supplementary Community Planning Involvement Documents
Devon Devon Waste Plan Minerals Plan
Development Plan Documents
Sustainability Appraisal (SA)
Figure 1.1 The Minerals and Waste Development Framework
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1.4 This SA process identifies any significant effect resulting from elements of the Devon Minerals Plan according to sustainability objectives. Reducing the risk of flooding (including coastal flooding) is one of these objectives. Indicators are analysed against draft policy and proposals to provide a level of potential impact, thereby evaluating how the plan contributes to flood risk impact. These indicators include for example, whether the plan will maintain or enhance floodplain capacity.
1.5 National planning policy highlights the primacy of sustainability and, in particular, protection from climate change. This stresses that authorities need to mitigate and adapt to projected impacts, including the likelihood of increased flood risk.
1.6 Policy provided in National Planning Policy Framework (NPPF) emphasises this requirement by stating:
“Inappropriate development in areas at risk of flooding should be avoided by directing development away from areas at highest risk, but where development is necessary, making it safe without increasing flood risk elsewhere” 1
1.7 This policy guidance understands that the most sustainable solution to the threat of flood risk is a planning led one, where development is strategically directed away from the areas at the highest risk of flooding from inception, requiring that Mineral Planning Authorities (MPA) take a risk based approach to flooding.
1.8 This can be achieved through a hierarchy of 5 steps. To assess, to avoid, to substitute, to control and finally to mitigate against flood risk. Taking this approach ensures that consideration is given to potential flood risk impact at all levels of the planning system.
The Flood Risk Hierarchy
Step 1 Step 2 Step 3 Step 4 Step 5
Assess Avoid Substitute Control Mitigate
Appropriate Apply the Apply the e.g. SUDS, e.g. Flood flood risk sequential Sequential design, flood resilient assessment approach Test at site defences construction level
Figure 1.2: The Flood Risk Management Hierarchy
1 Para 100, NPPF can be accessed at http://www.communities.gov.uk/documents/planningandbuilding/pdf/2116950.pdf
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Purpose of this Document
1.9 This SFRA performs a crucial role in the first step of the flood risk hierarchy, to “assess” flood risk appropriately. The assessment of various forms of flooding will be presented in section 5 and the assessment of flood risk characteristics for the MPA area will be presented in section 6.
1.10 The subsequent steps to “avoid” and “substitute” ensure that development is located according to its vulnerability to flooding. This SFRA will provide the information required to apply this sequential approach in section 7.
1.11 The final steps to “control” and “mitigate” provide that development includes measures to reduce the impact of flooding. This is achieved through flood related management plans and design measures such as sustainable drainage. The appropriate approaches to control flood risk will be considered in section 8.
1.12 It is important to understand that risk of flooding cannot be entirely eradicated. Therefore management and mitigation of this residual flood risk will therefore be considered in section 9.
Section 5 & Section 6 Section 7 Section 8 Section 9
Step 1 Step 2 Step 3 Step 4 Step 5
Assess Avoid Substitute Control Mitigate
Figure 1.3: Section breakdown in accordance with the Flood Risk Hierarchy
1.13 This assessment of flood risk will consider the area for which Devon County Council is the Mineral Planning Authority and will be referred to from here as the Plan Area. This does not include the areas under the administration of Torbay Council, Plymouth City Council, and the National Parks of Dartmoor and Exmoor, as they act as Mineral Planning Authorities in their own right. Figure 1.4 outlines the area for which Devon County Council is the Mineral Planning Authority.
1.14 It is intended that the information provided within this SFRA will inform the site assessment process in preparing the Devon Minerals Plan, and will be an important source of information in the evaluation of future mineral development. The document will provide guidance for decision making in minerals development management, the mineral industry and interested stakeholders.
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© Crown Copyright and database right 2013. Ordnance Survey 100019783.
Figure 1.4 Devon County Council Plan Area
1.15 The objectives of this SFRA are to:
♦ provide an assessment of the impact of all potential sources of flooding, including assessment of any implications associated with climate change and flood risk;
♦ provide the information needed to apply the sequential approach and exception test in site identification and assessment in mineral development;
♦ ensure that mineral planning policies are developed to minimise and manage flood risks;
♦ provide an additional source of data that can be used to inform the Sustainability Appraisal of future minerals strategy; and
♦ provide guidance on the applicability of sustainable drainage systems (SuDS) techniques for managing surface water run off.
1.16 If during site identification for policy development work there are not sufficient areas appropriate for site allocation within appropriate flood zones, it may be necessary to commission a further document which provides a wider
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investigation into areas at risk of flooding. This would increase the scope of the SFRA for sites where an Exception Test is required.
1.17 Principally a desk based review, this SFRA will draw upon information found within appropriate policy and current flood risk data. The information will be derived from a variety of sources to ensure that the final document is as accurate as possible. The sources of information that will be used to inform this assessment include: ♦ District Strategic Flood Risk Assessments (SFRAs) ♦ Catchment Flood Management Plans (CFMPs) ♦ Regional Flood Risk Appraisal (RFRA) ♦ Environment Agency Flood Map (covering river and tidal flooding) ♦ locally agreed surface water and groundwater maps derived from a number of sources
1.18 Consultation formed a key part of the validation process for this SFRA. Stakeholders consulted in the production of this document included the Environment Agency and Devon County Council acting as the Highways Authority and the Lead Local Flood Authority within the Plan area.
1.19 The comments that were provided by the Environment Agency on the draft SFRA are included as Appendix C, and these have been addressed through additional text to cover the issues raised.
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2. Planning Policy Context
2.1 This section provides an outline of the planning policy framework informing flood risk and mineral planning. Providing the context for the SFRA, the policy framework offers appropriate guidance to Mineral Planning Authorities complemented by policies and objectives from the Environment Agency.
National Planning and Flood Risk Policy
National Planning Policy Framework (NPPF)
2.2 The National Planning Policy Framework 2 advises that sustainability should be at the heart of planning and identifies the need to make land available for development in line with economic, social and environmental objectives, with a presumption in favour of facilitating sustainable development. Meeting the challenge of climate change, flooding and coastal change is one of the thirteen key principals in achieving sustainable development.
Technical Guidance to the National Planning Policy Framework
2.3 The technical guidance that supports the contents of the NPPF 3 outlines Government’s national policy on development, flood risk and certain aspects of minerals policy.
2.4 The guidance aims to ensure that flood risk is taken into account at all stages in the planning process to avoid inappropriate development in areas at risk of flooding, directing development away from areas at highest risk. This is delivered through a sequential based approach where development and risk is considered together through a vulnerability classification system. This requires that the most vulnerable development is located in areas of least risk.
2.5 The process is managed through flood risk assessments and the application of Sequential Tests and Exception Tests. These flood risk assessments range from the high level strategic assessment covering administrative boundaries to the site specific.
2.6 The document also provides technical guidance in relation minerals policy and key issues in the working of minerals. Issues covered include: the proximity of mineral workings to communities, dust emissions, noise emissions, stability in surface mine workings and policy in relation to the restoration and aftercare of minerals sites.
DEFRA Making Space for Water
2.7 Department for Environment Food and Rural Affairs (DEFRA) published the “Making Space for Water” 4 strategy in 2005 as the coastal erosion and flood
2 NPPF can be viewed at http://www.communities.gov.uk/documents/planningandbuilding/pdf/2116950.pdf 3 NPPF Technical Guidance can be viewed at www.communities.gov.uk/publications/.../nppftechnicalguidance.pdf 4 Making Space for Water, Government Response to Consultation can be viewed at http://www.defra.gov.uk/environment/flooding/documents/policy/strategy/strategy response1.pdf
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risk management strategy for England. It advised that flood risk management solutions should be viewed holistically through a continuing commitment to Catchment Flood Management Plans and Shoreline Management Plans. It also promotes a general “greening” of flood risk mitigation methods, moving away from hard infrastructure solutions.
2.8 This guidance states that the management of flood risk should be achieved by employing an integrated portfolio of approaches, reflecting national and local priorities to reduce the threat to people and property.
2.9 It underlines that planning policy should be designed to minimise flood risk, stating that its preparation should provide a broad management matrix and be informed by the preparation of flood risk assessments at all stages of the planning process.
Regional Planning and Flood Risk Policy
Draft Regional Spatial Strategy for the South West 2006 2026
2.10 The draft RSS5 was published, and revised in 2008. The RSS would have superseded RPG10, had it been adopted. Since then, the Government has revoked the requirement to produce a RSS through the Localism Act. At the time of writing, the evidence which informed the development of the revised RSS can still be used as a consideration to inform the production of the Devon Minerals Plan.
2.11 The draft RSS sets out the priorities for managing flood risk, and policy F1 confirms that a sequential approach to development should be adopted.
South West Regional Flood Risk Appraisal (RFRA)
2.12 In February 2007 the South West Regional Assembly published the RFRA6. This document provided a broad understanding of the risks associated with flooding in the South West, acting as evidence used to inform the RSS.
2.13 The RFRA considers nine sub regions, three of which are directly relevant to the development of mineral policy in Devon. These sub regions are Exeter, Torbay and Plymouth, South East Cornwall and West Devon.
Sub Regional Planning and Flood Risk Policy
Devon Structure Plan 2001 to 2016
2.14 The Structure Plan 7 was adopted in 2004. Although the Planning and Compulsory Purchase Act removed the statutory duty for upper tier authorities to produce a Structure Plan, its policies have been saved for an extended period under transitional arrangements. The Structure Plan identifies the strategic planning policies for Devon, Plymouth and Torbay and
5 The draft RSS can be viewed at http://www.southwestra.gov.uk/nqcontent.cfm?a_id=836 6 The RFRA is available at http://www.southwest ra.gov.uk/nqcontent.cfm?a_id=2684 7 Available at http://www.devon.gov.uk/structureplan
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the broad locations for sub regional development. Policy CO13 seeks to ensure that development should not be located where there would be a direct risk from flooding, or where development would increase the flood risk elsewhere.
2.15 At the time of writing, the Structure Plan is still part of the Development Plan for Devon. Government has, however, announced its intention to abolish the Structure Plan through provisions made in the Localism Act.
Minerals Local Plan
2.16 Devon County Council adopted its Minerals Local Plan 8 in 2004, however, the Planning and Compulsory Purchase Act introduced a duty to replace this with a development framework. Devon County Council is fulfilling this requirement by producing the Minerals and Waste Development Framework. The policies within the Minerals Local Plan are saved for an extended period, and provide the current mineral planning framework for Devon until the new plan is formally adopted.
2.17 Within its policies the water environment receives special consideration. In policy MP 47, it advises that “proposals for mineral development that would reduce storage capacity in areas functioning as floodplain or increase the risk of flooding of sensitive areas will not be permitted”.
2.18 The current document includes inset plans of those quarries and mineral transportation facilities that are currently in use or likely to be used in the future. Each of these identifies the extent of the floodplain as it was defined at the time of adoption of the plan (it should be noted that floodplain maps are regularly reviewed, and the inset plans may therefore now be inaccurate in their depiction of the floodplains).
2.19 This SFRA will influence the allocation of sites in the development of the latest Devon Minerals Plan which will supersede this document.
Bovey Basin Strategy
2.20 This Strategy 9 was published in 2000 by the County Council and is a non statutory document that informed the Minerals Local Plan on ball clay working in the Basin. One of the issues considered in the strategy was flooding. It was recognised that mineral working had contributed to the progressive reduction of the area’s historic floodplain.
2.21 It was suggested that some of the currently inactive mineral working areas within the floodplain could be candidates for ‘trading’, whereby their planning permissions are revoked when new permissions are given elsewhere in the Basin to minimise the potential impact of flooding, and maintain the Basins overall floodplain capacity.
8 Available at http://www.devon.gov.uk/index/environmentplanning/planning system/planning_minerals_and_waste/minerals_planning/minerals_local_plan.htm 9 Available at http://www.devon.gov.uk/index/environmentplanning/planning system/planning_minerals_and_waste/minerals_planning/minerals_development_framework/boveybasi nactionplan.htm
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Local Planning and Flood Risk Policy
2.22 The Planning and Compulsory Purchase Act introduced a duty for each Local Planning Authority to produce a Local Development Framework (LDF). LDFs include local level plans that set out a spatial vision for the area, key strategic objectives, planning policies and development allocations.
District Council Strategic Flood Risk Assessments (SFRA)
2.23 Part of the preparation of the LDF requires each of the eight district councils within the framework boundary to prepare an SFRA. The district council SFRAs provide a localised, refined source of information in relation to the probability of flooding, and specifically review areas with emerging housing and employment land use requirements.
2.24 The district SFRAs provide the basis by which to assess flood risk and apply sequential test, steering development away from the areas at most risk. Figure 2.1 shows the status of District Councils SFRAs. The content, detail and coverage vary between the documents as each authority is responsible for producing their own SFRA.
Council Prepared by Comments
East Devon District Council Halcrow Completed Sep 08
Exeter City Council Pell Frishmann Consultants Completed Feb 08
Mid Devon District Council Hyder Consulting Completed Jun 08
North Devon Council Jointly Torridge Completed Feb 09
South Hams District Council Scott Wilson Consultants Completed Jun 07
Teignbridge District Council Royal Haskoning Updated Mar 11
Torridge District Council Jointly North Devon Completed Feb 09
West Devon Borough Council JE Jacobs Completed Oct 07 Figure 2.1: District Council SFRAs within the Plan Area
Adjacent Strategic Flood Risk Assessments
2.25 The Plan Area excludes the Unitary Authority areas of Plymouth and Torbay, together with Dartmoor and Exmoor National Parks. Hydrological processes do not adhere to administrative boundaries, and so processes occurring in these areas can affect the flood risk conditions within the Plan Area, subsequently it is important that when assessing flood risk, documents produced in neighbouring areas are also considered. Figure 2.2 demonstrates the available SFRAs for the adjacent councils.
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Council Prepared by Comments
Exmoor National Park Scott Wilson Completed Mar 09
Dartmoor National Park Scott Wilson Completed Nov 10
Torbay Council Torbay Council Updated Aug 10
Plymouth City Council Pell Frischmann Completed Jul 06
Cornwall Council Cornwall Council Completed Nov 09
Dorset County Council Halcrow Group Ltd Completed Dec 10
Somerset County Council Scott Wilson Updated Apr 10 Figure 2.2: Adjacent Councils’ SFRAs adjoining the Plan Area
Environment Agency Policy
River Basin Management Plans
2.26 River Basin Management Plans (RBMPs) are prepared to fulfil the objectives of the European Union’s Water Framework Directive. They provide a broad context for CFMPs and SMPs, together with comprehensive plans for river basin management. The South West River Basin Management Plan prepared by the EA outlines the characteristics, processes and pressures of the regions river basins.
Catchment Flood Management Plans
2.27 A series of Catchment Flood Management Plans (CFMPs) have been prepared by the Environment Agency (EA). These are designed to act as high level strategic documents that provide an overview of the main sources of flood risk for the specific catchment. This catchment based approach defines the assessment boundary by river pattern, allowing for consideration of all the flood risk conditions.
2.28 There are five CFMPs that are relevant to the framework boundary and relate to the following catchments: The Tamar Catchment, The East Devon Catchment, The North Devon Catchment, The River Exe Catchment; and The South Devon Catchment.
Shoreline Management Plans
2.29 Shoreline Management Plans (SMPs) offer strategic guidance designed to assist in coastal defence decision making. They aim to identify sustainable, strategic coastal defence options as part of an overall framework for dealing with flood risk, whilst taking into account the influence and needs of both the natural and the built environment.
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2.30 There are two SMPs that are relevant to the framework area. The Hartland Point to Anchor Head SMP, which presents the strategy for the north coast, and The Durlston Head to Rame Head SMP, which provides the strategy for the south coast.
Summary
2.31 Planning policy provided on a national, regional, sub regional and local level provides an essential foundation an on which to consider future mineral development, ensuring that decisions and conditions are applied consistently at all stages in the planning system. Planning policy, complimented by European Directives and Environment Agency guidance, is essential in achieving future sustainability with respect to flood risk management.
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3. Profile of the Plan Area
3.1 This section provides a profile of the framework area and considers the relevant characteristics it presents. Descriptions of the spatial profile of the area will be made, including the topography of the land, and the river and road networks. Details of the current climate will be presented, as well as expected future climate change characteristics. Finally Devon’s current mineral profile will be considered, together with how this many change to remain in line with future strategic considerations.
Spatial Profile
3.2 Devon sits to the east of Cornwall and to the west of Somerset and Dorset on the south west England peninsular. It is bordered to the north and the south by sea. Devon is predominantly rural, with rural areas covering 90% of the land area. The county includes many areas of exceptional countryside including Dartmoor National Park and the western portion of Exmoor National Park, and includes five Areas of Outstanding Natural Beauty (AONB) and parts of two World Heritage Sites, as can be seen in figure 3.1.
© Crown Copyright and database right 2013. Ordnance Survey 100019783.
Figure 3.1: The key environmental designations within Devon
3.3 There are over 30 different landscape character zones in Devon and over 50% of Devon’s land area is recognised as being of high cultural and heritage
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value 10 . There are a host of conservation areas and listed buildings together with extensive archaeological remains of national and local importance.
3.4 The variety of Devon’s landscape is partly dependent on its topography which can be seen in Figure 3.2. The areas of highest land sit at over 350 metres above sea level. Many of the rivers in Devon rise on Dartmoor in the centre of the county and flow north or south to the coasts. North Devon has two large river catchments, the River Taw and the River Torridge which reach the sea at Barnstaple and Bideford respectively. South Devon holds more major watercourses, the principal rivers being the Exe, Teign, Plym, Tamar, and Dart.
© Crown Copyright and database right 2013. Ordnance Survey 100019783.
Figure 3.2: The topography of Devon
3.5 The County’s settlement pattern is a vital consideration in terms of flood risk assessment. The topography and watercourses of Devon have gone some way to produce the settlement pattern seen in the county, with the greater areas of low lying land in South Devon, together with the large number of navigable rivers, producing larger numbers of settlements here than in North Devon. The major settlements of Exeter, Plymouth and Torbay are all in the
10 Devon Strategic Partnership (2004) ‘A Community Strategy for Devon’
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south of the county, as are larger towns such as Newton Abbot and Exmouth together with a series of market towns such as Totnes and Honiton. North Devon contains one large town, Barnstaple, and other market towns such as Bideford and Torrington, as can be seen in figure 3.3. This settlement pattern has a significant impact on flood risk and surface water runoff, as flood risk is gauged according to impacts on people and property, and development is a major factor in increasing surface water runoff.
© Crown Copyright and database right 2013. Ordnance Survey 100019783.
Figure 3.3: The Watercourse Network within Devon
3.6 According to the recently published Preliminary Flood Risk Assessment 11 (PFRA), there are nearly 44, 000 properties at risk of surface water flooding within the framework area. As a result, Devon County Council, ranks 8th nationally for the number of properties at risk of surface water flooding.
3.7 The county’s extensive highway network is another important consideration. There are over 12,800km of country roads in Devon, more than any other highway authority in England. The county also relies heavily on a few critical
11 A copy can be accessed at http://www.devon.gov.uk/devonpfra.pdf
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transport routes, such as the M5, the A30 and the A38. Figure 3.4 shows the road network in Devon.
© Crown Copyright and database right 2013. Ordnance Survey 100019783.
Figure 3.4: The Road Network Within Devon
3.8 Roads are a significant contributor to surface water runoff, not only providing an impermeable surface, limiting infiltration, but also by creating an artificial watercourse, increasing the velocity of runoff into the ordinary water courses. Inundation of all or any of these routes would cause significant disruption in the county.
3.9 As the Highways Authority within the framework area. Devon County Council has responsibility for the drainage of these roads. Surface water runoff is therefore a significant concern for the County Council.
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Climate Profile
3.10 The South West Peninsula is the warmest area in Britain extending forward into the mild rain bearing winds of the Atlantic. This maritime location produces a warm, temperate, humid climate with occasional frost that is tempered throughout the year by the influence of the sea.
3.11 The highest rainfall is in December and January when the sea is still warm enough to ensure high levels of air humidity and the Atlantic depressions are most active. April to July is the driest period when the sea is relatively cool. Coastal areas can receive 900 1,000mm of rainfall annually, but up to double this amount falls on Dartmoor and Exmoor due to the topography. Areas sheltering in the lee of high ground receive less rainfall, as is the case in Exeter, which can receive in the region of 800mm annually. The south west peninsula is subject to rare, but very heavy rainfall events.
3.12 It is assumed that we are already committed to the level of climate change projected for the 2020s as a result of historic and present global emissions. It is therefore important to consider climate change impacts on flood risk and its interaction with development today, to build resilience for the future.
3.13 The potential influence of climate change (the increase in rainfall and sea level rise) could significantly affect risk of flooding, and as such contingency allowances must be made for these changes when assessing planning decisions. The NPPF provides technical guidance into how this contingency allowance should be applied.
Net sea level rise (mm per year) relative to 1990 in South west England
1990 to 2025 2025 to 2055 2055 to 2085 2085 to 2115
3.5mm 8.0mm 11.5mm 14.5mm
Figure 3.5: Recommended contingency allowances for the net sea level rises (amended from NPPF Technical Guidance table 4) 12
3.14 Global sea level will continue to rise depending on greenhouse gas emissions, and the sensitivity of the climate system. The relative sea level rise in England also depends on the local vertical movement of the land (generally falling in the south east and rising in the north and west). The allowances that should be applied for the rates of relative sea level rise are shown in Figure 3.5 and should be used as a starting point for considering flooding from the sea, along with the sensitivity ranges for wave height and wind speed in Figure 3.6.
12 NPPF Technical Guidance can be viewed at www.communities.gov.uk/publications/.../nppftechnicalguidance.pdf
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1990 to 2025 to 2055 to 2085 to Parameter 2025 2055 2085 2115
Peak rainfall intensity +5% +10% +20% +30%
Peak river flow +10% +20%
Offshore wind speed +5% +10%
Extreme wave height +5% +10%
Figure 3.6: Recommended national precautionary sensitivity ranges for peak rainfall intensities, peak river flows, offshore wind speeds and wave heights (reproduced from NPPF Technical Guidance table 5)13
3.15 Sensitivity testing of the flood map produced by the Environment Agency, using the 20 per cent from 2025 to 2115 allowance for peak flows, suggests that changes in the extent of inundation are negligible in well defined floodplains, but can be dramatic in very flat areas. However, changes in the depth of flooding under the same allowance will reduce the return period of a given flood.
3.16 This means that a site currently located within a lower risk zone could in future be re classified as lying within a higher risk zone. This in turn could have implications for the type of development that is appropriate according to its vulnerability to flooding. It will therefore be important that developers, their advisors and local authorities refer to the current flood map and the Strategic Flood Risk Assessment when preparing and considering proposals.
3.17 Flooding in estuaries may result from the combined effects of high river flows and high sea surges. When taking account of impacts of climate change in flood risk assessments covering tidal estuaries, it will be necessary for the allowances for sea level rise in table 4 and the allowances for peak flow, wave height and wind speed in table 5 to be combined.
Mineral Profile
3.18 The nature and diversity of Devon’s geology has not only influenced the County’s landscape and its patterns of settlement and land use, but has also resulted in the development of quarries and mines as means of extracting the underlying mineral resources. At present there are more than 50 sites in the county acting as either operational quarries or sites that may have likelihood or being worked in the future.
Minerals of National Importance
3.19 Devon has mineral resources that are of national and, in some cases, international importance due to their limited occurrence within the UK and
13 NPPF Technical Guidance can be viewed at www.communities.gov.uk/publications/.../nppftechnicalguidance.pdf
22 Devon Minerals Plan: Strategic Flood Risk Assessment March 2013
globally. Working of these minerals is predominantly to serve overseas markets, and in Devon they include, ball clay, china clay and tungsten.
3.20 Ball clay is a result of the deposition of sediment from Dartmoor within the Bovey and Petrockstowe Basins, and the working areas are generally in valley bottom locations. In contrast, china clay is the result of the in situ alteration of granite on the south western edge of Dartmoor. Both ball clay and china clay working are characterised by the volume of mineral waste that results, with tipping of this waste taking place either through backfilling of voids or by surface level tipping.
3.21 Ball clay only occurs within Devon and Dorset. The quality and properties of UK ball clay mean that there is relatively little competition from deposits elsewhere, and the sector remains buoyant. China clay produced in Devon accounts for around 12% of the total national output of this resource, ensuring that Devon is an important contributor to the national supply.
3.22 Developing global economies have increased the worldwide demand for tungsten in recent years. In response there are proposals to re open a tungsten mine near Plymouth, a large scale operation which will supply UK and world markets.
3.23 The working of minerals of national importance takes place on a larger scale than is the case with aggregates and more commonly found minerals. These operations therefore produce large quantities of waste materials.
Aggregates
3.24 Aggregates of regional and local significance are produced from sandstone, igneous rock, limestone and sand and gravel. These are collectively known as primary aggregates. The processing of waste materials arising from ball clay and china clay extraction provides secondary aggregates. The waste material from construction and demolition work provides recycled aggregates.
3.25 Crushed rock aggregates are quarried from limestone, sandstone and igneous rocks, predominantly in south and north west Devon, with the scale of operations ranging from large quarries producing around 500,000 tonnes each year to very small scale sites that are only worked intermittently and produce only a few hundred tonnes.
3.26 Sand and gravel are worked in the south east of the County, with the larger operations (accounting for around 85% of Devon’s production) being located on the Budleigh Salterton Pebble Beds in East and Mid Devon and smaller scale working occurring at two sites in the Newton Abbot area. In contrast to other parts of the country, sand and gravel working in Devon takes place within bedrock deposits rather than in the superficial deposits occurring in river valleys.
3.27 Secondary aggregates, in the form of sand and crushed rock, largely arise from china clay and ball clay extraction. Devon has an extensive network of facilities for the production of recycled aggregates from construction and demolition waste.
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Other Minerals
3.28 There is a range of smaller scale quarries in Devon producing a variety of materials predominantly for local use. Building stone and slate are mainly produced at a number of small quarries in northern and western Devon, with stone also being produced at some aggregate quarries. Although brick manufacture has occurred in a number of areas within Devon, production of brick clay in the county has been limited in recent years. Boulder clay has been worked on a very small scale at a site near Barnstaple to provide material for a local pottery.
3.29 The distribution of various forms of mineral resources is dependent on the underlying geology. Figure 3.6 shows an indication of where the concentrations of “minerals of national importance” and “aggregates” are located. Development associated with “other minerals” is generally on a smaller scale and is located across the county.
3.30 For aggregates, Figure 3.6 indicates the key geological formations where extraction will continue on a strategic level (i.e. limestone formations, Budleigh Salterton Pebble Beds) or formations that may see new working in the future. In the case of the sandstone formations shown in northern and western Devon, these should be regarded as 'areas of search' within which a small area may be developed if further investigation demonstrates the presence of an economically viable resource. These areas were indicated as potential Mineral Safeguarding Areas in the Council's Options Consultation Paper (February 2011), but may not be included in future iterations of the Minerals Plan.
24 Devon Minerals Plan: Strategic Flood Risk Assessment March 2013
© Crown Copyright and database right 2013. Ordnance Survey 100019783
Figure 3.6: Indication of the mineral concentrations within the Plan Area
25 Devon Minerals Plan: Strategic Flood Risk Assessment March 2013
4. Mineral Development and Flood Risk
4.1 This section provides a consideration of mineral development and its interaction with flood risk within the Plan area. The strategic considerations that influence the industry are an important factor in the future development of minerals, this coupled with the threat of increased flood risk due to climate change demonstrates the importance in having a strong sound flood risk policy in place.
4.2 Mineral development has several factors that makes make it distinctive from other forms of development management. These factors make for important consideration when assessing flood risk and its interaction with mineral development, as well as the opportunities that mineral development can offer in the mitigation of flood risk.
Minerals Strategy Considerations
4.3 Devon County Council acting as the Mineral Planning Authority has a duty according to the NPPF to plan for a steady and adequate supply of industrial minerals and aggregates. It states that:
“Minerals are essential to support sustainable economic growth and our quality of life. It is therefore important that there is a sufficient supply of material to provide the infrastructure, buildings, energy and goods that the country needs Since minerals are a finite natural resource, and can only be worked where they are found, it is important to make best use of them to secure their long term conservation” 14
4.4 The NPPF requires that the authority identifies areas where mineral resources are available, and protect it from alternative development which would result in their future working being unfeasible. These are Mineral Safeguarding Areas (MSAs) and are protected to ensure that resources are not needlessly sterilised by non mineral development.
4.5 A spatial strategy for Devon and its future mineral working was proposed in the Options Consultation Paper (March 2011) 15 . This allows for the concentration of strategic mineral development within the M5/A38 corridor, utilising the strategic road network to minimise the negative impact of transportation.
4.6 The spatial strategy is represented in figure 4.1, indicating where strategic mineral development is located, the M5/A38 corridor where mineral development should be focused, and the designations that show where mineral development must be avoided.
14 Para 142, NPPF can be viewed at http://www.communities.gov.uk/documents/planningandbuilding/pdf/2116950.pdf 15 http://www.devon.gov.uk/mcs options consultation paper.pdf
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© Crown Copyright and database right 2013. Ordnance Survey 100019783
Figure 4.1: Minerals Spatial Strategy Within the Plan Area
4.7 The demand for resources in mineral development is influenced by both global and local markets. The buoyancy of these markets can be influenced not only by economic factors but by political, social and technological factors, as the stability of the future supply of resources is an important concern.
4.8 Meeting the future demand for mineral resources, whilst complying with requirements in relation to the location of development can have implications for flood risk and the limited availability of a resource can result in it requiring development in areas at risk of flooding.
4.9 Limitations in site location, coupled with a likely increase in flood risk due to climate change, highlight the necessity to have a strong coherent flood risk policy in place.
Minerals Development Considerations
4.10 Minerals development and the associated planning processes have a number of characteristics that set them apart from planning for other forms of development, and these have implications for the management of flood risk arising from mineral working:
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♦ planning permissions for mineral working in Devon are often very long term (typically up to 2042, although sites may have economic reserves for an even longer period);
♦ although generally a long term activity, mineral working is a temporary use of the land and, following its cessation, restoration to another after use will occur, albeit with an altered landform that may include voids from extraction together with above ground tipping;
♦ once planning has been granted (in many cases, as long ago as the 1940s and 1950s) the mineral planning authority has limited ability to influence the rate of extraction or tipping of waste or other aspects of working that would adversely affect the economic viability or asset value of a site;
♦ there is legislative provision for the periodic, every 15 years, review of mineral permissions (ROMP) in order to strengthen environmental and other controls over working;
♦ minerals can only be exploited where they occur, with some resources such as ball clay and china clay having very limited distribution nationally, and this has implications for the ability to consider reasonable alternatives;
♦ the scale of many mineral sites and their predominantly rural location set them apart from other forms of development; and
♦ while a mineral site (i.e. the area that has planning permission) may be large, areas within that site will be at different stages of working and/or restoration, and some parts may not be required for working at all.
4.11 The key implications of these characteristics in considering flood risk are that mineral development includes the alteration of the local landform that may include voids as well as surface features, and that mineral working is a temporary (albeit often long term) activity that entails the subsequent restoration of the site to a beneficial after use.
Minerals Flood Risk Considerations16
4.12 Mineral operations within or close to floodplains are at risk of inundation during a flood event, with potential impacts including the deposit of sediment within a quarry void and the erosion of stockpiles and waste tips. However, mineral extraction and related activities can also have significant impacts (including benefits) on flood risk over a wider area, and these are identified below. While fluvial flooding is the most likely source, quarries can also be affected by surface water (pluvial) flooding and by groundwater flooding.
16 Information obtained from ‘The Influence of Aggregate Quarrying in River Floodplains on Flood Risk and Biodiversity’ (undated), available at http://www.sustainableaggregates.com/library/docs/mist/l0094_ma_1_2_007.pdf
28 Devon Minerals Plan: Strategic Flood Risk Assessment March 2013
4.13 Flooding can also result from tidal sources in coastal areas and estuaries, but this is of limited relevance for mineral working in Devon. The only quarry recently operating in close proximity to an estuary was at Steer Point in South Devon (now closed), while no quarrying takes place in a coastal location. Wharves used for the transportation of minerals are inevitably located within coastal areas and estuaries, and the operation of these may include the stockpiling of minerals prior to or following transhipment.
Flood Storage Capacity
4.14 The void created during mineral extraction is capable of providing flood storage capacity unless protected by embankments and, depending on the extent of backfilling, can be retained following closure and restoration of the quarry if the final surface level is below that of the original floodplain. An example of a quarry restoration scheme providing for enhanced flood storage capacity is that approved for Newbridge Quarry in the Bovey Basin.
4.15 Other features associated with mineral working that rise above the level of the floodplain, including stockpiles, waste tips, screening bunds, buildings and plant, can reduce potential flood storage, with the most significant impacts arising from linear features such as bunds. In some cases, these features will be temporary for the duration of the mineral working and removed in the restoration phase (thereby reinstating floodplain capacity), while some features such as waste tips will become permanent elements of the landscape. While the location of a quarry will be constrained by geological considerations, the location of surface tips and other ancillary features can be more ‘footloose’.
Flood Conveyance
4.16 ‘Conveyance’ is the ability of a floodplain to transfer water, and this is influenced by several factors including hydraulic roughness or surface irregularity. Roughness caused by mineral extraction is likely to reduce conveyance and thereby increase local flood risk, although some activities associated with mineral development, such as removing surface vegetation and hedges, could have the converse effect by reducing surface roughness.
Effects on Surface and Groundwater Flows
4.17 Quarrying activity can increase surface water run off and therefore flood risk if the area of hard surface is increased, by the compaction of soil, or through the breaching of water and silt storage lagoons. The potential for groundwater flooding may be influenced where mineral extraction impact on local hydro geological characteristics and the interface with the hydrogeological regime, for example through increased transmissivity.
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5. Assessment of Flood Risk
5.1 This section provides an outline of the planning policy framework informing flood risk. The purpose of this section is to provide guidance on flood risk types and their assessment. Accurate assessment and understanding of the likely forms of flooding and their potential impact is essential to applying a risk based approach to flooding.
5.2 This represents step 1 in the flood risk hierarchy, as can be seen in figure 5.1. It is through assessment that the suitability of land for the development of mineral operations will be determined.
The Flood Risk Hierarchy
Step 1 Step 2 Step 3 Step 4 Step 5
Assess Avoid Substitute Control Mitigate
Appropriate Apply the Apply the e.g. Flood flood risk sequential Sequential e.g. SUDS, resilient assessment approach Test at site design, flood construction level defences
Figure 5.1: Flood Risk Hierarchy
5.3 Crucial to the accurate assessment of flood risk is appreciating that flood risk conditions must be considered holistically, taking account of all the factors that contribute to potential increased risk.
5.4 The source pathway receptor model is a useful tool in demonstrating this, particularly in the assessment of instances of surface water flooding. The model, as seen in figure 5.2, demonstrates the transient nature of water. The source, the cause of the flood, can be a great distance from where the most impact is felt, the receptor. If , a pathway’s capacity is exceeded, or a blockage occurs, flooding can occur when the water adopts a new pathway.
Figure 5.2: Source Pathway Receptor approach 17
5.5 There are a number of forms of flooding that can occur, these include:
17 (CIRIA) (2004) Development and flood risk – Guidance for the construction industry (C624)
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♦ river (fluvial) flooding ♦ tidal/coastal flooding ♦ surface water (pluvial) flooding ♦ sewer flooding ♦ groundwater flooding ♦ flooding from infrastructure failure (reservoir flooding)
5.6 These different types of flooding can happen on their own or in combination. For example, an intense storm could cause a river to breach its banks; this could in turn exceed the capacity of the drainage system downstream. The resultant flooding is therefore a combination of both fluvial and sewer flooding.
Fluvial Flooding
5.7 Fluvial or river flooding is most commonly caused by intense rainfall causing flash flooding, or following prolonged rainfall upon saturated ground, resulting in floodplain inundation. Various situations can exacerbate fluvial flood risk, such as blockages at culverts, overtopping of defences or breaching of defences.
5.8 The precise extent of fluvial flooding is difficult to measure, and therefore reliance has been placed upon Environment Agency flood zone maps. This mapping should be used to prompt a more detailed assessment, should future development be under consideration in or adjacent to these areas. Flood zones are defined by likelihood and measured by Annual Exceedance Probability (AEP). This is a numerical representation of the probability of a flood occurring in any one year. The higher the percentage, the more likely it is that the area will flood. Figure 5.3 demonstrates how the flood zones are classified.
Figure 5.3: Flood Zone Classification
5.9 Importantly, it should be noted Flood Zones have not been determined for minor watercourse that drain catchment areas less than 3sq km or areas that may be susceptible to surface water flooding.
5.10 Flood Zone 1 is classified as land where the risk of flooding is less than 1 in 1000 years (i.e. less than 0.1% AEP). It is classed as an area of ‘low probability’ risk of fluvial flooding.
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5.11 Flood Zone 2 is classified as land having between 1 in 100 and 1 in 1000 year annual probability of fluvial flooding (i.e. 1% 0.1% AEP). It is classed as an area of ‘medium probability’ risk of fluvial flooding.
5.12 Flood Zone 3a is classified as land having a potential to flood for storm events greater than 1 in 20 year return period and up to 1 in 100 year annual probability (i.e. greater than 1% AEP). It is classed as an area of ‘high probability’ risk of fluvial flooding.
5.13 Flood Zone 3b is classified as land having the potential to flood for storm events up to 1 in 20 year return period (i.e. 5% AEP). It is classed as ‘functional floodplain’, including land where water must flow to or be stored during times of flood up to 1 in 20 year return period, or greater, or at another probability to be agreed between the LPA and the Environment Agency.
5.14 All areas within Zone 3 should be considered as Zone 3b (functional floodplain) unless, or until, an appropriate site specific assessment shows to the satisfaction of the Environment Agency and the Authority that it can be considered as falling within Zone 3a (High Probability).
5.15 A flood zone map example is provided in Figure 5.4. The area in blue with hatching overlay is the area with highest probability of flooding; a site assessment defines whether this area is to be considered flood zone 3a or flood zone 3b. The area without the hatching is considered flood zone 2.
© Crown Copyright and database right 2013. Ordnance Survey 100019783
Figure 5.4 Example of flood zone mapping
5.16 There is very little certainty about the effect climate change will have on future flood zones, however the following approach 18 is considered the best estimate:
18 Approach provided in the NPPF Technical Guidance page 12. Can be accessed at http://www.communities.gov.uk/documents/planningandbuilding/pdf/2115548.pdf
32 Devon Minerals Plan: Strategic Flood Risk Assessment March 2013
♦ current Flood Zone 2 becomes Climate Change Flood Zone 3a; and ♦ current Flood Zone 3 becomes Climate Change Flood Zone 3b (Functional Floodplain).
5.17 This shift in flood zone should be used when assessing the potential impacts of climate change. This will be important if a proposed site is at high risk of flooding and is requiring development because of exceptional circumstances.
5.18 It is essential to recognise that flood risk within the County is not limited to flooding of rivers. There is a significant risk to people and property from tidal and groundwater flooding, exacerbated by high river levels, and from surface water and sewer flooding as a result of localised heavy rainfall.
Tidal Flooding
5.19 Tidal flooding occurs when sea level rises above the normal tidal range, which can affect the open coast and estuarine areas. Tidal flooding can also become exacerbated by storm or tidal surges and wave action. High sea levels can cause tide locking, which may reduce the drainage of water from rivers and sewers causing an additional source of risk. The onset of flooding from the sea can be very rapid (once a defence has failed or been overtopped) and deep fast flowing water can create an extreme hazard.
5.20 The area at the highest risk of flooding often follows a complex path, as sea defences and dunes offer varied protection. A tidal flood zone map example is provided in Figure 5.5.
© Crown Copyright and database right 2013. Ordnance Survey 100019783
Figure 5.5: Example of flood zone mapping in a tidal area
5.21 Tidal flood risk is also assessed in the Shoreline Management Plans, which includes information such as the risk of overtopping of coastal defences.
5.22 In the future Marine Plans could also provide a valuable resource for assessing tidal flood risk, recent government legislation in the form the Marine and Coastal Access Act 2009 has required that these are produced for each coastal region. Once produced, these plans will consider off shore planning
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issues (and some on shore planning issues in estuarine areas) including flood risk.
Surface Water Flooding
5.23 Sources of surface water flooding can either take the form of runoff originating from agricultural/undeveloped land, or run off from developed urban land. Surface water flooding from agricultural and undeveloped land is associated with the inability of the ground to absorb rain water (or snow melt). This is affected by land use, land management, ground conditions, geology and time of year. Surface water flooding associated with flooding in urban areas, occurs when the ground is unable to absorb rain water due to development causing as increase in sealed surfaces, reducing permeability.
5.24 Surface water flooding often occurs when there is short duration, intense rainfall events where precipitation is unable to infiltrate the ground or enter drainage systems at the elevated rate. In tidal areas surface water flooding can also occur during high tides, where the surface water cannot freely discharge to coastal waters or an estuary.
5.25 The Environment Agency has assessed surface water flood risk and produced a data called Areas Susceptible to Surface Water Flooding (AStSWF). This surface water mapping information was recently been updated with the addition of the Flood Maps for Surface Water (FMfSW) data which contains flood extents for a 1 in 30 year rainfall event and a 1 in 200 year event. These two approaches, as can be seen in figure 5.6, at times provide different representations of surface water flood mapping. It is therefore important to consider surface water flooding in line with the appropriate dataset.
© Crown Copyright and database right 2013. Ordnance Survey 100019783
Figure 5.6: Example of FMfSW and AStSWF surface water flood mapping
5.26 The Flood Risk Regulations 2009 required that Lead Local Flood Authorities (LLFA) provide flood risk assessments, management plans and hazard maps. These investigate flooding within their boundary from surface water, groundwater and ordinary watercourses. Devon County Council acting as the Lead Local Flood Authority has completed the initial assessment for the
34 Devon Minerals Plan: Strategic Flood Risk Assessment March 2013
county, the Preliminary Flood Risk Assessment (PFRA)19. This assessment has produced “locally agreed surface water mapping” (a combination of the AStSWF and FMfSW) which best reflects the surface water flooding conditions in Devon.
Sewer Flooding
5.27 Sewer systems are typical to all the urban locations in Devon, and also service a large rural population. Sewers are commonly laid within highway structures. Modern systems are designed to accommodate storm events with a 30 year return period which are normally separated into foul and surface water sewers. Older sewer systems however, which are common in Devon, are often constructed to a standard of less than 30 years and are designed to convey foul and surface water flows in combination.
5.28 As towns and villages have expanded to accommodate growth, the older sewer networks often cannot provide sufficient capacity, consequently flooding some parts of the sewer system. This form of flooding has been further exacerbated over the last decade as the number of consented overflows into water courses has reduced, putting greater reliance on the sewer system. Increased urban development, specifically “infill development” has increased pressure on the sewer system.
5.29 The maintenance, construction and performance of the sewer system are the responsibility of the Water Company, in this case South West Water. South West Water should be consulted if there is any concern in relation to the capacity of the sewer network.
Groundwater Flooding
5.30 Groundwater flooding occurs when water levels in the ground rise above surface elevations and cause spring resurgence. This type of flooding is dependent on the underlying geological strata and is most likely to occur in low lying areas underlain by permeable rocks (aquifers) after prolonged rainfall. The effect of groundwater flooding is often presented as seepage direct into properties.
5.31 There is limited detailed information available on flood risk from groundwater sources. The Environment Agency has, however, developed a dataset, Areas Susceptible to Groundwater Flooding (AStGWF)20, which highlights 1 km grid areas with differing levels of risk. An indication of the areas at risk of groundwater flooding within the framework area is provided in figure 5.7. Due to the geology of the county, however, this form of flooding is considered relatively rare within the Plan Area.
19 The Preliminary Flood Risk Assessment (PFRA) Final Version 2011 can be obtained from http://www.devon.gov.uk/devonpfra.pdf 20 AStGWF Area classification (proportion of each 1 km square that is susceptible to groundwater flood emergence)
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© Crown Copyright and database right 2013. Ordnance Survey 100019783
Figure 5.7: Map of areas at possible risk of groundwater flooding
Flooding from Infrastructure Failure
5.32 Flooding from infrastructure failure occurs when raised channels such as canals or storage features including ponds and reservoirs become overwhelmed as a result of dam or bank failure. The likelihood of failure is low, due to regular inspection and maintenance, however, should a breach occur, the consequences are likely to be significant.
5.33 There are a number of impounding reservoirs within the framework area which South West Water operates, details of which are provided in Figure 5.8.
Net Capacity Reservoir Type (MI)* Roadford Embankment 34,500 Burrator* Masonry gravity 4,210 Meldon* Concrete gravity 3,020
Fernworthy* Masonry gravity 1,765
Wistlandpound Earth embankment 1,550
Upper Tamar Lake Concrete gravity 1,477
Avon* Concrete gravity 1,313
Kennick* Earth embankment 848
Venford* Masonry gravity 740
Trenchford* Earth embankment 707
Tottiford* Earth embankment 456
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Figure 5.8: Table of South West Water reservoirs relevant to the Plan Area 21 * Outside Plan Area but feed into rivers flowing into the Plan Area
5.34 Legislation has amended the Reservoirs Act, introducing a requirement for reservoir undertakers to prepare reservoir flood plans. These plans analyse the extent and severity of flooding that could occur as a result of failure of the structure. They are required on reservoirs where failure could have a major impact on risk to property and lives.
5.35 The Environment Agency holds further details regarding reservoir flood plans and flood maps. This information should be consulted to determine whether sites are within the breach range of these structures 22 .
21 Full details of South West Water operated reservoirs can be found at http://www.southwestwater.co.uk/index.cfm?articleid=1529 22 Details can be found at http://www.environment agency.gov.uk/homeandleisure/floods/124783.aspx
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6. Catchment Area Flood Risk Characteristics
6.1 Area profiles will provide an indication of the flood risk conditions within the Plan Area, divided into 5 distinct catchments. This will identify areas at higher risk than others, highlighting areas which may be unsuitable for mineral related development. These profiles are defined as the North Devon Catchment, the Tamar River Catchment, the South Devon Catchment, the River Exe Catchment and finally the East Devon Catchment as can be seen in Figure 6.1.
© Crown Copyright and database right 2013. Ordnance Survey 100019783
Figure 6.1: The catchment area breakdown
6.2 The defined profiles are based upon the Environment Agency Catchment Flood Management Plans, rather than administrative boundaries. This is to ensure that flood concerns are assessed on a catchment wide perspective, holistically considering flood risk conditions. Taking this approach is favoured to defining catchments based upon arbitrary administrative boundaries, as these take no account of hydrological flows.
6.3 This section will present an examination of the flood risk conditions within each profile area through a variety of sources. This information will aid in the assessment of sites in the development of the Devon Minerals Plan and in the development management process. Site allocations will therefore consider local flood risk conditions in the catchment. Information provided in this SFRA should however not be considered exhaustive, as flood risk conditions are
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liable to alter rapidly and unpredictably. It is important that this information is treated as indicative.
North Devon Catchment
6.4 The North Devon Catchment includes the area drained by the river Taw and its tributaries, the river Torridge and its tributaries and the North Devon coastal river that flows directly into the sea. The North Devon Catchment crosses the Local Authority areas of West Devon Borough Council, Torridge District Council, North Devon Council and small section of Mid Devon District Council’s area, as can be seen in figure 6.2. The catchment area also crosses into parts of Dartmoor and Exmoor National Park which sit outside the Plan Area.
© Crown Copyright and database right 2013. Ordnance Survey 100019783
Figure: 6.2: North Devon Catchment Area
6.5 Historically several significant floods have occurred within this catchment area, including the record breaking Lynton and Lynmouth floods in 1952, which resulted in the deaths of 34 people. More recently, in 2000, severe weather warnings were issued for the lower reaches of the rivers Taw,
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Torridge and East Lyn. Information provided by the Environment Agency in December 2008 (Figure 6.3) indicated that the most common source of flooding in the past is from fluvial flooding, accounting for 59% of the recorded flood events. The Environment Agency also confirmed a significant risk of tidal flooding in the catchment, especially in Barnstaple, Bideford and Ilfracombe.
Sources of flooding: North Devon
Unknown 10%
Surface water 18% River 59%
Groundwater 1%
Sewers 3%
Tidal 9%
Figure 6.3: North Devon Catchment historic sources of flooding 23
6.6 The North Devon Council SFRA advises that Barnstaple has complicated flood risk conditions due to the necessary tidal defences and issues relating to sewer capacity. The Regional Flood Risk Assessment (RFRA) also identified Barnstaple with an increased risk of flooding with specific concerns to the possible effects of climate change and sea level rise for the town.
6.7 The flood zone area in the catchment broadly follows the routing of the main rivers and their tributaries; there is a wide margin of risk attributed to the River Taw, and a concentrated area of risk where the river Taw reaches Barnstaple Bay at the coast, as can be seen in figure 6.4. The map identifies areas where there maybe potential mineral resources (see 3.30) that may interact with areas at risk of flooding.
6.8 Figure 6.4 highlights the areas where there is a potential interaction. In the case of the North Devon catchment, this has indicated 5 areas that require greater focus. These are shown in inset maps figure 6.5, figure 6.6, figure 6.7, figure 6.8 and figure 6.9. If an area is not mapped that is be being considered for future development, the MPA must be contacted for detailed flood risk mapping.
23 Environment Agency North Devon Catchment Flood Management Plan (2008) – Note: The information only reflects the frequency of the flood event, rather than its severity. Small scale unreported flood events will not be included. Therefore incidences of groundwater or sewer flooding may be higher than the statistics suggest.
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© Crown Copyright and database right 2013. Ordnance Survey 100019783
Figure 6.4: North Devon Catchment flood zones
© Crown Copyright and database right 2013. Ordnance Survey 100019783
Figure 6.5: North Devon Inset Map A Figure 6.6: North Devon Inset Map B
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© Crown Copyright and database right 2013. Ordnance Survey 100019783
Figure 6.7: North Devon Inset Map C Figure 6.8: North Devon Inset Map D
© Crown Copyright and database right 2013. Ordnance Survey 100019783
Figure 6.9: North Devon Inset Map E
6.9 The Hartland Point to Anchor Head Shoreline Management Plan 24 provides greater information in relation to flooding from tidal sources within the catchment area. This plan should be consulted if a proposed development is located close to the coast.
6.10 Following a desk based review of assessments it is apparent that the areas most affected by surface water flooding are located in the coastal areas of the North Devon catchment, specifically in the main urban areas of Bideford, Barnstaple and Ilfracombe. Surface water flooding caused by the limited
24 More information in relation to this SMP can be found at http://www.ndascag.org/
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capacity of drainage and sewer systems is also made worse by high tide levels, specifically along the lower reaches of the rivers Taw and Torridge. Great Torrington is further from the coast and is also highlighted in the district council SFRA as having surface water flooding issues. Barnstaple was also recently highlighted in the Preliminary Flood Risk Assessment (PFRA) as an area requiring greater assessment in regard to surface water flooding. The settlement ranks 138th against a national assessment of urban areas at risk of surface water flooding, with the estimation that 2,403 people are at risk in the Barnstaple cluster area. Ilfracombe also featured as an area requiring assessment. The settlement ranks 155th against a national ranking with an estimated 2,139 people at risk of surface water flooding.
6.11 According to the North Devon CFMP the general risk associated with groundwater flooding is “insignificant”, however, in the upper parts of the catchment the risk is increased to “moderate” due to the specific geology of the area. There has been a reported groundwater event at Weare Gifford.
6.12 There are a number of reservoirs in the catchment area, including Meldon Reservoir and Wistlandpound Reservoir. Modern inspection regimes on reservoirs makes a breach extremely unlikely, however it must be noted that the consequences of flooding could be significant to the area.
6.13 To analyse the impact of possible climate change, the Environment Agency in 2008 developed a future ‘scenario’ for the catchment area by combining the three main factors: climate change, changes in land use and urbanisation. The results suggest that in the future (2100) estimated economic damages could be as high as £950 million within the catchment area and the main urban areas of Barnstaple and Bideford would be the worst affected.
6.14 As indicated in Figure 6.5, a significant part of the ball clay resource within the Petrockstowe Basin lies within Flood Zones 2 and 3. However, no extension of the mineral working area beyond that which currently has planning permission is anticipated during the Plan period. Elsewhere within North Devon, mineral working tends to be for hard rock in hillside locations with limited impacts on flood risk.
River Tamar Catchment
6.15 The River Tamar catchment includes the area drained by the Tamar and its tributaries which include the main rivers of the Claw, Carey, Thrushel, Tavy, Plym, Wolf and Yealm, where the rivers meet the sea at Plymouth Sound. The Tamar Catchment crosses the Local Authority areas of South Hams District Council, West Devon Borough Council and Torridge District Council, as can be seen in Figure 6.10. As discussed the catchment area also crosses into the adjacent areas covered by Cornwall Council, Plymouth City Council and Dartmoor National Park.
43 Devon Minerals Plan: Strategic Flood Risk Assessment March 2013
© Crown Copyright and database right 2013. Ordnance Survey 100019783
Figure 6.10: River Tamar Catchment area
6.16 Historically several significant floods have occurred in the Tamar catchment area. One of the most dramatic being in 2004 at Canworthy Water where flood water swept away livestock and vehicles. Information provided by the Environment Agency in December 2008, as can be seen in Figure 6.11, indicated that the most common source of flooding in the past has been from fluvial (or river) flooding which accounts for 41%.
6.17 The presence of the estuaries in the Tamar catchment has contributed to flood risk, often making flooding worse when high tides coincide with high rainfall. The largely rural nature of the Tamar catchment results in 6% of the recorded sources of flooding being attributed to field run off. Sewer flooding accounts for a significant 26% of reported flood events in the catchment area. These were however largely attributed to the urban settlement of Plymouth, located outside the framework area.
44 Devon Minerals Plan: Strategic Flood Risk Assessment March 2013
Sources of Flooding: Tamar Catchment
Surface water 18% River 41%
Sewers 26%
Groundwater 0%
Field Runoff 6% Tidal 9%
Figure 6.11: River Tamar historic sources of flooding 25
6.18 The South Hams District Council SFRA advises that Brixton, Lee Mill, and Sparkwell are settlements at risk of surface water flooding, whilst the Dartmoor National Park SFRA provides a focussed assessment of the Horrabridge area. The Torridge District Council SFRA acknowledges that Holsworthy is at risk of flooding from the River Deer. The effect of sea level rise and the existing tidal and fluvial flood risk was considered a concern in Plymouth by the Regional Flood Risk Assessment (RFRA).
6.19 The upper Tamar area possesses steep river sections which affects fluvial flood risk in the settlements in the area around Holsworthy and Bridestowe, at times causing severe local flooding. The lower section of the River Tamar can suffer from tidal related flood issues. Figure 6.12 identifies areas where there maybe potential mineral resources (see 3.30) that may lead into areas at risk of flooding, highlighting the areas where there is a potential concern. In the case of the Tamar catchment, there are 4 areas that require greater focus which are shown in inset maps Figure 6.13, Figure 6.14, Figure 6.15 and Figure 6.16. If an area is not mapped, and is being considered for future development, the MPA must be contacted for detailed flood risk mapping.
25 Information taken from the Environment Agency Tamar Catchment Flood Management Plan (2008) – Note: The information only reflects the frequency of the flood event, rather than its severity. Small scale unreported flood events will not be included. Therefore incidences of groundwater or sewer flooding may be higher than the statistics suggest.