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Published byLindsay Gwendoline Dalton Modified over 9 years ago
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Standards for Ecologically Successful River Restoration Palmer et al., 2005, Standards for Ecologically Successful River Restoration Palmer et al., 2005, Standards for Ecologically Successful River Restoration Dylan Castle
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Overview What is Successful Restoration 5 criteria for River Restoration Standards Examples of Restoration Conclusion
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What is Successful Restoration? Main focus: Improving environmental conditions Ideally successful restoration – Cost-effective – Outcome satisfying to shareholders – Aesthetically pleasing – Provided knowledge for future restorations – Ecologically successful Currently, no accepted set of restoration standards – Most projects never monitored post-restoration
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Five Criteria for Measuring Successful Restoration Projects Guiding Image Improved Ecosystem Increased Resilience Harmless Availability of pre- and post- project assessment
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1. Guiding Image Establishment of ecological endpoint to guide restoration There is no universal standard for all rivers – Image needs to be realistic and site specific – Considers biologic, hydrologic, and geomorphologic aspects E.g. Reconfiguring a braided channel to a meandering channel may not fit geomorphology
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Establishing an Image Aerial photographs, maps, ground photography, and land records Example: U.S. Government land surveys from 1800’s were used as a reference for contemporary restoration projects on the upper Mississippi Using undisturbed or previously restored sites as reference. – Taking into consideration geomorphology, hydrology, climate, geology, and zoogeography. Example: Using steep, mountainous streams as a guide to restore meandering valley rivers.
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Establishing an Image Cont. Employing empirical models – Knowledge of channel, sediment, and hydraulic relationships to form design parameters. – Useful if no reference conditions present Stream classifications – Ordering into groups based on common characteristics. – Factors: channel pattern, gradient, bed material size, and sediment load. Common sense – Areas with no riparian vegetation may simple need planting of new riparian vegetation.
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2. Improved Ecosystems Ecological conditions of a river need to be measurable enhanced – Fish populations – Improved water clarity and quality – Seasonal meadows and floodplains Improvements take time – Different ecological variables take different amounts of time to recover. – Variability can actually be a signal of successful restoration as natural systems are themselves variable
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Improved Ecosystems Cont. Clear understanding of scale and severity of constraints needs to be established. Level of Restoration depends on many factors – Funding, infrastructure limits, and stakeholder needs Restoration improvement limits lie at the point where ecological and stakeholder outcomes are met and future efforts benefit from acquired knowledge.
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3. Increased Resilience River ecosystem is more self-sustaining then before restoration Successful restorations have characteristics that can recover from rapid changes and stresses – Being able to recover from floods Without restoring resilience: – Need ongoing repair – Constant management
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Increased Resilience Cont. Hard engineering structures should be avoided Some situations may require hard engineering – Facilities that prevent incision but encourage lateral movement – Establishing culverts or pathways for access to fish spawning areas
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4. Harmless Implementing restoration does not permanently harm the system – Minimize loss of native vegetation – Construction during non-spawning seasons – Not removing an riparian vegetation Restoration does not inflict harm somewhere else – Example: Restoration efforts that lead to permanent increases in downstream sedimentation
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5. Assessment Assesses pre- and post- restoration information Established positive and negative affects Information is readily available for other projects. Some projects are easily assessable – Checking to make sure replanted riparian vegetation is still alive – Water quality/temperature has improved
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Restoration Example 1 Problem: Increase of peak runoff in urban areas due to runoff of impervious surfaces Solution 1: Creating floodplain wetlands to intercept runoff and increase infiltration Solution 2: Construct rock walls or rip-rap. Solution 1 is better. Uses abilities to moderate flow. Also does not need long-term maintenance or repair. Therefore, more self-sustaining.
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Example 2 Problem: Channel disconnected from floodplain in large lowland rivers Solution 1: Levee breaching or widening. Solution 2: Periodic Dredging Solution 1 restores a natural periodic process benefits propagation of native species and natural flood retention. Solution 2 is costly and significantly disrupts ecology. Also requires regular maintenance.
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Conclusion Ideally successful restoration – Cost-effective – Outcome satisfiable to shareholders – Aesthetically pleasing – Provided knowledge for future restorations – Ecologically successful 5 Criteria for Measuring Restoration Success – Guiding Image – Improved Ecosystem – Increased Resilience – Harmless – Availability of pre- and post- project assessment Two Perspective for Ecological Goals – Moving away from a degraded state – Approach a desired improved condition
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