Coupled Hydrological/Hydraulic Modelling of River Restoration Impacts and Floodplain Hydrodynamics

Clilverd, Hannah M.; Thompson, J. R.; Heppell, Catherine M.; Sayer, Carl D.; Axmacher, Jan C.

doi:10.1002/rra.3036

Cited by 41 publications

(35 citation statements)

References 68 publications

(113 reference statements)

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“…In the control reach, substratum composition did not change before and after the downstream rehabilitation work (analyses of variance, all p values >0.05; Figure b), but mean water depth declined by ≈23% in the control reach, from 24.1 ± 2.2 cm in 2009 ( n = 22) to 18.4 ± 1.5 cm in 2012 ( n = 27; F 1,21 = 5.78, p < 0.05) — this was due to seasonal differences in stream discharge (Clilverd et al, ) as well as reduced discharge in those years rather than to the downstream re‐meandering work (EA, unpublished data). Biotope proportions also varied with the incidence of riffle mesohabitats declining and the frequency of runs increasing after the downstream rehabilitation work (Figure ; one‐sample χ 2 test, p < 0.05).…”

Section: Resultsmentioning

confidence: 88%

“…The Glaven is alkaline (pH 7.7–8.0) and moderately mesotrophic, with mean nitrate and phosphate concentrations of 6.2 mg NO 3 − L −1 and 0.1 mg P L −1 mg L −1 , respectively (Clilverd , Thompson, Heppell, Sayer, & Axmacher, ). At Hunworth, mean annual river discharge from 2001 to 2010, measured at Environment Agency (EA) gauging station 034052, was 0.26 m 3 s −1 (min–max = 0.10–3.23 m 3 s −1 ), with lower discharge evident in summer compared to winter (Clilverd, Thompson, Heppell, Sayer, & Axmacher, ).…”

Section: Methodsmentioning

confidence: 99%

“…Rehabilitation works in the “treatment” study reach (≈370 m length) at Hunworth (52.882152°N, 1.0658938°E; elevation ≈20 m; Figure ) included embankment removal in March 2009 to re‐connect the river with its flood plain (Clilverd et al, , ; Figure b), followed in August 2010 by the re‐creation of meanders to increase channel sinuosity and instream habitat heterogeneity (Figures and c). Additionally, six parapotamon ‐type backwaters (sensu Amoros, Roux, Reygrobellet, Bravard, & Pautou, ) of 3–18 m length were created from the remnants of the former river channel (Sayer, ; Figure ).…”

Section: Methodsmentioning

confidence: 99%

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Responses of fishes and lampreys to the re‐creation of meanders in a small English chalk stream

Champkin

Copp

Sayer

et al. 2017

River Research & Apps

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River rehabilitation initiatives have become commonplace in European water courses as a result of European Union Water Framework Directive requirements. However, the short-term responses of fishes to such work have thus far been varied, with some river rehabilitation efforts resulting in demonstrable improvements in diversity and size structure, whereas others have resulted in little or no change. Electrofishing and channel character surveys were conducted annually between 2009 and 2014 on a reach of the River Glaven (North Norfolk, UK) before and after rehabilitation work (embankment removal in 2009 and re-meandering in 2010) as well as on a control reach immediately upstream. To assess the effects of rehabilitation work, beforeafter-control-impact analysis tested for changes in channel character (geomorphology, substratum composition, and mesohabitat structure) and in fish species richness, relative abundance, population density, and size structure (calculated after fish data entry into the UK Environment Agency's National Fisheries Population Database). Following re-meandering work (i.e., treatment), habitat heterogeneity and depth variation increased in the treatment reach, but fish responses were not significant except for biomass and density increases of brown trout Salmo trutta and abundance decreases of European eel Anguilla anguilla, in the treatment but not the control reach. These results are consistent with comparable river rehabilitation initiatives elsewhere, and they suggest that larger-scale rehabilitations are probably needed to produce greater increases in fish density and diversity. It is recommended that future rehabilitation initiatives address catchment-scale factors that can enhance ecosystem recovery, for example, removal of barriers to colonization, and increases in connectivity and water quality issues linked to eutrophication, elevated fine sediment inputs, and various pollutants.

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Section: Resultsmentioning

confidence: 88%

Section: Methodsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

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Responses of fishes and lampreys to the re‐creation of meanders in a small English chalk stream

Champkin

Copp

Sayer

et al. 2017

River Research & Apps

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“…Nineteen percent of the publications found focused on the future outlook, current ecological status and impacts of riparian zones (Table S76) with land use change and restoration contributing the largest number of papers, representing 9% of the total. Studies within this category explored the effect of restoration and land use change on invertebrates (Harrison et al, 2004;Petersen et al, 2004), vegetation and floodplain dynamics (Clarke and Wharton, 2000;Clilverd et al, 2016), amongst others. There is evidence throughout history that riparian areas have been heavily affected by land use changes in order to increase agricultural productivity (Seavy et al, 2009;Poff et al, 2011).…”

Section: Future Outlook Current Ecological Status and Impactsmentioning

confidence: 99%

Riparian research and legislation, are they working towards the same common goals? A UK case study

Sosa

Williams

Orr

et al. 2018

Environmental Science & Policy

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The value of riparian areas has long been recognised due to their contribution in supporting wildlife diversity and their capacity to deliver a wide range of ecosystem services. Their multiple uses (e.g. flood prevention, biodiversity, pollutant attenuation) combined with an inconsistent use of terminology (e.g. river bank, floodplain, wetland, buffer strip), however, has led to the development of fragmented policies associated with riparian areas. This review brings together current EU and UK legislation alongside research publications focused on riparian areas. We critically evaluate the current legislative framework relating to riparian areas and identify key scientific knowledge gaps which need to be addressed to support future decision-making. Our findings revealed several major problems associated with riparian policy and management, including: (i) the fragmented nature of legislation concerning riparian areas; (ii) the presence of redundant policy instruments, (iii) a lack of practical objectives, (iv) contradictory measures, and (v) unachievable targets. Further, our results suggest that most research is focused on agricultural systems and single ecosystem attributes or functions, rather than supporting an ecosystem-service approach that is widely aspired to in policy statements. We recommend that future research could better support riparian protection policies by focusing less on what the different ecosystems 'are', and more on what they can 'offer' by way of multiple benefits.

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“…The success of wetland projects depends on how these restored systems are connected to their floodplains. Understanding the effects of restoration on floodplain connection and river flow is essential to evaluate the success of the project (Clilverd et. al., 2016).…”

Section: Groundwatermentioning

confidence: 99%

Characterization of hydrology and water quality at a restored oxbow

Haines¹

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Coupled Hydrological/Hydraulic Modelling of River Restoration Impacts and Floodplain Hydrodynamics

Cited by 41 publications

References 68 publications

Responses of fishes and lampreys to the re‐creation of meanders in a small English chalk stream

Responses of fishes and lampreys to the re‐creation of meanders in a small English chalk stream

Riparian research and legislation, are they working towards the same common goals? A UK case study

Characterization of hydrology and water quality at a restored oxbow

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