The ecological restoration of large rivers needs science‐based, predictive tools meeting public expectations: an overview of the <scp>R</scp>hône project

Lamouroux, Nicolas; Gore, James A.; Lepori, Fabio; Statzner, Bernhard

doi:10.1111/fwb.12553

Cited by 116 publications

(128 citation statements)

References 82 publications

(141 reference statements)

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“…Thus, large-scale projects are being undertaken in many parts of the world to recover natural services while also maintaining commercial uses such as navigation and water supply (Bernhardt et al, 2007;Lamouroux et al, 2015). Studies of the Emiquon Preserve as part of the Illinois River system make a significant contribution to understanding large river floodplain restoration in the central United States region, and have implications for restoration in critically threatened river ecosystems throughout the world.…”

Section: Ecosystem-level Papersmentioning

confidence: 99%

Introduction: The ecology of a river floodplain and the Emiquon preserve

et al. 2017

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Scientific study of the Illinois River began before a century of anthropogenic change, thus providing a unique perspective for describing river ecology restoration. In this issue, we explain how systematic monitoring revealed patterns in the restoration of the 2723-ha Emiquon Preserve on the Illinois River. The papers describe (1) how planktonic microorganisms, vegetation, fish, and waterbird communities responded rapidly to flooding of former shallow lakes and wetlands that had been drained and used for dryland agriculture for 83 years; (2) how variation of hydrologic conditions favors biotic community diversity and conditions for carbon sequestration; (3) how fish populations imposed a trophic cascade and affected diversity, yet may not help control some undesirable fish species; and (4) how simulation models are useful in planning, but that restoration practice and management decisions must adapt to present conditions, involve trade-offs, and are influenced by competing stakeholder interests. Unsurprisingly, water level management remains the most important factor in the restoration ecology of floodplains; however, the establishment of a river-floodplain connection should be managed to achieve a balance between establishing hydrology that mimics natural flood pulses while minimizing contemporary threats, including excessive nutrient and sediment loads and invasive species.

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Section: Ecosystem-level Papersmentioning

confidence: 99%

Introduction: The ecology of a river floodplain and the Emiquon preserve

et al. 2017

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“…flow restoration) or measures reconnecting aquatic floodplain habitats (like floodplain channels) are relatively well documented (e.g. Gallardo, Gasc on, Garc ıa, & Com ın, 2009; Lamouroux, Gore, Lepori, & Statzner, 2015; and studies therein; Reckendorfer, Baranyi, Funk, & Schiemer, 2006), knowledge about the actual success of semi-terrestrial floodplain restoration measures is scarce, especially in terms of the functional effects on the plant and animal communities in those intermittent habitats (Español et al, 2015). It remains to be tested whether floodplain reconnection sustainably recovers communities with trait compositions typical for floodplain ecosystems.…”

Section: Introductionmentioning

confidence: 99%

Shifts in mollusc traits following floodplain reconnection: Testing the response of functional diversity components

Rumm

Foeckler²,

Dziock

et al. 2018

Freshwater Biology

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2. Here, we tested the effect of dyke-slotting to reconnect a floodplain on the trait response of mollusc communities over 6 years, based on a random stratified sampling design (plots within areas) with before and after control impact. Trait characteristics included flood resistance, drought resistance and resilience from which community-weighted mean trait values were derived. FD and its components (alpha, beta, gamma) were calculated with Rao's quadratic entropy.3. Flood duration in the restored area increased from 4-13 to 6-17 weeks/year after reconnection, similarly to the reference area (4-10 to 6-14 weeks). Hence, the re-connection by dyke-slotting had no substantial effect on flood duration (due to seepage water). 4.Despite that, dyke-slotting triggered weak but significant shifts in the trait compositions of the restored floodplain mollusc communities. Traits reflecting species' resilience, crushing resistance and drought resistance increased in abundance, while traits characteristically found in more stable habitats decreased (e.g. crossfertilisation, diet specialisation). Overall, trait composition of the restored area progressively moved to that found in the active floodplain. 5.While there were some significant temporal changes in FD within areas (reference, restored), there were no significant effects of dyke-slotting on any of the FD indices.

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“…Fragmentation of river channels by navigation dams and reduced hydrologic connectivity between floodplains and the main river channel due to levees are two primary impacts that threaten ecological integrity of these working rivers (e.g., Dynesius & Nilsson, 1994;Gore & Shields, 1995;Lamouroux et al, 2015). Hydrologic alteration and habitat degradation accompanying this infrastructure are two major drivers that have placed riverine floodplains among the most globally endangered ecosystems such that up to 90% of floodplains in Europe and North America have lost many of their natural ecological functions (Sparks, 1995;Tockner & Stanford, 2002).…”

Section: Introductionmentioning

confidence: 99%

“…As such, frameworks have been developed for large river restoration projects that link strategic management with monitoring and hypothesis testing (Koebel 1995;Rogers & Biggs, 1999;Davies et al, 2010;Lamouroux et al, 2015), and empirical research that measures effectiveness of restoration strategies continues to increase (Wortley et al, 2013;Palmer et al, 2014). Monitoring programs are integral to these frameworks by providing pivotal data that inform the restoration assessments that are subsequently integrated into management decisions.…”

Section: Introductionmentioning

confidence: 99%

Application of key ecological attributes to assess early restoration of river floodplain habitats: a case study

et al. 2017

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The Nature Conservancy acquired the Emiquon Preserve along the Illinois River, Illinois, with the primary objective of restoring ecological floodplain processes and habitats that promote and sustain native species and communities. The Conservancy convened an Emiquon Science Advisory Council prior to restoration implementation that identified key ecological attributes (KEAs) for riverine and backwater targets, KEA indicators, and acceptable ranges for those indicators. We assessed the application of this methodology to evaluate status of conservation targets and to inform future science and management at Emiquon. The KEA framework provided an important function of directing a systematic monitoring program that provided fundamental data on changing environmental conditions that were incorporated into annual target evaluations. Data show that 46-55% of all indicators were within acceptable ranges prior to reconnection of the preserve with the Illinois River. Recent completion of a water control structure represents a critical intervention that provides potential to improve conservation status of those floodplain and riverine targets that depend on water management and river connectivity. Continued review and modification of the KEA model in conjunction with a strategic monitoring program will provide critical information to guide relevant management decisions and testable hypotheses to reduce potential threats and achieve future restoration goals.

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The ecological restoration of large rivers needs science‐based, predictive tools meeting public expectations: an overview of the Rhône project

Cited by 116 publications

References 82 publications

Introduction: The ecology of a river floodplain and the Emiquon preserve

Introduction: The ecology of a river floodplain and the Emiquon preserve

Shifts in mollusc traits following floodplain reconnection: Testing the response of functional diversity components

Application of key ecological attributes to assess early restoration of river floodplain habitats: a case study

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