Is planting trees the solution to reducing flood risks?

Carrick, Jayne; Rahim, Mohd Shaiful Azman Bin Abdul; Adjei, Cosmos; Kalee, Hassan Habib Hassan Ashraa; Banks, Steven James; Bolam, Friederike C.; Luna, I.; Clark, Beth; Cowton, Jake; Domingos, Israel Freitas Nongando; Golicha, D.; Gupta, Garima; Grainger, Matthew; Hasanaliyeva, Gultakin; Hodgson, D.; López-Capél, Elisa; Magistrali, Amelia; Merrell, Ian; Oikeh, Idiegberanoise; Othman, Mwanajuma Salim; Mudiyanselage, Thilanka Kumari Ranathunga Ranathunga; Samuel, Carl Warren Charles; Sufar, Enas Kh; Watson, Philip Alexander; Zakaria, Nik Nur Azwanida; Stewart, Gavin

doi:10.1111/jfr3.12484

Cited by 51 publications

(29 citation statements)

References 25 publications

(35 reference statements)

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“…Further, increases in median discharge are higher with higher annual precipitation amounts. The magnitude of the observed change is similar to that reported by Farley et al (2005) for catchments located in northern Europe and higher than those obtained from hydrological modelling by Carvalho-Santos et al (2016) and Morán-Tejeda et al (2014) for catchments in the Iberian Peninsula.…”

Section: Effect Of Land Cover On Median Dischargesupporting

confidence: 82%

“…an increase in native forests (Table 4). This implies that high flows are attenuated under land cover combinations with high percentages of exotic plantations, which is favourable for flood regulation (Carvalho-Santos et al, 2016). Under high precipitation amounts, the situation remains practically unchanged for all land cover combinations.…”

Section: Effect Of Land Cover On High Flowsmentioning

confidence: 99%

“…Under high precipitation amounts, the situation remains practically unchanged for all land cover combinations. In this sense Carrick et al (2018), after a meta-analysis of 156 papers, concluded a weak direct influence of the effects of tree cover on flood risk, due to the high uncertainty found in results.…”

Section: Effect Of Land Cover On High Flowsmentioning

confidence: 99%

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Land cover effects on hydrologic services under a precipitation gradient

Zabaleta

Garmendia

Mariel

et al. 2018

Hydrol. Earth Syst. Sci.

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Abstract. Climate change impacts on the hydrological cycle are altering the quantity, quality, and temporal distribution of riverine discharge, necessitating a more rigorous consideration of changes in land cover and land use. This study establishes relationships between different land cover combinations (e.g. percentages of forest – both native and exotic – and pastureland) and hydrological services, using hydrological indices estimated at annual and seasonal timescales in an area with a steep precipitation gradient (900–2600 mm yr−1). Using discharge data from 20 catchments in the Bay of Biscay, a climate transition zone, the study applied multiple regression models to better understand how the interaction between precipitation and land cover combinations influence hydrological services. Findings showed the relationship between land cover combinations and hydrological services is highly dependent on the amount of precipitation, even in a climatically homogeneous and relatively small area. In general, in the Bay of Biscay area, the greater presence of any type of forests is associated with lower annual water resources, especially with greater percentages of exotic plantations and high annual precipitation. Where precipitation is low, forests show more potential to reduce annual and winter high flows than pasturelands, but this potential decreases as annual or seasonal precipitation increases. As annual precipitation increases, low flows increase as the percentage of exotic plantations decreases and pasturelands increase. Results obtained in this study improve understanding of the multiple effects of land cover on hydrological services, and illustrate the relevance of land planning to the management of water resources, especially under a climate change scenario.

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Section: Effect Of Land Cover On Median Dischargesupporting

confidence: 82%

Section: Effect Of Land Cover On High Flowsmentioning

confidence: 99%

See 1 more Smart Citation

Land cover effects on hydrologic services under a precipitation gradient

Zabaleta

Garmendia

Mariel

et al. 2018

Hydrol. Earth Syst. Sci.

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“…Alternatively, more attenuation features can be built, or more trees and peat restoration in combination with controlled ponding. Co‐benefits of tree planting and peat coverage can be taken into account in cost assessments, such as carbon sequestration and recreational value (Denjean et al, ), but all these measures and decisions demand a clear quantification, especially given the weak evidence for the effect of tree coverage on channel discharge (Carrick et al, ). The above analysis and in particular its graphical presentation in Figure suggests that our FEV‐based protocol can aid in more quantifiable and rational decision making.…”

Section: Main Results: Flood‐mitigation Assessmentsmentioning

confidence: 99%

“…Tree and peat planting requires enormous areas before mitigation effects may become significant for larger flood events. Even then, there is a lack of evidence to suggest that increased tree coverage reduces flood risks (Carrick et al, ). Besides showing beneficial effects in small‐scale NFM pilot studies (Environment Agency, ), it is important to obtain first estimates of NFM's effectiveness and reliability on grander catchment scales for extreme‐flood events.…”

Section: Introductionmentioning

confidence: 99%

Communicating (nature‐based) flood‐mitigation schemes using flood‐excess volume

Bokhove

Kelmanson

Kent

et al. 2019

River Research & Apps

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As interest mounts in nature-based solutions (NBS) for flood mitigation as complementary options to civil-engineering measures, possible flood-protection strategies have become more diverse and hence complicated to assess. We offer a straightforward and educational protocol targeted for effectiveness analysis and decision making involving stakeholder participation. It is based on the concept of flood-excess volume (FEV), the volume exceeding a threshold and generating flood damage, and explores what fraction of FEV is reduced, and at what cost, by particular flood-mitigation measures. Quantification and interpretation of cost scenarios are facilitated using a graphical display that is easy to understand and encapsulates concepts of flood magnitude, FEV and protection-measures efficacy. It is exemplified for two recent extreme-flood events on the River Calder in Mytholmroyd (Yorkshire, United Kingdom) and the River Brague in Biot (Alpes-Maritimes, France). Each case has different flood-mitigation measures such as natural water-retention measures, tree planting, river-bed widening, or use of reservoirs and floods walls. Our straightforward protocol enables fast, quantifiable and easy-to-understand exploration of protection strategies using multiple measures, and in doing so highlights the issue of NBS scalability.

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Forests and floods: Using field evidence to reconcile analysis methods

Bathurst

Fahey

Iroumé

et al. 2020

Hydrological Processes

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The extent to which forests, relative to shorter vegetation, mitigate flood peak discharges remains controversial and relatively poorly researched, with only a few significant field studies. Considering the effect purely of change of vegetation cover, peak flow magnitude comparisons for paired catchments have suggested that forests do not mitigate large floods, whereas flood frequency comparisons have shown that forests mitigate frequencies over all magnitudes of flood. This study investigates the apparent inconsistency using field‐based evidence from four contrasting field programmes at scales of 0.34–3.1 km2. Repeated patterns are identified that provide strong evidence of real effects with physical explanations. Magnitude and frequency comparisons are both relevant to the impact of forests on peak discharges but address different questions. Both can show a convergence of response between forested and grassland/logged states at the highest recorded flows but the associated return periods may be quite variable and are subject to estimation uncertainty. For low to moderate events, the forested catchments have a lower peak magnitude for a given frequency than the grassland/logged catchments. Depending on antecedent soil saturation, a given storm may nevertheless generate peak discharges of the same magnitude for both catchment states but these peaks will have different return periods. The effect purely of change in vegetation cover may be modified by additional forestry interventions, such as road networks and drainage ditches which, by effectively increasing the drainage density, may increase peak flows for all event magnitudes. For all the sites, forest cover substantially reduces annual runoff.

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Is planting trees the solution to reducing flood risks?

Cited by 51 publications

References 25 publications

Land cover effects on hydrologic services under a precipitation gradient

Land cover effects on hydrologic services under a precipitation gradient

Communicating (nature‐based) flood‐mitigation schemes using flood‐excess volume

Forests and floods: Using field evidence to reconcile analysis methods

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