Effects of climate and land‐use change on storm runoff generation: present knowledge and modelling capabilities

Bronstert, Axel; Niehoff, Daniel; Bürger, Gerd

doi:10.1002/hyp.326

Cited by 376 publications

(221 citation statements)

References 21 publications

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“…The scale (both in terms of the number of scenarios and number of catchments) of the sensitivity analyses undertaken by Prudhomme et al (submitted) made possible the quantification of the variety of catchment's responses to climatic changes in Britain and the link between these responses and catchment properties -and by extension, to the main hydrological processes of the catchments. These results approach a formalised categorisation of 'impact of changes on hydrological processes' as attempted empirically for land use changes by Bronstert et al (2002) and Wilby et al (2008). The role of different processes shaping the response of a system to climatic change is unlikely to be relevant only to river flooding.…”

Section: Hydrological Discussionmentioning

confidence: 72%

Climate change and river flooding: Part 2 sensitivity characterisation for british catchments and example vulnerability assessments

et al. 2013

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This paper is the second of a series describing a scenario-neutral methodology to assess the sensitivity and vulnerability of British catchments to changes in flooding due to climate change. In paper one, nine flood sensitivity types were identified from response surfaces generated for 154 catchments. The response surfaces describe changes in 20-year return period flood peaks (RP20) in response to a large set of changes in precipitation, temperature and potential evapotranspiration. In this paper, a recursive partitioning algorithm is used to link families of sensitivity types to catchment properties, via a decision tree. The tree shows 85% success characterising the four sensitivity families, using five properties and nine paths.Catchment annual average rainfall is the primary partitioning factor, with drier catchments having a more variable response to climate (precipitation) change than wetter catchments and higher catchment losses and permeability being aggravating factors. The full sensitivityexposure-vulnerability methodology is illustrated for two catchments: sensitivity is estimated by using the decision tree to identify the sensitivity family (and its associated average response surface); exposure is defined from a set of climate model projections and combined with the response surface to estimate the resulting impacts (changes in RP20);vulnerability under a range of adaptive capacity thresholds is estimated from the set of impacts. Even though they are geographically close, the two catchments show differing vulnerability to climate change, due to their differing properties. This demonstrates that generalised response surfaces characterised by catchment properties are useful screening 2 tools to quantify the vulnerability of catchments to climate change without the need to undertake a full climate change impact study.

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Section: Hydrological Discussionmentioning

confidence: 72%

Climate change and river flooding: Part 2 sensitivity characterisation for british catchments and example vulnerability assessments

et al. 2013

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“…Relevant publications include Lall (2005), Pittock (2002), Trenberth (1999), Benestad (2003), Beniston et al (1997), Hanson et al (2004), Svensson et al (2005), Hisdal et al (2001), and Llasat et al (2005). Similarly, there have been numerous publications on land cover change effects on floods, low flows and, more generally water yield, including Robinson et al (2003), Brown et al (2005), Andréassian (2004), Cosandey et al (2005), Bonell and Bruijnzeel (2005), Bonell (1999), Mahé et al (2005b), Archer (2003), Jones (2000), Bronstert et al (2002) and Pfister et al (2004). Rodriguez-Iturbe (2000), Peterson et al (2000), Woods (2005) and Anderson et al (2005) provide perspective on hydrological variability and other background information highly relevant to the issue of scales of climate variability and land cover change impact on flooding and low flows.…”

Section: Introductionmentioning

confidence: 99%

At what scales do climate variability and land cover change impact on flooding and low flows?

Blöschl

Ardoin‐Bardin

Bonell

et al. 2007

Hydrological Processes

331

254

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“…Land-use change can also have significant effects on streamflow (e.g. Bronstert et al 2002, Brandes et al 2005, Schilling et al 2010. Nevertheless, there is evidence that the rapid warming between the 1970s and 2000s had induced earlier snowmelt and associated peak streamflow in western North America (Dettinger and Cayan 1995, Leith and Whitfield 1998, Whitfield and Cannon 2000, Cayan et al 2001, Regonda et al 2005, Stewart et al 2005 and eastern North America (Hodgkins et al 2003, Hodgkins and Dudley 2006, Burns et al 2007, as well as earlier break-up of river ice in Russian Arctic rivers (Smith 2000), many Canadian rivers (Zhang et al 2001), and rivers in the far northeastern USA (Hodgkins et al 2005).…”

Section: Nomentioning

confidence: 99%

Reference hydrologic networks I. The status and potential future directions of national reference hydrologic networks for detecting trends

Whitfield

Burn

Hannaford

et al. 2012

Hydrological Sciences Journal

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Identifying climate-driven trends in river flows on a global basis is hampered by a lack of long, quality time series data for rivers with relatively undisturbed regimes. This is a global problem compounded by the lack of support for essential long-term monitoring. Experience demonstrates that, with clear strategic objectives, and the support of sponsoring organizations, reference hydrologic networks can constitute an exceptionally valuable data source to effectively identify, quantify and interpret hydrological change-the speed and magnitude of which is expected to a be a primary driver of water management and flood alleviation strategies through the future-and for additional applications. Reference hydrologic networks have been developed in many countries in the past few decades. These collections of streamflow gauging stations, that are maintained and operated with the intention of observing how the hydrology of watersheds responds to variations in climate, are described. The status of networks under development is summarized. We suggest a plan of actions to make more effective use of this collection of networks.Key words reference networks; hydrometric data; hydrological change Les réseaux hydrologiques de référence I. Le statut et les orientations futures possibles des réseaux hydrologiques nationaux de référence pour détecter les tendancesRésumé L'identification de tendances induites par le climat dans le débit des rivières est entravée par le manque de longues séries chronologiques de qualité provenant de rivières dont le régime est peu altéré. Ce problème global est aggravé par le manque de soutien aux initiatives de suivi à long terme. L'expérience démontre qu'avec des objectifs stratégiques clairs ainsi qu'avec le soutien d'organismes de parrainage, les réseaux de référence hydrologiques peuvent s'avérer une précieuse source de données pour l'identification, la quantification et l'interprétation des changements hydrologiques. La vitesse et l'ampleur de ces derniers seront probablement à l'avenir des éléments importants pour la gestion de l'eau et la lutte contre les inondations. C'est pourquoi, d'autres applications étant sans doute à prévoir, des réseaux hydrologiques de référence ont été établis dans plusieurs pays au cours des dernières décennies. On décrit ces ensembles de stations de suivi hydrométrique, maintenues et exploitées dans l'intention d'observer comment l'hydrologie des bassins versants répond aux variations climatiques, ainsi que l'état actuel de développement de ces réseaux. Nous suggérons un plan d'action visant une utilisation plus efficace de ces réseaux.Mots clefs réseaux de référence; données hydrométriques; changement hydrologique

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Effects of climate and land‐use change on storm runoff generation: present knowledge and modelling capabilities

Cited by 376 publications

References 21 publications

Climate change and river flooding: Part 2 sensitivity characterisation for british catchments and example vulnerability assessments

Climate change and river flooding: Part 2 sensitivity characterisation for british catchments and example vulnerability assessments

At what scales do climate variability and land cover change impact on flooding and low flows?

Reference hydrologic networks I. The status and potential future directions of national reference hydrologic networks for detecting trends

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