Statistical analysis and modelling of surface runoff from arable fields in central Europe

Fiener, Peter; Auerswald, K.; Winter, F.; Disse, Markus

doi:10.5194/hess-17-4121-2013

Cited by 9 publications

(11 citation statements)

References 54 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…As there are no such data concerning SWFs (Steinbrich et al, 2016), we must exploit other data sources in order to quantify the relevance of this flood type in space and time. Possible data sources include, but are not limited to, insurance claim records (e.g., Spekkers et al, 2013;Zhou et al, 2013;Moncoulon et al, 2014;Bernet et al, 2016;Grahn and Nyberg, 2017), disaster databases (e.g., Gall et al, 2009;Kron et al, 2012), press reports (e.g., Hilker et al, 2009) and interviews with or reports from affected people (e.g., Thieken et al, 2007;Evrard et al, 2007;Gaitan et al, 2016). All data sources are probably subjected to a varying degree of a socalled "threshold bias", which refers to the bias introduced due to varying damage inclusion criteria (Gall et al, 2009).…”

Section: B Bernet Et Al: Surface Water Floods In Switzerlandmentioning

confidence: 99%

“…SWFs are characterized by overland flow and ponding, which can be defined as follows. As precipitation reaches the land surface, different runoff generation mechanisms determine whether water starts to pond and whether overland flow is generated (e.g., Fiener et al, 2013). The water may then take several routes towards the stream channels (Ward and Robinson, 2000), as depicted in Fig.…”

Section: Terminologymentioning

confidence: 99%

“…The Swiss canton of Schaffhausen was affected severely in 2013 (e.g., Scherrer et al, 2013). On the same day in 2014, the Dutch capital Amsterdam (e.g., Gaitan et al, 2016;Spekkers et al, 2017) and Münster, Germany, experienced substantial flooding (Spekkers et al, 2017). These events in Europe share a common thread, which stems from their origin as inland floods, triggered by heavy precipitation, but are mostly unrelated to watercourses.…”

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Surface water floods in Switzerland: what insurance claim records tell us about the caused damages in space and time

Bernet¹,

Prasuhn²,

Weingartner³

2017

Preprint

View full text Add to dashboard Cite

Abstract. Surface water floods (SWFs) have received increasing attention in the recent years. Nevertheless, we still know relatively little about where, when and why such floods occur and cause damages, largely owed to a lack of data, but to some degree also because of terminological ambiguities. Therefore, in a preparatory step, we summarize related terms and identify the need for unequivocal terminology across disciplines and international boundaries in order to bring the science together. Thereafter, we introduce a large (n = 63'117), long (10–33 years) and representative (48 % of all Swiss buildings covered) data set of spatially explicit Swiss insurance flood claims. Based on registered flood damages to buildings, the main aims of this study are twofold: First, we introduce a methodology to differentiate damages caused by SWFs and fluvial floods based on the geographical location of each damaged object in relation to flood hazard maps and the hydrological network. Second, we analyze the data with respect to their spatial and temporal distributions aimed at quantitatively answering the fundamental questions of how relevant SWF damages really are, as well as where and when they occur in space and time. This study reveals that SWFs are responsible for at least 45 % of all flood damages to buildings and 23 % of the associated direct tangible losses, whereas lower losses per claim are responsible for the lower loss share. The Swiss lowlands are affected more heavily by SWFs than the alpine regions. At the same time, the results show that the damages are not evenly distributed within each region either. By far the most SWF damages occur during summer in almost all regions. The normalized damages of all regions show no significant upward trend of SWF damages between 1993–2013. We conclude that SWFs are in fact a highly relevant process in Switzerland that should receive similar attention like fluvial flood hazards. Moreover, as SWF damages almost always coincide with fluvial flood damages, we suggest to consider SWFs, just as fluvial floods, as integrated processes of our catchments.

show abstract

Section: B Bernet Et Al: Surface Water Floods In Switzerlandmentioning

confidence: 99%

Section: Terminologymentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Surface water floods in Switzerland: what insurance claim records tell us about the caused damages in space and time

Bernet¹,

Prasuhn²,

Weingartner³

2017

Preprint

View full text Add to dashboard Cite

show abstract

“…As precipitation reaches the land surface, different runoff generation mechanisms determine whether water starts to pond and whether overland flow is generated (e.g., Fiener et al, 2013). The water may then take several routes towards the stream channels (Ward and Robinson, 2000), as depicted in Fig.…”

Section: Terminologymentioning

confidence: 99%

Surface water floods in Switzerland: what insurance claim records tell us about the damage in space and time

Bernet

Prasuhn

Weingartner

2017

Nat. Hazards Earth Syst. Sci.

View full text Add to dashboard Cite

Abstract. Surface water floods (SWFs) have received increasing attention in the recent years. Nevertheless, we still know relatively little about where, when and why such floods occur and cause damage, largely due to a lack of data but to some degree also because of terminological ambiguities. Therefore, in a preparatory step, we summarize related terms and identify the need for unequivocal terminology across disciplines and international boundaries in order to bring the science together. Thereafter, we introduce a large (n = 63 117), long (10-33 years) and representative (48 % of all Swiss buildings covered) data set of spatially explicit Swiss insurance flood claims. Based on registered flood damage to buildings, the main aims of this study are twofold: First, we introduce a method to differentiate damage caused by SWFs and fluvial floods based on the geographical location of each damaged object in relation to flood hazard maps and the hydrological network. Second, we analyze the data with respect to their spatial and temporal distributions aimed at quantitatively answering the fundamental questions of how relevant SWF damage really is, as well as where and when it occurs in space and time.This study reveals that SWFs are responsible for at least 45 % of the flood damage to buildings and 23 % of the associated direct tangible losses, whereas lower losses per claim are responsible for the lower loss share. The Swiss lowlands are affected more heavily by SWFs than the alpine regions. At the same time, the results show that the damage claims and associated losses are not evenly distributed within each region either. Damage caused by SWFs occurs by far most frequently in summer in almost all regions. The normalized SWF damage of all regions shows no significant upward trend between 1993 and 2013. We conclude that SWFs are in fact a highly relevant process in Switzerland that should receive similar attention like fluvial flood hazards. Moreover, as SWF damage almost always coincides with fluvial flood damage, we suggest considering SWFs, like fluvial floods, as integrated processes of our catchments.

show abstract

“…They can be broadly classified into Hortonian (infiltration excess) mechanism, subsurface return flow or Hewlitt (saturation excess) mechanisms 47,48 . These could operate alone or in combination.…”

Section: Ecohydrological Implications Of Increasing Zdd Under Climatementioning

confidence: 99%

Perennial to Ephemeral Transformation of a Lesser Himalayan Watershed

Rawat¹,

Govind²,

Rawat³

et al. 2016

Current Science

View full text Add to dashboard Cite

Under a changing climate, the Sub-Himalayan ecosystems are likely to experience marked transformations in hydrological, biogeochemical and biophysical processes. To explore this, we have been observing various hydrometeorological parameters in a completely rain-fed sub-Himalayan watershed (Salla Rauetella Watershed) since 1991. We noted a changing trend for some of the hydrometeorological parameters over the 22-yr period. While the annual air temperature has increased significantly, the annual rainfall also shows an increasing trend with a higher probability of increased rainfall intensity. The run-off data show a peculiar trend that the watershed has been transforming itself from a perennial to an ephemeral system, despite an increasing trend of rainfall magnitudes. This is primarily attributed to the increasing trends of rainfall intensities exceeding the infiltration capacities of the soil which trigger large but high-intensity run-off events with dry spells in other periods, which makes the river ephemeral. We infer a likely dynamic change in the run-off-generation mechanism which warrants the need for a more precise and rigorous observationcum-measurement strategy of ecohydrological processes in Himalayan ecosystems, supported with modelling and remote sensing approaches. This will help identify the optimal headwater treatment measures for augmenting groundwater to sustain the rainfed streams of the Himalaya under a changing climate.

show abstract

Statistical analysis and modelling of surface runoff from arable fields in central Europe

Cited by 9 publications

References 54 publications

Surface water floods in Switzerland: what insurance claim records tell us about the caused damages in space and time

Surface water floods in Switzerland: what insurance claim records tell us about the caused damages in space and time

Surface water floods in Switzerland: what insurance claim records tell us about the damage in space and time

Perennial to Ephemeral Transformation of a Lesser Himalayan Watershed

Contact Info

Product

Resources

About