From the GWPF Observatory
This new paper presents the first coherent large-scale national analysis undertaken on historical flood chronologies in Britain, providing an unparalleled network of sites (Fig. 1), permitting analysis of the spatial and temporal distribution of high-magnitude flood patterns and the potential mechanisms driving periods of increased flooding at a national scale (Britain) since AD 1750.
The apparent increase in flooding witnessed over the last decade appears in consideration to the long-term flood record not to be unprecedented; whilst the period since 2000 has been considered as flood-rich, the period 1970–2000 is “flood poor”, which may partly explain why recent floods are often perceived as extreme events. The much publicised (popular media) apparent change in flood frequency since 2000 may reflect natural variability, as there appears to be no shift in long-term flood frequency.
Abstract
The last decade has witnessed severe flooding across much of the globe, but have these floods really been exceptional? Globally, relatively few instrumental river flow series extend beyond 50 years, with short records presenting significant challenges in determining flood risk from high-magnitude floods. A perceived increase in extreme floods in recent years has decreased public confidence in conventional flood risk estimates; the results affect society (insurance costs), individuals (personal vulnerability) and companies (e.g. water resource managers). Here, we show how historical records from Britain have improved understanding of high-magnitude floods, by examining past spatial and temporal variability. The findings identify that whilst recent floods are notable, several comparable periods of increased flooding are identifiable historically, with periods of greater frequency (flood-rich periods). Statistically significant relationships between the British flood index, the Atlantic Meridional Oscillation and the North Atlantic Oscillation Index are identified. The use of historical records identifies that the largest floods often transcend single catchments affecting regions and that the current flood-rich period is not unprecedented. […]
click on image to enlarge
Summary
The apparent increase in flooding witnessed over the last decade appears in consideration to the long-term flood record not to be unprecedented; whilst the period since 2000 has been considered as flood-rich, the period 1970–2000 is “flood poor”, which may partly explain why recent floods are often perceived as extreme events. The much publicised (popular media) apparent change in flood frequency since 2000 may reflect natural variability, as there appears to be no shift in long-term flood frequency (Fig. 5). In reviewing the flood series for European systems for which long flood series have been reconstructed, a complex picture is identified; whilst flood-rich phases appear synchronous across many systems (1765–1780) others show less synchronicity (1920s), whereas a number of prominent floodrich phases at a European scale appear subdued or are not evident in the British FI (1750s).
The principal findings of this work are that of the strong correlations between flood-rich/flood-poor phases and solar magnetic activity, AMO and NAOI, indicating a clear driver for flooding patterns across Britain. The specific mechanisms that govern the relationship between the spatial/temporal distribution of flood clusters and solar activity remain unclear. This work suggests that high-magnitude flood-rich periods relate to negative NAOI across much of the country, in western catchments with a stronger westerly airflow signal significantly correlating to positive NAOI, with reasonable correspondence with previously diagnosed periods of climatic variability identified from individual series from across Europe. It also identifies the importance of the Atlantic Multidecadal Oscillation as a clear correlation is shown between higher North Atlantic sea temperatures and increased severe flood events across much of Britain. It is worth noting that when the threshold is reduced to the 0.8 percentile of events (Fig. 5), significant correlations remain between the British FI and summer, winter, annual AMO (1850) and NAOI (Trouet et al., 2009). The inclusion of historical flood information provides a better understanding of long-term flood patterns. The detection of flood-rich periods and attribution to periods of climatic change are tentative. The historical records still hold a wealth of untapped information for which specific discharges cannot be estimated, but from which indices could be extracted in the future (Barriendos and Coeur, 2004). The wealth of information presented by the historical records presents valuable new information for flood risk assessment and management (Kjeldsen et al., 2014); as new flood chronologies become available, more detailed and complete indices-based chronologies will improve the resolution and enhance understanding of flood-rich and flood-poor periods, presenting a more complete depiction of the role of climate and extreme floods. Extending the records back to a millennial time frame is possible, providing valuable insights into long-term trends and patterns of flood frequency and potential climatic drivers of flooding.
Neil Macdonald and Heather Sangster (2017), Hydrology and Earth System Sciences 21: 1631-1650.
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Essay Somerset Level covers this general UK presumption in some detail. A milleniumm of swamp drainage undone by twenty years of EU mandated drainage neglect. The inevitable floods falsely blamed on climate change. Good paper, but not new news.
Here’s a link to all WUWT articles containing “Somerset”:
https://wattsupwiththat.com/?s=somerset
Who’d have thought a flood-plain would flood ?
Flooding on the River Parrett was blamed on climate change but take a look at the photos of the bridge on this website and how the lack of dredging must have contributed.
http://www.telegraph.co.uk/news/weather/10644101/How-Somerset-Levels-river-flooded-after-it-was-not-dredged-for-decades.html
I wonder if this study took into account the very many flood defence schemes constructed in the UK in the latter part of the 20th century?
Or the intensity of the floods?
Carlisle has seen two 21st century floods at over the ‘1 in 100’ year level within this century… each easily exceeding previous records (1830s before 2005) and in the second event overtopping new flood defences even after local dredging.
Exeter had a huge flood sceme built (if I recall correctly) after 1968 floods, which kept it safe into this century – since which time there has been more than one flood close road and rail after filling the flood relief channel…
The intensity of the rainfall in the region has increased, associated with slow moving bands of heavy rain.
Really, this century has seen severe flood events in every year in the UK except, puzzlingly, 2006…
this has included summer flash floods/thunderstorms, surface water flooding, ground water flooding and storm surges.
The places that flood are not new builds on flood plains, but areas close to rivers which have not seen inundation in one, two or three hundred years. And now have flooded more than once.
The change in climate pattern which has brought this about is well documented.
(London is drowning and I live by the river…)
“The places that flood are not new builds on flood plains, but areas close to rivers which have not seen inundation in one, two or three hundred years. And now have flooded more than once.”
Really? This is a blatantly biased statement.
Councils have been giving planning consent for many years on flood plains knowing full well they will flood eventually but they need to build to keep up with demands.
From the FT
UK building 10,000 homes a year on floodplains
https://www.ft.com/content/bfa49cb0-acbf-11e5-b955-1a1d298b6250?mhq5j=e1
And this plucked from thin air biased statement
“The change in climate pattern which has brought this about is well documented.”
Does “well documented” mean proved to be true in your eyes? It certainly does not to me especially when compiled by those looking for an expected outcome.
As for this statement
“(London is drowning and I live by the river…)”
I am happy to buy your property at 1/10 current price because of your perceived risk of inundation which I do not share.
Griff, I wondered the same sort of thing. The paper was about frequency rather than intensity. The River Eden section (Carlisle) did say that the two recent floods were significantly larger in terms of water flow than any other historically.
However the change in land use could presumably work in both directions. Flood relief schemes should reduce flooding frequency, but maybe they are only needed because there is more run-off due to building or land use? It must be a very complicated picture and I guess beyond the scope if this paper.
“(London is drowning and I live by the river…)”
How odd, I did a fair bit of googling and found no reports of flooding other than that caused by equinoctal high tides. In short, there is NO evidence to support the above assertion.
“The ice age is coming, the sun is zooming in
Meltdown expected, the wheat is growin’ thin
Engines stop running, but I have no fear
‘Cause London is drowning, and I, I live by the river”
The Clash, 1979
Long before climate change was a twinkle in Hansen’s eye….
“(London is drowning and I live by the river…)”
No it isn’t, not even close.
Stop making stuff up.
Have you apologised to Dr. Crockford for lying about her professional qualifications yet?
Ran across pix of floods in the Cincinnati area (Great Miami, Little Miami, Ohio rivers) from 1913 and 1937. Cincinnati & Hamilton County Public Library. (They also have a sweet high-res panorama copper-plate daguerrotype from 1848 Spring at about 12:51, as I recall, based on a couple clock towers included.)
That a lot of UK flooding takes place in well established areas rather than flood plains may simply be:
– older properties were typically built near to actual water providing transport, sewage, drinking water
– building on flood plains often includes flood relief measures
– but the run-off from impermeable surfaces simply increases the short term loading in the watercourse
– agricultural use changes and road drainage similarly increases run off speed
– rivers have been narrowed and contained. Previously agricultural land may have flooded harmlessly
friends
I did do a study on rainfall in the UK
find it a bit similar to what I find here (in South Africa)
works a bit like the pendulum of a clock
[ask me more if you are interested and I must do some work to find the files concerning UK]
It’s been pointed out for years, but you can’t let actual science and facts get in the way of the media driven narative.
https://www.dur.ac.uk/news/newsitem/?itemno=6468
Nice paper but the guts of the UK flooding problem are due to …. the EU. Prior to the UK joining the Common Market it was the law that adjacent landowners had the responsibility of draining waterways. When we joined the Common Market this was revoked to fall in line, and as a result responsibility lapsed and dredging didn’t happen.
This exacerbated what is posted here, that parts of the UK were very much prone to flooding, everyone knows this. Not dredging the waterways just made things a whole lot worse. So the main problem is not Ma Nature, more Ma Merkel and her predecessors.