Increasing risk of great floods in a changing climate

Milly, P. C. D.; Wetherald, R. T.; Dunne, Krista A.; Delworth, Thomas L.

doi:10.1038/415514a

Cited by 1,517 publications

(867 citation statements)

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“…Observations of a climate transition include a rapid retreat of summer sea ice in the Arctic Ocean (Johannessen 2008), retreat of mountain glaciers around the world (IPCC 2007a), loss of mass from the Greenland and West Antarctic ice sheets (Cazenave 2006), an increased rate of sea-level rise in the last 10-15 years (Church and White 2006), a four-degree latitude pole-ward shift of subtropical regions (Seidel and Randel 2006), increased bleaching and mortality in coral reefs (Bellwood et al 2004;Stone 2007), a rise in the number of large floods (Milly et al 2002;MEA 2005a), and the activation of slow feedback processes like the weakening of the oceanic carbon sink (Le ).…”

Section: Climate Changementioning

confidence: 99%

A safe operating space for humanity

Rockström

Steffen

Noone

et al. 2009

Nature

9,635

5,320

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The article presents a study that investigates on the importance of identifying and quantifying planetary boundaries to prevent human activities in affecting environmental condition. The author states the industrial revolution and advancement in human civilization has caused the unstability of the environmental state that is less conducive for humans to live and affect their health condition. The author notes that planetary boundaries served a control variables to secure the safety of its citizen as well as protect the environment from shifting to dangerous levels. It also cites the different planetary boundaries, along with its impact on climate change and Earth system degradation

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Section: Climate Changementioning

confidence: 99%

A safe operating space for humanity

Rockström

Steffen

Noone

et al. 2009

Nature

9,635

5,320

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“…Changing precipitation patterns can affect agricultural potential and thus food and water security. In addition, changing weather patterns and increased extreme event frequency could cause more large scale flooding (Milly et al 2002) and possibly droughts and storms (Emanuel 2005) with national consequences. Rising sea levels threaten low-lying coastal zones, which are the most densely inhabited and developed areas.…”

Section: The National Levelmentioning

confidence: 99%

Climate change: a ‘glocal’ problem requiring ‘glocal’ action

Gupta

Moel

Leeuw

2007

Environmental Sciences

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Full terms and conditions of use: http://www.informaworld.com/terms-and-conditions-of-access.pdf This article may be used for research, teaching and private study purposes. Any substantial or systematic reproduction, re-distribution, re-selling, loan or sub-licensing, systematic supply or distribution in any form to anyone is expressly forbidden.The publisher does not give any warranty express or implied or make any representation that the contents will be complete or accurate or up to date. The accuracy of any instructions, formulae and drug doses should be independently verified with primary sources. The publisher shall not be liable for any loss, actions, claims, proceedings, demand or costs or damages whatsoever or howsoever caused arising directly or indirectly in connection with or arising out of the use of this material. RESEARCH ARTICLEClimate change: a 'glocal' problem requiring 'glocal' action JOYEETA GUPTA, KIM VAN DER LEEUW, & HANS DE MOELInstitute for Environmental Studies (IVM), Vrije Universiteit, Amsterdam, The Netherlands Abstract It is generally assumed that global problems like climate change call for global solutions, which are then implemented at different administrative levels. This paper attempts to deconstruct climate change in physical terms to assess its global through to local characteristics, presents existing policy frameworks at different levels, and then discusses some theoretical and practical aspects of policymaking. It investigates the policy space at different administrative levels to see if it is possible to complement the slow global action with local action that goes beyond that strictly speaking needed for implementation. The paper argues that climate change is a problem that is both global and local in nature, that policy responses are possible at multiple administrative levels, and that there is considerable politics in the way responsibilities are assigned to different levels.

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“…flood and drought, estimated using the daily modelled discharge by the MIROC. The global warming simulation with relatively high spatial resolution of the MIROC will provide a detailed picture of future extremes in river discharge, even over small basins that have not been distinguished by Milly et al (2002). It is essential to show projections of changes in extreme discharge under global warming using daily discharge data, since previous studies discussed future projections on water-related disasters mainly in terms of changes in monthly means of precipitation or in discharge.…”

Section: Introductionmentioning

confidence: 99%

“…This is primarily because of the limitation of spatial resolution in general circulation models (GCMs). Milly et al (2002) investigated changes in flood extremes using monthly river discharge data for both gauge observations and GCM simulations. They found that the risk of great floods increased during the 20th century, mainly over the northern high latitudes, and that this increase may continue.…”

Section: Introductionmentioning

confidence: 99%

Global projections of changing risks of floods and droughts in a changing climate

Hirabayashi

Kanae

Emori

et al. 2008

Hydrological Sciences Journal

380

250

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Simulated daily discharge derived from a relatively high-resolution (approximately 1.1-degree) general circulation model was used to investigate future projections of extremes in river discharge under global warming. The frequency of floods was projected to increase over many regions, except those including North America and central to western Eurasia. The drought frequency was projected to increase globally, while regions such as northern high latitudes, eastern Australia, and eastern Eurasia showed a decrease or no significant changes. Changes in flood and drought are not explained simply by changes in annual precipitation, heavy precipitation, or differences between precipitation and evapotranspiration. Several regions were projected to have increases in both flood frequency and drought frequency. Such regions show a decrease in the number of precipitation days, but an increase in days with heavy rain. Several regions show shifts in the flood season from springtime snowmelt to the summer period of heavy precipitation.Key words drought; flood; global warming; river discharge Projections globales des changements dans les risques de crues et de sécheresses liés au changement climatiqueRésumé Les débits journaliers simulés à partir d'un modèle de circulation générale d'une résolution relativement haute (approximativement 1.1 degré) ont été utilisés pour étudier les projections futures des extrêmes des débits de rivières dans le contexte du réchauffement global. Une augmentation de la fréquence des crues est projetée pour de nombreuses régions, à l'exception des régions incluant l'Amérique du Nord et l'Eurasie centrale à occidentale. L'augmentation de la fréquence des sécheresses est projetée globalement, alors que les régions des hautes latitudes boréales, de l'Australie orientale et de l'Eurasie orientale présentent une décroissance ou une absence de changement significatif. Les changements pour les crues et les sécheresses ne s'expliquent pas simplement par des changements dans les précipitations annuelles, les fortes précipitations ou les différences entre précipitation et évapotranspiration. Les projections de plusieurs régions présentent des augmentations à la fois dans la fréquence des crues et dans celle des sécheresses. De telles régions présentent une décroissance dans le nombre de jours de précipitation, mais une augmentation des jours de forte précipitation. Plusieurs régions présentent des décalages de la saison des crues, de la période printanière de fonte nivale vers la période estivale de fortes précipitations.

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Increasing risk of great floods in a changing climate

Cited by 1,517 publications

References 10 publications

A safe operating space for humanity

A safe operating space for humanity

Climate change: a ‘glocal’ problem requiring ‘glocal’ action

Global projections of changing risks of floods and droughts in a changing climate

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