PLASIM-ENTSem v1.0: a spatio-temporal emulator of future climate change for impacts assessment

Holden, Philip B.; Edwards, Neil R.; Garthwaite, Paul H.; Fraedrich, Klaus; Lunkeit, Frank; Kirk, Edilbert; Labriet, Maryse; Kanudia, Amit; Babonneau, Frédéric Louis François

doi:10.5194/gmd-7-433-2014

Cited by 41 publications

(43 citation statements)

References 48 publications

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“…The climate model that was used in the simulations is the PLASIM-ENTS model [7]. It comprises the Planet Simulator [4] coupled to the terrestrial carbon model ENTS (Efficient numerical terrestrial scheme) [19].…”

Section: Models and Simulationsmentioning

confidence: 99%

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Emulation and interpretation of high-dimensional climate model outputs

Edwards

Garthwaite

Wilkinson

2015

Journal of Applied Statistics

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Running complex computer models can be expensive in computer time, while learning about the relationships between input and output variables can be difficult. An emulator is a fast approximation to a computationally expensive model that can be used as a surrogate for the model, to quantify uncertainty or to improve process understanding. Here, we examine emulators based on singular value decompositions and use them to emulate global climate and vegetation fields, examining how these fields are affected by changes in the Earth's orbit. The vegetation field may be emulated directly from the orbital variables, but an appealing alternative is to relate it to emulations of the climate fields, which involves high-dimensional input and output. The singular value decompositions radically reduce the dimensionality of the input and output spaces and are shown to clarify the relationships between them. The method could potentially be useful for any complex process with correlated, highdimensional inputs and/or outputs

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Section: Models and Simulationsmentioning

confidence: 99%

“…All model parameters were set at their defaults (PLASIM Version 6 Revision 4, ENTS parameters [19]). The threshold fractional soil moisture for photosynthesis [7] was set at 0.1.…”

Section: Models and Simulationsmentioning

confidence: 99%

Emulation and interpretation of high-dimensional climate model outputs

Edwards

Garthwaite

Wilkinson

2015

Journal of Applied Statistics

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“…To avoid running a climate model for many input values, it is possible to define a statistical model that approximates the behaviour for some inputs and extrapolates the behaviour for different inputs. These statistical models, called emulators, are useful tools for global sensitivity analysis and parameter calibration (Sacks et al ; Santner et al ; Kennedy & O'Hagan, ; Oakley & O'Hagan, ; Rougier et al ; O'Hagan, ) and impact assessment (Holden & Edwards, ; Castruccio & Stein, ; Holden et al ; Castruccio et al ). It is of interest to compare the emulated output with the original climate model, to understand how well the emulator approximates the original climate model and to detect possible differences.…”

Section: Visualizing and Comparing Global Climate Datamentioning

confidence: 99%

Visuanimation in statistics

Genton

Castruccio

Crippa

et al. 2015

Stat

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This paper explores the use of visualization through animations, coined visuanimation, in the field of statistics. In particular, it illustrates the embedding of animations in the paper itself and the storage of larger movies in the online supplemental material. We present results from statistics research projects using a variety of visuanimations, ranging from exploratory data analysis of image data sets to spatio-temporal extreme event modeling; these include a multiscale analysis of classification methods, the study of the effects of a simulated explosive volcanic eruption, and an emulation of climate model output. This paper serves as an illustration of visuanimation for future publications in Stat.

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“…Model calculations suggest that global average temperature could be anywhere from 4 to 8 K or warmer than today if anthropogenic warming melts the polar ice caps (Lenton and Ciscar 2012;Hansen et al 2013;Holden et al 2014;Haqq-Misra 2014). Most climate models today are designed to operate in a regime near present-day Earth, with accuracy up to a few degrees of warming and most of the major ice sheets present in approximately their current configuration.…”

Section: Hysteresis In Climate Modelsmentioning

confidence: 99%

Should we geoengineer larger ice caps?

Haqq-Misra

2015

Futures

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The climate of Earth is susceptible to catastrophes that could threaten the longevity of human civilization. Geoengineering to reduce incoming solar radiation has been suggested as a way to mediate the warming effects of contemporary climate change, but a geoengineering program for thousands of years could also be used to enlarge the size of the polar ice caps and create a permanently cooler climate. Such a large ice cap state would make Earth less susceptible to climate threats and could allow human civilization to survive further into the future than otherwise possible. Intentionally extending Earth's glacial coverage will require uninterrupted commitment to this program for millenia but would ultimately reach a cooler equilibrium state where geoengineering is no longer needed. Whether or not this program is ever attempted, this concept illustrates the need to identify preference among potential climate states to ensure the long-term success of civilization.

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PLASIM-ENTSem v1.0: a spatio-temporal emulator of future climate change for impacts assessment

Cited by 41 publications

References 48 publications

Emulation and interpretation of high-dimensional climate model outputs

Emulation and interpretation of high-dimensional climate model outputs

Visuanimation in statistics

Should we geoengineer larger ice caps?

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