We present a description of the theoretical framework and "best practice" for using the paleo-climate model component of the Coupled Model Intercomparison Project (Phase 5) (CMIP5) to constrain future projections of climate using the same models. The constraints arise from measures of skill in hindcasting paleo-climate changes from the present over 3 periods: the Last Glacial Maximum (LGM) (21 thousand years before present, ka), the mid-Holocene (MH) (6 ka) and the Last Millennium (LM) (850–1850 CE). The skill measures may be used to validate robust patterns of climate change across scenarios or to distinguish between models that have differing outcomes in future scenarios. We find that the multi-model ensemble of paleo-simulations is adequ...
There is large uncertainty about the magnitude of warming and how rainfall patterns will change in r...
Past climates provide a test of models' ability to predict climate change. We present a comprehensiv...
There is large uncertainty about the magnitude of warming and how rainfall patterns will change in r...
We present a selection of methodologies for using the palaeo-climate model component of the Coupled ...
We present a description of the theoretical framework and best practice for using the paleo-climate ...
Past climates provide a test of how well state-of-the-art models predict climate change. We present ...
Structural differences among models account for much of the uncertainty in projected climate changes...
In spite of the yet incomplete subsample of the 5th phase of the Coupled Model Intercomparison Proje...
The Last Glacial Maximum (LGM, ∼ 21 000 years ago) has been a major focus for evaluating how well st...
Paleoclimate simulations provide us with an opportunity to critically confront and evaluate the perf...
There is large uncertainty about the magnitude of warming and how rainfall patterns will change in r...
Past climates provide a test of models' ability to predict climate change. We present a comprehensiv...
There is large uncertainty about the magnitude of warming and how rainfall patterns will change in r...
We present a selection of methodologies for using the palaeo-climate model component of the Coupled ...
We present a description of the theoretical framework and best practice for using the paleo-climate ...
Past climates provide a test of how well state-of-the-art models predict climate change. We present ...
Structural differences among models account for much of the uncertainty in projected climate changes...
In spite of the yet incomplete subsample of the 5th phase of the Coupled Model Intercomparison Proje...
The Last Glacial Maximum (LGM, ∼ 21 000 years ago) has been a major focus for evaluating how well st...
Paleoclimate simulations provide us with an opportunity to critically confront and evaluate the perf...
There is large uncertainty about the magnitude of warming and how rainfall patterns will change in r...
Past climates provide a test of models' ability to predict climate change. We present a comprehensiv...
There is large uncertainty about the magnitude of warming and how rainfall patterns will change in r...