%0 Journal Article %1 Good2012Comparing %A Good, Peter %A Jones, Chris %A Lowe, Jason %A Betts, Richard %A Gedney, Nicola %B Journal of Climate %D 2012 %I American Meteorological Society %J J. Climate %K model Amazon hadgem2-es hadcm3 %N 2 %P 495--511 %R 10.1175/jcli-d-11-00366.1 %T Comparing Tropical Forest Projections from Two Generations of Hadley Centre Earth System Models, HadGEM2-ES and HadCM3LC %U http://dx.doi.org/10.1175/jcli-d-11-00366.1 %V 26 %X AbstractFuture changes in atmospheric greenhouse gas concentrations and associated influences on climate could affect the future sustainability of tropical forests. The authors report on tropical forest projections from the new Hadley Centre Global Environmental Model version 2 Earth System configuration (HadGEM2-ES) and compare them to results from the previous generation model third climate configuration of the Met Office Unified Model in lower resolution with carbon cycle (HadCM3LC), which had projected near-complete dieback of the Amazon rain forest for a business as usual scenario. In contrast, HadGEM2-ES projects minimal change in Amazon forest extent. The main aim of this study is a preliminary investigation of this difference between the two models. It is found that around 40\% of the difference in forest dieback projections is associated with differences in the projected change in dry-season length. Differences in control climatologies of temperature and dry-season length, projected regional warming, and the forest response to climate and CO2 also all contribute to the increased survival of forest in HadGEM2-ES. However, HadGEM2-ES does not invalidate HadCM3LC: Amazon dieback remains a possible scenario of dangerous change that requires further understanding. The authors discuss the relevance to assessments of dieback risk and future work toward narrowing uncertainty about the fate of the Amazon forest. AbstractFuture changes in atmospheric greenhouse gas concentrations and associated influences on climate could affect the future sustainability of tropical forests. The authors report on tropical forest projections from the new Hadley Centre Global Environmental Model version 2 Earth System configuration (HadGEM2-ES) and compare them to results from the previous generation model third climate configuration of the Met Office Unified Model in lower resolution with carbon cycle (HadCM3LC), which had projected near-complete dieback of the Amazon rain forest for a business as usual scenario. In contrast, HadGEM2-ES projects minimal change in Amazon forest extent. The main aim of this study is a preliminary investigation of this difference between the two models. It is found that around 40\% of the difference in forest dieback projections is associated with differences in the projected change in dry-season length. Differences in control climatologies of temperature and dry-season length, projected regional warming, and the forest response to climate and CO2 also all contribute to the increased survival of forest in HadGEM2-ES. However, HadGEM2-ES does not invalidate HadCM3LC: Amazon dieback remains a possible scenario of dangerous change that requires further understanding. The authors discuss the relevance to assessments of dieback risk and future work toward narrowing uncertainty about the fate of the Amazon forest.

@article{Good2012Comparing, abstract = {AbstractFuture changes in atmospheric greenhouse gas concentrations and associated influences on climate could affect the future sustainability of tropical forests. The authors report on tropical forest projections from the new Hadley Centre Global Environmental Model version 2 Earth System configuration (HadGEM2-ES) and compare them to results from the previous generation model [third climate configuration of the Met Office Unified Model in lower resolution with carbon cycle (HadCM3LC)], which had projected near-complete dieback of the Amazon rain forest for a business as usual scenario. In contrast, HadGEM2-ES projects minimal change in Amazon forest extent. The main aim of this study is a preliminary investigation of this difference between the two models. It is found that around 40\% of the difference in forest dieback projections is associated with differences in the projected change in dry-season length. Differences in control climatologies of temperature and dry-season length, projected regional warming, and the forest response to climate and CO2 also all contribute to the increased survival of forest in HadGEM2-ES. However, HadGEM2-ES does not invalidate HadCM3LC: Amazon dieback remains a possible scenario of dangerous change that requires further understanding. The authors discuss the relevance to assessments of dieback risk and future work toward narrowing uncertainty about the fate of the Amazon forest. AbstractFuture changes in atmospheric greenhouse gas concentrations and associated influences on climate could affect the future sustainability of tropical forests. The authors report on tropical forest projections from the new Hadley Centre Global Environmental Model version 2 Earth System configuration (HadGEM2-ES) and compare them to results from the previous generation model [third climate configuration of the Met Office Unified Model in lower resolution with carbon cycle (HadCM3LC)], which had projected near-complete dieback of the Amazon rain forest for a business as usual scenario. In contrast, HadGEM2-ES projects minimal change in Amazon forest extent. The main aim of this study is a preliminary investigation of this difference between the two models. It is found that around 40\% of the difference in forest dieback projections is associated with differences in the projected change in dry-season length. Differences in control climatologies of temperature and dry-season length, projected regional warming, and the forest response to climate and CO2 also all contribute to the increased survival of forest in HadGEM2-ES. However, HadGEM2-ES does not invalidate HadCM3LC: Amazon dieback remains a possible scenario of dangerous change that requires further understanding. The authors discuss the relevance to assessments of dieback risk and future work toward narrowing uncertainty about the fate of the Amazon forest.}, added-at = {2018-06-18T21:23:34.000+0200}, author = {Good, Peter and Jones, Chris and Lowe, Jason and Betts, Richard and Gedney, Nicola}, biburl = {https://www.bibsonomy.org/bibtex/2f7ec61ce326edd5a8b5369c06d9d63ca/pbett}, booktitle = {Journal of Climate}, citeulike-article-id = {11966349}, citeulike-linkout-0 = {http://journals.ametsoc.org/doi/abs/10.1175/JCLI-D-11-00366.1}, citeulike-linkout-1 = {http://dx.doi.org/10.1175/jcli-d-11-00366.1}, comment = {(private-note)The paper that says that the amazon dieback seen in HadCM3 is not seen in HadGEM2-ES.}, day = 27, doi = {10.1175/jcli-d-11-00366.1}, interhash = {5871f5533490a60757c8b4fe000eba5d}, intrahash = {f7ec61ce326edd5a8b5369c06d9d63ca}, journal = {J. Climate}, keywords = {model Amazon hadgem2-es hadcm3}, month = apr, number = 2, pages = {495--511}, posted-at = {2013-03-22 15:43:50}, priority = {2}, publisher = {American Meteorological Society}, timestamp = {2018-06-22T18:33:17.000+0200}, title = {Comparing Tropical Forest Projections from Two Generations of Hadley Centre Earth System Models, HadGEM2-ES and HadCM3LC}, url = {http://dx.doi.org/10.1175/jcli-d-11-00366.1}, volume = 26, year = 2012 }