North American Climate in CMIP5 Experiments. Part I: Evaluation of Historical Simulations of Continental and Regional Climatology

Sheffield, Justin; Barrett, A. P.; Colle, Brian A.; Fernando, Nelun; Fu, Rong; Geil, Kerrie; Hu, Qi; Kinter, J. L.; Kumar, Sanjiv; Langenbrunner, Baird; Lombardo, Kelly; Long, Lindsey N.; Maloney, Eric D.; Mariotti, Annarita; Meyerson, Joyce E.; Mo, Kingtse C.; Neelin, J. David; Nigam, Sumant; Pan, Zaitao; Ren, Tong; Ruiz‐Barradas, Alfredo; Serra, Yolande L.; Seth, Anji; Thibeault, Jeanne M.; Stroeve, Julienne; Yang, Ze; Yin, Lei

doi:10.1175/jcli-d-12-00592.1

Cited by 256 publications

(186 citation statements)

References 65 publications

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“…However, while CanRCM4 simulates too little convective rainfall, largescale rainfall is over-estimated. The spatial extent of the warm bias in TXx by CanRCM4 is similar to the warm bias in mean temperature in CanESM2 (Sheffield et al 2013). Climate models from the same institution are known to often share the same biases (Knutti et al 2009).…”

Section: Discussionmentioning

confidence: 54%

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Evaluation of extreme rainfall and temperature over North America in CanRCM4 and CRCM5

Whan

Zwiers

2015

Clim Dyn

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Section: Discussionmentioning

confidence: 54%

“…4d, e). There is a warm mean temperature bias in CanESM2 in a similar region (Sheffield et al 2013). Although not as large as the warm bias in the Can-RCM4 simulations, CRCM5 is 2-3 °C warmer than observations in summer in the Central region.…”

Section: Hottest Day (Txx)mentioning

confidence: 61%

Evaluation of extreme rainfall and temperature over North America in CanRCM4 and CRCM5

Whan

Zwiers

2015

Clim Dyn

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“…S2-S4 and Table S2). The largest anthropogenic increases in standardized fuel aridity were present across the intermountain western United States, due in part to larger modeled warming rates relative to more maritime areas (27). Among aridity metrics, the largest increases tied to the ACC signal were for VPD and ETo because the interannual variability of these variables is primarily driven by temperature for much of the study area (28).…”

mentioning

confidence: 99%

Impact of anthropogenic climate change on wildfire across western US forests

Abatzoglou

Williams

2016

Proc. Natl. Acad. Sci. U.S.A.

1,898

1,405

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Increased forest fire activity across the western continental United States (US) in recent decades has likely been enabled by a number of factors, including the legacy of fire suppression and human settlement, natural climate variability, and human-caused climate change. We use modeled climate projections to estimate the contribution of anthropogenic climate change to observed increases in eight fuel aridity metrics and forest fire area across the western United States. Anthropogenic increases in temperature and vapor pressure deficit significantly enhanced fuel aridity across western US forests over the past several decades and, during 2000-2015, contributed to 75% more forested area experiencing high (>1 σ) fire-season fuel aridity and an average of nine additional days per year of high fire potential. Anthropogenic climate change accounted for ∼55% of observed increases in fuel aridity from 1979 to 2015 across western US forests, highlighting both anthropogenic climate change and natural climate variability as important contributors to increased wildfire potential in recent decades. We estimate that human-caused climate change contributed to an additional 4.2 million ha of forest fire area during 1984-2015, nearly doubling the forest fire area expected in its absence. Natural climate variability will continue to alternate between modulating and compounding anthropogenic increases in fuel aridity, but anthropogenic climate change has emerged as a driver of increased forest fire activity and should continue to do so while fuels are not limiting.wildfire | climate change | attribution | forests W idespread increases in fire activity, including area burned (1, 2), number of large fires (3), and fire-season length (4, 5), have been documented across the western United States (US) and in other temperate and high-latitude ecosystems over the past half century (6, 7). Increased fire activity across western US forests has coincided with climatic conditions more conducive to wildfire (2-4, 8). The strong interannual correlation between forest fire activity and fire-season fuel aridity, as well as observed increases in vapor pressure deficit (VPD) (9), fire danger indices (10), and climatic water deficit (CWD) (11) over the past several decades, present a compelling argument that climate change has contributed to the recent increases in fire activity. Previous studies have implicated anthropogenic climate change (ACC) as a contributor to observed and projected increases in fire activity globally and in the western United States (12-19), yet no studies have quantified the degree to which ACC has contributed to observed increases in fire activity in western US forests.Changes in fire activity due to climate, and ACC therein, are modulated by the co-occurrence of changes in land management and human activity that influence fuels, ignition, and suppression. The legacy of twentieth century fire suppression across western continental US forests contributed to increased fuel loads and fire potential in many locations (20,21), ...

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“…We used local scale projections from two GCMs: the Community Climate System Model 4 (CCSM4-realization r6i1p1, [31]) and the Model for Interdisciplinary Research on Climate 5 (MIROC5-realization r1i1p1, [32]). These two models were chosen because they performed appropriately over the South Central U.S. during the historical period and had relatively smaller cumulative biases ( Figure 2) [33]. The future projections used Representative Concentration Pathway (RCP) 8.5-a "business as usual" future trajectory for greenhouse gas concentrations and the RCP 4.5.…”

Section: Methodsmentioning

confidence: 99%

Projecting Future Change in Growing Degree Days for Winter Wheat

Castillo

Ospina

2016

Agriculture

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Southwest Oklahoma is one of the most productive regions in the Great Plains (USA) where winter wheat is produced. To assess the effect of climate change on the growing degree days (GDD) available for winter wheat production, we selected from the CMIP5 archive, two of the best performing Global Climate Models (GCMs) for the region (MIROC5 and CCSM4) to project the future change in GDD under the Representative Concentration Pathways (RCP) 8.5 and 4.5 future trajectories for greenhouse gas concentrations. Two quantile mapping methods were applied to both GCMs to obtain local scale projections. The local scale outputs were applied to a GDD formula to show the GDD changes between the historical period and the future period in terms of mean differences. The results show that at the end of the 2098 growing season, the increase in GDD is expected to be between 440 • C and 1300 • C, for RCP 4.5, and between 700 • C and 1350 • C for RCP 8.5. This increase in GDD might cause a decrease in the number of days required to reach crop maturity, as all the GCM/statistical post-processing combinations showed a decreasing trend of those timings during the 21st century. Furthermore, we conclude, that when looking at the influence of the selected GCMs and the quantile mapping methods on the GDD calculation, the GCMs differences originated from the significant spatial and temporal variations of GDD over the region and not the statistical methods tested.

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North American Climate in CMIP5 Experiments. Part I: Evaluation of Historical Simulations of Continental and Regional Climatology

Cited by 256 publications

References 65 publications

Evaluation of extreme rainfall and temperature over North America in CanRCM4 and CRCM5

Evaluation of extreme rainfall and temperature over North America in CanRCM4 and CRCM5

Impact of anthropogenic climate change on wildfire across western US forests

Projecting Future Change in Growing Degree Days for Winter Wheat

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