Swann and Koven 2017
Data description: This datafile contains estimates of water budget terms for the Amazon basin upstream of Óbidos.
Please cite: Swann, A.L.S., Koven, C.D. (2017) A Direct Estimate of the Seasonal Cycle of Evapotranspiration over the Amazon Basin. Journal of Hydrometeorology. 18(8):2173-2185. doi:10.1175/JHM-D-17-0004.1.
Kim et al. 2020
Data description: Climate model output from the Community Earth System Model for experiments looking at the influence of land surface properties in the Arctic on climate.
Please cite: Kim, J.E., M.M. Laguë, S. Pennypacker, E. Dawson, A.L.S. Swann, Evaporative Resistance is of Equal Importance as Surface Albedo in High Latitude Surface Temperatures Due to Cloud Feedbacks. Geophysical Research Letters, 47. e2019GL085663, doi:10.1029/2019GL085663
Laguë et al. 2019
Data description: Climate model output from the Community Earth System Model for experiments looking at the influence of land surface properties on the atmosphere.
Please cite: Laguë, M.M., Bonan, G.B., Swann, A.L.S. (2019), The impact of individual land surface properties on terrestrial climate and atmospheric feedbacks. Journal of Climate, 32(18):5725–5744. doi:10.1175/JCLI-D-18-0812.1
Kovenock and Swann 2018
Data description: Climate model output from the Community Earth System Model for experiments looking at leaf trait acclimation to elevated carbon dioxide.
Please cite: Kovenock, M., Swann A.L.S. (2018), Leaf trait acclimation amplifies simulated climate warming in response to elevated carbon dioxide. Global Biogeochemical Cycles doi:10.1029/2018GB005883
Swann et al. 2018
Data description: Excel file containing data from 13 forest loss model simulation experiments showing the impact of forest loss on productivity, temperature, precipitation, and low cloud cover averaged over the NEON ecoclimatic domains.
Please cite: Swann, A.L.S., Laguë, M.M., Garcia, E.S., Breshears, D.D., Field, J.P., Moore, D.J.P., Saleska, S.R., Stark, S.C., Villegas, J.C., Law, D.J., and Minor, D.M. (2018) Continental-scale Consequences of Tree die-offs in North America: Identifying Where Forest Loss Matters Most. Environmental Research Letters. 13(5):055014. doi:10.1088/1748-9326/aaba0f
Garcia et al. 2016
Data description: Model simulations of forest loss in Western North America, the Amazon basin, and the two in combination as well as a control run.
Please cite: Garcia E.S., A.L.S. Swann, J.C. Villegas, D.D. Breshears, D.J. Law, S.R. Saleska, S.C. Stark. (2016) Ecoclimate teleconnections from forest loss in disparate regions: Identifying differential responses, mechanisms, and synergies in affected areas. PLOS ONE. 11(11):1-12. doi: 10.1371/journal.pone.0165042.
Swann et al. 2015
Data description: Model simulation output of land surface variables and fluxes following modeled deforestation in the Amazon using the EDBRAMS coupled regional model.
Please cite: Swann, A.L.S., Longo, M.L., Knox, R.G., Lee, E., Moorcroft, P.R. (2015), Future deforestation in the Amazon and consequences for South American climate. Agricultural and Forest Meteorology. 214-215:12–24. doi:10.1016/j.agrformet.2015.07.006 [PDF author format] [AgForMet website]