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Publications 2017

  • Adloff F., Jordà G., Somot S., Sevault F., Meyssignac B., Arsouze T., Li L., Planton S. (2017) Improving sea level simulation in Mediterranean regional climate models. Climate Dynamics, Med-CORDEX special issue, 1-12
  • Akhtar, N., Brauch, J., & Ahrens, B. (2017). Climate modeling over the Mediterranean Sea: impact of resolution and ocean coupling. Climate Dynamics, Med-CORDEX special issue, 1-16
  • Akinsanola, A.A. and Ogunjobi, K.O., 2017. Evaluation of present-day rainfall simulations over West Africa in CORDEX regional climate models. Environmental Earth Sciences, 76(10), p.366
  • Akinsanola, A.A., Ajayi, V.O., Adejare, A.T., Adeyeri, O.E., Gbode, I.E., Ogunjobi, K.O., Nikulin, G. and Abolude, A.T., 2017. Evaluation of rainfall simulations over West Africa in dynamically downscaled CMIP5 global circulation models. Theoretical and Applied Climatology, pp.1-14
  • Cassano, J.J., A. DuVivier2, A. Roberts, M. Hughes3, M. Seefeldt3, M. Brunke, A. Craig, B. Fisel, W. Gutowski, J. Hamman, M. Higgins, W. Maslowski, B. Nijssen, R. Osinski, and X. Zeng, 2016: Development of the Regional Arctic System Model (RASM): Near surface atmospheric climate sensitivity. BAMS, https://journals.ametsoc.org/doi/full/10.1175/JCLI-D-15-0775.1
  • Chen, P., Z. Jiang and D. Peng (2017): Multi-model statistical downscaling of spring precipitation simulation and projection in central Asia based on canonical correlation analysis. Acta Meteorologica Sinica, 75(2): 236-247, doi: 10.11676/qxxb2017.017 (in Chinese)
  • Choudhary, A., & Dimri, A. P. (2017). Assessment of CORDEX-South Asia experiments for monsoonal precipitation over Himalayan region for future climate. Climate Dynamics, 1-22. DOI 10.1007/s00382-017-3789-4
  • Choudhary, A., Dimri, A.P., Maharana, P. (2017) Assessment of CORDEX-SA experiments in representing precipitation climatology of summer monsoon over India. Theor Appl Climatol., DOI: https://doi.org/10.1007/s00704-017-2274-7
  • Colmet-Daage, A. and Sanchez-Gomez, E. and Ricci, S. and Llovel, C. and Borrell Estupina, V. and Quintana-Segui, P. and Llasat, M. C. and Servat, E. (2017) Evaluation of uncertainties in mean and extreme precipitation under climate changes for northwestern Mediterranean watersheds from high-resolution Med and Euro-CORDEX ensembles. Hydrology and Earth System Sciences Discussions 2017, 1-27
  • Cruz F, Narisma G, Dado J, Singhruck P, Tangang F, Linarka U, Wati T, Juneng L, Phan-Van T, Ngo-Duc T, Santisirisomboon J, Gunawan D, Aldrian E (2017) Sensitivity of temperature to physical parameterization schemes of RegCM4 over the CORDEX-Southeast Asia region. International Journal of Climatology, 37: 5139–5153; DOI: https://10.1002/joc.515 
  • P. Diaconescu, et al. Evaluation of CORDEX-Arctic daily precipitation and temperature-based climate indices over Canadian Arctic land areas. Climate Dynamics. DOI: 10.1007/s00382-017-3736-4
  • Diasso, U. and Abiodun, B.J., 2017. Drought modes in West Africa and how well CORDEX RCMs simulate them. Theoretical and Applied Climatology, 128(1-2), pp.223-240
  • Drobinski, P., Bastin, S., Arsouze, T., Beranger, K., Flaounas, E., & Stefanon, M. (2017). North-western Mediterranean sea-breeze circulation in a regional climate system model. Climate Dynamics, Med-CORDEX special issue, 1-17
  • DuVivier, A.K., J.J. Cassano, S. Greco, and G.D. Emmitt, A case study of observed and modeled barrier flow in the Denmark Strait in May 2016, BAMS, https://journals.ametsoc.org/doi/ref/10.1175/MWR-D-16-0386.1
  • Fernandez JPR, SH Franchito, VB Rao, M Llopart. Changes in Koppen-Trewartha climate classification over South America from RegCM4 projections. Atmospheric Science Letters 18 (11), 427-434
  • Filahi S., Tramblay Y., Mouhir L., Diaconescu E.P. (2017) Projected changes in temperature and precipitation in Morocco from high-resolution regional climate models. International Journal of Climatology 37(14), 4846-4863
  • Fotso-Nguemo, T.C., Vondou, D.A., Pokam, W.M., Djomou, Z.Y., Diallo, I., Haensler, A., Tchotchou, L.A.D., Kamsu-Tamo, P.H., Gaye, A.T. and Tchawoua, C., 2017. On the added value of the regional climate model REMO in the assessment of climate change signal over Central Africa. Climate Dynamics, pp.1-26
  • Fotso-Nguemo, T.C., Vondou, D.A., Tchawoua, C. and Haensler, A., 2017. Assessment of simulated rainfall and temperature from the regional climate model REMO and future changes over Central Africa. Climate Dynamics, 48(11-12), pp.3685-3705
  • Frei, P., Kotlarski, S., Liniger, M.A., Schär, C. Snowfall in the Alps: Evaluation and Projections baed on the EURO-CORDEX regional climate models (2017) The Cryosphere Discussion, https://doi.org/10.5194/tc-2017-7, Article in review
  • Hernández-Díaz, L., R. Laprise, O. Nikiéma and K. Winger, 2017: Three-step dynamical downscaling with empirical correction of sea-surface conditions: Application to a CORDEX Africa simulation. Clim. Dyn. 48(7), 2215-2233http://link.springer.com/article/10.1007/s00382-016-3201-9
  • Hur, J., and Ahn, J.B., (2017): Assessment and prediction of the first-flowering dates for the major fruit trees in Korea using a multi-RCM ensemble. International Journal of Climatology, 37, 1603-1618
  • Iqbal, W., Syed, F.S., Sajjad, H., Nikulin, G., Kjellström, E., Hannachi1, A (2017) Mean climate and representation of jet streams in the CORDEX South Asia simulations by the regional climate model RCA4. Theor Appl Climatol, 129:1–19, DOI 10.1007/s00704-016-1755-4
  • Jeong, D., and L. Sushama. 2017. Rain-on-snow events over North America based on two Canadian regional climate models. Clim Dyn. DOI: 10.1007/s00382-017-3609-x
  • Knist, S., et al.. Land-atmosphere coupling in EURO-CORDEX evaluation experiments (2017) Journal of Geophysical Research: Atmospheres, 122 (1), pp. 79-103. doi:10.1002/2016JD025476
  • Kumar, D., Dimri, A.P. (2017) Regional climate projections for Northeast India: an appraisal from CORDEX South Asia experiment. Theor Appl Climatol., https://doi.org/10.1007/s00704-017-2318-z
  • Lake I., Gutowski W., Giorgi F., Lee B. (207). CORDEX: Climate research and information for Regions. Bulletin of the American Meteorological vol. 98, issue 8, pp. ES189-ES192, doi:10.1175/BAMS-D-17-0042.1
  • Lake I., Kang S., Tangang F., Gutowski W., Lee B., Kjellström E., Langendijk G. (2017). The International Conference on Regional Climate – CORDEX 2016. APN Science Bulletin, 7(1).
  • Lee, D., et al., (2017): Thermodynamic and dynamic contributions on future changes in summer precipitation over Northeast Asia and Korea: A multi-RCM study. Climate Dyn., published online, doi:10.1007/s00382-017-3566-4
  • Llopart, M., R. P. da Rocha, M. S. Reboita, S. Cuadra. Sensitivity of simulated South America climate to the land surface schemes in RegCM4. Climate Dynamics, 49 (11-12), 3975-3987, 2017
  • Lucas-Picher, P., R. Laprise, and K. Winger. 2017. Evidence of added value in North American regional climate model hindcast simulations using ever-increasing horizontal resolutions. Clim Dyn. 48 (7–8), p. 2611–2633. DOI: 10.1007/s00382-016-3227-z
  • Marchane A., Tramblay Y., Hanich L., Ruelland D., Jarlan L. (2017) Climate change impacts on surface water resources in the Rheraya catchment (High-Atlas, Morocco). Hydrological Sciences Journal 62(6), 979-995
  • Mutayoba, E. and Kashaigili, J.J., 2017. Evaluation for the Performance of the CORDEX Regional Climate Models in Simulating Rainfall Characteristics over Mbarali River Catchment in the Rufiji Basin, Tanzania. Journal of Geoscience and Environment Protection, 5(04), p.139
  • Nengker, T., Choudhary, A., & Dimri, A. P. (2017). Assessment of the performance of CORDEX-SA experiments in simulating seasonal mean temperature over the Himalayan region for the present climate: Part I. Climate Dynamics, 1-31. DOI 10.1007/s00382-017-3597-x
  • Ngo-Duc, T., Tangang, F. T., Santisirisomboon, J., Cruz, F., Trinh-Tuan, L., Nguyen-Xuan, T., … Aldrian, E. (2017). Performance evaluation of RegCM4 in simulating extreme rainfall and temperature indices over the CORDEX-Southeast Asia region: Performance evaluation of RegCM4 over the CORDEX-Southeast Asia Region. International Journal of Climatology, 37: 1634–1647
  • Nikiema, P.M., Sylla, M.B., Ogunjobi, K., Kebe, I., Gibba, P. and Giorgi, F., 2017. Multi‐model CMIP5 and CORDEX simulations of historical summer temperature and precipitation variabilities over West Africa. International Journal of Climatology, 37(5), pp.2438-2450
  • Omar, S.A. and Abiodun, B.J., 2017. How well do CORDEX models simulate extreme rainfall events over the East Coast of South Africa?. Theoretical and Applied Climatology, 128(1-2), pp.453-464
  • Poan, E.D., P. Gachon, R. Laprise, R. Aider and G. Dueymes. 2017. Investigating regional climate modeling added value in simulating North American winter storm tracks. Clim. Dyn. DOI: 10.1007/s00382-017-3723-9
  • Reboita, M. S., T Amaro, M. Rodrigues. Winds: Intensity and Power Density Simulated by RegCM4 over South America in the Present and Future Climate. Climate Dynamics, p. xx-xx, 2017
  • Saeed, F., Almazroui, M., Islam, N., Khan, M. S. (2017) Intensification of future heat waves in Pakistan: a study using CORDEX regional climate models ensemble. Nat Hazards. 87, 1635-1647, DOI https://doi.org/10.1007/s11069-017-2837-z
  • Sanjay, J., Krishnan, R., Shrestha, A.B., Rajbhandari, R., Ren, G.-Y (2017) Downscaled climate change projections for the Hindu Kush Himalayan region using CORDEX South Asia regional climate models. Advances in Climate Change Research, 8, 185-198, doi: 10.1016/j.accre.2017.08.003
  • Sanjay, J., R. Krishnan, M.V.S. Ramarao, R. Mahesh, Bhupendra Singh, Jayashri Patel, Sandip Ingle, Preethi Bhaskar, J.V. Revadekar, T.P. Sabin, Milind Mujumdar (2017) Future climate change projections over the Indian region. In Climate Change over India – An Interim Report. Editors: R. Krishnan and J. Sanjay, Published by Centre for Climate Change Research, IITM, pp. 38, available for download at http://cccr.tropmet.res.in/home/reports.jsp
  • Sanjay J., M.V.S. Ramarao, M. Mujumdar and R. Krishnan (2017) Regional climate change scenarios. Chapter of book: Observed Climate Variability and Change over the Indian Region. Editors: M. N. Rajeevan and Shailesh Nayak, Springer Geology, pp. 285-304, DOI: 10.1007/978-981-10-2531-0
  • Seiler, C., F.W. Zwiers, K.I. Hodges, and J. Scinocca. 2017. How does dynamical downscaling affect model biases and future projections of explosive extratropical cyclones along North America’s Atlantic coast? Clim Dyn. DOI: 10.1007/s00382-017-3634-9
  • Sharma, T., Vittal, H., Chhabra, S., Salvi, K., Ghosh, S. and Karmakar, S. (2017) Understanding the cascade of GCM and downscaling uncertainties in hydro-climatic projections over India. Int. J. Climatol. doi:10.1002/joc.5361
  • Shen, W., Tang, J., Wang, Y., Wang S., Niu, X., 2017: Evaluation of WRF model simulations of tropical cyclones in the western North Pacific over the CORDEX East Asia domain. Clim Dyn, 48: 2419. https://doi.org/10.1007/s00382-016-3213-5
  • Soares PMM, Lima DCA, Cardoso RM, Nascimento ML, Semedo A, 2017: Western Iberian offshore wind resources: More or less in a global warming climate? Applied Energy, 203, 72-90 DOI: 10.1016/j.apenergy.2017.06.004 http://www.sciencedirect.com/science/article/pii/S0306261917307535
  • Takhsha, M., O. Nikiéma, P. Lucas-Picher, R. Laprise and K. Winger: Climate simulations and projection over CORDEX Arctic domain using CRCM5: Effects of large-scale spectral nudging and empirical correction of sea-surface temperature bias. Clim. Dyn.(soumis, 28 février 2017)
  • Tang, J., Wang, S., Niu, X. et al., 2017: Impact of spectral nudging on regional climate simulation over CORDEX East Asia using WRF. Clim Dyn, 48: 2339. https://doi.org/10.1007/s00382-016-3208-2
  • Vondou, D.A. and Haensler, A., 2017. Evaluation of simulations with the regional climate model REMO over Central Africa and the effect of increased spatial resolution. International Journal of Climatology
  • Yang, H., Z. Jiang and Z. Li, et al. (2017): Applicability of a quantile-quantile (Q-Q) bias-correction method for climate dynamical downscaling at Beijing station. Acta Meteorologica Sinica, 75(03): 460-470, doi: 10.11676/qxxb2017.028 (in Chinese)
  • Zhou, L. and Z. Jiang (2017): Future changes in precipitation over Hunan Province based on CMIP5 simulations using the statistical downscaling method of transform cumulative distribution function. Acta Meteorologica Sinica, 75(02): 223-235, doi: 10.11676 /qxxb 2017. 012 (in Chinese)
  • Zou, L., and T. Zhou (2017), Dynamical downscaling of East Asian winter monsoon changes with a regional ocean–atmosphere coupled model, Q. J. R. Meteorol. Soc. 143: 2245–2259, July 2017 A DOI:10.1002/qj.3082
  • Zhu, L., Y. Li and Z. Jiang (2017): Statistical Modeling of CMIP5 Projected Changes in Extreme Wet Spells over China in the Late 21st Century. Journal of Meteorological Research, 31(4): 678-693, doi: 10.1007/s13351-017-6792-0