Download Publications2015

A1. International peer-reviewed journals
1. Barbu N, Cuculeanu V, Stefan S. 2014. Modeling the precipitation amounts dynamics for
different time scales in Romania using multiple regression approach. Romanian Journal of Physics,
59 (9-10), 1127-1149.
2. Barbu N, Georgescu F, Stefanescu VE, Stefan S. 2014. Large- scale mechanisms responsible to
heat waves occurrence in Romania. Romanian Journal of Physics, 59 (9-10), 1109-1126
3. Barbu N, Cuculeanu V, Stefan S. 2015. Investigation of the relationship between very warm
days in Romania and large-scale atmospheric circulation using multiple linear regression approach.
Theoretical and Applied Climatology. DOI: 10.1007/s00704-015-1579-7
4. Barbu N, Burada C, Ștefan S, Georgescu F. 2015. Changes in the large-scale atmospheric
circulation over Romania between 1961 and 2010 on seasonal base. Acta Geophysica (accepted).
5. Birsan MV, Dumitrescu A. 2014. Snow variability in Romania in connection to large-scale
atmospheric circulation. International Journal of Climatology. 34 (1):134-144. DOI:
10.1002/joc.3671
6. Birsan MV, Dumitrescu A. 2015. Statistical downscaling of sub-daily temperature in Romania by
means of artificial neural networks. Theoretical and Applied Climatology (under review).
7. Busuioc A, Dobrinescu A, Birsan MV, Dumitrescu A, Orzan A. 2014. Spatial and temporal
variability of climate extremes in Romania and associated large-scale mechanisms. International
Journal of Climatology 35(7): 1278-1300. DOI: 10.1002/joc.4054 (open access).
8. Busuioc A, Birsan MV, Carbunaru D, Baciu M, Orzan A. 2014. Changes in the large-scale
thermodynamic instability and connection with rain shower frequency over Romania: verification
of the Clausius–Clapeyron scaling. International Journal of Climatology. DOI: 10.1002/joc.4477
(open access)
9. Carbunaru D, Burcea S. 2015. Thermodynamic configurations associated with heavy rainfall in
Eastern Romania. International Journal of Climatology. DOI: 10.1002/joc.4491 (open access)
10. Cheval S, Busuioc A, Dumitrescu A, Birsan MV. 2014. Spatiotemporal variability of the
meteorological drought in Romania using the Standardized Precipitation Index (SPI). Climate
Research 60:235-348. DOI: 10.3354/cr01245
11. Dascalu SI, Gothard M, Bojariu R, Bîrsan MV, Cică R, Vintilă R, Adler MJ, Chendeș V, Mic
RP. 2015. Drought-related variables over the Bârlad basin (Eastern Romania) under climate change
scenarios. Catena (under 2nd review).
12. Dobrinescu A, Busuioc A, Birsan MV, Dumitrescu A, Orzan A. 2015. Changes in thermal
discomfort indices in Romania and their connections with large-scale mechanisms. Climate
Research 64: 213-226, doi: 10.3354/cr0131 (open access)
13. Dumitrescu A, Bojariu R, Birsan MV, Marin L, Manea A. 2014. Recent climatic changes in
Romania from observational data (1961-2013). Theoretical and Applied Climatology 122 (1): 111119. DOI: 10.1007/s00704-014-1290-0
14. Dumitrescu A, Birsan MV, Manea A. 2014. Spatio-temporal interpolation of sub-daily (6 h)
precipitation over Romania for the period 1975–2010 International Journal of Climatology. DOI:
10.1002/joc.4427
15. Ionita M, Rimbu N, Chelcea S, Patrut S. 2013. Multidecadal variability of summer temperature
over Romania and its relation with Atlantic Multidecadal Oscillation. Theoretical and Applied
Climatology 113(1-2): 305-315, DOI: 10.1007/s00704-012-0786-8
16. Ionita M, Chelcea S, Rimbu N, Adler MJ. 2014. Spatial and temporal variability of winter
streamflow over Romania and its relationship to large-scale atmospheric circulation. Journal of
Hydrology 519: 1339-1349. DOI: 10.1016/j.jhydrol.2014.09.024
17. Ionita M, Scholz P, Chelcea S. 2015. Spatio-temporal variability of dryness/wetness in the
Danube River Basin. Hydrological Processes 29(20): 4483-4497. DOI: 10.1002/hyp.10514
18. Mares C, Adler MJ, Mares I, Chelcea S, Branescu E. 2015. Discharge variability in Romania
using Palmer indices and a simple atmospheric index of large scale circulation. Hydrological
Sciences Journal. DOI: 10.1080/02626667.2015.1006233
19. Mic RP, Corbuş C, Mătreaţă M. 2015. Long-term flow simulation in Bârlad river basin using
Romanian hydrological model CONSUL. Carpathian Journal of Earth and Environmental Sciences
10(4):145-156.
20. Rimbu N, Stefan S, Necula C. 2014. The variability of winter high temperature extremes in
Romania and its relationship with large-scale atmospheric circulation. Theoretical and Applied
Climatology 121(1): 121-130. DOI:10.1007/s00704-014-1219-7
21. Rimbu N, Stefan S, Busuioc A, Georgescu F. 2015. Links between blocking circulation and
precipitation extremes over Romania in summer. International Journal of Climatology.
DOI: 10.1002/joc.4353
22. Stefanescu V, Stefan S, Georgescu F. 2014. Spatial distribution of heavy precipitation in
Romania between 1980 and 2009. Meteorological Application 21:684-694. DOI:10.1002/met.1391
A2. Books/chapters
1. Birsan MV. 2013. Statistical downscaling of sub-daily temperature by means of artificial neural
networks. In V Barsan (Ed) Hands-on science, innovative teaching, gates to research. Știința,
Chișinău. ISBN 978-9975-67-873-5.
2. Chelcea S, Ionita M, Adler MJ. 2014. Identification of dry periods in the Dobrogea region, în
Carmen Maftei (Ed), Extreme Weather and Impacts of Climate Change on Water Resources in the
Dobrogea Region, IGI Global.
3. Ionita M, Chelcea S. 2014. Spatial and temporal variability of seasonal drought over Dobrogea
region and its relationship to large-scale atmospheric circulation and North Atlantic Ocean Sea
Surface Temperature, în Carmen Maftei (Ed), Extreme Weather and Impacts of Climate Change on
Water Resources in the Dobrogea Region, IGI Global.
A3. BDI publications
1. Borcan M, Neculau G, Retegan M. 2014. The influence determined by the changing of mark
climatic parameters upon the hydrological regime in southern Romania. Proceedings of the 14th
GeoConference on Water Resources. Forest, Marine and Ocean Ecosystems, 17-26 iunie 2014,
Albena, Bulgaria, 759-766. DOI: 10.5593/SGEM2014/B31/S12.097
2. Chelcea S, Ionita M. 2013. Extreme value analysis of the Barlad river time series. "Ovidius"
University Annals of Constanta – Series Civil Engineering XV(15): 273-280.
3. Cheval S. 2015. The Standardized Precipitation Index – An Overview. Romanian Journal of
Meteorology 12 (in print).
4. Matreata S, Baciu O, Apostu D, Matreata M. 2013. Evaluation of the Romanian flash flood
forecasting system – case study in the Calnau river basin. Die Bodenkultur - Journal for Land
Management, Food and Environment 64. (3-4): 67-72.
5. Mic RP, Corbuș C, Mătreaţă M, Preda A. 2015. Regionalization of CONSUL Hydrological Model
Parameters for Flow Simulation in the Barlad River Basin, Romania. Proceedings of the 15th
International Multidisciplinary Scientific GeoConference SGEM 2015, 18-24 June 2015, Albena
Bulgaria, Book 3, Volume 1, pp 541-548. DOI: 10.5593/sgem2015B31
6. Radu E, Stanescu G, Rotaru C. 2015. Geological and hydrogeological considerations on the
Quaternary deposits from Crişul Alb basin, between Vârşand and Sebiş (CLIMHYDEX Project).
Proceedings of "Air and Water – Components of the Environment", 20-22 March 2015, ClujNapoca, pp. 117-124. Presa Universitară Clujană.
7. Retegan M, Borcan M. 2014. Assessment of the potential impact of climate change upon
surface water resources in the Ialomița River Basin from Romania. Proceedings of the 14th
GeoConference on Water Resources. Forest, Marine and Ocean Ecosystems, 17-26 iunie 2014,
Albena, Bulgaria, pp. 89-96. DOI: 10.5593/SGEM2014/B31/S12.012
8. Retegan M, Borcan M. 2015. The Impact of Tungujei Reservoir Upon the Hydrological Regime in
the Sacovăț River Basin, Eastern Romania, Proceedings of the 15th International Multidisciplinary
Scientific GeoConference SGEM 2015, 18-24 June 2015, Albena Bulgaria. Conference Proceedings,
Book 3, Volume 1, pp 663-670. DOI: 10.5593/SGEM2015/B31/S12.085
9. Stănescu G, Radu E. 2015. The Evolution of the Hydrostatic Level of the Shallow Aquifer from
Crisul Alb Plain, Between Varsand and Sebis. Proceedings of the 15th International
Multidisciplinary Scientific GeoConference SGEM 2015, 18-24 June 2015, Albena Bulgaria, Book 1,
Volume 2, pp 813-820. DOI: 10.5593/SGEM2015/B12/S2.108
A4. Others publications
1.Adler MJ. 2013. Climate Change and Its Impact in Water Resources, Belgrade AIHS Volume,
Conference Proceedings of Climate Variability and Change – Hydrological Impacts, Belgrade,
October 2013.
2. Adler MJ, Corbus C, Mic R, Chelcea S. 2013. Climate Change and Its Impact in extremes,
Proceedings of the Annual Conference of the University of Bucharest, Faculty of Physics, 21 June,
2013.
3. Adler MJ, Chelcea S. 2014. Climate change and its impact in water resources in Romania,
Proceedings of XXVI Conference of the Danubian Countries on Hydrological Forecasting and
Hydrological Bases of Water Management, 22-24 September 2014, Deggendorf, Germany.
4. Chelcea S, Adler MJ. 2013. Legătura dintre seceta meteorologică şi seceta hidrologică pe râul
Bârlad. Hidrotehnica 58(4-5): 22, ISSN 0439-0962.
5. Chelcea S, Drăguşin D, Coarnă L, Adrian Aldea A, 2015: Perioade secetoase și umede
evidenţiate pe baza indicilor SFI (Standardized Flow Index) şi SGI (Standardized Groundwater
Index) în bazinul hidrografic Crişul Alb, Conferinţa ştiinţifică anuală a INHGA, 2-3 noiembrie 2015
(în curs de publicare).
6. Corbuş C, Mic RP, Mătreaţă M. 2014. Calibrarea parametrilor modelului hidrologic CONSUL prin
simularea scurgerii în bazinul hidrografic Bârlad. CD-ROM cu Lucrările Conferinţei Știinţifice Anuale
a INHGA "Adaptation to climate change, from source to river basin", Bucureşti, 10-11 noiembrie
2014, 37-47.
7. Georgescu TA, Dumitrache R. 2015. Estimarea cerinţelor de apă ale folosinţelor utilizatoare de
apă din bazinul hidrografic Crișul Alb pentru orizonturile de timp 2021 și 2050, Conferinţa
ştiinţifică anuală a INHGA, 2-3 noiembrie 2015. (în curs de publicare)
8. Mătreaţă M, Mătreaţă S. 2014. Calibration particularities for the NOAH distributed hydrological
model parameters. Application for the Bârlad river basin. CD-ROM cu Lucrările Conferinţei
Știinţifice Anuale a INHGA "Adaptation to climate change, from source to river basin", Bucureşti,
10-11 noiembrie 2014, 37-47.
9. Mic RP, Corbuş C, Mătreaţă M. 2015. Utilizarea modelului hidrologic cu parametrii concentraţi
CONSUL la simularea scurgerii în bazinul hidrografic Crişul Alb, Conferinţa ştiinţifică anuală a
INHGA, 2-3 noiembrie 2015. (în curs de publicare)
B. PhD thesis
1. Barbu N. 2015. Contributii la studiul fenomenelor meteorologice extreme in Romania.
Facultatea de Fizica, Universitatea din București.
3. Dobrinescu EA. 2015. Cercetări privind schimbările în caracteristicile extremelor termice din
România. Susținută public în data de 20.10.2015, Facultatea de Fizică, Universitatea București.
3. Dumitrescu A. 2012. Spațializarea parametrilor meteorologici și climatici prin tehnici SIG.
Facultatea de Geografie, Universitatea din București.
4. Ștefănescu V. 2012. Elaborarea unui sistem informational pentru reducerea impactului
fenomenelor meteorologice severe. Facultatea de Fizică, Universitatea din București.