Latest publications citing MHWM
Articles from JCR journal list in which „Meteorology Hydrology and Water Management“ articles have been cited recently


1. Młyński D., Walega A., Petroselli A., Tauro F., Cebulska M., 2019, Estimating Maximum Daily Precipitation in the Upper Vistula Basin, Poland, Atmosphere, 10(43), DOI:10.3390/atmos10020043.

2. Rohm W., Guzikowski J., Wilgan K., Kryza M., 2019, 4DVAR assimilation of GNSS zenith path delays and precipitable water into a numerical weather prediction model WRF, Atmospheric Measurement Techniques, 12(1): 345-361, DOI: 10.5194/amt-12-345-2019.

3. Langhammer J., Vacková T., 2019, Detection and Mapping of the Geomorphic Effects of Flooding Using UAV Photogrammetry (in book: Applications of Unmanned Aerial Vehicles in Geosciences), DOI: 10.1007/978-3-030-03171-8_7.

4. Gao M.N., Yang J., Gong D.Y., Shi P.J., Han Z.G., Kim S.J., 2019, Footprints of Atlantic Multidecadal Oscillation in the Low-Frequency Variation of Extreme High Temperature in the Northern Hemisphere, Journal of Climate, 32(3): 791-802, DOI: 10.1175/JCLI-D-18-0446.1.

5. Hu R., Ndé-Tchoupé A.I., Lufingo M., Xiao M., Nassi A., Chicgoua Noubactep Ch., Njau K.N., 2019, The Impact of Selected Pretreatment Procedures on Iron Dissolution from Metallic Iron Specimens Used in Water Treatment, Sustainability, 11(3): 671, DOI: 10.3390/su11030671.

6. Trzcina E., Rohm W., 2019, Estimation of 3D wet refractivity by tomography, combining GNSS and NWP data. First results from assimilation of wet refractivity into NWP, Quarterly Journal of the Royal Meteorological Society, DOI: 10.1002/qj.3475.

7. Burhan A., Athar H., 2019, PDF based seasonal changes in AgMERRA observations and GCM20 and RegCM4.3 projections over Pakistan Regio, Climate Change, 5(17).

8. Stillman J. H., 2019, Heat Waves, the New Normal: Summertime Temperature Extremes Will Impact Animals, Ecosystems, and Human Communities, Physiology, 34(2): 86-100.

9. Pilguj N., Taszarek M., Pajurek L., Kryza M., 2019, High-resolution simulation of an isolated tornadic supercell in Poland on 20 June 2016, Atmospheric Research, 218: 145-159, DOI: 10.1016/j.atmosres.2018.11.017.

10. Szeląg B., Kiczko A., Dąbek L., 2019, Stormwater Reservoir Sizing in Respect of Uncertainty, Water, 11(2): 321, DOI: 10.3390/w11020321.

11. Tymków P., Jóźków G., Walicka A., Karpina M., Borkowski A., 2019, Identification of Water Body Extent Based on Remote Sensing Data Collected with Unmanned Aerial Vehicle, Water, 11(2): 338, DOI: 10.3390/w11020338.

12. Porras G.L., Stringer, L.C., Quinn C.H., 2019, Corruption and conflicts as barriers to adaptive governance: Water governance in dryland systems in the Rio del Carmen watershed, Science of the Total Environment, 660: 519-530, DOI:10.1016/j.scitotenv.2019.01.030.

13. Tomczyk A.M., Bednorz E., Sulikowska A., 2019, Cold spells in Poland and Germany and their circulation conditions, Int J Climatol., 1-13, DOI: 10.1002/joc.6054.

14. Tomczyk A.M., Bednorz E., 2019, Heat waves in Central Europe and tropospheric anomalies of temperature and geopotential heights, Int J Climatol., DOI: 10.1002/joc.6067.

15. Doroszkiewicz J., Romanowicz R. J., Kiczko A., 2019, The Influence of Flow Projection Errors on Flood Hazard Estimates in Future Climate Conditions, Water, 11(1): 49, DOI: 10.3390/w11010049.

16. Ahmadvand S., Abbasi B., Azarfar B., Elhashimi M., Zhang X., Abbasi B., 2019, Looking Beyond Energy Efficiency: An Applied Review of Water Desalination Technologies and an Introduction to Capillary-Driven Desalination, Water 11(4): 696, DOI: 10.3390/w11040696.

17. Cerano-Paredes J., Villanueva-Díaz J., Vázquez-Selem L., Cervantes-Martínez R., Magaña-Rueda V.O., Constante-García V., Esquivel-Arriaga G., Valdez-Cepeda R.D, 2019, Climatic influence on fire regime (1700 to 2008) in the Nazas watershed, Durango, Mexico, Fire Ecology 15(1), DOI: 10.1186/s42408-018-0020-x.

18. Lisimenka A., Kubicki A., 2019: Bedload transport in the Vistula River mouth derived from dune migration rates, southern Baltic Sea, Oceanologia, DOI:10.1016/j.oceano.2019.02.003.

19. Szydłowski M., 2019, Hydraulic analysis of causes of washout of Gdynia-Orłowo sea-shore during the flood in the Kacza Rive estuary, Polish Maritime Research, 26(1): 174-182.

20. Mazur A., Hypothetical accident in Polish nuclear power plant. Worst case scenario for main Polish cities, Ecological Chemistry and Engineering S-Chemia i Inżynieria Ekologiczna, 26(1): 9-28.


1. Doroszkiewicz J., Romanowicz R., Kiczko A., 2018, The influence of Flow Projection Errors on Flood Hazard Estimates in Future Climate Conditions, Water 11(1): 49, DOI: 10.3390/w11010049.

2. Romanescu G., Mihu-Pintilie A., Stoleriu C., Carboni D., Paveluc L.E., Cimpianu C.I., 2018, A Comparative Analysis of Exceptional Flood Events in the Context of Heavy Rains in the Summer of 2010: Siret Basin (NE Romania) Case Study, Water 10(2): 216, DOI: 10.3390/w10020216.

3. Bojarczuk A., Jelonkiewicz Ł., Lenart-Boroń A., 2018, The effect of anthropogenic and natural factors on the prevalence of physicochemical parameters of water and bacterial water quality indicators along the river Białka, southern Poland, Environ. Sci. Pollut. Res.,1-13, DOI: 10.1007/s11356-018-1212-2.

4. Wilk P., Orlińska-Woźniak P., Gębala J., 2018, The river absorption capacity determination as a tool to evaluate state of surface water, Hydrology and Earth System Sciences 22 (2):1033-1050, DOI: 10.5194/hess-22-1033-2018.

5. Szałata Ł., Kuźmiński Ł., Zwoździak J., 2018, Assessing Flood Risk Dynamics on the Oder River within the Context of Socio-Economic Consequences and Lasting Sustainable Development, Pol. J. Environ. Stud., 27(3): 1269-1279, DOI: 10.15244/pjoes/76499.

6. Młyński D., Petroselli A., Wałęga A.,2018, Flood Frequency Analysis by an Event-based Rainfall-Runoff Model in Selected Catchments of Southern Poland, Soil & Water Res., vol. 14, DOI: 10.17221/153/2017-SWR.

7. Goswami S.B., Bal P.K., Mitra A.K., 2018, Use of rainfall forecast from a high-resolution global NWP model in a hydrological stream flow model over Narmada river basin during monsoon, Model. Earth Syst. Environ., DOI: 10.1007/s40808-018-0436-y.

8. Wyżga B., Kundzewicz Z.W., Konieczny R., Piniewski M., Zawiejska J., Radecki-Pawlik A., 2018, Comprehensive approach to the reduction of river flood risk: Case study of the Upper Vistula Basin, Science of The Total Environment, Vol. 631-632: 1251-1267, DOI: 10.1016/j.scitotenv.2018.03.015.

9. Jeziorska J., Niedzielski T., 2018, Applicability of TOPMODEL in the mountainous catchments in the upper Nysa Kłodzka river basin (SW Poland), Acta Geophysica, DOI: 10.1007/s11600-018-0121-6.

10. Kamińska J.A., 2018, The use of random forests in modelling short-term air pollution effects based on traffic and meteorological conditions: A case study in Wrocław, Journal of Environmental Management, Volume 217, 164–174, DOI: 10.1016/j.jenvman.2018.03.094.

11. Piasecki A., Jurasz J., Kazmierczak B., 2018, Forecasting Daily Water Consumption: a Case Study in Torun, Poland, Periodica Polytechnica Civil Engineering, DOI: 10.3311/PPci.11930.

12. Noubactep, Chicgoua, 2018, Metallic iron for environmental remediation: how experts maintain a comfortable status quo, Fresenius Environmental Bulletin, 27(3): 1379-1393.

13. Giordan D. , Hayakawa Y. , Nex F., et al., 2018, The use of remotely piloted aircraft systems (RPASs) for natural hazards monitoring and management, Natural Hazards and Earth System Sciences, 6(4): 1079-1096.

14. Wierzbicki G., Ostrowski P., Falkowski T., Mazgajski M., 2018, Geological setting control of flood dynamics in lowland rivers (Poland), Science of The Total Environment, Vol. 636, 367–382, https://doi.org/10.1016/j.scitotenv.2018.04.250.

15. Antia D.D.J., 2018, ZVI (Fe0 ) desalination: catalytic partial desalination of saline aquifers, Applied Water Science, 8: 71 https://doi.org/10.1007/s13201-018-0702-1.

16. Antia D.D.J., 2018, Direct Synthesis of Air-Stable Metal Complexes for Desalination (and Water Treatment), Direct Synthesis of Metal Complexes, 2018: 341–367, DOI: 10.1016/B978-0-12-811061-4.00009-8.

17. Antia D.D.J., 2018: 22 – Irrigation water desalination using PVP (polyvinylpyrrolidone) coated n-Fe0 (ZVI, zero valent iron), New Polymer Nanocomposites for Environmental Remediation, 2018: 541–600, DOI: 10.101/B978-0-12-811033-1.00022-6.

18. Langhammer J.,Vacková T., 2018, Detection and Mapping of the Geomorphic Effects of Flooding Using UAV Photogrammetry, Pure and Applied Geophysics, DOI: 10.1007/s00024-018-1874-1.

19. Rolbiecki S., Kokoszewski M., Grybauskiene V., Rolbiecki R., Jagosz B., Ptach W., Łangowski A., 2018, Effect of expected climate changes on the water needs of forest nursery in the region of central Poland, Proc. Int, Conf. Rural Development, DOI: 10.15544/RD.2017.101.

20. Wartalska K., Wdowikowski M.,Wilk P., Oktawiec M., Kaźmierczak B., 2018, Pluvial conditions in Wroclaw, Poland , E3S Web of Conferences, 44(00184), DOI: 10.1051/e3sconf/20184400184

21. Kuchar L., Iwanski S., 2018, Evaluation of multisite synthetic data generated by spatial weather generator and long climate data series, E3S Web of Conferences, 44(00083), DOI: https://doi.org/10.1051/e3sconf/20184400083.

22. Dumieński G., Krzyżanowski M., Tiukało A., 2018, Municipality’s financial potencial and policy of flood risk management in Poland, E3S Web of Conferences, 44(00037), DOI: 10.1051/e3sconf/20184400037.

23. Katip A., 2018, Meteorological drought analysis using artificial neural networks for bursa city, Turkey, Applied Ecology and Environmental Research, 16(3): 3315-3332.

24. Borek L., 2018, Eutrophication risk of water in the manor-park channels: different ways of evaluation, Carpathian Journal of Earth and Environmental Sciences, 13(2): 409-421.

25. Gao C., Li X., Sun Y., Zhou T., Luo G., Chen C., 2018, Water requirement of summer maize at different growth stages and the spatiotemporal characteristics of agricultural drought in the Huaihe River Basin, China, Theoretical and Applied Climatology, DOI: 10.1007/s00704-018-2558-6.

26. Zabolotnia T., 2018, Estimation of the long-term tendencies and homogeneity of the average annual water temperature and air temperature in the Siverskyi Donets river basin (within Ukraine), J. Fundam Appl Sci., 10(2): 1-22, DOI: 10.4314/jfas.v10i2.1.

27. Licznar P., Siekanowicz-Grochowina K., Oktawiec M., Kotowski A., Burszta-Adamiak E., 2018, Empirical verification of Blaszczyk’s formula for design rainfall intensity calculations, Ochrona Srodowiska, 40(2): 17–22.

28. Majedul Islam M.M., Hofstra N., Sokolova E., 2018, Modelling the Present and Future Water Level and Discharge of the Tidal Aetna River, Geosciences, 8(8): 271, DOI: 10.3390/geosciences8080271.

29. Dawid M., Janik G. 2018, Atmospheric water infiltration intensity in non-rainfall periods under conditionsof varied soil moisture, Int. Agrophys, 32: 305-312, DOI: 10.1515/intag-2017-0024.

30. Sobko B. Yu., Lozhnikov O. V., 2018, Determination of cut-off wall cost efficiency at Motronivskyi pit mining, Scientific Bulletin of National Mining University, DOI: 10.29202/nvngu/2018-3/1.

31. Salman S. A., Shahid S. , Ismail T., Ahmed K., Wang X. J., 2018, Selection of climate models for projection of spatiotemporal changes in temperature of Iraq with uncertainties, Atmospheric Research, 213: 509-522, DOI: 10.1016/j.atmosres.2018.07.008.

32. Kosierb R., 2018, Hochwasserwellentransformation an Rückhaltebecken am Beispiel der Speicher-Kaskade der Glatzer Neiße. In: Heimerl S. (eds) Vorsorgender und nachsorgender Hochwasserschutz. Springer Vieweg, Wiesbaden, DOI: 10.1007/978-3-658-21839-3_29.

33. Rokaya P., Budhathoki S., Lindenschmidt K-E., 2018, Ice-jam flood research: a scoping review, Natural Hazards, DOI: 10.1007/s11069-018-3455-0.

34. Goswami, Suresh Band; Bal, Prasanta Kumar; Mitra, Ashis K., 2018, Use of rainfall forecast from a high-resolution global NWP model in a hydrological stream flow model over Narmada river basin during monsoon, Modeling earth systems and environment 4(3): 1029-1040.

35. Nasseri M., Zahraie B., Tootchi A., 2018, Spatial Scale Resolution of Prognostic Hydrological Models: Simulation Performance and Application in Climate Change Impact Assessment, Water Resources Management, DOI: 10.1007/s11269-018-2096-0.

36. Szalińska E., Orlińska-Woźniak P., Wilk P., 2018, Nitrate Vulnerable Zones Revision in Poland—Assessment of Environmental Impact and Land Use Conflicts, Sustainability, 10(9): 3297, DOI: 10.3390/su10093297.

37. Pastuszak M., Kowalkowski T., Kopiński J., Doroszewski A., Jurga B., Buszewski B., 2018, Long-term changes in nitrogen and phosphorus emission into the Vistula and Oder catchments (Poland) - modeling (MONERIS) studies, Environmental Science and Pollution Research, 25(4), DOI: 10.1007/s11356-018-2945-7.

38. Tylkowski J., Hojan M., 2018: Threshold Values of Extreme Hydrometeorological Events on the Polish Baltic Coast, Water, 10(10): 1337, DOI: 10.3390/w10101337

39. Licznar, P., Burszta-Adamiak, E., Kotowski, A., Siekanowicz-Grochowina, K., Oktawiec, M., 2018, Empirical Verification of Bogdanowicz-Stachý’s Formula for Design Rainfall Intensity Calculations, Ochrona Srodowiska, 40(3): 21–28.

40. Jakacki J., Meler S., 2018, An evaluation and implementation of the regional coupled ice-ocean model of the Baltic Sea, Ocean Dynamics, DOI: 10.1007/s10236-018-1219-8.

41. Hididou F.Z., Mordane S., Siham S., 2018, GPS Meteorology over Morocco: Accuracy assessment and comparison of ZTD from GPS and radiosondes, Meteorlogical Applications 25(4): 606-613, DOI: 10.1002/met.1725.

42. Gao Z., Ge M., 2018, Odometer and MEMS IMU enhancing PPP under weak satellite observability environments, Advances in Space Research 62(9): 2494-2508.

43. Dumieński G., Mruklik A., Tiukało A., Lisowska A., 2018, Preliminary research on adaptability of municipalities in the sub-basin of Nysa Kłodzka using multidimensional comparative analysis, ITM Web of Conferences, V. 23, XLVIII Seminar of Applied Mathematics, Boguszów-Gorce, Poland, September 9-11, 2018, DOI: 10.1051/itmconf/20182300008.

44. Gruss Ł., Głowski R., Wiatkowski M., 2018, Modeling of water flows through a designed dry dam using the HEC-RAS program, ITM Web of Conferences, V. 23, XLVIII Seminar of Applied Mathematics, Boguszów-Gorce, Poland, September 9-11, 2018, DOI: 10.1051/itmconf/20182300012.

45.Grządziel M., 2018, On using nonparametric approaches for precipitation estimation, ITM Web of Conferences, V. 23, XLVIII Seminar of Applied Mathematics, Boguszów-Gorce, Poland, September 9-11, 2018, DOI: 10.1051/itmconf/20182300013 .

46. Karczewski M., Michalski A., 2018, The study and comparison of one-dimensional kernel estimators – a new approach. Part 2. A hydrology case study, ITM Web of Conferences, V. 23, XLVIII Seminar of Applied Mathematics, Boguszów-Gorce, Poland, September 9-11, 2018, DOI: 10.1051/itmconf/20182300018

47. Leśny J., Panfil M., 2018, A gap filling method for active surface heat balance structure, ITM Web of Conferences, V. 23, XLVIII Seminar of Applied Mathematics, Boguszów-Gorce, Poland, September 9-11, 2018, DOI: 10.1051/itmconf/20182300023.

48. Wdowikowski M., Kaźmierczak B., Wartalska K., 2018, Probabilistic approach in the heavy rainfall modelling – is model verification needed? ITM Web of Conferences, V. 23 (2018), XLVIII Seminar of Applied Mathematics, Boguszów-Gorce, Poland, September 9-11, 2018, DOI: 10.1051/itmconf/20182300036.

49. Węglarczyk S., 2018, Kernel density estimation and its application, ITM Web of Conferences, V. 23 (2018), XLVIII Seminar of Applied Mathematics, Boguszów-Gorce, Poland, September 9-11, 2018, DOI: 10.1051/itmconf/20182300037.

50. Napierala M., Bykowski J., Przybyla Cz., et al., 2018, Functioning of low lift pumping stations on polders - a case study of Zagorow, Poland, Fresenius Environmental Bulletin 27(10): 6598-6609.

51. Krengel F., Bernhofer C., Chalov S., Efimov V., Efimova L., Gorbachova L., Habel M., Helm B., Kruhlov I., Nabyvanets Y., Osadcha N., Osadchyi V., Pluntke Y., Reeh T., Terskii P., Karthe D., 2018, Challenges for transboundary river management in Eastern Europe – three case studies, DIE ERDE,149, (2-3): 157-172.

52. Tomczyk A.M., Bednorz E.,Półrolniczak M., Kolendowicz L., 2018, Strong heat and cold waves in Poland in relation with the large-scale atmospheric circulation, Theoretical and Applied Climatology, DOI: 10.1007/s00704-018-2715-y.

53. Gilewski P.G., Nawalany M., 2018, Inter-Comparison of Rain-Gauge, Radar, and Satellite (IMERG GPM) Precipitation Estimates Performance for Rainfall-Runoff Modeling in a Mountainous Catchment in Poland, Water, 10(11), DOI: 10.3390/w10111665.

54. Jaśniewicz D., Klusek Z., Brodecka-Goluch A., Bolalek J., 2018, Acoustic investigations of shallow gas in the southern Baltic Sea (Polish Exclusive Economic Zone): a review, Geo-Marine Letters, DOI: 10.1007/s00367-018-0555-5.

55. Tomczyk A., 2018, Impact of Atmospheric Circulation on the Occurrence of Hot Nights in Central Europe, Atmosphere 9(12): 474,
DOI: 10.3390/atmos9120474.