Main publications
2025
84. Ayaz M, Muntaha ST, Baltrėnaitė-Gedienė E, Kriaučiūnienė Z (2025) Biochar and carbon-negative technologies: exploring opportunities for climate change mitigation. Biochar. https://doi.org/10.1007/s42773-024-00421-3.
2024
83. Sau A, Ghosh S, Kandar B, Ghanta KCh, Baltrėnaitė-Gedienė E, Dutta S (2024) Enhanced slaughterhouse wastewater treatment: A comparative approach with phycoremediation and adsorption. Journal of the Indian Chemical Society 101:101499.
82. Baltrėnaitė-Gedienė E, Lomnicki S, Ogunmusi O (2024) Research of the impact of environmentally persistent free radicals on chemical behaviour in the soil–plant system. Chemosphere 143088, https://doi.org/10.1016/j.chemosphere.2024.143088.
81. Binner H, Wojda P, Yunta F, Breure T, Schievano A, Massaro E, Jones A, Newel J, Paradelo R, Popescu I, Baltrėnaitė-Gedienė E, Tuttolomondo T, Iacuzzi N, Bondì G, Zupac V, Mamy L, Pacini L, De Feudis M, Cardelli V, Kicinska A, Pivato A, Stock M, Liu H, Demiraj E, Schillaci C (2024) A systematic review and characterisation of the major and most studied urban soil threats in the European Union. Water Air Soil Pollut 235, 494. https://doi.org/10.1007/s11270-024-07288-x
2023
80. Leonavičienė T, Kirjackis J, Baltrėnaitė–Gedienė E (2023) Modelling of environmental processes and management: study book. Vilnius: Vilnius Gediminas Technical University. ISBN 9786094763533 eBook.
79. Ayaz Muhammad; Feizienė Dalia; Tilvikienė Vita; Feiza Virginijus; Baltrėnaitė-Gedienė Edita; Ullah Sana (2023) Biochar with inorganic nitrogen fertilizer reduces direct greenhouse gas emission flux from soil. Plants. 12(5): 1–15.
2022
78. Baltrėnaitė-Gedienė E, Lomnicki S, Guo Ch (2022) Impact of biochar, fertilizers and cultivation type on environmentally persistent free radicals in agricultural soil. Environmental Technology & Innovation 28:102755.
77. Usevičiūtė L, Baltrėnaitė-Gedienė E, Baltrėnas P, Dutta S (2022) Acetone, xylene and ammonia removal enhancement in the biofilter packed with steam modified biochar. Journal of Environmental Engineering and Landscape Management 30(3):412–423. https://doi.org/10.3846/jeelm.2022.17412
76. Jegatheesan V; Shu L; Fujiwara T; Baltrėnaitė-Gedienė E (2022) Applications of technology and innovation for a sustainable future. Environmental Technology & Innovation 28:102904.
75. Ayaz M, Feizienė D, Feiza V, Tilvikienė V, Baltrėnaitė-Gedienė E, Khan A (2022) The impact of swine manure biochar on the physical properties and microbial activity of loamy soils. Plants 11(13):1-19.
74. Usevičiūtė L, Baltrėnaitė-Gedienė E, Feizienė D (2022) The combined effect of biochar and mineral fertilizer on triticale yield, soil properties under different tillage systems. Plants 11:1-22.
2021
73. Ayaz M, Stulpinaitė U, Feizienė D, Tilvikienė V, Akthar K, Baltrėnaitė-Gedienė E, Striūgas N, Rehmani U, Alam S, Iqbal R, Toleikienė M, Doyeni M (2021) Pig manure digestate-derived biochar for soil management and crop cultivation in heavy metals contaminated soil. Soil use and management. Hoboken, NJ: Wiley. p. 1-15.
72. Baltrėnaitė-Gedienė E, Iurchenko V, Lebedeva E, Melnikova O, Kosenko N (2021) Treatment of real wastewater from organic contaminants by using biochar. Materials Science Forum 1038:258–265.
71. Usevičiūtė L, Baltrėnaitė-Gedienė E (2021). Modelling of a capillary rise height of biochar by modified Lucas-Washburn equation. Environmental Modeling and Assessment 27:29–43.
70. Baltrėnaitė-Gedienė E, Usevičiūtė L, Ankuda J, Marčiulaitienė E (2021) Adsorption of chalcophile, siderophile and lithophile elements from aqueous solutions using syngenetically modified biochar. Journal of Environmental Engineering 147(12) https://doi.org/10.1061/(ASCE)EE.1943-7870.0001917
69. Urbanas D, Baltrėnaitė-Gedienė E (2021) Selective Catalytic Reduction of NO by NH3 over Mn–Cu oxide catalysts supported by highly porous silica gel powder: comparative investigation of six different preparation methods. Catalysts 11(6):702 https://doi.org/10.3390/catal11060702
68. Usevičiūtė L, Baltrėnaitė‑Gedienė E, Baltrėnas P (2021) Hydrophilicity enhancement of low‑temperature lignocellulosic biochar modified by physical–chemical techniques. Journal of Material Cycles and Waste Management 23:1838–1854.
67. Biswajit S, Upasha S, Kalyan A, Sandip K.L, Baltrėnaitė E, Baltrėnas P, Susmita D (2021). Application of artificial neural network and particle swarm optimization for modelling and optimization of biosorption of lead(II) and nickel(II) from wastewater using dead cyanobacterial biomass. Journal of the Indian Chemical Society 98(3): 1-15.
66. Baltrėnas P, Januševičius T, Zagorskis A, Baltrėnaitė-Gedienė E (2021). Removal of ammonia by biofilters with straight and wavy lamellar plates. International journal of environmental science and technology 18 (5):1181-1190.
65. Ankuda J, Baltrėnaitė E (2021) Physical and chemical properties of biochar produced from sewage sludge compost and plants biomass, fertilized with that compost, important for soil improvement. Waste and biomass valorization 12: 3791–3800.
2020
64. MONOGRAPH. Baltrėnas P, Baltrėnaitė E (2020) Sustainable environmental protection technologies. Contaminant biofiltration, adsorption and stabilization. Cham: Springer, 2020.
63. Titova J, Baltrėnaitė-Gedienė E, Medynska-Juraszek A, Bakšienė E (2020) Leaching of potentially toxic elements from biochars intended for soil improvement. Žemdirbystė = Agriculture 107(3):235-242.
62. Usevičiūtė L, Baltrėnaitė E (2019) Methods for determining lignocellulosic biochar wettability. Journal of Waste and Biomass Valorization 11, 4457-4468
61. Usevičiūtė L, Baltrėnaitė-Gedienė E (2020) Dependence of pyrolysis temperature and lignocellulosic physical-chemical properties of biochar on its wettability. Biomass Conversion and Biorefinery. Accepted.
60. Sen S, Dutta A, Ponnala R, Kamila B, Baltrėnas P, Baltrėnaitė E, Dutta S (2020). Removal of hexavalent chromium from synthetic wastewater using alginate immobilized cyanobacteria: Experiment and mathematical modeling. Environmental Engineering Science 37(4):283-294.
59. Santhosh Ch, Daneshvar E, Tripathi KM, Baltrėnas P, Kim TY, Baltrėnaitė E, Bhatnagar A (2020) Synthesis and characterization of magnetic biochar adsorbents for the removal of Cr(VI) and Acid orange 7 dye from aqueous solution. Environmental Science and Pollution Research 27(26): 32874-32887.
58. Baltrėnaitė-Gedienė E, Marčiulaitienė E, Pranskevičius M, Titova J, Bhatnagar A, Abu-Danso E (2020) Physicochemical properties of pyrogenic carbonaceous product, biochar, syngenetically modified for its use in adsorption systems. Journal of environmental engineering. Reston: American Society of Civil Engineers (ASCE). 146 (8): 1–14.
57. Baltrėnaitė-Gedienė E, Leonavičienė T, Baltrėnas P (2020) Comparison of Cu(II), Mn(II) and Zn(II) adsorption on biochar using diagnostic and simulation models. Chemosphere. https://doi.org/10.1016/j.chemosphere.2019.125562
56. Chemerys V, Baltrėnaitė-Gedienė E, Baltrėnas P, Dobele G (2020) Influence of H2O2 modification on the adsorptive properties of birch-derived biochar. Polish Journal of Environmental Studies 29(1):1-10.
2019
55. EU PATENT Baltrėnas P, Baltrėnaitė-Gedienė E (2019) A biofilter - adsorber. München: European Patent Office. No. EP2826543.
54. Baltrėnaitė E, Baltrėnas P, Huisingh D (2019) Technogenic metallic elements in biomass and their effect on biomass product properties. Journal of Water Supply: Research and Technology-Aqua 68(8):623–644 https://doi.org/10.2166/aqua.2019.082
53. Baltrėnas P, Baltrėnaitė-Gedienė E (2019) Research of modified atomisers and their application for moistening of air cleaning device charges. Sustainability 11(19): 1–14.
52. Leonavičienė T, Čiegis R, Baltrėnaitė-Gedienė E, Chemerys V (2019) Numerical analysis of liquid-solid adsorption model. Mathematical Modelling and Analysis 24(4): 598–616.
51. Xu Z, Zhou W, Baltrėnaitė E (2019) Comprehensive bibliometric study of journal of Environmental Engineering and Landscape Management from 2007 to 2019. Journal of Environmental Engineering and Landscape Management 27(4): 215–227.
50. EU PATENT. Baltrėnas P, Baltrėnaitė E (2019) A vertical biofilter-adsorber. EU patent No. 3072576.
49. Baltrėnaitė E, Baltrėnas P (2019) Using the method of dynamic factors for assessing the transfer of chemical elements from soil to plants from various perspectives. Environmental Science and Pollution Research 26(33): 34184-34196.
48. Pongrac P, Baltrėnaitė E, Vavpetič P, Kelemen M, Kladnik A, Budič B, Vogel-Mikuš K, Regvar M, Baltrenas P, Pelicon P (2019) Tissue-specific element profiles in Scots pine (Pinus sylvestris L.) needles. Trees: structure and function 33(1):91-101.
47. Usevičiūtė L, Baltrėnaitė E (2019) Application of pyrogenic carbonaceous product for immobilization of potentially toxic elements in railway sleepers and polluted soil. International Journal of Environmental Science and Technology 16(1), 23–36.
2018
46. MONOGRAPH. Baltrėnas P, Baltrėnaitė E (2018) Small bioreactors for management of biodegradable waste. Monograph. Springer. 364 p.
45. Mancinelli E, Baltrėnaitė E, Baltrėnas P, Grubliauskas R, Marčiulaitienė E, Passerini G, Pranskevičius M (2018) Influence of Biochar from Slow Pyrolysis on Dissolved Organic Carbon and Total Dissolved Nitrogen Levels of Urban Storm-Water Runoff. Water Air Soil Pollut 229, 245–262.
44. Baltrėnas P, Baltrėnaitė E (2018) The experimental study on the principal aerodynamic characteristics and their influence on the efficiency in a cylindrical two-level six-channel cyclone to remove dissimilar types of particles. International Journal of Environmental Research 12(4), 459–469.
43. Chemerys V, Baltrėnaitė E (2018) Influence of intrinsic properties of lignocellulosic feedstock on adsorptive properties of biochar. ASCE's Journal of Environmental Engineering 144(9), 1–10.
42. Baltrėnaitė E, Lietuvninkas A, Baltrėnas P (2018) Biogeochemical and engineered barriers for preventing spread of contaminants. Environmental Science and Pollution Research 25(6), 5254–5268.
41. Baltrėnas P, Kolodynskij V, Zagorskis A, Baltrėnaitė E (2018). Research and analysis of biogas produced from sewage sludge using a batch bioreactor. Environmental Technology 39(23), 3104-3112.
2017
40. Mancinelli E, Baltrėnaitė E, Baltrėnas P, Marčiulaitienė E, Passerini G (2017) Dissolved organic carbon content and leachability of biomass waste biochar for trace metal (Cd, Cu and Pb) speciation modelling. Journal of Environmental Engineering and Landscape Management 25(4), 354–366.
39. PATENT. Baltrėnas P, Baltrėnaitė E, Kolodynskij V (2017). Bioreaktorius ir biodujų gamybos būdas. Vilnius: Lietuvos respublikos valstybinis patentų biuras. LT6478B.
38. PATENT. Baltrėnas P, Baltrėnaitė E, Chemerys V (2017). Bioanglies modifikavimo H2O2 vandeniniu tirpalu įrenginys. Vilnius: Lietuvos respublikos valstybinis patentų biuras. LT 6434 B.
37. Glaser B, Baltrėnas P, Kammann C, Kern J, Baltrėnaitė E (2017) Editorial: special issue on biochar as an option for sustainable resource management (EU COST Action TD1107 final publication). Journal of Environmental Engineering and Landscape Management 25(2), 83–85.
36. Baltrėnaitė E, Baltrėnas P, Bhatnagar A, Vilppo T, Selenius M, Koistinen A, Dahl M, Penttinen O.-P (2017) A multicomponent approach to using waste-derived biochar in biofiltration: a case study based on dissimilar types of waste. International Biodeterioration & Biodegradation Journal 119, 565-576.
35. Marčiulaitienė E, Šerevičienė V, Baltrėnas P, Baltrėnaitė E (2017) The characteristics of BTEX concentration in various types of environment in the Baltic Sea region, Lithuania. Environmental Science and Pollution Research 24(4), 4162-4173.
34. BOOK CHAPTER. Baltrėnaitė E, Lietuvninkas A, Baltrėnas P (2017) Modelling the phytoremediation: concepts, models and approaches. In: Ansari AA, Gill SS, Gill R, Lanza G, Newman L (Eds) Phytoremediation – Management of Environmental Contaminants, Volume 5, pp 327-341. Available at: https://link.springer.com/chapter/10.1007/978-3-319-52381-1_12
2016
33. MONOGRAPH. Baltrėnaitė E, Baltrėnas P, Lietuvninkas A (2016) Tvarus medžio vaidmuo aplinkos apsaugos technologijose. Monograph. Vilnius: Technika, 400 p. ISBN 978-609-457-953-0 (in Lithuanian).
32. PATENT. Baltrėnas P, Baltrėnaitė E (2016) Vertikalus biofiltras-adsorberis. Vilnius: Lietuvos respublikos valstybinis patentų biuras. LT 6328 B.
31. Mancinelli E, Baltrėnaitė E, Baltrėnas, P, Paliulis D, Passerini G (2016) Trace metals in biochars from biodegradable by-products of industrial processes. Water, Air and Soil Pollution 227 (6), 1-21.
30. Baltrėnas P, Baltrėnaitė E, Kleiza J, Švedienė J (2016) A biochar-based medium in the biofiltration system: removal efficiency, microorganism propagation and the medium penetration modeling. Journal of Air and Waste Management Association 66(7), 673-686.
29. Baltrėnaitė E, Lietuvninkas A, Baltrėnas P (2016) Modelling the balance of metals in the amended soil for the case of 'atmosphere-plant-soil' system. Environmental Modeling and Assessment 21(5), 577-590.
28. MONOGRAPH. Baltrėnaitė E, Baltrėnas P, Lietuvninkas A (2016) The Sustainable Role of the Tree in Environmental Protection Technologies. Monograph. Springer. 360 p. Available at: http://www.springer.com/us/book/9783319254753
27. Komkienė J, Baltrėnaitė E (2016). Biochar as Adsorbent for Removal of Heavy Metal Ions (Cadmium(II), Copper(II), Lead(II), Zinc(II)) from Aqueous Phase. International Journal of Environmental Science and Technology 13(2), 471–482.
2015
26. BOOK CHAPTER. Baltrėnaitė E, Lietuvninkas A, Baltrėnas P, Singh BR, Moskvitina N, Vaishlya O (2015) The Influence of Some Particular Biotic and Abiotic factors on Distribution of Metal Concentrations in the Soil-Pine System. In: Öztürk M, Ashraf M, Aksoy A, Ahmad MSA, Hakeem KR (Eds.) Plants, Pollutants, Remediation. Springer. pp. 191–211. Available at: http://www.springer.com/us/book/9789401771931
25. Zheng R, Chen Z, Cai C, Tie B, Liu X, Reid BJ, Huang Q, Lei M, Sun G, Baltrėnaitė E (2015) Mitigating heavy metal accumulation into rice (Oryza sativa L.) using biochar amendment — a field experiment in Hunan, China. Environ Sci Pollut Res. 22(14), 11097–11108.
24. PATENT. Baltrėnas P, Baltrėnaitė E (2015) Biofiltras-adsorberis. Vilnius: Lietuvos respublikos valstybinis patentų biuras. LT 6134 B.
23. Baltrėnas P, Baltrėnaitė E, Spudulis E (2015) Biochar from pine and birch morphology and pore structure change by treatment in biofilter. Water, Air and Soil Pollution 226(69), 1–14.
22. Baltrėnas P, Baltrėnaitė E, Kačerauskas T (2015) Social environment of creativity. Filosofija. Sociologija 26(1), 46–54.
21. BOOK CHAPTER. Baltrėnaitė E, Baltrėnas P, Butkus D, Lietuvninkas A (2015) Using the dynamic factors method in bioindication and phytoremediation. In: Ansari AA, Gill SS, Gill R, Lanza GR, Newman L (Eds.). Phytoremediation: Management of Environmental Contaminants, Vol 1. Springer, 792 p. pp. 21–30. Available at: http://www.springer.com/life+sciences/ecology/book/978-3-319-10394-5.
20. Mancinelli E, Baltrėnaitė E, Baltrėnas P, Paliulis D, Passerini G, Almas AR (2015) Trace metal concentration and speciation in storm water runoff on impervious surfaces. Journal of Environmental Engineering and Landscape Management 23(1), 15–27.
2014
19. Šerevičienė V, Baltrėnas P, Baltrėnaitė E, Marčiulaitienė E, Paliulis D (2014) Investigation of NO2 behaviour in the temperature continental climate road environment. Water Air Soil Pollut 225: 2173–2182.
18. Markert B, Baltrėnaitė E, Chudzińska E, De Marco S, Diatta J, Ghaffari Z, Gorelova S, Marcovecchio J, Tabors G, Wang M, Yousef N, Fraenzle S, Wuenschmann S (2014) Multilingual education of students on a global scale and perspective—international networking on the example of bioindication and biomonitoring (B&B technologies). Environmental Science and Pollution Research 21(8), 5450–5456. Available at: http://link.springer.com/article/10.1007/s11356-013-2132-9
17. Baltrėnaitė E, Baltrėnas P, Lietuvninkas A, Šerevičienė V, Zuokaitė E (2014) Integrated evaluation of aerogenic pollution by air-transported heavy metals (Pb, Cd, Ni, Zn, Mn and Cu) in the analysis of the main deposit media. Environmental Science and Pollution Research 21(1), 299–313. Available at: http://link.springer.com/article/10.1007%2Fs11356-013-2046-6
2013
16. Dūdaitė J, Baltrėnaitė E, Ubeda X, Tamkevičiūtė M (2013) Temperature effects on the ash properties of pine and maple leaf litter. A laboratory study. Environmental Engineering and Management Journal 12 (11), 1535–1544.
15. Vasarevičius S, Kadūnas K, Baltrėnaitė E (2013) Comparison of requirements for environmental protection and a model for evaluating contaminated sites in Lithuania. Technological and Economic Development of Economy 19(1), 63–77. Available at: http://www.tandfonline.com/doi/pdf/10.3846/20294913.2012.762954.
14. Bazienė K, Vasarevičius S, Baltrėnas P, Baltrėnaitė E (2013) Influence of total precipitation and air temperature on the composition of municipal landfill leachate. Environmental Engineering and Management Journal 12 (1), 175–182. Available at: http://omicron.ch.tuiasi.ro/EEMJ/issues.htm.
13. Krastinytė V, Baltrėnaitė E, Lietuvninkas A (2013) Analysis of snow-cap pollution for the air quality assessment in the vicinity of oil refinery. Environmental Technology 34(6), 757–763. Available at: http://www.tandfonline.com/doi/full/10.1080/09593330.2012.715758.
2012
12. Baltrėnaitė E, Lietuvninkas A, Baltrėnas P (2012) Use of dynamic factors to assess metal uptake and transfer in plants - Example of trees. Water, Air, & Soil Pollution 223 (7), 4297–4306. Available at: http://www.springerlink.com/content/h1752764jkq5h805/fulltext.pdf.
11. Zagorskis A, Baltrėnas P, Misevičius A, Baltrėnaitė E (2012) Experimental investigations of biogas production through anaerobic treatment of cattle manure and vegetable origin waste. Environmental Engineering and Management Journal 11(4), 847–855.
10. Markert B, Wunschmann S, Baltrėnaitė E (2012) Aplinkos stebėjimo naujovės. Bioindikatoriai ir biomonitoriai: apibrėžtys, strategijos ir taikymas. [Innovative observation of the environment: bioindicators and biomonitors: definitions, strategies and applications]. Journal of Environmental Engineering and Landscape Management 20(3), 221–239. Available at: http://www.tandfonline.com/doi/pdf/10.3846/16486897.2011.633338.
2011
9. Vilniškis R, Baltrėnas P, Vasarevičius S, Baltrėnaitė E (2011) Research and assessment of biogas evolved during anaerobic digestion of biodegradable agricultural waste. Ecological Chemistry and Engineering S 18 (4), 1–19.
8. Vasarevičius S, Baltrėnas P, Baltrėnaitė E (2011) Investigation and evaluation of green waste composting parameters. Polish Journal of Environmental Studies 20(6), 1603–1609.
7. Baltrėnas P, Baltrėnaitė E, Šerevičienė V, Pereira P (2011) Atmosperic BTEX- concentrations in the vicinity of the crude refinery of the Baltic region. Environmental Monitoring and Assessment 182, 115–127. Available at: http://www.springerlink.com/content/3681245336528038/fulltext.pdf
6. Pundytė N, Baltrėnaitė E, Pereira P, Paliulis D (2011) Variation of metal uptake by Pinus sylvestris L. Journal of Environmental Engineering and Landscape Management 19(1), 34–43. Available at: http://www.tandfonline.com/doi/abs/10.3846/16486897.2011.557473
5. Marcinkonis S, Baltrėnaitė E, Lazauskas S (2011) Extraction and mapping of soil factors using factor analysis and geostatistical analysis on intensively manured heterogenous soils. Polish Journal of Environmental Studies 20 (3), 701–708. Available at: http://www.pjoes.com/index.php?s=abs_id&id=2011200323
2010
4. Pereira P, Oliva M, Baltrėnaitė E (2010) Modelling extreme precipitation in hazardous mountainous areas. Contribution to landscape planning and environmental management Journal of Environmental Engineering and Landscape Management 18(4), 329–342. Available at: http://www.tandfonline.com/doi/abs/10.3846/jeelm.2010.38
3. Baltrėnaitė E, Butkus D, Booth CA (2010) Comparison of three tree-ring sampling methods for trace metal analysis. Journal of Environmental Engineering and Landscape Management 18(3), 170–178. Available at: http://www.tandfonline.com/doi/abs/10.3846/jeelm.2010.20
2009
2. Millington JA, Booth CA, Fullen MA, Moore GM, Trueman IC, Worsley AT, Richardson N, Baltrėnaitė E (2009) The role of long-term landscape photography as a tool in dune management. Journal of Environmental Engineering and Landscape Management 17(4), Ia–Ih.
2006
1. PATENT. Baltrėnas P, Butkus D, Baltrėnaitė E (2006) Sunkiųjų metalų koncentracijos nustatymo medinėje medienos rievėje būdas. Vilnius. Enhanced slaughterhouse wastewater treatment: A comparative approach with phycoremediation and adsorption
84. Ayaz M, Muntaha ST, Baltrėnaitė-Gedienė E, Kriaučiūnienė Z (2025) Biochar and carbon-negative technologies: exploring opportunities for climate change mitigation. Biochar. https://doi.org/10.1007/s42773-024-00421-3.
2024
83. Sau A, Ghosh S, Kandar B, Ghanta KCh, Baltrėnaitė-Gedienė E, Dutta S (2024) Enhanced slaughterhouse wastewater treatment: A comparative approach with phycoremediation and adsorption. Journal of the Indian Chemical Society 101:101499.
82. Baltrėnaitė-Gedienė E, Lomnicki S, Ogunmusi O (2024) Research of the impact of environmentally persistent free radicals on chemical behaviour in the soil–plant system. Chemosphere 143088, https://doi.org/10.1016/j.chemosphere.2024.143088.
81. Binner H, Wojda P, Yunta F, Breure T, Schievano A, Massaro E, Jones A, Newel J, Paradelo R, Popescu I, Baltrėnaitė-Gedienė E, Tuttolomondo T, Iacuzzi N, Bondì G, Zupac V, Mamy L, Pacini L, De Feudis M, Cardelli V, Kicinska A, Pivato A, Stock M, Liu H, Demiraj E, Schillaci C (2024) A systematic review and characterisation of the major and most studied urban soil threats in the European Union. Water Air Soil Pollut 235, 494. https://doi.org/10.1007/s11270-024-07288-x
2023
80. Leonavičienė T, Kirjackis J, Baltrėnaitė–Gedienė E (2023) Modelling of environmental processes and management: study book. Vilnius: Vilnius Gediminas Technical University. ISBN 9786094763533 eBook.
79. Ayaz Muhammad; Feizienė Dalia; Tilvikienė Vita; Feiza Virginijus; Baltrėnaitė-Gedienė Edita; Ullah Sana (2023) Biochar with inorganic nitrogen fertilizer reduces direct greenhouse gas emission flux from soil. Plants. 12(5): 1–15.
2022
78. Baltrėnaitė-Gedienė E, Lomnicki S, Guo Ch (2022) Impact of biochar, fertilizers and cultivation type on environmentally persistent free radicals in agricultural soil. Environmental Technology & Innovation 28:102755.
77. Usevičiūtė L, Baltrėnaitė-Gedienė E, Baltrėnas P, Dutta S (2022) Acetone, xylene and ammonia removal enhancement in the biofilter packed with steam modified biochar. Journal of Environmental Engineering and Landscape Management 30(3):412–423. https://doi.org/10.3846/jeelm.2022.17412
76. Jegatheesan V; Shu L; Fujiwara T; Baltrėnaitė-Gedienė E (2022) Applications of technology and innovation for a sustainable future. Environmental Technology & Innovation 28:102904.
75. Ayaz M, Feizienė D, Feiza V, Tilvikienė V, Baltrėnaitė-Gedienė E, Khan A (2022) The impact of swine manure biochar on the physical properties and microbial activity of loamy soils. Plants 11(13):1-19.
74. Usevičiūtė L, Baltrėnaitė-Gedienė E, Feizienė D (2022) The combined effect of biochar and mineral fertilizer on triticale yield, soil properties under different tillage systems. Plants 11:1-22.
2021
73. Ayaz M, Stulpinaitė U, Feizienė D, Tilvikienė V, Akthar K, Baltrėnaitė-Gedienė E, Striūgas N, Rehmani U, Alam S, Iqbal R, Toleikienė M, Doyeni M (2021) Pig manure digestate-derived biochar for soil management and crop cultivation in heavy metals contaminated soil. Soil use and management. Hoboken, NJ: Wiley. p. 1-15.
72. Baltrėnaitė-Gedienė E, Iurchenko V, Lebedeva E, Melnikova O, Kosenko N (2021) Treatment of real wastewater from organic contaminants by using biochar. Materials Science Forum 1038:258–265.
71. Usevičiūtė L, Baltrėnaitė-Gedienė E (2021). Modelling of a capillary rise height of biochar by modified Lucas-Washburn equation. Environmental Modeling and Assessment 27:29–43.
70. Baltrėnaitė-Gedienė E, Usevičiūtė L, Ankuda J, Marčiulaitienė E (2021) Adsorption of chalcophile, siderophile and lithophile elements from aqueous solutions using syngenetically modified biochar. Journal of Environmental Engineering 147(12) https://doi.org/10.1061/(ASCE)EE.1943-7870.0001917
69. Urbanas D, Baltrėnaitė-Gedienė E (2021) Selective Catalytic Reduction of NO by NH3 over Mn–Cu oxide catalysts supported by highly porous silica gel powder: comparative investigation of six different preparation methods. Catalysts 11(6):702 https://doi.org/10.3390/catal11060702
68. Usevičiūtė L, Baltrėnaitė‑Gedienė E, Baltrėnas P (2021) Hydrophilicity enhancement of low‑temperature lignocellulosic biochar modified by physical–chemical techniques. Journal of Material Cycles and Waste Management 23:1838–1854.
67. Biswajit S, Upasha S, Kalyan A, Sandip K.L, Baltrėnaitė E, Baltrėnas P, Susmita D (2021). Application of artificial neural network and particle swarm optimization for modelling and optimization of biosorption of lead(II) and nickel(II) from wastewater using dead cyanobacterial biomass. Journal of the Indian Chemical Society 98(3): 1-15.
66. Baltrėnas P, Januševičius T, Zagorskis A, Baltrėnaitė-Gedienė E (2021). Removal of ammonia by biofilters with straight and wavy lamellar plates. International journal of environmental science and technology 18 (5):1181-1190.
65. Ankuda J, Baltrėnaitė E (2021) Physical and chemical properties of biochar produced from sewage sludge compost and plants biomass, fertilized with that compost, important for soil improvement. Waste and biomass valorization 12: 3791–3800.
2020
64. MONOGRAPH. Baltrėnas P, Baltrėnaitė E (2020) Sustainable environmental protection technologies. Contaminant biofiltration, adsorption and stabilization. Cham: Springer, 2020.
63. Titova J, Baltrėnaitė-Gedienė E, Medynska-Juraszek A, Bakšienė E (2020) Leaching of potentially toxic elements from biochars intended for soil improvement. Žemdirbystė = Agriculture 107(3):235-242.
62. Usevičiūtė L, Baltrėnaitė E (2019) Methods for determining lignocellulosic biochar wettability. Journal of Waste and Biomass Valorization 11, 4457-4468
61. Usevičiūtė L, Baltrėnaitė-Gedienė E (2020) Dependence of pyrolysis temperature and lignocellulosic physical-chemical properties of biochar on its wettability. Biomass Conversion and Biorefinery. Accepted.
60. Sen S, Dutta A, Ponnala R, Kamila B, Baltrėnas P, Baltrėnaitė E, Dutta S (2020). Removal of hexavalent chromium from synthetic wastewater using alginate immobilized cyanobacteria: Experiment and mathematical modeling. Environmental Engineering Science 37(4):283-294.
59. Santhosh Ch, Daneshvar E, Tripathi KM, Baltrėnas P, Kim TY, Baltrėnaitė E, Bhatnagar A (2020) Synthesis and characterization of magnetic biochar adsorbents for the removal of Cr(VI) and Acid orange 7 dye from aqueous solution. Environmental Science and Pollution Research 27(26): 32874-32887.
58. Baltrėnaitė-Gedienė E, Marčiulaitienė E, Pranskevičius M, Titova J, Bhatnagar A, Abu-Danso E (2020) Physicochemical properties of pyrogenic carbonaceous product, biochar, syngenetically modified for its use in adsorption systems. Journal of environmental engineering. Reston: American Society of Civil Engineers (ASCE). 146 (8): 1–14.
57. Baltrėnaitė-Gedienė E, Leonavičienė T, Baltrėnas P (2020) Comparison of Cu(II), Mn(II) and Zn(II) adsorption on biochar using diagnostic and simulation models. Chemosphere. https://doi.org/10.1016/j.chemosphere.2019.125562
56. Chemerys V, Baltrėnaitė-Gedienė E, Baltrėnas P, Dobele G (2020) Influence of H2O2 modification on the adsorptive properties of birch-derived biochar. Polish Journal of Environmental Studies 29(1):1-10.
2019
55. EU PATENT Baltrėnas P, Baltrėnaitė-Gedienė E (2019) A biofilter - adsorber. München: European Patent Office. No. EP2826543.
54. Baltrėnaitė E, Baltrėnas P, Huisingh D (2019) Technogenic metallic elements in biomass and their effect on biomass product properties. Journal of Water Supply: Research and Technology-Aqua 68(8):623–644 https://doi.org/10.2166/aqua.2019.082
53. Baltrėnas P, Baltrėnaitė-Gedienė E (2019) Research of modified atomisers and their application for moistening of air cleaning device charges. Sustainability 11(19): 1–14.
52. Leonavičienė T, Čiegis R, Baltrėnaitė-Gedienė E, Chemerys V (2019) Numerical analysis of liquid-solid adsorption model. Mathematical Modelling and Analysis 24(4): 598–616.
51. Xu Z, Zhou W, Baltrėnaitė E (2019) Comprehensive bibliometric study of journal of Environmental Engineering and Landscape Management from 2007 to 2019. Journal of Environmental Engineering and Landscape Management 27(4): 215–227.
50. EU PATENT. Baltrėnas P, Baltrėnaitė E (2019) A vertical biofilter-adsorber. EU patent No. 3072576.
49. Baltrėnaitė E, Baltrėnas P (2019) Using the method of dynamic factors for assessing the transfer of chemical elements from soil to plants from various perspectives. Environmental Science and Pollution Research 26(33): 34184-34196.
48. Pongrac P, Baltrėnaitė E, Vavpetič P, Kelemen M, Kladnik A, Budič B, Vogel-Mikuš K, Regvar M, Baltrenas P, Pelicon P (2019) Tissue-specific element profiles in Scots pine (Pinus sylvestris L.) needles. Trees: structure and function 33(1):91-101.
47. Usevičiūtė L, Baltrėnaitė E (2019) Application of pyrogenic carbonaceous product for immobilization of potentially toxic elements in railway sleepers and polluted soil. International Journal of Environmental Science and Technology 16(1), 23–36.
2018
46. MONOGRAPH. Baltrėnas P, Baltrėnaitė E (2018) Small bioreactors for management of biodegradable waste. Monograph. Springer. 364 p.
45. Mancinelli E, Baltrėnaitė E, Baltrėnas P, Grubliauskas R, Marčiulaitienė E, Passerini G, Pranskevičius M (2018) Influence of Biochar from Slow Pyrolysis on Dissolved Organic Carbon and Total Dissolved Nitrogen Levels of Urban Storm-Water Runoff. Water Air Soil Pollut 229, 245–262.
44. Baltrėnas P, Baltrėnaitė E (2018) The experimental study on the principal aerodynamic characteristics and their influence on the efficiency in a cylindrical two-level six-channel cyclone to remove dissimilar types of particles. International Journal of Environmental Research 12(4), 459–469.
43. Chemerys V, Baltrėnaitė E (2018) Influence of intrinsic properties of lignocellulosic feedstock on adsorptive properties of biochar. ASCE's Journal of Environmental Engineering 144(9), 1–10.
42. Baltrėnaitė E, Lietuvninkas A, Baltrėnas P (2018) Biogeochemical and engineered barriers for preventing spread of contaminants. Environmental Science and Pollution Research 25(6), 5254–5268.
41. Baltrėnas P, Kolodynskij V, Zagorskis A, Baltrėnaitė E (2018). Research and analysis of biogas produced from sewage sludge using a batch bioreactor. Environmental Technology 39(23), 3104-3112.
2017
40. Mancinelli E, Baltrėnaitė E, Baltrėnas P, Marčiulaitienė E, Passerini G (2017) Dissolved organic carbon content and leachability of biomass waste biochar for trace metal (Cd, Cu and Pb) speciation modelling. Journal of Environmental Engineering and Landscape Management 25(4), 354–366.
39. PATENT. Baltrėnas P, Baltrėnaitė E, Kolodynskij V (2017). Bioreaktorius ir biodujų gamybos būdas. Vilnius: Lietuvos respublikos valstybinis patentų biuras. LT6478B.
38. PATENT. Baltrėnas P, Baltrėnaitė E, Chemerys V (2017). Bioanglies modifikavimo H2O2 vandeniniu tirpalu įrenginys. Vilnius: Lietuvos respublikos valstybinis patentų biuras. LT 6434 B.
37. Glaser B, Baltrėnas P, Kammann C, Kern J, Baltrėnaitė E (2017) Editorial: special issue on biochar as an option for sustainable resource management (EU COST Action TD1107 final publication). Journal of Environmental Engineering and Landscape Management 25(2), 83–85.
36. Baltrėnaitė E, Baltrėnas P, Bhatnagar A, Vilppo T, Selenius M, Koistinen A, Dahl M, Penttinen O.-P (2017) A multicomponent approach to using waste-derived biochar in biofiltration: a case study based on dissimilar types of waste. International Biodeterioration & Biodegradation Journal 119, 565-576.
35. Marčiulaitienė E, Šerevičienė V, Baltrėnas P, Baltrėnaitė E (2017) The characteristics of BTEX concentration in various types of environment in the Baltic Sea region, Lithuania. Environmental Science and Pollution Research 24(4), 4162-4173.
34. BOOK CHAPTER. Baltrėnaitė E, Lietuvninkas A, Baltrėnas P (2017) Modelling the phytoremediation: concepts, models and approaches. In: Ansari AA, Gill SS, Gill R, Lanza G, Newman L (Eds) Phytoremediation – Management of Environmental Contaminants, Volume 5, pp 327-341. Available at: https://link.springer.com/chapter/10.1007/978-3-319-52381-1_12
2016
33. MONOGRAPH. Baltrėnaitė E, Baltrėnas P, Lietuvninkas A (2016) Tvarus medžio vaidmuo aplinkos apsaugos technologijose. Monograph. Vilnius: Technika, 400 p. ISBN 978-609-457-953-0 (in Lithuanian).
32. PATENT. Baltrėnas P, Baltrėnaitė E (2016) Vertikalus biofiltras-adsorberis. Vilnius: Lietuvos respublikos valstybinis patentų biuras. LT 6328 B.
31. Mancinelli E, Baltrėnaitė E, Baltrėnas, P, Paliulis D, Passerini G (2016) Trace metals in biochars from biodegradable by-products of industrial processes. Water, Air and Soil Pollution 227 (6), 1-21.
30. Baltrėnas P, Baltrėnaitė E, Kleiza J, Švedienė J (2016) A biochar-based medium in the biofiltration system: removal efficiency, microorganism propagation and the medium penetration modeling. Journal of Air and Waste Management Association 66(7), 673-686.
29. Baltrėnaitė E, Lietuvninkas A, Baltrėnas P (2016) Modelling the balance of metals in the amended soil for the case of 'atmosphere-plant-soil' system. Environmental Modeling and Assessment 21(5), 577-590.
28. MONOGRAPH. Baltrėnaitė E, Baltrėnas P, Lietuvninkas A (2016) The Sustainable Role of the Tree in Environmental Protection Technologies. Monograph. Springer. 360 p. Available at: http://www.springer.com/us/book/9783319254753
27. Komkienė J, Baltrėnaitė E (2016). Biochar as Adsorbent for Removal of Heavy Metal Ions (Cadmium(II), Copper(II), Lead(II), Zinc(II)) from Aqueous Phase. International Journal of Environmental Science and Technology 13(2), 471–482.
2015
26. BOOK CHAPTER. Baltrėnaitė E, Lietuvninkas A, Baltrėnas P, Singh BR, Moskvitina N, Vaishlya O (2015) The Influence of Some Particular Biotic and Abiotic factors on Distribution of Metal Concentrations in the Soil-Pine System. In: Öztürk M, Ashraf M, Aksoy A, Ahmad MSA, Hakeem KR (Eds.) Plants, Pollutants, Remediation. Springer. pp. 191–211. Available at: http://www.springer.com/us/book/9789401771931
25. Zheng R, Chen Z, Cai C, Tie B, Liu X, Reid BJ, Huang Q, Lei M, Sun G, Baltrėnaitė E (2015) Mitigating heavy metal accumulation into rice (Oryza sativa L.) using biochar amendment — a field experiment in Hunan, China. Environ Sci Pollut Res. 22(14), 11097–11108.
24. PATENT. Baltrėnas P, Baltrėnaitė E (2015) Biofiltras-adsorberis. Vilnius: Lietuvos respublikos valstybinis patentų biuras. LT 6134 B.
23. Baltrėnas P, Baltrėnaitė E, Spudulis E (2015) Biochar from pine and birch morphology and pore structure change by treatment in biofilter. Water, Air and Soil Pollution 226(69), 1–14.
22. Baltrėnas P, Baltrėnaitė E, Kačerauskas T (2015) Social environment of creativity. Filosofija. Sociologija 26(1), 46–54.
21. BOOK CHAPTER. Baltrėnaitė E, Baltrėnas P, Butkus D, Lietuvninkas A (2015) Using the dynamic factors method in bioindication and phytoremediation. In: Ansari AA, Gill SS, Gill R, Lanza GR, Newman L (Eds.). Phytoremediation: Management of Environmental Contaminants, Vol 1. Springer, 792 p. pp. 21–30. Available at: http://www.springer.com/life+sciences/ecology/book/978-3-319-10394-5.
20. Mancinelli E, Baltrėnaitė E, Baltrėnas P, Paliulis D, Passerini G, Almas AR (2015) Trace metal concentration and speciation in storm water runoff on impervious surfaces. Journal of Environmental Engineering and Landscape Management 23(1), 15–27.
2014
19. Šerevičienė V, Baltrėnas P, Baltrėnaitė E, Marčiulaitienė E, Paliulis D (2014) Investigation of NO2 behaviour in the temperature continental climate road environment. Water Air Soil Pollut 225: 2173–2182.
18. Markert B, Baltrėnaitė E, Chudzińska E, De Marco S, Diatta J, Ghaffari Z, Gorelova S, Marcovecchio J, Tabors G, Wang M, Yousef N, Fraenzle S, Wuenschmann S (2014) Multilingual education of students on a global scale and perspective—international networking on the example of bioindication and biomonitoring (B&B technologies). Environmental Science and Pollution Research 21(8), 5450–5456. Available at: http://link.springer.com/article/10.1007/s11356-013-2132-9
17. Baltrėnaitė E, Baltrėnas P, Lietuvninkas A, Šerevičienė V, Zuokaitė E (2014) Integrated evaluation of aerogenic pollution by air-transported heavy metals (Pb, Cd, Ni, Zn, Mn and Cu) in the analysis of the main deposit media. Environmental Science and Pollution Research 21(1), 299–313. Available at: http://link.springer.com/article/10.1007%2Fs11356-013-2046-6
2013
16. Dūdaitė J, Baltrėnaitė E, Ubeda X, Tamkevičiūtė M (2013) Temperature effects on the ash properties of pine and maple leaf litter. A laboratory study. Environmental Engineering and Management Journal 12 (11), 1535–1544.
15. Vasarevičius S, Kadūnas K, Baltrėnaitė E (2013) Comparison of requirements for environmental protection and a model for evaluating contaminated sites in Lithuania. Technological and Economic Development of Economy 19(1), 63–77. Available at: http://www.tandfonline.com/doi/pdf/10.3846/20294913.2012.762954.
14. Bazienė K, Vasarevičius S, Baltrėnas P, Baltrėnaitė E (2013) Influence of total precipitation and air temperature on the composition of municipal landfill leachate. Environmental Engineering and Management Journal 12 (1), 175–182. Available at: http://omicron.ch.tuiasi.ro/EEMJ/issues.htm.
13. Krastinytė V, Baltrėnaitė E, Lietuvninkas A (2013) Analysis of snow-cap pollution for the air quality assessment in the vicinity of oil refinery. Environmental Technology 34(6), 757–763. Available at: http://www.tandfonline.com/doi/full/10.1080/09593330.2012.715758.
2012
12. Baltrėnaitė E, Lietuvninkas A, Baltrėnas P (2012) Use of dynamic factors to assess metal uptake and transfer in plants - Example of trees. Water, Air, & Soil Pollution 223 (7), 4297–4306. Available at: http://www.springerlink.com/content/h1752764jkq5h805/fulltext.pdf.
11. Zagorskis A, Baltrėnas P, Misevičius A, Baltrėnaitė E (2012) Experimental investigations of biogas production through anaerobic treatment of cattle manure and vegetable origin waste. Environmental Engineering and Management Journal 11(4), 847–855.
10. Markert B, Wunschmann S, Baltrėnaitė E (2012) Aplinkos stebėjimo naujovės. Bioindikatoriai ir biomonitoriai: apibrėžtys, strategijos ir taikymas. [Innovative observation of the environment: bioindicators and biomonitors: definitions, strategies and applications]. Journal of Environmental Engineering and Landscape Management 20(3), 221–239. Available at: http://www.tandfonline.com/doi/pdf/10.3846/16486897.2011.633338.
2011
9. Vilniškis R, Baltrėnas P, Vasarevičius S, Baltrėnaitė E (2011) Research and assessment of biogas evolved during anaerobic digestion of biodegradable agricultural waste. Ecological Chemistry and Engineering S 18 (4), 1–19.
8. Vasarevičius S, Baltrėnas P, Baltrėnaitė E (2011) Investigation and evaluation of green waste composting parameters. Polish Journal of Environmental Studies 20(6), 1603–1609.
7. Baltrėnas P, Baltrėnaitė E, Šerevičienė V, Pereira P (2011) Atmosperic BTEX- concentrations in the vicinity of the crude refinery of the Baltic region. Environmental Monitoring and Assessment 182, 115–127. Available at: http://www.springerlink.com/content/3681245336528038/fulltext.pdf
6. Pundytė N, Baltrėnaitė E, Pereira P, Paliulis D (2011) Variation of metal uptake by Pinus sylvestris L. Journal of Environmental Engineering and Landscape Management 19(1), 34–43. Available at: http://www.tandfonline.com/doi/abs/10.3846/16486897.2011.557473
5. Marcinkonis S, Baltrėnaitė E, Lazauskas S (2011) Extraction and mapping of soil factors using factor analysis and geostatistical analysis on intensively manured heterogenous soils. Polish Journal of Environmental Studies 20 (3), 701–708. Available at: http://www.pjoes.com/index.php?s=abs_id&id=2011200323
2010
4. Pereira P, Oliva M, Baltrėnaitė E (2010) Modelling extreme precipitation in hazardous mountainous areas. Contribution to landscape planning and environmental management Journal of Environmental Engineering and Landscape Management 18(4), 329–342. Available at: http://www.tandfonline.com/doi/abs/10.3846/jeelm.2010.38
3. Baltrėnaitė E, Butkus D, Booth CA (2010) Comparison of three tree-ring sampling methods for trace metal analysis. Journal of Environmental Engineering and Landscape Management 18(3), 170–178. Available at: http://www.tandfonline.com/doi/abs/10.3846/jeelm.2010.20
2009
2. Millington JA, Booth CA, Fullen MA, Moore GM, Trueman IC, Worsley AT, Richardson N, Baltrėnaitė E (2009) The role of long-term landscape photography as a tool in dune management. Journal of Environmental Engineering and Landscape Management 17(4), Ia–Ih.
2006
1. PATENT. Baltrėnas P, Butkus D, Baltrėnaitė E (2006) Sunkiųjų metalų koncentracijos nustatymo medinėje medienos rievėje būdas. Vilnius. Enhanced slaughterhouse wastewater treatment: A comparative approach with phycoremediation and adsorption
