Штангеева Ирина Владимировна


Электронная почта: i.shtangeeva@spbu.ru

Телефон кафедры: (812) 321-33-62

Научные интересы

Биогеохимия токсичных микроэлементов, новые методики анализа почв и растений


Основные публикации

Редактор книги:

I. Shtangeeva. Trace and Ultratrace Elements in Plants and Soil, WIT Press, UK, 2005.

Главы в книгах:

  1. I. Shtangeeva. Uranium and thorium accumulation in cultivated plants. In: Trace Elements: Nutritional Benefits, Environmental Contamination and Health, John Wiley & Sons, Inc., USA, 2008, ed. M. N. V. Prasad, p.297-344.
  2. I. Shtangeeva. Phytoremediation of contaminated soil with cereal crops. Effects of fertilizers and bacteria on bioavailability of metals. In: Trace Elements in the Environment, CRC Press, USA, 2006, ed. M. N. V.Prasad, p.541-573.
  3. I. Shtangeeva. Scandium. In: Trace and Ultratrace Elements in Plants and Soil. Chapter 9, ed.  I. Shtangeeva, WIT Press, UK, 2005, p.223-248.
  4. I. Shtangeeva. Thorium. In: Trace and Ultratrace Elements in Plants and Soil. Chapter 12, ed.  I. Shtangeeva, WIT Press, UK, 2005, p.323-364.

Статьи:

  1. I. Shtangeeva, P. Perämäki, M. Niemelä, E. Kurashov, Yu. Krylova. Potential of wheat (Triticum aestivum L.) and pea (Pisum sativum) for remediation of soils contaminated with bromides and PAHs. Submitted.
  2. I. Shtangeeva, S.  Tesfalidet, L. Lövgren. Comparison of nutrient concentrations in leaves of five plants. 2016. J. of Plant Nutrition, DOI: 10.1080/01904167.2016.1237647.
  3. I. Shtangeeva, M. Niemelä, P. Perämäki, A. Ryumin, S. Timofeev, S. Chukov, G. Kasatkina. Phytoextration of bromine from contaminated soil. 2016. J. of Geochem. Explor., DOI: 10.1016/j.gexplo.2016.03.012.
  4. I. Shtangeeva, M. Niemelä, P. Perämäki, S. Timofeev. Response of wheat and pea seedlings on increase of bromine concentration in the growth medium. Environ. Sci. Pollut. Res., 2015, 22, 19060–19068.
  5. I. Shtangeeva. Europium and cerium accumulation in wheat and rye seedlings. Water, Air, & Soil Pollution, 2014, 10.1007/s11270-014-1964-3.
  6. I. Shtangeeva, R. Bali, B. Singh, S. Ayrault, S. Timofeev. Antimony accumulation in wheat seedlings grown in soil and water. Communications in Soil Science and Plant Analysis, 2014, 45(7), 968-983.
  7. I. Shtangeeva, M. Niemelä, P. Perämäki. Effects of soil amendments on antimony uptake by wheat. J. of Soils Sediments, 2014, 14(4), 679-686.
  8. I. Shtangeeva, B. Van der Bruggen, B. Verbinnen, S. Timofeev. Ecotoxicity of arsenic and antimony. Perspectives of phytoremediation of contaminated soils.  In: Correlation between Human Factors and the Prevention of Catastrophes, IOS Press, 2012, eds. D.L. Barry, W.G. Coldewey, D.W.G. Reimer, D.V. Rudakov, pp. 224-235.
  9. I. Shtangeeva, E. Steinnes, S. Lierhagen. Uptake of different forms of antimony by wheat and rye seedlings. Environ. Sci. Pollut. Res., 2012, 19(2), 502-509.
  10. I. Shtangeeva, S. Venäläinen, H. Hartikainen, M. Surgik, S. Timofeev. Silver-induced changes in the nutrient and trace element uptake by wheat (Triticum aestivum L.) and in the amount of the rhizosphere proteins. J. of Plant Nutr. 2011, 34, 1497-1506.
  11. I. Shtangeeva, A. Harris, R. Bali. Bioavailability and toxicity of antimony. J. of Geochem. Explor., 2011, 110, 40-45.
  12. I. Shtangeeva, E. Steinnes, S. Lierhagen. Macronutrients and trace elements in rye and wheat: Similarities and differences in uptake and relationships between elements. Environ. Exp. Botany, 2011, 70(2-3), 259-265.
  13. I. Shtangeeva. Uptake of uranium and thorium by native and cultivated plants. J.     Environ. Radioact., 2010, 101, 458-463.
  14. I. Shtangeeva, D. Alber, G. Bukalis, B. Stanik, F. Zepezauer. Multivariate statistical analysis applied to distribution of nutrients and trace elements in plants and soil collected in the Northwest region of Russia. Plant and Soil, 2009, 322(1-2), 219-228.
  15. I. Shtangeeva, A. Tűrler, X. Lin. Thorium and uranium bioaccumulation in wheat and rye plants. Proceedings of 5th International conference on Naturally Occurring Radioactive Material, 2008, 19-36.
  16. I. Shtangeeva. How can we improve phytoremediation efficiency. In: Environmental Geotechnology and Global Sustainable Development, University of Hong-Kong, Hong-Kong, 2008, ed. A.T. Yeung, pp.117-126.
  17. I. Shtangeeva, J. Laiho, H. Kahelin, V. Surin. Effect of soil fertilisation on uptake of macro- and trace elements by wheat grown in two different soils. J. Plant Nutr., 2008, 31(2), 395-407.
  18. I. Shtangeeva, S. Ayrault. Effects of Eu and Ca on yield and mineral nutrition of wheat (Triticum aestivum) seedlings. Environ. Exp. Botany, 2007, 59, 49-58.
  19. I. Shtangeeva, X. Lin, A. Türler, E. Rudneva, V. Surin, R. Henkelmann. Thorium and uranium uptake and bioaccumulation by wheat-grass and plantain. Forest Snow and Landscape Research, 2006, 80(2), 181–190.
  20. I. Shtangeeva, S. Ayrault, J. Jain. Thorium uptake by wheat at different stages of plant growth. J. Environ. Radioactivity, 2005, 81(2-3), 283-293.
  21. I. Shtangeeva, J.V-P. Laiho, H. Kahelin, G.R. Gobran. Improvement of phytoremediation effects with help of different fertilizers.  Soil Sci. Plant Nutr., 2004, 50, 885-889.
  22. I. Shtangeeva, H. Kahelin, J. Laiho. Effects of soil fertilization on uptake of macro- and trace elements by wheat. In: Mengen- und Spurenelemente. 2004, v.22, ed. M. Anke, pp.1273-1283.
  23. I. Shtangeeva, S. Ayrault. Phytoextraction of thorium from soil and water media. Water, Air and Soil Pollution, 2004, 154, 19-35.
  24. I. Shtangeeva, J.V-P. Laiho, H. Kahelin, G.R. Gobran. Phytoremediation of metal-contaminated soils. Proceedings of the 227th ACS Annual Meeting, 2004, 118-122.
  25. I. Shtangeeva, A. Vuorinen, S. Ayrault, T. Lissitskaia. Stimulation of uptake of some metals and radio-nuclides with help of phosphate mobilizing bacteria. In: Metal Ions in Biology and Medicine, 2002, v.7, eds. L. Khassanova, Ph. Collery. I. Maymard, Z. Khassanova, J-C. Etienne, pp.225-230.
  26. I. Shtangeeva, S. Ayrault, T. Lissitskaia. Effect of different growth media on uptake of elements by wheat. In: Metal Ions in Biology and Medicine, 2002, v.7, eds. L. Khassanova, Ph. Collery. I. Maymard, Z. Khassanova, J-C. Etienne, pp.289-295.
  27. I. Shtangeeva, A. Vuorinen, B. Rietz, L. Carlson. Combination of ICP-AES and instrumental neutron activation analysis as effective methods for studying of distribution of elements in soil and plants. Geostandards & Geoanalysis, 2001, 25(2), 1-9.
  28. I. Shtangeeva, A. Vuorinen, B. Rietz, G. Christiansen, L. Carlson. Decontamination of polluted urban soils by plants. Our possibilities to enhance the uptake of heavy metals. J. Radioanal. Nucl. Chem., 2001, 249(2), 369-374.
  29. I. Shtangeeva, K. Heydorn, T. Lissitskaya. The potential effect of microbial activity on the uptake of elements studied by exploratory multivariate analysis of data obtained by INAA. J. Radioanal. Nucl. Chem., 2001, 249(2), 375-380.
  30. I. Shtangeeva, K. Heydorn, N. Ovchinnikova. About differences in uptake of elements by plants grown in water and soil. In: Mengen- und spurenelemente, ed. M. Anke, 2000, v.20, Friedrich-Schiller-Universitat, Jena, pp.64-72.
  31. I. Shtangeeva, K. Heydorn. Variations in K, Na and Ca contents in soil and their influence on uptake of heavy metals. In: Monitoring and measurement of the environment, eds. R. Clement and B. Burk, 2000, Carleton University, Ottawa, pp.339-344.
  32. I. Shtangeeva, N.D. Nugaeva, K. Heydorn. Impact of trivalent chromium and calcium on uptake of ions. In: Mengen- und spurenelemente, ed. M. Anke, 1999, v.19, Friedrich-Schiller-Universitat, Jena, pp.197-204.
  33. I. Shtangeeva. About some peculiarities of chemical element uptakes. Ecological Sbornik, 1999, 1, 28-32.
  34. N. Nugaeva, I. Shtangeeva. Chromium-inluenced dynamics of micromycetes in rhizosphere of the higher plants. Proceedings of X Congress of the Russian Botanical Society, 1998, v.2, pp.29-31.
  35. I. Shtangeeva, N. Nugaeva, K. Heydorn, E. Damsgaard. Cr+3 as toxic element for plants. Role of physiological activity of microorganisms and plant roots. In: Metal ions in biology and medicine, 1998, v.5, eds Ph. Collery, P. Braetter, V. Negretti de Braetter, L. Khassanova, pp.349-353.
  36. I. Shtangeeva. Application of ICP-MS and instrumental neutron activation analysis in biological and environmental studies. Proceedings of Int. Conf. CANAS’97, 1998, 299-304.
  37. I. Shtangeeva, R. Rosenberg, R. Zilliacus, Ja. Rantanen, O. Jusim. Peculiarities of chemical element behaviour in plants under pollution of the environment with some heavy metals. Ecological Chemistry, 1998, 7(1), 27-32.
  38. I. Shtangeeva. How can avoid the errors on the stage of sampling and preparation of plants and soils for elemental analysis. Proceedings of Int. Conf. EnviroAnalysis’96, 1996, 101-105.
  39. I. Shtangeeva, V.D.Kulikov. Study of chemical element behaviour in health and disease by means of neutron activation analysis and multivariate statistics. Nutrition, 1995, 11(5), 592-594.
  40. I. Shtangeeva. Behaviour of chemical elements in plants and soils. Chemistry and Ecology, 1995, 11(2), 85-95.
  41. S.G.Krasnov, T.V.Stepanova, P.A.Vaganov, I.V.Shtangeeva. Neutron activation research of monomineral deepwater sulphide ores in Pacific ocean. In: Problems of Geophysics, 1994, N33, pp.110-116.
  42. I. Shtangeeva. Variations of the elemental composition of plants and soils. J. of Radioanalytical and Nuclear Chemistry, art.,1994, 177(2), 381-391.
  43. I. Shtangeeva. Chemical element distribution in soils and some species of plants. In: Activation Analysis in the Environmental Protection, 1993, 340-351.
  44. I. Shtangeeva. Application of neutron-activation analysis for element composition dynamics study in plants and soils. Russian Journal of Geophysics, 1993, 1, 84-87.
  45. I. Shtangeeva, T. Pshenichnova. Elemental composition of two species of plants. Biol. Science, 1992, 10, 103-108.
  46. I. Shtangeeva, A. Zhukovski. About distribution of some chemical elements in Leningrad plants and soils. In: Modern Analytical Methods in Ecology, 1992, pp.22-27.
  47. L. Pets, P. Vaganov, E. Turbas, I. Shtangeeva, S. Felitsin. Influence of chalking by dust-like oil-shale ash on meadow grass multielement concentration. Combustible shales, 1991, 8(1), 60-66.
  48. I. Shtangeeva, A. Zhukovski. Application of NAA for solving of some ecological problems. In: Nuclear Geophysics in Geology, 1988, pp.94-96.
  49. E. Streltsova, A. Zhukovski, V. Kulikov, I. Shtangeeva. Trace element significance under hypertonic disease. In: Arterial Hypertonensia, 1988, pp.28-34.
  50. I. Shtangeeva. Possibilities of zoogeochemical searches of ore deposits. In: Problems of Geophysics, 1987, N29, pp.139-146.
  51. I. Shtangeeva, V. Kulikov. Accumulation of chemical elements in some species of sea organisms. Botanical Journal, 1986, 71(10), 1418-1422.
  52. I. Shtangeeva, V .Kulikov, L. Mikheeva, P. Vaganov, A. Zhukovski. Multielemental neutron activation analysis of drinking water in Leningrad and its suburbs. In: Nuclear Physical Methods in Environmental Control, 1985, pp.218-221.
  53. P. Piven, I. Shtangeeva, P. Vaganov, A. Zhukovski. Experience of application of first Soviet standards for measurement of trace element content in environmental samples. In: Experience of Introduction of Standards for Environmental Study, 1982, pp.19-23.
  54. P. Vaganov, I. Shtangeeva. Instrumental techniques and environmental protection. In: Environmental Protection and Application of Chemicals in Agriculture, 1981, pp.203-205.
  55. I. Shtangeeva, P. Vaganov, V. Meyer. Investigation of chemical element accumulations in seaweed by means of neutron activation analysis. In: Nuclear Physical Methods in Environmental Control, 1980, pp.96-105.
  56. I. Phedorova, I. Shtangeeva, E. Slepeyan, P. Vaganov. Development of seedlings of Pinus silvestris and dynamics of chemical elements concentrations in the seedlings under the action of different content of zinc salts. In: Plants and Chemical Pollutants, 1979, pp.55-60.
  57. I. Shtangeeva, E. Slepeyan, P. Vaganov. Comparison of chemical element concentrations in spores of Ustilago maydis and Sorosporium reilianum. In: Plants and Chemical Pollutants, 1979, pp.135-139.
  58. P. Vaganov, I. Shtangeeva. Accumulation of gold and its geochemical concomitant elements in sea organisms. Problems of Geophysics, 1978, 27, 168-173.
  59. P. Vaganov, I. Shtangeeva, V. Kulikov. Biogeochemical characteristics of Barents seaweed (results of neutron activation analysis). Geochemistry, 1978, 11, 1740-1745.
  60. I. Shtangeeva, P. Vaganov. Heavy metals in some living organisms from Barents sea coastal area. In: Pollution and Self-purification of White and Barents Seas, 1977, pp.94-99.
  61. P. Vaganov, V. Meyer, I. Shtangeeva. Application of neutron activation analysis for study of biogeochemical aureoles. Geochemistry, 1977, 2, 297-302.
  62. P. Vaganov, V. Meyer, I. Shtangeeva. Neutron activation research of biogeochemical aureoles of ores in conditions of permafrost. In: Application of Nuclear Geophysics in Search and Prospecting for Minerals, 1976, pp.114-116.
  63. P. Vaganov, V. Meyer, I. Shtangeeva. Instrumental neutron activation technique with use of the complex analytical lines for determination of mercury in biological samples. In: Applied Nuclear Spectroscopy, 1976, pp.154-158.


Другая профессиональная деятельность

Участие в проектах и грантах:

Grant of St. Petersburg University:

“Effects of silver on plants and soil microbiota” (1996-1997), coordinator

Grants of Nordic Council of Ministers:

“New economic procedure for clean-up moderate polluted soils” (1999-2001, with Risoe National Laboratory, Denmark and Geological Survey, Finland)

“A cost-effective plant-based technology for removal of metals from the environment” (2002-2004, with SLU, Sweden and Geological Survey, Finland)

“Development of educational programmes on monitoring and remediation of polluted soils” (2006-2007, with Technical University of Denmark, University of Helsinki, Institute of Geology and Geography, Lithuania and Geological Survey of Estonia), coordinator

Participant of Network “Environmental impact assessment of industry contaminated areas” (2011-2014)

NATO Collaborative Linkage Grants:

“Micronutrients accumulation in polluted areas. Interactions among soil - microbiota – plants” (1998-2000, with Risoe National Laboratory, Denmark), co-director 

“Bioremediation of contaminated soils. Methods to enhance metals uptake” (2002-2004, with LPC, CEA-CNRS, France), co-director 

“Decontamination of uranium and thorium contaminated soils” (2004-2007, with Technische Universität München, Germany), co-director 

Grant of German Research Foundation:

“Determination of trace elements in biogeochemical samples using NAA” (2015-2017, with Technische Universität München, Germany)  

Стажировка и проведение научных исследований:

May – June 1996: Nordic Council of Ministers Research Scholar, at VTT Chemical Technology (Otaniemi, Finland)

June - July 1997: Nordic Council of Ministers Research Scholar, at Risoe National Laboratory (Roskilde, Denmark)

February – May 2001: CNRS Research Scholar, at LPS, CEA-CNRS (Saclay, France)

January – February 2003: CEA Research Scholar, at LPS, CEA-CNRS (Saclay, France)

JanuaryFebruary 2008: DFG Research Scholar, at Helmholtz-Zentrum  (Berlin, Germany)

October – November 2008: Ellen Gledisch Stipend, Norwegian University of Science and Technology (Trondheim, Norway)

January – March 2009: International Visiting Fellowship, Sydney University (Australia)

January – March 2010: EU Program “Triple I mobility scheme”, K.U. Leuven, Belgium

May – June 2012: Research grant of Academy of Finland, University of Oulu (Finland)

August 2014: Research grant of Academy of Finland, University of Oulu (Finland)

August 2015: Research grant of St. Petersburg University, University of Oulu (Finland)

August 2016: Research grant of St. Petersburg University and grant of Academy of Finland, University of Oulu (Finland)

Членство:

International Society of Trace Element Biochemistry

Рецензент для международных журналов:

Aquatic Botany, Chemistry and Ecology, Chemosphere, Ecotoxicology, J. Environ. Exp. Botany, J. Environ. Pollution, J. Environ. Radioact., Environ. Sci. Pollut. Res., Environ. Toxicol. Chem., J. Radioanal. Nucl. Chem.

Чтение лекций за рубежом:

University of Jyväskylä, Finland, 2015:

Natural and man-made factors affecting nutrient and trace element concentrations in plants.

Institute of Soil Science and Plant Cultivation, Puławy, Poland, 2013:

Effects of fertilizers on bioaccumulation of toxic metals.

Bologna University, Italy, 2013:

  • Phytoremediation of soils contaminated with metals, metalloids and radionuclides.
  • Natural and man-made factors affecting nutrient and trace element concentrations in plants.

ICRISAT, India, 2010: Contamination of soil and edible plants by metals and radioniclides resulting from application of fertilizers.

Совместные исследования:

с университетом Оулу, 2015 и 2016 гг.

Программа межвузовского обмена:

2015 г – университет Ювяскюля и университет города Осака.

2016 г – университет Йены.

Гранты СПбГУ:

Инициативный проект «Биоаккумуляция брома в верхних горизонтах почвы и его поступление в растения», 2015-2017гг.