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The  article  presents  the  results  of  the  analysis  of  long-term  regime  observations  of 
change in the concentrations of groundwater of Uzbekistan and adjacent territories. Based on 
these observations, the main factors affecting the changes of the quantitative content of helium. 
The results of the evaluation of the characteristics of the changes and distribution of helium in 
groundwater.  The  change  of  helium  concentration  in  groundwater  significantly  influence  the 
deformation  and  hydro-geodynamic  and  tectonic  conditions.  Described  and  quantified  four 
factors with different concentrations of helium. They allow to correctly assess the variation of 
helium associated with seismic events.

  • Web Address
  • DOI
  • Date of creation in the UzSCI system28-01-2020
  • Read count303
  • Date of publication11-12-2019
  • Main LanguageIngliz
  • Pages148-153
Ўзбек

Maqolada  O'zbekiston  va  unga    qo'shni  hududlarda  geliy  koncentraciyasining 
o'zgarishini  uzoq  muddatli  rejim  kuzatuvlari  tahlili  natijalari  keltirilgan.  Ushbu  kuzatuvlar 
asosida geliy miqdorining o'zgarishiga ta'sir ko'rsatadigan asosiy omillar aniqlandi. O'zgarish 
hususiyatlarini  va  geliyning  er  osti  suvlarida  tarqalish  hususiyatini  baholash  natijalari 
keltirilgan.  Gidrogeodinamik  va  deformaciya-tektonik  sharoitlar  er  osti  suvlarida  geliy 
koncentraciyasining  o'zgarishiga  sezilarli  ta'sir  ko'rsatadi.  Geliy  kontsentraciyasining  turli 
qiymatlariga  ega  bo'lgan  to'rtta  omil  miqdoriy   jihatdan  tavsiflangan.  Bu  bizga  seysmik 
hodisalar bilan bog’liq geliy miqdorining o'zgarishini to'g’ri baholashga imkon beradi.

Tags
English

The  article  presents  the  results  of  the  analysis  of  long-term  regime  observations  of 
change in the concentrations of groundwater of Uzbekistan and adjacent territories. Based on 
these observations, the main factors affecting the changes of the quantitative content of helium. 
The results of the evaluation of the characteristics of the changes and distribution of helium in 
groundwater.  The  change  of  helium  concentration  in  groundwater  significantly  influence  the 
deformation  and  hydro-geodynamic  and  tectonic  conditions.  Described  and  quantified  four 
factors with different concentrations of helium. They allow to correctly assess the variation of 
helium associated with seismic events.

Русский

В статье представлены результаты анализа многолетних режимных наблюдений 
за  изменением  концентрации  гелия    подземных  вод  Узбекистана  и  прилегающих 
территорий. На  основании этих наблюдений выделены основные факторы, влияющие на 
изменение  количественного  содержания  гелия.  Приводятся  результаты  по  оценке 
особенностей   изменения  и  характера  распространения  гелия  в  подземных  водах.  На 
изменение  концентрации  гелия  в  подземных  водах  существенное  влияние  оказывают 
гидрогеодинамические  и  деформационно-тектонические  условия.  Описаны  и 
количественно оценены четыре фактора с различными значениями концентрации гелия.
Они позволят правильно оценить вариации гелия, связанные с сейсмическими событиями.

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Name of reference
1 Zakirov M.M. Some features of the formation and distribution of helium in the underground waters of the Pristashkent artesian basin. // Geology and mineral resources. Tashkent, No. 3.2017, S.42-44. 2. Zakirov M.M., Yusupov Sh.S., Ziyavuddinov R.S. Features of changes in the concentration of helium in groundwater (for example, the South Tien Shan and the Pamirs). .//Geology and mineral resources. Tashkent, No. 4,2018, S.44-47 3. Ziyavuddinov R.S. Features of the manifestation of helium in the underground waters of seismically active regions of Uzbekistan // Abstract of Cand. Diss. Tashkent, 2015.22s. 4. Ibragimova T.L., Ibragimov R.S. Methodological aspects of studying the relationship of variations in the gas-chemical composition of groundwater with seismicity // Problems of Seismology in Uzbekistan No. 11, 2017, P.36-45. 5. Zakirov M.M. Some factors affecting the helium content in the groundwater of the South Tien Shan and the Pamirs. / Sat: “Analysis, forecasting and management of natural risks taking into account global climate change”. M., “GEORISK-2018”, Volume 1,2018. S.182-188. 6. Matveev E.S., Tolstikhin I.N., Yakutseni V.P. Isotopic helium criterion for the origin of gases and the identification of zones of neotectogenesis (for example, the Caucasus). "Geochemistry". 1978. No. 3. S. 220- 227 7. Kropotkin P.N., Valyaev B.I. Land degassing and geotectonics // Abstracts dokl. IV Symposium "Degassing the Earth and Geotectonics". M: "Science." MOIP. 1976. S.3- 11. 8. Sadykov F.S., Yusupov Sh.S., Zakirov M.M. Features of the concentration of helium dissolved in groundwater, as a harbinger of the preparation of the upcoming earthquake // International Geological Engineering 153 Scientific and Practical Conference "GEORISK- 2015" M: 2015. October 12- 14. S.354- 359. 9. Yusupov Sh.S. The mechanism of formation of isotopic precursors (for example, the carbon isotopic composition in the carbonate system CO2, HCO- 3 (H2CO3) groundwater) // Abstracts of the fifth Kazakh - Chinese International Symposium "Modern geodynamics and seismic risk of Central Asia." Almaty 2013.S. 224- 225. 10. Zakirov M.M. and Ziyauddinov R.S. Features of change of helium concentrion in underground water (on the example of the southern Tien-Shan and Pamirs)./ CIBTech Journals,Jaipur,India, - Volume 9. - №1. – 2019. - рр.29 - 33 11. Umurzakov R.K. and Zakirov M.M. Conditons at formation of molecular hydrogen in groundwaters of seismoactive regions of Uzbekistan. / CIBTech Journals, Jaipur, India. - Volume 9. - №1. - 2019. - рр.71 - 75 12. Sultanhodzhaev A.N., Latipov S.U., Khasanova L.A. and others. "Hydrogeoseismological precursors of earthquakes." Tashkent: 1983. 135 p. 13. Ground-Water tracers – a short review / S.N. Devis, G.K. Thompson, V. Bentley, G. Stiles - Ground-water.- 1980.- vol.18.- №1.- pp.I4 - 25. 14. Hezzeg A.L. Early diagtntsis of organic matter in lakt sediments a stable carbon isotope study of pore waters. / Chemical Geology. Isotope GeoSci. – 1988.- 72/8.- №3.- p.199 – 201 15. Finkelstein D.N. Inert gases. M: "Science." 2009. S. 195.
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