Farg‘ona vodiysi iqlimining o‘zgarishida atmosfеradagi kichik gazlarning ta’sirini baholash

Arziqulov Mirzobek Muhiddin; Shermuhamedov Ulugbek Abdulazizovich

Iqlim o‘zgarishiga ko‘p sohalar, hususan atmosfera tarkibidagi kichik konsentratsiyadagi gazlar ham kuchli ta’sir qiladi. Aynan shu ta’sirni Farg‘ona vodiysi misolida o‘rganib chiqildi va so‘nggi iqlimiy davrda atmosferadagi chang va gazlar o‘zgarishi tahlili qilindi.

Jurnal nomiTransport xabarnomasi - Journal of Transport - Вестник транспорта
Nashr sonivol. 1 issue 4 2024
Ko'rishlar soni 25

Internet havola

DOI

UzSCI tizimida yaratilgan sana 22-01-2025

O'qishlar soni 25

Nashr sanasi 28-12-2024

Asosiy tilO'zbek

Sahifalar225-227

Kalit so'z

chang

uglerod oksidi

oltingugurt dioksidi

Azot dioksidi

iqlimiy parametrlar

atmosferaning ifloslanishi

Ўзбек

Iqlim o‘zgarishiga ko‘p sohalar, hususan atmosfera tarkibidagi kichik konsentratsiyadagi gazlar ham kuchli ta’sir qiladi. Aynan shu ta’sirni Farg‘ona vodiysi misolida o‘rganib chiqildi va so‘nggi iqlimiy davrda atmosferadagi chang va gazlar o‘zgarishi tahlili qilindi.

Kalit so'z

chang

uglerod oksidi

oltingugurt dioksidi

Azot dioksidi

iqlimiy parametrlar

atmosferaning ifloslanishi

English

Climate change is strongly influenced by many areas, especially low concentration gases in the atmosphere. This effect was studied on the example of the Fergana Valley, and the change of dust and gases in the atmosphere during the last climatic period was analyzed.

Kalit so'z

dust

climatic parameters

Atmospheric pollution

carbon monoxide

sulfur dioxide

nitrogen dioxide

№ Muallifning F.I.Sh. Lavozimi Tashkilot nomi

1 Arziqulov M.M. uslubchi National University of Uzbekistan named after Mirzo Ulugbek

2 Shermuhamedov U.A. doktorant Scientific Research Institute of Hydrometeorology

№ Havola nomi

1 Shermuxamedov U.A, Arziqulov M.M. Farg‘ona vodiysi misolida harorat o‘zgarishi tahlili. GEOGRAFIK TADQIQOTLAR: INNOVATSION G‘OYALAR VA RIVOJLANISH ISTIQBOLLARI. 2- xalqaro ilmiy-amaliy konferensiya materiallari 2-tom. 15-16-aprel 2022-yil. Toshkent-2022. – B. 496-500.

2 Shermuxamedov U.A, Arziqulov M.M. So‘ngi iqlimiy davrda Namangan shahrida harorat o‘zgarishi tahlili. ILMIY TADQIQOTLAR SAMMITI. Respublika ko‘p tarmoqli ilmiy sammit materiallari to‘plami 2- tom. 22- fevral, 2022-yil. Toshkent-2022. B. 112-116.

3 Айнзенштата Б.А., Леухиной Г. Н., Бабиченко В.Н. Климат Наманган. Среднеазиаций регионалний Научно-иследователский институтим. Имена В. А. Бугаев Л., Гидрометеоиздат, 1983.150 с.

4 Борзенкова И.И. Определение чувствительности глобального климата к газовому составу атмосферы по палеоклиматическим данным // Изв. РАН. Физика атмосферы и океана. 2003. Т. 39. № 2. С. 222–228.

5 J.N., Hampson R.F., Hynes R.G., Jenkin M.E., Rossi M.J., Troe J.: Evaluated kinetic and photochemical data for atmospheric chemistry: Volume I – gas phase reactions of Ox, HOx, NOx, and SOx species. Atmos. Chem. Phys. 4, 1461–1738 (2004).

6 Dons, E (2019). "Transport most likely to cause air pollution peak exposures in everyday life: Evidence from over 2000 days of personal monitoring". Atmospheric Environment. 213: 424–432.

7 Mickley L.J., Jacob D.J., Field B.D. and Rind D. Effects of future climate change on regional air pollution episodes in the United States //Geophys. Res. Lett. 30(L2). – 2004. – PP. 4103-4110.

8 Ravshnov N., Sharipov D., Muradov F. Computational experiment for forecasting and monitoring the environmental Condition of industrial region. //Theoretical & Applied Science. International Scientific Journal. -2016. –vol.35. –Issue 3. -Pp 132-139.

9 Sharipov D. A Mathematical Model and Computational experiment for the Study and Forecast of the concentration of Harmful Substances in the Atmosphere. //American Journal of Computation, Communication and Control. –2016. –№ 2(6). –Pp 48-54.

10 Tinsley M.R., Field R.J. Dynamic instability in tropospheric photochemistry an excitability threshold. Geophysical Research Letters, vol.28, No.23, pages 4437- 4440, December 1, 2001.

Kutilmoqda

№	Muallifning F.I.Sh.	Lavozimi	Tashkilot nomi
1	Arziqulov M.M.	uslubchi	National University of Uzbekistan named after Mirzo Ulugbek
2	Shermuhamedov U.A.	doktorant	Scientific Research Institute of Hydrometeorology

№	Havola nomi
1	Shermuxamedov U.A, Arziqulov M.M. Farg‘ona vodiysi misolida harorat o‘zgarishi tahlili. GEOGRAFIK TADQIQOTLAR: INNOVATSION G‘OYALAR VA RIVOJLANISH ISTIQBOLLARI. 2- xalqaro ilmiy-amaliy konferensiya materiallari 2-tom. 15-16-aprel 2022-yil. Toshkent-2022. – B. 496-500.
2	Shermuxamedov U.A, Arziqulov M.M. So‘ngi iqlimiy davrda Namangan shahrida harorat o‘zgarishi tahlili. ILMIY TADQIQOTLAR SAMMITI. Respublika ko‘p tarmoqli ilmiy sammit materiallari to‘plami 2- tom. 22- fevral, 2022-yil. Toshkent-2022. B. 112-116.
3	Айнзенштата Б.А., Леухиной Г. Н., Бабиченко В.Н. Климат Наманган. Среднеазиаций регионалний Научно-иследователский институтим. Имена В. А. Бугаев Л., Гидрометеоиздат, 1983.150 с.
4	Борзенкова И.И. Определение чувствительности глобального климата к газовому составу атмосферы по палеоклиматическим данным // Изв. РАН. Физика атмосферы и океана. 2003. Т. 39. № 2. С. 222–228.
5	J.N., Hampson R.F., Hynes R.G., Jenkin M.E., Rossi M.J., Troe J.: Evaluated kinetic and photochemical data for atmospheric chemistry: Volume I – gas phase reactions of Ox, HOx, NOx, and SOx species. Atmos. Chem. Phys. 4, 1461–1738 (2004).
6	Dons, E (2019). "Transport most likely to cause air pollution peak exposures in everyday life: Evidence from over 2000 days of personal monitoring". Atmospheric Environment. 213: 424–432.
7	Mickley L.J., Jacob D.J., Field B.D. and Rind D. Effects of future climate change on regional air pollution episodes in the United States //Geophys. Res. Lett. 30(L2). – 2004. – PP. 4103-4110.
8	Ravshnov N., Sharipov D., Muradov F. Computational experiment for forecasting and monitoring the environmental Condition of industrial region. //Theoretical & Applied Science. International Scientific Journal. -2016. –vol.35. –Issue 3. -Pp 132-139.
9	Sharipov D. A Mathematical Model and Computational experiment for the Study and Forecast of the concentration of Harmful Substances in the Atmosphere. //American Journal of Computation, Communication and Control. –2016. –№ 2(6). –Pp 48-54.
10	Tinsley M.R., Field R.J. Dynamic instability in tropospheric photochemistry an excitability threshold. Geophysical Research Letters, vol.28, No.23, pages 4437- 4440, December 1, 2001.