TOSHKENT VILOYATI YANGIYO‘L TUMANI SUG‘ORILADIGAN BO‘Z TUPROQLARNING CO2 EMISSIYASI
Kalit so‘zlar:
namlik, sug‘oriladigan bo‘z, bo‘z-o‘tloqi, o‘tloqi-bo‘z, o‘tloqi va botqoq tuproqlar, CO2, atmosfera, terassa, oqim, unumdorlik, haroratAnnotatsiya
Ushbu maqolada Toshkent viloyati Yangiyo‘l tumani Chirchiq daryosining I-V terassalaridagi sug‘oriladigan bo‘z, bo‘z-o‘tloqi, o‘tloqi-bo‘z, o‘tloqi va botqoq tuproqlaridan atmosferaga ajraladigan CO2 konsentratsiyasining o‘zgarishi o‘rganilgan bo‘lib, bunda har bir terrasada tuproq tiplaridan 5 ta nuqtadan o‘lchovlar olinib, havo va tuproq harorati, CO2 intervali, zichlik (press 3 daqiqa) o‘rganildi. Natijalar namlikka boy botqoq, o‘tloqi va o‘tloqi bo‘z tuproqlarda CO2 ajralishi yuqori ekanini (775-1114 ppm/μmol mol⁻¹), bo‘z tuproqlarda esa pastroq yoki o‘rtacha (550-766 ppm/μmol mol⁻¹) darajani ko‘rsatdi. Tatqiqot natijalariga ko‘ra, hudud tuproqlaridan chiqadigan CO2 oqimlarini (tuproqdan atmosferaga chiqadigan CO2 oqimining tezligi) baholash va uglerod aylanishini mahalliy sharoitda o‘rganish uchun muhim amaliy va ilmiy ma’lumot hisoblanadi.Adabiyotlar
1. Gafurova L.A., Abdraxmanov T.A., Jabborov Z.A.,
Saidova. M.E.Degradatsiyasi o‘quv qo‘llanma Toshkent,
2012. 48-b.
2. Sulaymonov I.J., Batashov A.R., Egamberdiev M.X.,
Odilov I.K. Tuproqshunoslik va agrokimyo. B-107-113-114.
3. Niyazmetov U. X. Sug‘oriladigan o‘tloqi-bo‘z tuproqlarning
tavsifi va unumdorligi. 28-b.
4. Глазовская М.А. Роль и функции педосферы в гео-
химических циклах углеродах. Почвоведение 1996, №2.
С. 174-186.
5. Yuldashev G‘., Raximov A., Isag‘aliev M. Bo‘z va
o‘tloqi tuproqlarda pedolitogen uglerodning o‘zgarishi.
“Tuproqshunoslikning dolzarb muammolari”. Innovatsion
texnologiyalar - tuproq resurslarini barqaror boshqarishning
asosi” Respublika onlayn ilmiy-amaliy seminar to‘plamii
Toshkent,2020. 64-b.
6. R Lal. Soil health and carbon management - Food and
energy security, 2016. Cited by 1059 Related articles All 12
version.s
7. Ram L., Richard W., Ali F., Almoutaz E. Ripendra Awal Soil CO2 emission in response to organic amendments, temperature, and rainfall. Selamawit Woldesenbet & Eric Risch Scientific Reports | (2020) 10:5849 | https://doi.
org/10.1038/s41598-020-62267-6
8. Wenmei He ., Gayoung Yo., Mohammad M., Youjin K., Xuanlin Ch., Peer J. Impact assessment of high soil CO2 on plant growth and soil environment: a greenhouse study 2019 Jan 25;7:e6311. doi: 10.7717/peerj.6311
9. Marija G., Aleksandra P., Igor B . Soil C-CO2 Emissions Across Different Land Uses in a Peri-Urban Area of Central Croatia. Faculty of Agriculture, University
of Zagreb, Svetosimunska Street 25, 10000 Zagreb, Croatia Author to whom correspondence should be addressed. Land 2025, 14(9), 1876; https://doi.org/10.3390/land14091876
10. Guarrera S., Vanella D., Consoli S. “Analysis of small-scale soil CO2 fluxes in an orange orchard under irrigation and soil conservative practices” 2024. Scientific Reports Analysis of small-scale soil CO2 fluxes in an orange orchard - S. Guarrera et al. (2024, Scientific Reports / PMC).
11. Qiao Chen. Characteristics of soil profile CO2 concentrations in karst areas and their significance for global carbon cycles and climate change // Earth System Dynamics, Vol. 10, iss. 3, P. 525–538. 2016.
Saidova. M.E.Degradatsiyasi o‘quv qo‘llanma Toshkent,
2012. 48-b.
2. Sulaymonov I.J., Batashov A.R., Egamberdiev M.X.,
Odilov I.K. Tuproqshunoslik va agrokimyo. B-107-113-114.
3. Niyazmetov U. X. Sug‘oriladigan o‘tloqi-bo‘z tuproqlarning
tavsifi va unumdorligi. 28-b.
4. Глазовская М.А. Роль и функции педосферы в гео-
химических циклах углеродах. Почвоведение 1996, №2.
С. 174-186.
5. Yuldashev G‘., Raximov A., Isag‘aliev M. Bo‘z va
o‘tloqi tuproqlarda pedolitogen uglerodning o‘zgarishi.
“Tuproqshunoslikning dolzarb muammolari”. Innovatsion
texnologiyalar - tuproq resurslarini barqaror boshqarishning
asosi” Respublika onlayn ilmiy-amaliy seminar to‘plamii
Toshkent,2020. 64-b.
6. R Lal. Soil health and carbon management - Food and
energy security, 2016. Cited by 1059 Related articles All 12
version.s
7. Ram L., Richard W., Ali F., Almoutaz E. Ripendra Awal Soil CO2 emission in response to organic amendments, temperature, and rainfall. Selamawit Woldesenbet & Eric Risch Scientific Reports | (2020) 10:5849 | https://doi.
org/10.1038/s41598-020-62267-6
8. Wenmei He ., Gayoung Yo., Mohammad M., Youjin K., Xuanlin Ch., Peer J. Impact assessment of high soil CO2 on plant growth and soil environment: a greenhouse study 2019 Jan 25;7:e6311. doi: 10.7717/peerj.6311
9. Marija G., Aleksandra P., Igor B . Soil C-CO2 Emissions Across Different Land Uses in a Peri-Urban Area of Central Croatia. Faculty of Agriculture, University
of Zagreb, Svetosimunska Street 25, 10000 Zagreb, Croatia Author to whom correspondence should be addressed. Land 2025, 14(9), 1876; https://doi.org/10.3390/land14091876
10. Guarrera S., Vanella D., Consoli S. “Analysis of small-scale soil CO2 fluxes in an orange orchard under irrigation and soil conservative practices” 2024. Scientific Reports Analysis of small-scale soil CO2 fluxes in an orange orchard - S. Guarrera et al. (2024, Scientific Reports / PMC).
11. Qiao Chen. Characteristics of soil profile CO2 concentrations in karst areas and their significance for global carbon cycles and climate change // Earth System Dynamics, Vol. 10, iss. 3, P. 525–538. 2016.
![“AGRO ILM” jurnali 1-son [121], 2026](https://test.agrokarantin.uz/public/journals/2/issue-88-cover.jpg)
Yuklab olishlar
Nashr etilgan
2026-02-09
Son
Bo‘lim
Articles