电邮这篇文章 日光活动水平与气候带对氧密度年周期变化的影响
- 作者: Ragozin O.N.1, Muthelo L.2, Shalamova E.Y.1, Gudkov A.B.3, Radysh I.V.4, Ragozinа E.R.1, Pogonysheva I.5
-
隶属关系:
- Khanty-Mansiysk State Medical Academy
- Limpopo University
- Northern State Medical University
- Peoples’ Friendship University of Russia
- Nizhnevartovsk State University
- 期: 卷 32, 编号 1 (2025)
- 页面: 32-41
- 栏目: ORIGINAL STUDY ARTICLES
- URL: https://bakhtiniada.ru/1728-0869/article/view/314568
- DOI: https://doi.org/10.17816/humeco648668
- EDN: https://elibrary.ru/JVEJYU
- ID: 314568
如何引用文章
详细
论证。在医学气象分类中,影响人体舒适感受的一个关键因素是空气中氧密度的下降,而该参数不仅受气象条件的调节,还可能受到太阳地球物理环境的影响。值得指出的是,在这些天气类型中尚未纳入富氧的天气组合,尽管已有研究证实高氧状态可能对健康产生不利影响。
目的。评估太阳活动的近年周期变化对亚北极和亚热带地区大气氧密度动态的影响。
材料与方法。为计算氧密度,使用了每日的平均气温、大气压和相对湿度值。关于太阳黑子数的数据来自Royal Observatory of Belgium公开发布的资料。比较了第23太阳活动周期中最为平静的年份2007年和太阳活动最为活跃的年份2001年的数据。数学分析采用小波分析法。
结果。在太阳活动平静(2007年)和活跃(2001年)年份,太阳黑子数的中值、波动幅度、变异系数和节律谱存在显著差异。2001年最显著的节律接近半年周期。2007年太阳黑子数的变化节律为27.27天。在Khanty-Mansiysk,2001年氧密度的季节波动幅度约为147 g/m3, 2007年约为70 g/m3。全年周期内以高氧状态为主,其上限为395 g/m3(正常值为285 g/m3)。 在Polokwane,2001年冬夏季节的氧密度变化约为 24 g/m3(与2007年的30 g/m3 差异不大),均被归为不利的低氧型天气条件。在太阳活动活跃年(2001年),在亚北极和亚热带地区均发现氧密度存在主节律与插入节律共存的多节律现象。
结论。在亚北极地区的冬季,太阳活动平静年份的氧密度水平较高,而在太阳活动活跃年份则达到非常高的水平。“高氧/低氧”状态的季节性变异明显超出有利天气类型的范围。亚热带地区的氧密度波动始终处于低氧状态,且不受太阳活动水平的影响。在太阳活动旺盛年份,两个地区均观察到氧密度节律的多样性,可作为生物节律失调(desynchronosis)的一个指征。建议将“高氧日”和“高氧型天气”纳入医学气象分类体系。
作者简介
Oleg N. Ragozin
Khanty-Mansiysk State Medical Academy
Email: oragozin@mail.ru
ORCID iD: 0000-0002-5318-9623
SPIN 代码: 7132-3844
MD, Dr. Sci. (Medicine), Professor
俄罗斯联邦, Khanty-MansiyskLivhuwani Muthelo
Limpopo University
Email: livhuwani.muthelo@ul.ac.za
Researcher ID: AHC-1001-2022
PhD
南非, PolokwaneElena Yu. Shalamova
Khanty-Mansiysk State Medical Academy
Email: selenzik@mail.ru
ORCID iD: 0000-0001-5201-4496
SPIN 代码: 8125-9359
Dr. Sci. (Biology), Associate Professor
俄罗斯联邦, Khanty-MansiyskAndrei B. Gudkov
Northern State Medical University
Email: gudkovab@nsmu.ru
ORCID iD: 0000-0001-5923-0941
SPIN 代码: 4369-3372
MD, Dr. Sci. (Medicine), Professor
俄罗斯联邦, ArkhangelskIvan V. Radysh
Peoples’ Friendship University of Russia
Email: iradysh@mail.ru
ORCID iD: 0000-0003-0939-6411
MD, Dr. Sci. (Medicine), Professor
俄罗斯联邦, MoscowElina R. Ragozinа
Khanty-Mansiysk State Medical Academy
Email: elinka1000@yandex.ru
ORCID iD: 0000-0003-0199-2948
SPIN 代码: 2372-6621
俄罗斯联邦, Khanty-Mansiysk
Irina Pogonysheva
Nizhnevartovsk State University
编辑信件的主要联系方式.
Email: severina.i@bk.ru
ORCID iD: 0000-0002-5759-0270
SPIN 代码: 6095-8392
Cand. Sci. (Biology), Associate Professor
俄罗斯联邦, Nizhnevartovsk参考
- Otradnova MI, Rogacheva SM, Zhutov AS, Kozlitin AM. Influence of solar activity on the human’s cardiac rhythm under stress. Ekologiya cheloveka (Human Ecology). 2019;26(7):4–10. doi: 10.33396/1728-0869-2019-7-4-10 EDN: XZTGYO
- Dzyuban VV. Historical background in the development of natural and climatic factors in the organization of treatment and recreation in Russia. Bulletin Social-Economic and Humanitarian Research. 2021;(10):40–49. doi: 10.5281/zenodo.4560114 EDN: QJNFGU
- Noskov SN, Borisova DS, Yeremin GB, et al. The impact of space weather on human health. Analytical review. Vestnik of Saint Petersburg University. Medicine. 2024;19(1):54–74. doi: 10.21638/spbu11.2024.105 EDN: VEFPKL
- Bobrovnitskiy IP, Yakovlev MYu, Fesyun OA, Evseev SM. Main aspects of the influence of meteorological and heliogeophysical factors on the human body. Russian Journal of Rehabilitation Medicine. 2021;(2):40–46. EDN: OKPRST
- Mikhaylis AA, Mikulyak NI, Vershinina OD. Influence of solar flare activity and geomagnetic storms on the manifestation cyclicity of cerebral and coronary vascular catastrophes. University proceedings. Volga region. Medical sciences. 2019;(2):152–163. doi: 10.21685/2072-3032-2019-2-14 EDN: AEWKDS
- Tyultyaeva LA, Denisova TP, Lipatova TE, Shulpina NYu. Heliogeomagnetic parameters and pathology of digestive organs in patients of different ages. Saratov Journal of Medical Scientific Research. 2020;16(1):181–185. EDN: WYKLTL
- Karpin VA, Gudkov AB, Usinin AF, Stolyarov VV. Analysis of the heliogeomagnetic anomaly influence on the inhabitants of the Northern urbanized area. Ekologiya cheloveka (Human Ecology). 2018;25(11):10–15. doi: 10.33396/1728-0869-2018-11-10-15 EDN: YNWBTV
- Ginzburg AS, Vinogradova AA, Fedorova EI, et al. Oxygen in the atmosphere of large cities and people breath problems. Geophysical Processes and Biosphere. 2014;13(2):5–19. EDN: SCKXXN
- Grigoriev II, Paramonov IG, Ten MM. A quick guide to making medical weather forecasts. Moscow: Gidrometeoizdat; 1974. 12 p. (In Russ.) URL: https://rusneb.ru/catalog/ 000199_000009_007418025
- Petrov VN. Features of the influence of the partial gradient of oxygen density in the atmospheric air on the health of the population living in the Arctic zone of the Russian Federation. Herald of the Kola Science Center of the RAS. 2015;(3):82–92. EDN: VBAYNZ
- Aghajanyan NA, Chizhov AYa. Hypoxic, hypocapnic, hypercapnic conditions. Moscow: Medicine; 2003. 93 p. (In Russ.) EDN: QLEQMZ
- Zhuravlev AI. Quantum biophysics of animals and humans. Moscow: BINOM; 2011. 398 p. (In Russ.) EDN: QKTOKZ
- Berezovsky VA, Yanko RV, Chaka EG, Litovka IG. The influence of intermittent hypoxia and hyperoxia on the respiratory part of the lungs. Pulmonologiya. 2013;(2):57–60. doi: 10.18093/0869-0189-2013-0-2-57-60 EDN: QIKWYJ
- Dolgikh VT, Govorova NV, Orlov YuP, et al. Pathophysiological aspects of hyperoxia in anesthesiologist-reanimatologist’’s practice. General Reanimatology. 2017;13(3):83–93. doi: 10.15360/1813-9779-2017-3-83-93 EDN: YYVPHX
- Orlov YuP, Govorova NV, Lukach VN, et al. Hyperoxia in the ICU and what has changed after 100 years in the tactics of using oxygen in medicine: areview. Annals of Critical Care. 2022;(2):80–94. (In Russ). doi: 10.21320/1818-474X-2022-2-80-94 EDN: CRDEJI
- Ovcharova VF, Butyeva IV, Shveinova TG, Aleshina TP. Specialized weather forecast for medical purposes and prevention of meteopathic reactions. Problems of Balneology, Physiotherapy and Exercise Therapy. 1974;(2):109–119. (In Russ.)
- Nikberg II, Revutsky EL, Sakali LI. Human heliometeotropic reactions. Kiev: Zdorov’e; 1986. 144 p. (In Russ.) URL: https://rusneb.ru/catalog/010003_000061_db70c1d25937e2a5877fbc87235da9d0
- Ragozin ON, Tatarinzev PB, Pogonysheva IA, et al. Corrections for geographical differences in photoperiod in time-series analysis. Ekologiya cheloveka (Human Ecology). 2023;30(2):139–149. doi: 10.17816/humeco117532 EDN: VVYOJA
- Vladimirsky BM, Temuryants NA, Martynyuk VS. Space weather and our life. Moscow: DMK Press; 2022. 220 р. (In Russ.) ISBN: 5-85099-146-8
- Belisheva NK, Martynova AA, Pryanichnikov SV, et al. Linkage of parameters of the interplanetary magnetic fieldand the solar wind in the polar cusp with the psychophysiological state of the residents of Spitzbergen archipelago. Herald of the Kola Science Center of the RAS. 2018;10(4):5–24. doi: 10.25702/KSC.2307-5228.2018.10.4.5-24 EDN: YYSRUD
- Vishnevskii VV, Rogacheva SM. Biotropic impact of space weather (based on the materials of the Russian-Ukrainian monitoring “Geliomed” 2003-2010). St. Petersburg: VVM; 2010. 312 р. (In Russ.) ISBN: 978-5-9651-0548-9
- Vladimirsky BM, Narmansky VYa, Temuryants NA. Cosmic rhythms in the magnetosphere, atmosphere, habitat, bio-, noospheres, in the earth’s crust. Simferopol; 1994. 176 р. (In Russ.) EDN: XVSYPD
- Martynyuk VS, Temuryants NA. The experimental verification of electromagnetic hypothesis of solarbiosphere connections. Scientific Notes of V.I. Vernadsky Crimean Federal University. Biology. Chemistry. 2007;20(1):8–27.
补充文件
