Olga Akulova scite author profile

Olga Akulova

5Publications

5Citation Statements Received

0Citation Statements Given

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Affiliations

Siberian Branch of the Russian Academy of Sciences, Russian Academy of Sciences

Publications

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Evaluation of Trophic Status of Freshwater Lakes in Altai Krai in 2013–2016 with Hydro-Optical Characteristics

Sutorikhin¹,

Akulova²,

Bukaty³

et al. 2017

izvasu

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В связи с тем, что главным из показателей загряз-ненности различных водоемов считается определе-ние их трофности, работа посвящена методам опре-деления трофического статуса пресноводных озер Алтайского края. Трофический статус водоема опре-деляется показателями физико-химической и биоло-гической природы. Оценка трофического статуса озер, как правило, базируется на количественных зависимо-стях показателей биологической продуктивности вод от содержания в них элементов минерального питания (азота и фосфора), обеспеченность которыми оказыва-ет определяющее влияние на развитие и фотосинтез фитопланктона. Анализ данных, полученных автора-ми за период исследований в 2013-2016 гг. трех разно-типных водоемов (озер Лапа, Красиловское и Большое Островное), позволяет заключить, что для определе-ния трофического статуса (наряду с трофическим ин-дексом Карлсона) можно использовать значения инте-гральной характеристики -спектрального показателя ослабления света ε(λ). Конкретно: олиготрофному типу водоемов будет соответствовать диапазон значе-ний ε(λ) от 0 до 2 м -1 , мезотрофному -от 2 до 3 м -1 , эвтрофному -от 3 до 23 м -1 , гиперэвтрофному -от 23 м -1 и более. В результате расчетов получено, что трофический статус оз. Лапа можно охарактери-зовать как эвтрофное, оз. Красиловское -эвтроф-но-гиперэвтрофное, оз. Большое Островное -гипе-рэвтрофное.Ключевые слова: озера, трофность, показатель осла-бления света, хлорофилл, прозрачность воды по диску Секки, фосфор.The paper deals with methods for trophic status evaluation of freshwater lakes in Altai Krai, because the main indicator of pollution is linked with physical-chemical and biological indicators. The evaluation is usually based on quantitative dependences of water biological productivity on mineral nutrients (nitrogen and phosphorus) content that has a decisive influence on the development and photosynthesis of phytoplankton. The analysis of the research data on three different types of lakes (Lapa, Krasilovskoye and Bolshoye Ostrovnoye) obtained in 2013-2016 suggests that one can use an integral characteristic, i.e. spectral light attenuation ε(λ) for trophic status evaluation (along with the Carlson's trophic index). For instance, ε(λ) values within 0-2 m -1 -correspond to oligotrophic type of water bodies, from 2 to 3 m -1 -to mesotrophic, from 3 to 23 m -1 -to eutrophic, from 23 m -1 and more -to hyper eutrophic ones. According to calculations, Lake Lapa is referred to eutrophic, Lake Krasilovskoyeto eutrophic and hyper eutrophic, and Lake Bolshoye Ostrovnoye -to hyper eutrophic ones.

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Seasonal Dynamics of Spectral Light Attenuation in Lakes of the Altai Krai

Sutorikhin¹,

Bukaty²,

Akulova³

2013

IzvASU

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Variability in the Index of Light Absorption by a Yellow Substance in the Surface Layer of Lake Teletskoye

2018

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Analysis of Suspension Effect on Water Transparency in Freshwater Lakes of Altai Krai

Sutorikhin¹,

Bukaty²,

Akulova³

et al. 2016

izvasu

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Influence of Wind Currents on Spectral Light Attenuation in Water

Akulova¹,

Andrukhova²,

Bukatyi³

et al. 2020

Известия АлтГУ

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The paper deals with wind current dependences of spectral light attenuation measured in natural waters of lakes in the south of West Siberia. To reveal the significance of abiotic, i.e., physical factors affecting water transparency, we calculate relative spectral contributions of individual optically active water components in freshwater lakes established during hydrophysical research of 2019. In addition, the published data on the daily dynamics of spectral water transparency obtained by researchers of IWEP SB RAS for Lake Krasilovskoye in 2016 are partially analyzed. The greatest spectral contribution to the total light attenuation falls on suspension consisting mainly of phytoplankton algae particles and yellow matter. Wind current velocity is a determining factor affecting light attenuation dynamics because the upward redistribution of particle concentration in upper layers of the lake caused by wind-induced turbulent mixing occurs faster than the change in the yellow matter content as a result of physical-chemical processes responsible for its formation. In such cases, the intensity of turbulence (turbulent mass exchange) is usually characterized by flow (integral) Richardson number Ri, which is directly dependent on wind current velocity. In our experiment, Ri equals to 1.5.

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Olga Akulova

Evaluation of Trophic Status of Freshwater Lakes in Altai Krai in 2013–2016 with Hydro-Optical Characteristics

Seasonal Dynamics of Spectral Light Attenuation in Lakes of the Altai Krai

Variability in the Index of Light Absorption by a Yellow Substance in the Surface Layer of Lake Teletskoye

Analysis of Suspension Effect on Water Transparency in Freshwater Lakes of Altai Krai

Influence of Wind Currents on Spectral Light Attenuation in Water

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