Балл 10.61
Число соавторов публикации - 8
Целевой показатель госзадания:
Целевой показатель госзадания:
- Рецензируемые научные статьи в периодических журналах, индексируемых в WEB of Science (WoS) - Q1 - Формула: 30/корень квадратный из Nавторов = 30/корень квадратный из 8 (2.8284) = 10.61
- Рецензируемые научные статьи в периодических журналах, индексируемых в SCOPUS - Q1 - Формула: 12/корень квадратный из Nавторов = 12/корень квадратный из 8 (2.8284) = 4.24
КБПР (данная функция работает в тестовом режиме) 11.25
Количество соавторов публикации - 8
Публикации в изданиях, индексируемых в Web of Science Core Collection: Q1, K=20
Публикации в изданиях, индексируемых в Web of Science Core Collection: Q1, K=20
-
Ефимова Т. В.: количество аффилиаций - 1, вклад в КБПР публикации:
формула: K/(Nсоавторов*Nаффил) = 20/(8*1) = 2.5 -
Чурилова Т. Я.: количество аффилиаций - 1, вклад в КБПР публикации:
формула: K/(Nсоавторов*Nаффил) = 20/(8*1) = 2.5 -
Скороход Е. Ю.: количество аффилиаций - 1, вклад в КБПР публикации:
формула: K/(Nсоавторов*Nаффил) = 20/(8*1) = 2.5 -
Бучельников А. С.: количество аффилиаций - 2, вклад в КБПР публикации:
формула: K/(Nсоавторов*Nаффил) = 20/(8*2) = 1.25 -
Моисеева Н. А.: количество аффилиаций - 1, вклад в КБПР публикации:
формула: K/(Nсоавторов*Nаффил) = 20/(8*1) = 2.5
Статья в периодическом издании
Light Absorption by Optically Active Components in the Arctic Region (August 2020) and the Possibility of Application to Satellite Products for Water Quality Assessment
| DOI | https://doi.org/10.3390/rs15174346 |
|---|---|
| Язык | Английский |
| Журнал | Remote Sensing ISSN: —; Онлайн ISSN: 2072-4292 |
| Год | 2023 |
| Выходные данные | Том: 15, Выпуск: 17, Статья: 4346, Страниц (электронный ресурс): 21 |
| Авторы | |
| Даты |
Поступила в редакцию: 19.06.2023 После доработки 26.07.2023 Принята к публикации: 30.08.2023 Опубликована: 04.09.2023 |
| Абстракт | In August 2020, during the 80th cruise of the R/V “Akademik Mstislav Keldysh”, the chlorophyll a concentration (Chl-a) and spectral coefficients of light absorption by phytoplankton pigments, non-algal particles (NAP) and colored dissolved organic matter (CDOM) were measured in the Norwegian Sea, the Barents Sea and the adjacent area of the Arctic Ocean. It was shown that the spatial distribution of the three light-absorbing components in the explored Arctic region was non-homogenous. It was revealed that CDOM contributed largely to the total non-water light absorption (atot(λ) = aph(λ) + aNAP(λ) + aCDOM(λ)) in the blue spectral range in the Arctic Ocean and the Barents Sea. The fraction of NAP in the total non-water absorption was low (less than 20%). The depth of the euphotic zone depended on atot(λ) in the surface water layer, which was described by a power equation. The Arctic Ocean, the Norwegian Sea and the Barents Sea did not differ in the Chl-a-specific light absorption coefficients of phytoplankton. In the blue maximum of phytoplankton absorption spectra, Chl-a-specific light absorption coefficients of phytoplankton in the upper mixed layer (UML) were higher than those below the UML. Relationships between phytoplankton absorption coefficients and Chl-a were derived by least squares fitting to power functions for the whole visible domain with a 1 nm interval. The OCI, OC3 and GIOP algorithms were validated using a database of co-located results (day-to-day) of in situ measurements (n = 63) and the ocean color scanner data: the Moderate Resolution Imaging Spectroradiometer (MODIS) onboard the Terra (EOS AM) and Aqua (EOS PM) satellites, the Visible and Infrared Imager/Radiometer Suite (VIIRS) onboard the Suomi National Polar-orbiting Partnership (S-NPP) and JPSS-1 satellites (also known as NOAA-20), and the Ocean and the Land Color Imager (OLCI) onboard the Sentinel-3A and Sentinel-3B satellites. The comparison showed that despite the technological progress in optical scanners and the algorithms refinement, the considered standard products (chlor_a, chl_ocx, aph_443, adg_443) carried little information about inherent optical properties in Arctic waters. Based on the statistic metrics (Bias, MdAD, MAE and RMSE), it was concluded that refinement of the algorithm for retrieval of water bio-optical properties based on remote sensing data was required for the Arctic region.
Ключевые слова: total non-water spectral light absorption coefficients, chlorophyll a, light absorption parameterization, remote sensing, validation of satellite products, the Arctic Region |
| Сведения о финансировании, указанные в публикации | The sampling of the bio-optical data in the expedition and laboratory processing of samples were conducted within the framework of the research topic of IBSS (No. 121040100327-3). The analysis of the variability of spectral light absorption and parameterization of light absorption by all optically active components was supported by the Russian Science Foundation (grant No. 22-27-00790). The shipboard PAR measurements were carried out as part of the state assignment of SIO RAS (theme No. FMWE-2021-0001), and its processing was performed with financial support through a grant from the Ministry of Education and Science of Russia (No. 075-15-2021-934) (The study of anthropogenic and natural factors of changes in the composition of air and environmental objects in Siberia and the Russian sector of the Arctic in conditions of rapid climate change was carried out using the Tu-134 Optik flying laboratory). |
| URL | https://www.mdpi.com/2072-4292/15/17/4346 |
| Дополнительные сведения |
Запись создана: 02-11-2023 15:32
Последнее изменение: 22-12-2023 14:35
Библиографическая ссылка:
Efimova T., Churilova T., Skorokhod E., Suslin V., Buchelnikov A., Glukhovets D., Khrapko A., Moiseeva N. Light Absorption by Optically Active Components in the Arctic Region (August 2020) and the Possibility of Application to Satellite Products for Water Quality Assessment // Remote Sensing. 2023. Vol. 15, iss. 17. Art. no. 4346 (21 p.). https://doi.org/10.3390/rs15174346
[WoS 5.000/Q1][SCOPUS 1.136/Q1]
Efimova T., Churilova T., Skorokhod E., Suslin V., Buchelnikov A., Glukhovets D., Khrapko A., Moiseeva N. Light Absorption by Optically Active Components in the Arctic Region (August 2020) and the Possibility of Application to Satellite Products for Water Quality Assessment // Remote Sensing. 2023. Vol. 15, iss. 17. Art. no. 4346 (21 p.). https://doi.org/10.3390/rs15174346
[WoS 5.000/Q1][SCOPUS 1.136/Q1]
Экспертное заключение: № 278, 2023
Индексация на момент включения в базу:
Web of Science
Web of Science
- Статус
- Да
- Импакт-фактор/Квартиль(год)
- 5.000/Q1 (2022)
- Идентификатор
- 001065330700001
- Статус
- Да
- Импакт-фактор/Квартиль(год)
- 1.136/Q1 (2022)
- Идентификатор
- 2-s2.0-85170360897
В публикации указано госзадание:
№ 121040100327-3 «Изучение пространственно-временной организации водных и сухопутных экосистем с целью развития системы оперативного мониторинга на основе данных дистанционного зондирования и ГИС-технологий» (предыдущий номер АААА-А19-119061190081-9)