Dmitriy Deryagin scite author profile

Dmitriy Deryagin

3Publications

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Affiliations

Institute of Oceanology. PP Shirshov Russian Academy of Sciences, Moscow Institute of Physics and Technology

Publications

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Advantage of Regional Algorithms for the Chlorophyll-a Concentration Retrieval from In Situ Optical Measurements in the Kara Sea

Korchemkina

Deryagin

Павлова

et al. 2022

JMSE

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The data of the sea reflectance coefficient were obtained during the cruise of the R/V “Akademik Ioffe” (10 August–8 September 2021) in the Kara Sea beyond the Arctic Circle. A total of 28 measurements of sea reflectance were performed in different conditions ranging from estuarine zones to open ocean. In addition, at 10 stations, water samples were taken, and chlorophyll-a concentrations were determined using the fluorometric method. In situ reflectance data were compared to satellite data (MODIS Aqua/Terra, Sentinel OLCI 3A/B, VIIRS SNPP) obtained within 24 h before and after the measurement. It was shown that, in general, an overestimation of remote sensing reflectance is observed in short-wave channels (412, 443, 469 nm for MODIS; 410, 412.5, 442.5 for OLCI) and underestimation in long-wave channels (708.75, 753.75 nm for OLCI). The obtained in situ chlorophyll-a concentrations were compared with the results of standard models (GIOP, OC2, OC3, OC4), and regional algorithms (semi-analytical MHI, empirical K17) were applied to the in situ and remotely sensed reflectances. In the cases of GIOP and OC4, unrealistic concentrations of chlorophyll-a were obtained. Regional algorithms developed earlier, specifically for the Kara Sea, showed good correlation (0.6 and 0.76) with in situ measurements. Despite the approximately 20% overestimation of chlorophyll-a by both regional algorithms, they can be used to obtain chlorophyll-a concentrations in the Kara Sea in a concentration range of <1 mg/m3.

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Considering of Biooptical Characteristics Stratification for Light Fields Calculation in Type I Waters

Yushmanova

Deryagin

Glukhovets

2022

JOR

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A method for calculating the vertical profiles of the spectral absorption coefficient of suspended particles is presented, taking into account the stratification of the seawater extinction coefficient the surface layer. The method was developed on the basis of data obtained in 84-th cruise of the R/V “Akademik Mstislav Keldysh” in the Arctic Ocean (“European Arctic 2021”, July 24 – August 26, 2021). The calculated profiles were used to estimate the vertical distribution of the concentration of chlorophyll a and further numerical simulation of the downwelling flux of photosynthetically active radiation. Comparison of the calculated light fields parameters with the results of in situ determinations showed good agreement (the root-mean-square error between the measured and calculated PAR values is 8 %).

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Regional Algorithm for Estimating High Coccolithophore Concentration in the Northeastern Part of the Black Sea

et al. 2023

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A modified regional algorithm to quantify the coccolithophore concentration in the northeastern part of the Black Sea under conditions of intense bloom is presented. To modify the algorithm, the data of in situ measurements of coccolithophore Emiliania huxleyi abundance performed in June 2017 and 2022 (when the maximum values were 9 × 106 and 13 × 106 Cells L−1, respectively), as well as the data from hydro-optical and satellite measurements, were used. In addition, the ratio between the number of detached coccoliths and coccolithophore cells was taken into account. Based on the expanded array of in situ data, the optimal values of the regional algorithm parameters were obtained. The modified algorithm makes it possible to obtain more accurate results in areas of high coccolithophore concentrations and takes into account the contribution of coccoliths. To test the sensitivity of the algorithm to variations in bio-optical characteristics, model calculations were performed using Hydrolight software. The updated algorithm is significantly less sensitive to variations in chlorophyll concentration and CDOM absorption coefficient than its previous version.

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