Зависимость квантового выхода фотосинтеза от поглощения света фитопланктоном: получение количественных связей для оценки первичной продукции в Черном море

IF 0.7 Q4 OCEANOGRAPHY Physical Oceanography Pub Date : 2021-03-12 DOI:10.22449/0233-7584-2021-1-73-84
T. Y. Churilova, V. Suslin, Heidi M. Sosik
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Abstract

Purpose . Based on the results of the investigations that were performed during the scientific cruise and included the water hydrophysical characteristics, the chlorophyll a concentration, the photosynthesis-light dependences, the spectral light absorption coefficients by phytoplankton, and the spectral quantum downwelling irradiance, the dependence of the photosynthesis quantum yield upon the environmental factors was studied with the purpose of adaptation of the developed for the Baltic Sea approach for assessing the photosynthesis quantum yield, to the Black Sea. Methods and Results . Complex hydrophysical and biological studies were carried out at several depths within the photosynthesis zone. Spectral bio-optical parameters were measured in accordance with the modern NASA protocol (2018). The experiments on studying the photosynthesis-light relationship were performed under the temperature and light conditions close to the in situ ones. The quantum yield of photosynthesis was calculated based on the parameters of photosynthesis-light dependences (photosynthesis efficiency, light saturation parameter) and the spectral light absorption coefficients by phytoplankton pigments. It was found out that the main photosynthetic characteristics of phytoplankton including the photosynthesis maximum quantum yield and the portion of photoprotective accessory pigments in the total light absorption by phytoplankton varied with depth within the euphotic zone due to phytoplankton adaptation to the environment factors during the period of water seasonal stratification. The relationship between the photosynthesis quantum yield and the number of solar energy quanta absorbed by the photosynthetically active phytoplankton pigments was revealed. The results of the performed research allowed for modifying the equation for calculating the quantum yield for the Black Sea environment conditions according to the approach developed for the other water areas. Conclusions . For the first time, comprehensive studies carried out in the Black Sea and including the measurements of the photosynthesis-light dependences, the spectral light absorption coefficients by phytoplankton and spectral downwelling irradiance at particular optical depths within the euphotic zone enabled to reveal the equation for calculating the photosynthesis quantum yield, which could be applied for calculating primary production of the Black Sea using the spectral approach based both on the results of in situ measurements and the remote sensing data.
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光合作用量子输出对浮游植物吸收光的依赖性:获得定量联系以评估黑海初级产品
目的。根据科学巡航期间进行的调查结果,包括水体物理特性、叶绿素a浓度、光合作用对光的依赖性、浮游植物的光谱光吸收系数和光谱量子下流辐照度,研究了光合作用量子产率对环境因子的依赖性,目的是将为评估光合作用量子产率而开发的波罗的海方法适用于黑海。方法与结果。在光合作用带的几个深度进行了复杂的水物理和生物研究。光谱生物光学参数根据现代NASA协议(2018年)进行测量。研究光合作用-光关系的实验是在接近原位的温度和光照条件下进行的。根据光合作用-光依赖性参数(光合效率、光饱和度参数)和浮游植物色素光谱光吸收系数计算光合作用的量子产率。研究发现,浮游植物的主要光合特性,包括光合最大量子产率和光保护辅助色素在浮游植物总光吸收中所占的比例,由于浮游植物在水体季节分层期间对环境因子的适应,在光带内随深度的变化而变化。揭示了光合活性浮游植物色素吸收的太阳能量子数与光合量子产率之间的关系。所进行的研究结果允许根据为其他水域开发的方法修改计算黑海环境条件的量子产率的方程。结论。在黑海进行的综合研究首次揭示了计算光合作用量子产率的公式,其中包括对光合作用对光的依赖性、浮游植物的光谱光吸收系数和在光带内特定光学深度的光谱下流辐照度的测量。它可用于计算黑海的初级产量,使用基于现场测量结果和遥感数据的光谱方法。
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来源期刊
Physical Oceanography
Physical Oceanography OCEANOGRAPHY-
CiteScore
1.80
自引率
25.00%
发文量
8
审稿时长
24 weeks
期刊最新文献
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