Zhikai Yin scite author profile

Background: Clarifying the relationship between photosynthesis and irradiance and accurately quantifying photosynthetic performance are of importance to calculate the productivity of phytoplankton, whether in aquatic ecosystems modelling or obtaining more economical production. Results:The photosynthetic performance of seven phytoplankton species was characterized by four typical photosynthesis-irradiance (P-I) response models. However, the differences were found between the returned values to photosynthetic characteristics by different P-I models. The saturation irradiance (I sat ) was distinctly underestimated by model 1, and the maximum net photosynthetic rate (P nmax ) was quite distinct from its measured values, due to the asymptotic function of the model. Models 2 and 3 lost some foundation to photosynthetic mechanisms, that the returned I sat showed significant differences with the measured data. Model 4 for higher plants could reproduce the irradiance response trends of photosynthesis well for all phytoplankton species and obtained close values to the measured data, but the fitting curves exhibited some slight deviations under the low intensity of irradiance. Different phytoplankton species showed differences in photosynthetic productivity and characteristics. Platymonas subcordiformis showed larger intrinsic quantum yield (α) and lower I sat and light compensation point (I c ) than Dunaliella salina or Isochrysis galbana. Microcystis sp., especially M. aeruginosa with the largest P nmax and α among freshwater phytoplankton strains, exhibited more efficient light use efficiency than two species of green algae. Conclusions:The present work will be useful both to describe the behavior of different phytoplankton in a quantitative way as well as to evaluate the flexibility and reusability of P-I models. Meanwhile we believe this research could provide important insight into the structure changes of phytoplankton communities in the aquatic ecosystems. Publisher's NoteSpringer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.

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Effects of operating conditions on microbial consortium of the heterotrophic ammonia oxidation process

Yin

Yang

Wang

et al. 2021

Bioresource Technology

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Quantizing photosynthetic performance of phytoplankton using photosynthesis-irradiance response models

Yang

Liu

Yin

et al. 2019

Preprint

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Background: Clarifying the relationship between photosynthesis and irradiance and accurately quantizing photosynthetic performance are of importance to calculate the productivity of phytoplankton, whether in aquatic ecosystems modelling or obtaining more economical production.Results: The photosynthetic performance of seven phytoplankton species was characterized by four typical photosynthesis-irradiance (P-I) response models. However, the differences were found between the returned values to photosynthetic characteristics by different P-I models. The saturation irradiance (Isat) was distinctly underestimated by model 1, and the maximum net photosynthetic rate (Pnmax) was quite distinct from its measured values, due to the asymptotic function of the model. Models 2 and 3 lost some foundation to photosynthetic mechanisms, that the returned Isat showed significant differences with the measured data. Model 4 for higher plants could reproduce the irradiance response trends of photosynthesis well for all phytoplankton species and obtained close values to the measured data, but the fitting curves exhibited some slight deviations under the low intensity of irradiance. Different phytoplankton species showed differences in photosynthetic productivity and characteristics. P. subcordiformis showed larger intrinsic quantum yield (α) and lower Isat and light compensation point (Ic) than D. salina or I. galbana. Microcystis sp., especially M. aeruginosa with the largest Pnmax and α among freshwater phytoplankton strains, exhibited more efficient light use efficiency than two species of green algae.Conclusions: The present work will be useful both to describe the behavior of different phytoplankton in a quantitative way as well as to evaluate the flexibility and reusability of P-I models. Meanwhile we believe this research could provide important insight into the structure changes of phytoplankton communities in the aquatic ecosystems.

show abstract

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Zhikai Yin

Quantifying photosynthetic performance of phytoplankton based on photosynthesis–irradiance response models

Effects of operating conditions on microbial consortium of the heterotrophic ammonia oxidation process

Quantizing photosynthetic performance of phytoplankton using photosynthesis-irradiance response models

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