Photosynthetic Physiological Response of Porphyra yezoensis to Light Change at Different CO 2 Concentrations

The effect of different CO 2 concentrations and their subsequent light changes on the photosynthetic characteristics of Porphyra yezoensis are not well understood. The relationship between the availability of CO 2 and light to physiological traits of the thalli could help understand the response and...

Full description

Bibliographic Details
Published in:Water
Main Authors: Cheng Chen, Yanyan Zhang, Zhenjie Feng, Miaomiao Wu, Tianpeng Xu, Sen Qiao, Wen Wang, Jing Ma, Juntian Xu
Format: Article in Journal/Newspaper
Language:English
Published: MDPI AG 2023
Subjects:
ocean acidification
light change
Porphyra yezoensis
photosynthetic physiology
Hydraulic engineering
TC1-978
Water supply for domestic and industrial purposes
TD201-500
Ocean acidification
Online Access:https://doi.org/10.3390/w15040781
https://doaj.org/article/733f3e4f6e33422a8f36136e30dfcd98
Description
Summary:The effect of different CO 2 concentrations and their subsequent light changes on the photosynthetic characteristics of Porphyra yezoensis are not well understood. The relationship between the availability of CO 2 and light to physiological traits of the thalli could help understand the response and adaptation mechanisms of P. yezoensis to extreme weather changes. In this study, the photosynthetic response of P. yezoensis to light changes at different CO 2 concentrations was determined. Under low light intensity, the high CO 2 concentration promoted the relative growth rate (RGR) of P. yezoensis by 22.79% compared to that of ambient CO 2 treatment. The net photosynthetic rate and phycoerythrin (PE) content under high CO 2 were also significantly greater than those under ambient CO 2 treatment at low light therapy. Under high light intensity, high CO 2 exacerbated the inhibitory effect of light on the RGR of thalli. The net photosynthetic rate and PE content were significantly reduced by 12.53% and 14.06% at elevated CO 2 concentration under a high light intensity, respectively. Furthermore, the net photosynthetic rate was significantly decreased when the light intensity was rapidly reduced, especially under simultaneously elevated CO 2 concentrations. These findings indicate that elevated CO 2 concentration increased the RGR and PE content at low light intensity of P. yezoensis . In addition, this study provides a theoretical basis for the response and adaptation mechanism of P. yezoensis to extreme weather changes.

Similar Items