Photosynthetic Responses of Racomitrium japonicum L. to Strontium Stress Evaluated through Chlorophyll a Fluorescence OJIP Transient Analysis-Reference-Cited by-同舟云学术

Photosynthetic Responses of Racomitrium japonicum L. to Strontium Stress Evaluated through Chlorophyll a Fluorescence OJIP Transient Analysis

Published:2024-02-22 Issue:5 Volume:13 Page:591
ISSN:2223-7747
Container-title:Plants
language:en
Short-container-title:Plants

Author:

Ren Hui¹²,Lu Yunmei²,Tang Yunlai¹,Ren Peng¹,Tang Hao³,Chen Qunlong⁴,Kuang Peigang⁴,Huang Renhua²,Zhu Wenkun¹,Chen Ke¹⁵

Affiliation:

1. School of Life Science and Engineering, Southwest University of Science and Technology, Mianyang 621010, China

2. College of Biological Engineering, Jingchu University of Technology, Jingmen 448000, China

3. Ecological Protection and Development Research Institute of Aba Tibetan and Qiang Autonomous Prefecture, Aba 623000, China

4. Administration Bureau of Jiuzhaigou National Nature Reserve, Jiuzhaigou 623402, China

5. Engineering Research Center of Biomass Materials, Ministry of Education, Southwest University of Science and Technology, Mianyang 621010, China

Abstract

Nuclides pollution and its biological effects are of great concern, especially for bryophytes during their terrestrial adaptation. Understanding PSII activity and electron transport response is vital for comprehending moss abiotic stress reactions. However, little is known about the photosynthetic performance of moss under nuclide treatment. Therefore, this study aimed to evaluate the chlorophyll fluorescence of Racomitrium japonicum L. The moss was subjected to Sr2+ solutions at concentrations of 5, 50, and 500 mg/L to evaluate chlorophyll a fluorescence using the OJIP test. Moderate and high Sr2+ stress led to inner cell membrane dissolution and reduced chlorophyll content, indicating impaired light energy absorption. At 5 mg/L Sr2+, fluorescence kinetics showed increased light energy capture, energy dissipation, and total photosynthetic driving force, thus stimulating transient photosynthetic activity of PSII and improving PSI reduction. Linear electron transfer and PSII stability significantly decreased under moderate and high Sr2+ stress, indicating potential photosynthetic center damage. Cyclic electron transfer (CEF) alleviated photosynthetic stress at 5 mg/L Sr2+. Thus, low Sr2+ levels stimulated CEF, adjusting energy flux and partitioning to protect the photosynthetic apparatus. Nevertheless, significant damage occurred due to inefficient protection under high Sr2+ stress.

Funder

Sichuan province transfer payment application project

Jingmen key science and technology plan projects

Innovation and entrepreneurship project of the college student in Sichuan Province

Publisher

MDPI AG

Link

https://www.mdpi.com/2223-7747/13/5/591/pdf

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