Application of Chlorophyll Fluorescence Analysis Technique in Studying the Response of Lettuce (Lactuca sativa L.) to Cadmium Stress

To reveal the impact of cadmium stress on the physiological mechanism of lettuce, simultaneous determination and correlation analyses of chlorophyll content and photosynthetic function were conducted using lettuce seedlings as the research subject. The changes in relative chlorophyll content, rapid...

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Published inSensors (Basel, Switzerland) Vol. 24; no. 5; p. 1501
Main Authors Zhou, Lina, Zhou, Leijinyu, Wu, Hongbo, Jing, Tingting, Li, Tianhao, Li, Jinsheng, Kong, Lijuan, Zhu, Fengwu
Format Journal Article
LanguageEnglish
Published Switzerland MDPI AG 26.02.2024
MDPI
Subjects
Cadmium
cadmium stress
Chlorophyll
chlorophyll fluorescence parameters
Correlation analysis
Energy transfer
estimation model
Flowers & plants
Fluorescence
Heavy metals
Kinetics
Lactuca sativa L
Leaves
Lettuce
Methods
Photolysis
Photosynthesis
Physiology
relative chlorophyll content
China
cadmium stress
Lactuca sativa L
estimation model
chlorophyll fluorescence parameters
relative chlorophyll content
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Abstract To reveal the impact of cadmium stress on the physiological mechanism of lettuce, simultaneous determination and correlation analyses of chlorophyll content and photosynthetic function were conducted using lettuce seedlings as the research subject. The changes in relative chlorophyll content, rapid chlorophyll fluorescence induction kinetics curve, and related chlorophyll fluorescence parameters of lettuce seedling leaves under cadmium stress were detected and analyzed. Furthermore, a model for estimating relative chlorophyll content was established. The results showed that cadmium stress at 1 mg/kg and 5 mg/kg had a promoting effect on the relative chlorophyll content, while cadmium stress at 10 mg/kg and 20 mg/kg had an inhibitory effect on the relative chlorophyll content. Moreover, with the extension of time, the inhibitory effect became more pronounced. Cadmium stress affects both the donor and acceptor sides of photosystem II in lettuce seedling leaves, damaging the electron transfer chain and reducing energy transfer in the photosynthetic system. It also inhibits water photolysis and decreases electron transfer efficiency, leading to a decline in photosynthesis. However, lettuce seedling leaves can mitigate photosystem II damage caused by cadmium stress through increased thermal dissipation. The model established based on the energy captured by a reaction center for electron transfer can effectively estimate the relative chlorophyll content of leaves. This study demonstrates that chlorophyll fluorescence techniques have great potential in elucidating the physiological mechanism of cadmium stress in lettuce, as well as in achieving synchronized determination and correlation analyses of chlorophyll content and photosynthetic function.
AbstractList To reveal the impact of cadmium stress on the physiological mechanism of lettuce, simultaneous determination and correlation analyses of chlorophyll content and photosynthetic function were conducted using lettuce seedlings as the research subject. The changes in relative chlorophyll content, rapid chlorophyll fluorescence induction kinetics curve, and related chlorophyll fluorescence parameters of lettuce seedling leaves under cadmium stress were detected and analyzed. Furthermore, a model for estimating relative chlorophyll content was established. The results showed that cadmium stress at 1 mg/kg and 5 mg/kg had a promoting effect on the relative chlorophyll content, while cadmium stress at 10 mg/kg and 20 mg/kg had an inhibitory effect on the relative chlorophyll content. Moreover, with the extension of time, the inhibitory effect became more pronounced. Cadmium stress affects both the donor and acceptor sides of photosystem II in lettuce seedling leaves, damaging the electron transfer chain and reducing energy transfer in the photosynthetic system. It also inhibits water photolysis and decreases electron transfer efficiency, leading to a decline in photosynthesis. However, lettuce seedling leaves can mitigate photosystem II damage caused by cadmium stress through increased thermal dissipation. The model established based on the energy captured by a reaction center for electron transfer can effectively estimate the relative chlorophyll content of leaves. This study demonstrates that chlorophyll fluorescence techniques have great potential in elucidating the physiological mechanism of cadmium stress in lettuce, as well as in achieving synchronized determination and correlation analyses of chlorophyll content and photosynthetic function.
To reveal the impact of cadmium stress on the physiological mechanism of lettuce, simultaneous determination and correlation analyses of chlorophyll content and photosynthetic function were conducted using lettuce seedlings as the research subject. The changes in relative chlorophyll content, rapid chlorophyll fluorescence induction kinetics curve, and related chlorophyll fluorescence parameters of lettuce seedling leaves under cadmium stress were detected and analyzed. Furthermore, a model for estimating relative chlorophyll content was established. The results showed that cadmium stress at 1 mg/kg and 5 mg/kg had a promoting effect on the relative chlorophyll content, while cadmium stress at 10 mg/kg and 20 mg/kg had an inhibitory effect on the relative chlorophyll content. Moreover, with the extension of time, the inhibitory effect became more pronounced. Cadmium stress affects both the donor and acceptor sides of photosystem II in lettuce seedling leaves, damaging the electron transfer chain and reducing energy transfer in the photosynthetic system. It also inhibits water photolysis and decreases electron transfer efficiency, leading to a decline in photosynthesis. However, lettuce seedling leaves can mitigate photosystem II damage caused by cadmium stress through increased thermal dissipation. The model established based on the energy captured by a reaction center for electron transfer can effectively estimate the relative chlorophyll content of leaves. This study demonstrates that chlorophyll fluorescence techniques have great potential in elucidating the physiological mechanism of cadmium stress in lettuce, as well as in achieving synchronized determination and correlation analyses of chlorophyll content and photosynthetic function.To reveal the impact of cadmium stress on the physiological mechanism of lettuce, simultaneous determination and correlation analyses of chlorophyll content and photosynthetic function were conducted using lettuce seedlings as the research subject. The changes in relative chlorophyll content, rapid chlorophyll fluorescence induction kinetics curve, and related chlorophyll fluorescence parameters of lettuce seedling leaves under cadmium stress were detected and analyzed. Furthermore, a model for estimating relative chlorophyll content was established. The results showed that cadmium stress at 1 mg/kg and 5 mg/kg had a promoting effect on the relative chlorophyll content, while cadmium stress at 10 mg/kg and 20 mg/kg had an inhibitory effect on the relative chlorophyll content. Moreover, with the extension of time, the inhibitory effect became more pronounced. Cadmium stress affects both the donor and acceptor sides of photosystem II in lettuce seedling leaves, damaging the electron transfer chain and reducing energy transfer in the photosynthetic system. It also inhibits water photolysis and decreases electron transfer efficiency, leading to a decline in photosynthesis. However, lettuce seedling leaves can mitigate photosystem II damage caused by cadmium stress through increased thermal dissipation. The model established based on the energy captured by a reaction center for electron transfer can effectively estimate the relative chlorophyll content of leaves. This study demonstrates that chlorophyll fluorescence techniques have great potential in elucidating the physiological mechanism of cadmium stress in lettuce, as well as in achieving synchronized determination and correlation analyses of chlorophyll content and photosynthetic function.
Audience Academic
Author Jing, Tingting
Zhu, Fengwu
Kong, Lijuan
Zhou, Leijinyu
Wu, Hongbo
Li, Tianhao
Li, Jinsheng
Zhou, Lina
AuthorAffiliation College of Engineering and Technology, Jilin Agricultural University, Changchun 130118, China; zhoulina@jlau.edu.cn (L.Z.); zhouleijinyu8514@163.com (L.Z.); whb05082023@163.com (H.W.); 13274422035@163.com (T.J.); 18131571123@163.com (T.L.); jinshengl@jlau.edu.cn (J.L.); konglijuan630@sina.com (L.K.)
AuthorAffiliation_xml – name: College of Engineering and Technology, Jilin Agricultural University, Changchun 130118, China; zhoulina@jlau.edu.cn (L.Z.); zhouleijinyu8514@163.com (L.Z.); whb05082023@163.com (H.W.); 13274422035@163.com (T.J.); 18131571123@163.com (T.L.); jinshengl@jlau.edu.cn (J.L.); konglijuan630@sina.com (L.K.)
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BackLink https://www.ncbi.nlm.nih.gov/pubmed/38475037$$D View this record in MEDLINE/PubMed
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Keywords cadmium stress
Lactuca sativa L
estimation model
chlorophyll fluorescence parameters
relative chlorophyll content
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Snippet To reveal the impact of cadmium stress on the physiological mechanism of lettuce, simultaneous determination and correlation analyses of chlorophyll content...
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SubjectTerms Cadmium
cadmium stress
Chlorophyll
chlorophyll fluorescence parameters
Correlation analysis
Energy transfer
estimation model
Flowers & plants
Fluorescence
Heavy metals
Kinetics
Lactuca sativa L
Leaves
Lettuce
Methods
Photolysis
Photosynthesis
Physiology
relative chlorophyll content
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Title Application of Chlorophyll Fluorescence Analysis Technique in Studying the Response of Lettuce (Lactuca sativa L.) to Cadmium Stress
URI https://www.ncbi.nlm.nih.gov/pubmed/38475037
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https://pubmed.ncbi.nlm.nih.gov/PMC10935075
https://doaj.org/article/ab9dbdca381f49b2b19bedebeb4a8891
Volume 24
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