Cadmium effect on the growth, photosynthesis, ultrastructure and phytochelatin content of green microalga Scenedesmus armatus: A study at low and elevated CO2 concentration

Short-term experiments were carried out to examine the toxicity of cadmium chloride (CdCl2) at a concentration of 93 μM (EC50/24) to green microalga Scenedesmus armatus, cultured at low (0.1%) and elevated (2%) concentration of CO2. Cadmium did not affect the viability of cells cultured for 24 h in...

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Published inEnvironmental and experimental botany Vol. 60; no. 3; pp. 291 - 299
Main Authors Tukaj, Z, Baścik-Remisiewicz, A, Skowroński, T, Tukaj, C
Format Journal Article
LanguageEnglish
Published Amsterdam Elsevier Science 01.07.2007
Subjects
Agricultural and forest climatology and meteorology. Irrigation. Drainage
Agricultural and forest meteorology
Agronomy. Soil science and plant productions
Biological and medical sciences
cadmium
cadmium chloride
carbon dioxide
chloroplasts
Climatic adaptation. Acclimatization
cultured cells
elevated atmospheric gases
fluorescence
Fundamental and applied biological sciences. Psychology
gas production (biological)
General agronomy. Plant production
microalgae
oxygen
peptides
photosynthesis
photosystem II
phytochelatins
phytotoxicity
plant growth
Scenedesmus
Scenedesmus armatus
starch granules
ultrastructure
vacuoles
viability
Cadmium
Chlorophyta
Growth
Ultrastructure
Algae
Carbon dioxide
CO2
Scenedesmus
Phytochelatins
Chlorophyceae
Photosynthesis
Thallophyta
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Abstract Short-term experiments were carried out to examine the toxicity of cadmium chloride (CdCl2) at a concentration of 93 μM (EC50/24) to green microalga Scenedesmus armatus, cultured at low (0.1%) and elevated (2%) concentration of CO2. Cadmium did not affect the viability of cells cultured for 24 h in both CO2 variants but markedly inhibited the growth of algae. This inhibition was more pronounced in cultures aerated with 0.1% (about 50% of control) than with 2% CO2 (about 75% of control) and did not change during 72 h of culture. Cadmium inhibited the rate of oxygen evolution (Poxy.) (70% of control) of cells cultured at 0.1% CO2 and had no effect on Poxy. of cells cultured at 2% CO2. The values of the chlorophyll fluorescence parameters, i.e. FM (maximum fluorescence yield), FV (variable fluorescence), FV/FM (maximum quantum yield of PSII), ΦPSII (effective quantum yield of PSII) and qP (photochemical quenching) were reduced by cadmium treatment in algae grown at 0.1% CO2 concentration, whereas F0 (initial fluorescence yield) remained unaffected. In high-CO2 grown cells only FV was significantly reduced. Cd-treated cells synthesized several thiol-containing peptides identified by HPLC as a dimer (PC2), a trimer (PC3) and a tetramer (PC4) of phytochelatins (PCS). High-CO2 grown cells produced significantly more PCs than low-CO2 grown cells and their individual appearance depended on the time of exposure and CO2 level. The ultrastructural analysis of low-CO2 grown cells showed in chloroplasts an increased number of small starch grains visible around the pyrenoid. In the enhanced vacuome compartment, various types of vacuoles were clearly seen in Cd-treated cells. Vacuoles containing non-membranous, electron-opaque deposits of an undefined structure and myelin-like figures were especially observed. The results suggest that algae living in conditions of elevated CO2 are better protected against cadmium than those at ordinary CO2 level, and productive processes are less affected than the growth ones.
AbstractList Short-term experiments were carried out to examine the toxicity of cadmium chloride (CdCl2) at a concentration of 93 μM (EC50/24) to green microalga Scenedesmus armatus, cultured at low (0.1%) and elevated (2%) concentration of CO2. Cadmium did not affect the viability of cells cultured for 24 h in both CO2 variants but markedly inhibited the growth of algae. This inhibition was more pronounced in cultures aerated with 0.1% (about 50% of control) than with 2% CO2 (about 75% of control) and did not change during 72 h of culture. Cadmium inhibited the rate of oxygen evolution (Poxy.) (70% of control) of cells cultured at 0.1% CO2 and had no effect on Poxy. of cells cultured at 2% CO2. The values of the chlorophyll fluorescence parameters, i.e. FM (maximum fluorescence yield), FV (variable fluorescence), FV/FM (maximum quantum yield of PSII), ΦPSII (effective quantum yield of PSII) and qP (photochemical quenching) were reduced by cadmium treatment in algae grown at 0.1% CO2 concentration, whereas F0 (initial fluorescence yield) remained unaffected. In high-CO2 grown cells only FV was significantly reduced. Cd-treated cells synthesized several thiol-containing peptides identified by HPLC as a dimer (PC2), a trimer (PC3) and a tetramer (PC4) of phytochelatins (PCS). High-CO2 grown cells produced significantly more PCs than low-CO2 grown cells and their individual appearance depended on the time of exposure and CO2 level. The ultrastructural analysis of low-CO2 grown cells showed in chloroplasts an increased number of small starch grains visible around the pyrenoid. In the enhanced vacuome compartment, various types of vacuoles were clearly seen in Cd-treated cells. Vacuoles containing non-membranous, electron-opaque deposits of an undefined structure and myelin-like figures were especially observed. The results suggest that algae living in conditions of elevated CO2 are better protected against cadmium than those at ordinary CO2 level, and productive processes are less affected than the growth ones.
Author Tukaj, Z
Skowroński, T
Baścik-Remisiewicz, A
Tukaj, C
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Issue 3
Keywords Cadmium
Chlorophyta
Growth
Ultrastructure
Algae
Carbon dioxide
CO2
Scenedesmus
Phytochelatins
Chlorophyceae
Photosynthesis
Thallophyta
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SSID ssj0007376
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Snippet Short-term experiments were carried out to examine the toxicity of cadmium chloride (CdCl2) at a concentration of 93 μM (EC50/24) to green microalga...
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StartPage 291
SubjectTerms Agricultural and forest climatology and meteorology. Irrigation. Drainage
Agricultural and forest meteorology
Agronomy. Soil science and plant productions
Biological and medical sciences
cadmium
cadmium chloride
carbon dioxide
chloroplasts
Climatic adaptation. Acclimatization
cultured cells
elevated atmospheric gases
fluorescence
Fundamental and applied biological sciences. Psychology
gas production (biological)
General agronomy. Plant production
microalgae
oxygen
peptides
photosynthesis
photosystem II
phytochelatins
phytotoxicity
plant growth
Scenedesmus
Scenedesmus armatus
starch granules
ultrastructure
vacuoles
viability
Title Cadmium effect on the growth, photosynthesis, ultrastructure and phytochelatin content of green microalga Scenedesmus armatus: A study at low and elevated CO2 concentration
Volume 60
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