Impact assessment of high soil CO 2 on plant growth and soil environment: a greenhouse study
To ensure the safety of carbon capture and storage (CCS) technology, insight into the potential impacts of CO leakage on the ecosystem is necessary. We conducted a greenhouse experiment to investigate the effects of high soil CO on plant growth and the soil environment. Treatments comprised 99.99% C...
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| Veröffentlicht in: | PeerJ (San Francisco, CA) CA), 2019, Vol.7, p.e6311, Article e6311 |
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| creator | He, Wenmei Yoo, Gayoung Moonis, Mohammad Kim, Youjin Chen, Xuanlin |
| description | To ensure the safety of carbon capture and storage (CCS) technology, insight into the potential impacts of CO
leakage on the ecosystem is necessary. We conducted a greenhouse experiment to investigate the effects of high soil CO
on plant growth and the soil environment. Treatments comprised 99.99% CO
injection (CG), 99.99% N
injection (NG), and no injection (BG). NG treatment was employed to differentiate the effects of O
depletion from those of CO
enrichment. Soil CO
and O
concentrations were maintained at an average of 53% and 11%, respectively, under CG treatment. We verified that high soil CO
had negative effects on root water absorption, chlorophyll, starch content and total biomass. Soil microbial acid phosphatase activity was affected by CG treatment. These negative effects were attributed to high soil CO
instead of low O
or low pH. Our results indicate that high soil CO
affected the root system, which in turn triggered further changes in aboveground plant tissues and rhizospheric soil water conditions. A conceptual diagram of CO
toxicity to plants and soil is suggested to act as a useful guideline for impact assessment of CCS technology. |
| doi_str_mv | 10.7717/peerj.6311 |
| format | Article |
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leakage on the ecosystem is necessary. We conducted a greenhouse experiment to investigate the effects of high soil CO
on plant growth and the soil environment. Treatments comprised 99.99% CO
injection (CG), 99.99% N
injection (NG), and no injection (BG). NG treatment was employed to differentiate the effects of O
depletion from those of CO
enrichment. Soil CO
and O
concentrations were maintained at an average of 53% and 11%, respectively, under CG treatment. We verified that high soil CO
had negative effects on root water absorption, chlorophyll, starch content and total biomass. Soil microbial acid phosphatase activity was affected by CG treatment. These negative effects were attributed to high soil CO
instead of low O
or low pH. Our results indicate that high soil CO
affected the root system, which in turn triggered further changes in aboveground plant tissues and rhizospheric soil water conditions. A conceptual diagram of CO
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leakage on the ecosystem is necessary. We conducted a greenhouse experiment to investigate the effects of high soil CO
on plant growth and the soil environment. Treatments comprised 99.99% CO
injection (CG), 99.99% N
injection (NG), and no injection (BG). NG treatment was employed to differentiate the effects of O
depletion from those of CO
enrichment. Soil CO
and O
concentrations were maintained at an average of 53% and 11%, respectively, under CG treatment. We verified that high soil CO
had negative effects on root water absorption, chlorophyll, starch content and total biomass. Soil microbial acid phosphatase activity was affected by CG treatment. These negative effects were attributed to high soil CO
instead of low O
or low pH. Our results indicate that high soil CO
affected the root system, which in turn triggered further changes in aboveground plant tissues and rhizospheric soil water conditions. A conceptual diagram of CO
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leakage on the ecosystem is necessary. We conducted a greenhouse experiment to investigate the effects of high soil CO
on plant growth and the soil environment. Treatments comprised 99.99% CO
injection (CG), 99.99% N
injection (NG), and no injection (BG). NG treatment was employed to differentiate the effects of O
depletion from those of CO
enrichment. Soil CO
and O
concentrations were maintained at an average of 53% and 11%, respectively, under CG treatment. We verified that high soil CO
had negative effects on root water absorption, chlorophyll, starch content and total biomass. Soil microbial acid phosphatase activity was affected by CG treatment. These negative effects were attributed to high soil CO
instead of low O
or low pH. Our results indicate that high soil CO
affected the root system, which in turn triggered further changes in aboveground plant tissues and rhizospheric soil water conditions. A conceptual diagram of CO
toxicity to plants and soil is suggested to act as a useful guideline for impact assessment of CCS technology.</abstract><cop>United States</cop><pmid>30701135</pmid><doi>10.7717/peerj.6311</doi></addata></record> |
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| source | DOAJ Directory of Open Access Journals; Elektronische Zeitschriftenbibliothek - Frei zugängliche E-Journals; PubMed Central |
| title | Impact assessment of high soil CO 2 on plant growth and soil environment: a greenhouse study |
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