Chronological records of sediment organic carbon at an entrance of Dongting Lake: Response to historical meteorological events
Lake sediments are the products of soil erosion and are strongly influenced by climate variability, particularly extreme meteorological events. Sediment organic carbon (SOC) can reflect environmental changes that affect sediment transport. However, the response of SOC chronological records to major...
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| Published in | The Science of the total environment Vol. 794; p. 148801 |
|---|---|
| Main Authors | , , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Elsevier B.V
10.11.2021
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| Subjects | |
| Online Access | Get full text |
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| Abstract | Lake sediments are the products of soil erosion and are strongly influenced by climate variability, particularly extreme meteorological events. Sediment organic carbon (SOC) can reflect environmental changes that affect sediment transport. However, the response of SOC chronological records to major meteorological events is relatively unknown. This study explored the chronological regularity of SOC and verified its variations using major historical meteorological events. Based on three sediment profiles with a depth of 230 cm at the Yuan River entrance to the West Dongting Lake (Hanshou entrance), the SOC chronology was reconstructed by employing the sedimentation rates calculated by 137Cs and 210Pb. The sedimentary environment then was interpreted via comparisons and quantitative analysis. The grain distribution and the S-shaped distribution of SOC reflected the general deposition regularity of organic carbon in lake sediments, which gradually stabilized with depth. The average sedimentation rates based on 137Cs and 210Pb were 1.310 and 1.319 cm a−1, respectively. Accordingly, SOC records covered the past 76 years via dating (0–100 cm), during which the SOC content first increased and subsequently stabilized. By comparing the data with the occurrence of 11 major historical meteorological events, we found that SOC generally increased after these events. Moreover, the frequent occurrence of meteorological events stabilized the SOC content. Severe floods had a greater impact on SOC content than severe droughts, causing SOC to change by up to 20.24% and 8.77%, respectively. Our findings suggest that major historical meteorological events can verify SOC chronological records, thereby highlighting their significant impacts on organic carbon variations in sediments.
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•Different intervals revealed the profile similarity trend of geochemical indexes.•The S-shaped distribution of SOC reflected the general regularity in sediments.•The frequency of major meteorological events contributed to SOC stabilization.•The impact of severe floods on SOC was greater than that of droughts. |
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| AbstractList | Lake sediments are the products of soil erosion and are strongly influenced by climate variability, particularly extreme meteorological events. Sediment organic carbon (SOC) can reflect environmental changes that affect sediment transport. However, the response of SOC chronological records to major meteorological events is relatively unknown. This study explored the chronological regularity of SOC and verified its variations using major historical meteorological events. Based on three sediment profiles with a depth of 230 cm at the Yuan River entrance to the West Dongting Lake (Hanshou entrance), the SOC chronology was reconstructed by employing the sedimentation rates calculated by 137Cs and 210Pb. The sedimentary environment then was interpreted via comparisons and quantitative analysis. The grain distribution and the S-shaped distribution of SOC reflected the general deposition regularity of organic carbon in lake sediments, which gradually stabilized with depth. The average sedimentation rates based on 137Cs and 210Pb were 1.310 and 1.319 cm a−1, respectively. Accordingly, SOC records covered the past 76 years via dating (0–100 cm), during which the SOC content first increased and subsequently stabilized. By comparing the data with the occurrence of 11 major historical meteorological events, we found that SOC generally increased after these events. Moreover, the frequent occurrence of meteorological events stabilized the SOC content. Severe floods had a greater impact on SOC content than severe droughts, causing SOC to change by up to 20.24% and 8.77%, respectively. Our findings suggest that major historical meteorological events can verify SOC chronological records, thereby highlighting their significant impacts on organic carbon variations in sediments.
[Display omitted]
•Different intervals revealed the profile similarity trend of geochemical indexes.•The S-shaped distribution of SOC reflected the general regularity in sediments.•The frequency of major meteorological events contributed to SOC stabilization.•The impact of severe floods on SOC was greater than that of droughts. Lake sediments are the products of soil erosion and are strongly influenced by climate variability, particularly extreme meteorological events. Sediment organic carbon (SOC) can reflect environmental changes that affect sediment transport. However, the response of SOC chronological records to major meteorological events is relatively unknown. This study explored the chronological regularity of SOC and verified its variations using major historical meteorological events. Based on three sediment profiles with a depth of 230 cm at the Yuan River entrance to the West Dongting Lake (Hanshou entrance), the SOC chronology was reconstructed by employing the sedimentation rates calculated by ¹³⁷Cs and ²¹⁰Pb. The sedimentary environment then was interpreted via comparisons and quantitative analysis. The grain distribution and the S-shaped distribution of SOC reflected the general deposition regularity of organic carbon in lake sediments, which gradually stabilized with depth. The average sedimentation rates based on ¹³⁷Cs and ²¹⁰Pb were 1.310 and 1.319 cm a⁻¹, respectively. Accordingly, SOC records covered the past 76 years via dating (0–100 cm), during which the SOC content first increased and subsequently stabilized. By comparing the data with the occurrence of 11 major historical meteorological events, we found that SOC generally increased after these events. Moreover, the frequent occurrence of meteorological events stabilized the SOC content. Severe floods had a greater impact on SOC content than severe droughts, causing SOC to change by up to 20.24% and 8.77%, respectively. Our findings suggest that major historical meteorological events can verify SOC chronological records, thereby highlighting their significant impacts on organic carbon variations in sediments. Lake sediments are the products of soil erosion and are strongly influenced by climate variability, particularly extreme meteorological events. Sediment organic carbon (SOC) can reflect environmental changes that affect sediment transport. However, the response of SOC chronological records to major meteorological events is relatively unknown. This study explored the chronological regularity of SOC and verified its variations using major historical meteorological events. Based on three sediment profiles with a depth of 230 cm at the Yuan River entrance to the West Dongting Lake (Hanshou entrance), the SOC chronology was reconstructed by employing the sedimentation rates calculated by 137Cs and 210Pb. The sedimentary environment then was interpreted via comparisons and quantitative analysis. The grain distribution and the S-shaped distribution of SOC reflected the general deposition regularity of organic carbon in lake sediments, which gradually stabilized with depth. The average sedimentation rates based on 137Cs and 210Pb were 1.310 and 1.319 cm a-1, respectively. Accordingly, SOC records covered the past 76 years via dating (0-100 cm), during which the SOC content first increased and subsequently stabilized. By comparing the data with the occurrence of 11 major historical meteorological events, we found that SOC generally increased after these events. Moreover, the frequent occurrence of meteorological events stabilized the SOC content. Severe floods had a greater impact on SOC content than severe droughts, causing SOC to change by up to 20.24% and 8.77%, respectively. Our findings suggest that major historical meteorological events can verify SOC chronological records, thereby highlighting their significant impacts on organic carbon variations in sediments.Lake sediments are the products of soil erosion and are strongly influenced by climate variability, particularly extreme meteorological events. Sediment organic carbon (SOC) can reflect environmental changes that affect sediment transport. However, the response of SOC chronological records to major meteorological events is relatively unknown. This study explored the chronological regularity of SOC and verified its variations using major historical meteorological events. Based on three sediment profiles with a depth of 230 cm at the Yuan River entrance to the West Dongting Lake (Hanshou entrance), the SOC chronology was reconstructed by employing the sedimentation rates calculated by 137Cs and 210Pb. The sedimentary environment then was interpreted via comparisons and quantitative analysis. The grain distribution and the S-shaped distribution of SOC reflected the general deposition regularity of organic carbon in lake sediments, which gradually stabilized with depth. The average sedimentation rates based on 137Cs and 210Pb were 1.310 and 1.319 cm a-1, respectively. Accordingly, SOC records covered the past 76 years via dating (0-100 cm), during which the SOC content first increased and subsequently stabilized. By comparing the data with the occurrence of 11 major historical meteorological events, we found that SOC generally increased after these events. Moreover, the frequent occurrence of meteorological events stabilized the SOC content. Severe floods had a greater impact on SOC content than severe droughts, causing SOC to change by up to 20.24% and 8.77%, respectively. Our findings suggest that major historical meteorological events can verify SOC chronological records, thereby highlighting their significant impacts on organic carbon variations in sediments. |
| ArticleNumber | 148801 |
| Author | Ran, Fengwei Li, Zhongwu Sun, Yize Peng, Yijie Liao, Wenfei Nie, Xiaodong Tong, Di Li, Zeting Xiao, Linhui Wang, Shilan |
| Author_xml | – sequence: 1 givenname: Fengwei surname: Ran fullname: Ran, Fengwei organization: College of Geographic Science, Hunan Normal University, Changsha 410081, PR China – sequence: 2 givenname: Xiaodong surname: Nie fullname: Nie, Xiaodong email: nxd@hunnu.edu.cn organization: College of Geographic Science, Hunan Normal University, Changsha 410081, PR China – sequence: 3 givenname: Zhongwu surname: Li fullname: Li, Zhongwu email: Lizw17002@hunnu.edu.cn organization: College of Geographic Science, Hunan Normal University, Changsha 410081, PR China – sequence: 4 givenname: Linhui surname: Xiao fullname: Xiao, Linhui organization: College of Geographic Science, Hunan Normal University, Changsha 410081, PR China – sequence: 5 givenname: Yize surname: Sun fullname: Sun, Yize organization: College of Environmental Science and Engineering, Hunan University, Changsha 410082, PR China – sequence: 6 givenname: Shilan surname: Wang fullname: Wang, Shilan organization: College of Geographic Science, Hunan Normal University, Changsha 410081, PR China – sequence: 7 givenname: Wenfei surname: Liao fullname: Liao, Wenfei organization: College of Environmental Science and Engineering, Hunan University, Changsha 410082, PR China – sequence: 8 givenname: Di surname: Tong fullname: Tong, Di organization: College of Environmental Science and Engineering, Hunan University, Changsha 410082, PR China – sequence: 9 givenname: Zeting surname: Li fullname: Li, Zeting organization: College of Geographic Science, Hunan Normal University, Changsha 410081, PR China – sequence: 10 givenname: Yijie surname: Peng fullname: Peng, Yijie organization: College of Geographic Science, Hunan Normal University, Changsha 410081, PR China |
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| SubjectTerms | 137Cs and 210Pb cesium radioisotopes Chronological records climate environment Historical meteorological events Lake sediments lakes organic carbon quantitative analysis rivers Sediment organic carbon sediment transport sediments soil erosion |
| Title | Chronological records of sediment organic carbon at an entrance of Dongting Lake: Response to historical meteorological events |
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