Spatial distribution and origin of soil CO2 in Andeok area, Jeju

IF 1 4区地球科学 Q4 GEOSCIENCES, MULTIDISCIPLINARY

Geosciences Journal Pub Date : 2024-05-29 DOI:10.1007/s12303-024-0015-3

Gahyeun Ju, Jeong-Ho Lee, Soohyeon Moon, Minseok Song, Soonyoung Yu, Chang Woo Kwon, Seong-Taek Yun, Gitak Chae

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Abstract

CO₂ flux measurements and soil gas samples were collected to determine the origin and distribution characteristics of soil gas discharged at Andeok area, Jeju, South Korea. Additionally, this study aims to discuss agricultural activities that may contribute to increased soil CO₂ emissions. CO₂ flux was measured at 127 points, while soil gas sampling for gas components and carbon-13 (δ¹³C_CO2) analysis was performed at 56 points. The measured CO₂ fluxes in the study area ranged from 0.8 to 83.8 g/m²/d (mean: 14.3 g/m²/d), which was lower than CO₂ fluxes observed in areas with geogenic CO₂ discharge (e.g., near active volcanoes, faults, and CO₂-rich water sources). The soil gas analysis revealed that the CO₂ concentration and δ¹³C_CO2 ranged from 491 to 23,722 ppmv (mean: 3,205 ppmv) and from −25.2 to −10.7‰ (mean: −19.4‰), respectively. In the cumulative probability diagram, the threshold values for CO₂ flux and soil CO₂ concentration were 41.3 g/m²/d and 6,693 ppmv, respectively. Samples exceeding the CO₂ flux threshold were affected by urea fertilizer application based on land use nearby, and did not overlay with samples exceeding the soil CO₂ threshold, indicating different transport mechanisms. Results from a detailed survey near a soil gas sampling location close to high soil CO₂ showed that soil CO₂ concentrations increased with depth, especially during summer when atmospheric temperatures increased. Spatially, higher soil CO₂ concentrations were observed in areas with accumulated plant debris from tangerine orchards. The δ¹³C_CO2 and relationships among CO₂-O₂, N₂-CO₂, and N₂/O₂-CO₂ indicated that all collected samples had a biogenic origin. Although geogenic soil gases were not observed in this study, our findings are useful for future research on Jeju Island, as they provide baseline values for distinguishing geogenic soil gas from those with natural and agricultural origins. Moreover, this result provides insights into agricultural activities such as urea fertilization and plowing and their contribution to soil CO₂ increase, and inspires future research on negative soil CO₂ flux.

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济州安岳地区土壤二氧化碳的空间分布和来源

本研究收集了二氧化碳通量测量数据和土壤气体样本，以确定韩国济州安地地区土壤气体排放的来源和分布特征。此外，本研究还旨在讨论可能导致土壤二氧化碳排放量增加的农业活动。本研究对 127 个点的二氧化碳通量进行了测量，同时在 56 个点进行了土壤气体采样，以分析气体成分和碳-13（δ13CCO2）。研究区域测得的二氧化碳通量介于 0.8 至 83.8 g/m2/d 之间（平均值：14.3 g/m2/d），低于在二氧化碳地源排放区（如活火山、断层和富含二氧化碳的水源附近）观测到的二氧化碳通量。土壤气体分析显示，二氧化碳浓度和 δ13CCO2 的范围分别为 491 至 23,722 ppmv（平均值：3,205 ppmv）和-25.2 至-10.7‰（平均值：-19.4‰）。在累积概率图中，二氧化碳通量和土壤二氧化碳浓度的阈值分别为 41.3 g/m2/d 和 6,693 ppmv。根据附近的土地利用情况，超过二氧化碳通量阈值的样本受到尿素化肥施用的影响，与超过土壤二氧化碳阈值的样本并不重叠，这表明了不同的迁移机制。在靠近土壤二氧化碳浓度较高的土壤气体采样点附近进行的详细调查结果显示，土壤二氧化碳浓度随深度增加而增加，尤其是在大气温度升高的夏季。从空间上看，在柑橘园植物残体堆积的区域，土壤二氧化碳浓度较高。δ13CCO2以及CO2-O2、N2-CO2和N2/O2-CO2之间的关系表明，所有采集的样本都来源于生物。虽然本研究中没有观测到地质土壤气体，但我们的研究结果对济州岛未来的研究很有帮助，因为它们为区分地质土壤气体和自然及农业来源的土壤气体提供了基准值。此外，这一结果还为尿素施肥和耕地等农业活动及其对土壤二氧化碳增加的贡献提供了启示，并激发了未来对土壤二氧化碳负通量的研究。

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来源期刊

Geosciences Journal 地学-地球科学综合

CiteScore

2.70

自引率

8.30%

发文量

审稿时长

6 months

期刊介绍： Geosciences Journal opens a new era for the publication of geoscientific research articles in English, covering geology, geophysics, geochemistry, paleontology, structural geology, mineralogy, petrology, stratigraphy, sedimentology, environmental geology, economic geology, petroleum geology, hydrogeology, remote sensing and planetary geology.