首页> 外文期刊>energies >Carbon Sequestration in Remediated Post-Mining Soils: A New Indicator for the Vertical Soil Organic Carbon Variability Evaluation in Remediated Post-Mining Soils
【24h】

Carbon Sequestration in Remediated Post-Mining Soils: A New Indicator for the Vertical Soil Organic Carbon Variability Evaluation in Remediated Post-Mining Soils

机译:修复后采后土壤中的碳封存:修复后采后土壤中垂直土壤有机碳变异性评价的新指标

获取原文
获取原文并翻译 | 示例

摘要

The present study experimentally investigated two different open-cast post-mining areas with different remediation methods for the vertical distribution of sequestered soil organic carbon (SOC). The study has been performed for two soil layers (0-15 cm, and 15-30 cm) for the four areas with different remediation advancement (up to 20 years) at both studied post-mining soils: the limestone post-mining soil remediated with embankment and lignite post-mining soil remediated with sewage sludge. The study revealed that SOC is more stable within soil depths for lignite post-mining soil remediated with sewage sludge in comparison to the limestone post-mining soil remediated with embankment. The lignite post-mining soil remediated with sewage sludge showed a better hydrophobicity, humidity, aromaticity, and C/N ratio according to the C-13 NMR. Therefore, in that soil, an increased microbial community has been observed. The study observed a positive correlation between GRSP content with a fungi community within soil depths. For lignite post-mining soil remediated with sewage sludge, the activity of ureases and dehydrogenases was generally lower compared to the post-mining soil remediation with embankment. The investigation found good parameters of Ce and NCER which for both studied areas were negative which indicate for the privilege of the higher capturing of CO2 over its release from the soil into the atmosphere. The study finds no relevant changes in SOC, POXC, TC, and LOI content within soil depth and remediation age. Due to the lack of a possible well-describing indicator of the vertical distribution of SOC stability in post-mining remediation soil, we proposed two different indicators for differentially managed post-mining soil remediations. The model of calculation of vertical SOC variability index can be universally used for different post-mining soils under remediation, however, both proposed calculated indexes are unique for studied soils. The proposed model of an index may be helpful for remediation management, C sequestration prediction, and lowering the carbon footprint of mining activity.
机译:本研究以不同修复方法对2个不同的露天后采后区进行实验研究,以示固土壤有机碳(SOC)垂直分布。该研究针对两个土壤层(0-15 厘米和 15-30 厘米)进行了研究,用于两个研究的采矿后土壤中具有不同修复进度(长达 20 年)的四个区域:用路堤修复的石灰岩采矿后土壤和用污水污泥修复的褐煤采矿后土壤。研究表明,与用路堤修复的石灰岩后采矿后土壤相比,用污水污泥修复的褐煤后土壤在土壤深度内的土壤有机碳更稳定。根据C-13 NMR,用污水污泥修复的褐煤后土壤表现出更好的疏水性、湿度、芳香性和C/N比。因此,在该土壤中,观察到微生物群落增加。该研究观察到GRSP含量与土壤深处的真菌群落呈正相关。对于用污水污泥修复的褐煤后土壤,与使用路堤修复的采矿后土壤相比,脲酶和脱氢酶的活性普遍较低。调查发现,在两个研究区域,Ce和NCER的参数都很好,这两个参数都是负的,这表明CO2的捕获率高于其从土壤释放到大气中的特权。研究发现,在土壤深度和修复年龄内,SOC、POXC、TC和LOI含量没有相关变化。由于缺乏一个可能很好地描述采矿后修复土壤中SOC稳定性垂直分布的指标,我们提出了两种不同的指标来规范差异化管理的采矿后土壤修复。垂直SOC变异指数的计算模型可以普遍用于不同的采后土壤修复,但所提出的两种计算指标对于所研究的土壤都是唯一的。所提出的指数模型可能有助于修复管理、碳封存预测和降低采矿活动的碳足迹。

著录项

获取原文

客服邮箱:kefu@zhangqiaokeyan.com

京公网安备:11010802029741号 ICP备案号:京ICP备15016152号-6 六维联合信息科技 (北京) 有限公司©版权所有
  • 客服微信

  • 服务号