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使用碳同位素(12C、13C和14C)确定Pisani rov(Postojna洞穴)中的CO2来源

Determining sources of CO2 in Pisani rov (Postojna cave) using carbon isotopes (12C, 13C and 14C)
课程网址: http://videolectures.net/ipssc2017_krajnc_carbon_isotopes/  
主讲教师: Bor Krajnc
开课单位: 约瑟夫·斯特凡研究所
开课时间: 2017-05-23
课程语种: 英语
中文简介:
岩溶洞穴可以代表来自不同来源的地下CO2储层。某些环境条件可能会导致洞穴CO2向大气输送。为了研究局部碳循环,确定洞穴CO2的来源以及导致该气体聚集和通风的机制非常重要。由于全球大气中CO2的增加,碳平衡评估是一个重要的全球主题,除此之外,从技术角度来看,该主题对于岩溶地区土壤或生态系统CO2通量的测定也很重要。在这些区域,应考虑洞穴通风对CO2通量测量及其解释的影响。 在Pisani rov的最后一个大厅及其上方的土壤中对土壤和洞穴空气进行了测量和取样。Pisani rov是Postojna洞穴系统的死胡同,对游客关闭。2014年10月至2015年9月,每月测量两次CO2浓度和稳定同位素组成。此外,2015年冬季对土壤CO2中的Δ14C进行了两次采样(有雪覆盖和无雪覆盖),并对洞穴空气中的Δ14C进行了三次采样(两次在冬季与土壤空气采样同一天进行,一次在2015年夏末进行)。 我们的研究结果表明,CO2代表大气CO2和土壤有机质分解产生的CO2的混合物。这表明CO2浓度与土壤呼吸速率没有直接关系,但主要受通风控制。来源包括深部地质来源的CO2、有机质分解洞穴沉积物中的c物质和来自游客或洞穴动物的CO2并不重要。此外,结果表明,洞穴CO2的来源(除大气CO2外)是指在外部低温不限制有机物和溶解在渗滤水中的二氧化碳进入洞穴分解的深度处有机物的分解。 影响洞穴通风的主要参数是外部空气和洞穴空气之间的温度差。由于洞穴内的温度相对恒定,主要驱动因素是外部温度的变化。可以观察到洞穴内的两种通风状况,即夏季二氧化碳积聚时的通风状况和冬季洞穴内二氧化碳积聚时的通风状况通风。冬季温度低于0˚C且洞穴上方有积雪时,出现了这种模式的例外情况。在这种情况下,观察到洞穴中CO2浓度升高,这表明洞穴空气的可能出口关闭,从而实现通风,并在洞穴中积累CO2。 这项研究得到了欧洲联盟通过欧洲社会基金资助的博士研究共同资助创新计划和世界科学家联合会授予的奖学金的支持。
课程简介: Karstic caves can represent subterranean reservoirs of CO2, which can originate from different sources. Certain environmental conditions can cause transport of cave CO2 to the open atmosphere. In order to investigate local carbon cycle it is important to determine the sources of cave CO2 and mechanisms causing accumulation and ventilation of this gas. Beside its importance for the carbon balance assessment, which is one of the important global topics due to the global increase of CO2 in the atmosphere, is this topic also important from the technical point of view in relation to the determination of soil or ecosystem CO2 fluxes in karstic areas. Influence of cave ventilation on CO2 flux measurements and its interpretations should be taken into account at such areas. Measurements and sampling of soil and cave air were performed in the last hall of Pisani rov and soil above it. Pisani rov is a dead end passage of the Postojna cave system and is closed for the tourist. CO2 concentration and stable isotopic composition were measured twice a month from October 2014 to September 2015. In addition two samplings for Δ14C in soil CO2 were performed in winter 2015 (with and without snow cover) and three samplings for Δ14C in cave air (two in winter at the same day as soil air sampling and one in late summer 2015. Our results suggest that CO2 represents a mixture between atmospheric CO2 and CO2 coming from decomposition of soil organic matter. It indicates that the CO2 concentration is not directly related to the rate of soil respiration, but it is mostly controlled by the ventilation. Sources such as CO2 from deep geological origin, decomposition of organic matter in cave sediment and CO2 coming from tourists or cave animals were found to be not important. Further, results suggest that sources contributing to cave CO2 (beside atmospheric CO2) are decomposition of organic matter at depths where outside low temperatures do not limit the decomposition of organic matter and CO2 coming to the cave dissolved in percolating water. The main parameter affecting cave ventilation is the difference in temperatures between outside and cave air. Since the temperature in the cave is relatively constant the main driver is the change of the outside temperature. Two ventilation regimes in the cave can be observed, the summer regime when CO2 is accumulating and winter regime when cave ventilates. Exceptions to this pattern happened during the winter when temperatures are below 0˚C with the snow cower above the cave. At this occasion the rise of CO2 concentrations in the cave was observed, which indicates that possible exits for cave air, enabling ventilation were closed accumulating of CO2 in the cave. The study was supported by the Innovative scheme for co-financing of doctoral studies financed by the European Union through the European Social Fund and by the scholarship granted by the World Federation of Scientists.
关 键 词: 地下CO2储层; 碳平衡评估; 洞穴通风
课程来源: 视频讲座网
数据采集: 2021-11-05:zkj
最后编审: 2021-11-05:zkj
阅读次数: 86