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1.
岩溶关键带及其碳循环研究进展 总被引:1,自引:0,他引:1
岩溶关键带的范畴包含了大气-(降水)-植被-土壤-裂隙-基岩-水组成的“碳-水-钙”循环强烈的表层岩溶带以及岩溶管道-洞穴-地下河-隔水层组成的巨大岩溶地下空间,岩溶关键带碳循环是岩溶地球系统科学研究的前沿方向。总结概括了岩溶地球系统科学发展至今的岩溶关键带范畴内碳循环及其对大气CO2源汇效应的研究成果,包括早期碳运移模型、当前主流的区域岩溶碳汇量的计算方法和结果以及“生物碳泵”的新发现等,讨论了当前岩溶碳循环研究框架过于单一或不一致以及碳周转时间尺度等问题,提出应对岩溶关键带碳输入、赋存以及碳输出的各个环节做出系统化监测,通过联网在线高分辨率监测站点的建设以及“3S”技术实现点位到区域的研究,使岩溶碳汇在全球碳循环模型中的重要性更具说服力。 相似文献
2.
It is recognized that karst processes are actively involved in the current global carbon cycle based on twenty years research, and the carbon sink occurred in karst processes is possibly an important part of “missing sink” in global carbon cycle. In this paper, an overview is given on karst carbon cycle research, and influence factors, formed carbon pools (background carbon sink) and sink increase potentials of current karst carbon cycle are analyzed. Carbonate weathering could contribute to the imbalance item (BIM) and land use change item (ELUC) in the global carbon cycle model, owing to its uptake of both atmospheric CO2 (carbon sink effect) and CO2 produced by soil respiration (carbon source reduction effect). Karst carbon sink includes inorganic carbon sink resulted from hydrogeochemical process and organic carbon sink generated by aquatic photosynthetic DIC conversion, forming relatively stable river (reservoir) water body or sediment carbon sink. The sizes of both sinks are controlled by terrestrial ecosystems and aquatic ecosystems, respectively. Desertification rehabilitation and carbon sequestration by aquatic plants are two effective ways to increase the carbon sink in karst area. It is estimated that the rate of carbon sink is at least 381 000 t CO2/a with vegetation restoration and afforestation in southwest China karst area, while the annual organic carbon sink generated by aquatic photosynthesis is about 84 200 t C in the Pearl River Basin. The development of a soil CO2 based model for assessment of regional dissolution intensity will help to improve the estimation accuracy of carbon sink increase and potential, thus provide a more clear and efficient karst sink increase scheme and pathway to achieve the goals of “double carbon”. With the deep investigation on karst carbon cycle, mechanism and carbon sink effect, and the improvement of watershed carbon sink measurement methods and regional sink increase evaluation approaches. Karst carbon sink is expected to be included in the list of atmospheric CO2 sources/sinks of the global carbon budget in the near future. 相似文献
3.
20世纪90年代,我国率先开展了岩溶作用与碳循环研究。文章在系统总结相关研究进展的基础上,阐明岩溶碳汇的原理,提出基于地球系统科学理念的岩溶流域6种碳循环过程模式,揭示了岩溶碳汇的稳定性并回答有关学者对岩溶碳汇的质疑,从四大圈层的碳循环角度提出发掘岩溶地区碳汇潜力的新理念。在综述岩溶地区碳汇人工干预研究进展的基础上,分析了石漠化综合治理、岩溶土壤改良、水生生物固碳、加速岩溶过程等人工干预措施的碳汇潜力及研究应用方面的不足。提出了下一步岩溶流域碳汇调查研究监测和技术创新发展方向,以及固碳增汇试验示范工作思路。 相似文献
4.
岩溶IGCP国际合作30年与岩溶关键带研究展望 总被引:2,自引:1,他引:1
全球岩溶类型多样,对环境变化敏感,资源与环境问题突出,是地球关键带监测与研究的重点,IGCP661项目的执行为岩溶区关键带类型划分与监测对比研究提供了契机和国际合作平台。近30年岩溶IGCP执行始终强调岩溶系统与人类活动环境的相互作用,其轨迹实际上与地球系统科学到地球关键带理念是一脉相承的。IGCP299提出了岩溶形态组合概念,揭示各种岩溶形态与其形成环境之间的因果关系。岩溶动力系统(IGCP379), 岩溶生态系统(IGCP448)概念的提出有助于我们更好地理解岩溶系统的整体功能,及系统内水、生物地球化学过程、人类活动的相互作用,进而形成了一整套岩溶动力学研究方法体系。开辟了岩溶记录与全球变化、碳循环与应对气候变化、石漠化形成演变与生态修复等研究新领域,并取得了丰硕的研究成果,有力地推动了现代岩溶学的发展。 相似文献
5.
《China Geology》2018,1(1):17-27
On the basis of proposing the existence of a karst carbon cycle and carbon sink at a watershed scale, this paper provides four pieces of evidence for the integration of geology and ecology during the carbon cycle processes in the karst dynamic system, and estimated the karst carbon sink effect using the methods of comparative monitoring of paired watersheds and the carbon stable isotope tracer technique. The results of the soil carbon cycle in Maocun, Guilin, showed that the soil carbon cycle in the karst area, the weathering and dissolution of carbonate rocks under the soil, resulted in a lower soil respiration of 25% in the karst area than in a non-karst area (sandstone and shale), and the carbon isotope results indicated that 13.46% of the heavy carbon of the limestone is involved in the soil carbon cycle. The comparative monitoring results in paired watersheds, suggesting that the HCO3- concentration in a karst spring is 10 times that of a rivulet in a non-karst area, while the concentration of inorganic carbon flux is 23.8 times. With both chemical stoichiometry and carbon stable isotopes, the proportion of carbon in karst springs derived from carbonate rocks was found to be 58.52% and 37.65% respectively. The comparison on carbon exchange and isotopes at the water-gas interface between the granite and carbonate rock basins in the Li River showed that the CO2 emission of the karst water is 10.92 times that of the allogenic water from the non-karst area, while the carbon isotope of HCO3- in karst water is lighter by 8.62‰. However, this does not mean that the karst water body has a larger carbon source effect. On the contrary, it means the karst water body has a greater karst carbon sink effect. When the karst subterranean stream in Zhaidi, Guilin, is exposed at the surface, carbon-rich karst water stimulated the growth of aquatic plants. The values of carbon stable isotopes in the same species of submerged plants gradually becomes heavier and heavier, and the 512 m flow process has a maximum range of 15.46‰. The calculation results showed that 12.52% of inorganic carbon is converted into organic carbon. According to the data that has been published, the global karst carbon sink flux was estimated to be 0.53-0.58 PgC/a, equivalent to 31.18%-34.41% of the global forest carbon sink flux. In the meanwhile, the karst carbon sink flux in China was calculated to be 0.051 PgC/a, accounting for 68% of its forest carbon sink flux. 相似文献
6.
生物地球化学循环是地球系统物质循环的核心,是维系地表生态系统稳定和人类社会可持续发展的重要基础。然而,气候变化以及人类的过度干扰可能会显著改变表层地球系统中的生物地球化学循环过程,尤其是脆弱的喀斯特生态系统。特殊的多孔隙关键带结构也加速了喀斯特地区物质循环及其对外界环境变化的响应,影响了不同尺度的物质循环和生物地球化学过程。本研究主要综述了宏观尺度(气候变化)、中尺度(人类活动)和微观尺度(微生物活动)的环境变化对喀斯特地区生物地球化学循环的影响。结果表明多要素变化导致喀斯特地区物质循环受到强烈影响,气候变化、人类活动和微生物活动及其耦合关系对喀斯特地区生物地球化学循环的调控作用具有重要意义。最后,本研究强调了现有研究的局限性并指出未来研究的挑战与方向,即未来应从系统研究(如地球关键带)的视角出发,将多尺度观测-分析与综合模型集成研究并举,从而构建多源多尺度耦合的过程和系统模型,进而为阐明喀斯特系统的演变规律和动力学机制、实现喀斯特地区的生态保护和高质量发展提供理论基础。 相似文献
7.
对《中国岩溶作用产生的大气CO2碳汇的分区计算》一文的商榷 总被引:4,自引:1,他引:3
对2011年《中国岩溶》第4期文章《中国岩溶作用产生的大气CO2碳汇的分区计算》及其引用和认可的两个重要碳汇数据,就碳汇测定方法原理、参数取值、计算公式和计算结果做了一些讨论。认为,①由于参数取值不妥等原因,北方区计算结果可能偏大3倍以上;因运算有误以及径流模数评估不当,埋藏区岩溶碳汇计算结果可能偏大200多倍;②由于方法原理的固有缺欠,该文所引用的、用定点磨片溶蚀法取得的全球岩溶碳汇通量(6.08×108tC/a)可能偏大4倍;③所引用数据的原始计算中新提出的主要水循环碳汇项,由于考虑其地球化学产生机制过于简单,各项评估结果都可能偏大20倍以上;结果使给出的全球水循环碳汇净通量(0.6433GtC/a)偏大2倍多,实际上,比用化学通量法测定的全球碳酸盐风化碳汇值(0.2433±0.05GtC/a)大不了很多;水生光合碳汇截留量可能不会很大;④使用的化学径流碳汇计算公式,虽是当前国内外通用公式,但因属于只考虑大气/土壤CO2溶蚀的简化公式,需要对非大气/土壤CO2溶蚀做进一步校正;校正后全球岩溶碳汇通量将再减少35%左右;⑤综合分析现有测定结果显示,在有世界大河化学径流记录以来的100多年里,全球岩溶碳汇通量平均大概不会超过0.1±0.02GtC/a太多;由于其基数太低,即使进行人为干预,也只能是一个局部或附属的大气CO2汇(如附属于局部地区森林生长量的成倍增长);如果再考虑被碳酸盐风化作用临时吸收的大气CO2,绝大部分最终要因碳酸盐矿物再沉淀而重返大气,全球岩溶碳汇净通量可能比0.1±0.02GtC/a还要小1个数量级,即使在现今大气碳循环被严重扰动的条件下,似也不会成为一种重要的遗漏碳汇。 相似文献
8.
Research Progresses and Prospect of Chimney Effect about Carbon Cycle in the Karst Cave System 总被引:4,自引:0,他引:4
There is a long history of several decades for the systemic study of global carbon cycles, and many important achievements have been obtained. However, these studies of carbon cycles in the karst area that accounts for about 10% of the entire Earth’s land area were paid attention gradually only in the past twenty. Recent researches suggest that karstification has important effects of the global carbon cycle. At present, scientists have had a very comprehensive and systemic understanding of various factors affecting the carbon cycle in the karst area, and estimated the carbon source or sink. However, unlike non karst area, there are generally many caves and fractures that have various sizes and morphologies in the karst area. These caves and fractures provide gas exchange between epikarst zone and atmosphere with a channel (as a window) in the karst area. There have been few reports about the role of the channel in the carbon cycle in the karst area. Previous studies have shown there is an obvious chimney effect in the karst cave system, which cannot be ignored. However, through the overview of the previous studies on carbon cycle of chimney effect in the karst cave system, we found that there were still many problems need to be further studied, such as the contribution of chimney effect to regional and global atmospheric CO2; the regional differences, the seasonal changes and its reason (driving force) of chimney effect; the influences of chimney effect on the local ecosystem. With the development of modern science and technology (such as eddy covariance, large aperture scintillation and isotope), it becomes possible to solve the above problems. Therefore, it is necessary to use these advanced means for automatic and continuous monitoring and researching the carbon cycles in the karst cave system, which are of important significance for the researches of carbon cycles in the karst area, even for the global carbon cycle studies. 相似文献
9.
岩溶作用时间尺度与碳汇稳定性 总被引:7,自引:3,他引:4
从碳酸盐溶蚀快速动力学过程、岩溶动力系统的开放性、环境敏感性和生物参与性等方面分析了岩溶作用过程的时间尺度及其碳汇稳定性,指出岩溶碳循环是一种兼具不同时间尺度的特殊地质作用过程,因水生植物和土地利用变化的影响,碳汇效应显著且相对稳定,仍对现今大气CO2减排有重要意义。为更好地估算岩溶碳汇潜力,在加强高精度自动化监测的同时,需要考虑外源水、水生植物及土地利用变化等因素。 相似文献
10.
典型岩溶水系统碳汇通量估算 总被引:6,自引:1,他引:5
现代岩溶学研究成果表明,碳酸盐岩在全球碳循环中响应极其迅速,水循环过程中的碳汇效应显著。本研究选取广西桂林寨底地下河系统、广西环江大安地下河系统、重庆北碚青木关地下河系统三个典型岩溶地下水系统,利用各系统地下河的流量和HCO3-浓度的监测资料,采用简单化学平衡模式法估算碳汇通量(CO2)。结果显示,寨底地下河系统的单位面积年碳汇通量为68.82 t/(km2.a),大安地下河系统的单位面积年碳汇通量为81.18 t/(km2.a),青木关地下河系统的单位面积年碳汇通量为100.07 t/(km2.a)。分析认为同一个岩溶水系统的结构特征和环境条件基本上是稳定的;地下河的流量和HCO3-浓度是影响岩溶碳汇强度的关键因素,尤其是地下河流量的变化对碳汇强度的影响显著;不同岩溶水系统的碳汇通量不但受水化学条件和地下水动力条件的控制,同时受土地利用变化的影响。该研究对于改进碳循环模型和评价岩溶地质碳汇有重要意义。 相似文献
11.
The carbon cycle in a global sense is the biogeochemical process by which carbon is exchanged among the biosphere, pedosphere, geosphere, hydrosphere, and atmosphere of the earth. For epikarst systems, it is the exchange of carbon among the atmosphere, water, and carbonate rocks. Southern China is located in the subtropical zone; its warm and humid weather creates favorable conditions for the dynamic physical, chemical, and ecological processes of the carbon cycle. This paper presents the mechanisms and characteristics of the carbon cycle in the epikarst systems in south China. The CO2 concentration in soils has clear seasonal variations, and its peak correlates well with the warm and rainy months. Stable carbon isotope analysis shows that a majority of the carbon in this cycle is from soils. The flow rate and flow velocity in an epikarst system and the composition of carbonate rocks control the carbon fluxes. It was estimated that the karst areas in south China contribute to about half of the total carbon sink by the carbonate system in China. By enhancing the movement of elements and dissolution of more chemical components, the active carbon cycle in the epikarst system helps to expand plant species. It also creates favorable environments for the calciphilic plants and biomass accumulation in the region. The findings from this study should help in better understanding of the carbon cycle in karst systems in south China, an essential component for the best management practices in combating rock desertification and in the ongoing study of the total carbon sink by the karst flow systems in China. 相似文献
12.
中国西南岩溶关键带结构与物质循环特征 总被引:1,自引:0,他引:1
岩溶关键带调查研究的目标是揭示岩溶生态系统的动态平衡和演化机制,旨在为经济社会提供资源环境服务的可持续管理对策,指出在合理的人为活动下增强岩溶关键带韧性的办法及修复受损部位的有效途径。碳酸盐岩作为可溶岩,赋予了岩溶关键带在结构上及物质循环过程中的岩石圈-生物圈相互作用等方面的若干特殊性。该文以中国西南岩溶区为例,总结了诸多学者的研究成果,揭示了从桂林岩溶区到重庆武隆岩溶区,岩溶关键带发育厚度由几米逐渐增厚至1 000 m的区域差异; 岩溶关键带的垂向物质循环过程以土壤-表层岩溶带为中心环节,而在横向上则呈现“岛屿状”镶嵌分布特征,地表生态具脆弱性; 岩溶关键带碳循环过程包括岩溶碳循环和生态碳循环两部分,碳汇则由植物碳汇、土壤碳汇和岩溶碳汇组成,初步估算其碳汇通量为64.36 t/(km2·a)。 相似文献
13.
中国岩溶碳汇通量估算与人工干预增汇途径 总被引:1,自引:0,他引:1
中国是岩溶大国,岩溶作用吸收土壤或大气CO2形成溶解无机碳,并随河流排向海洋,这是陆地碳循环的重要组成部分。中国地质调查局从2009年开始对岩溶碳汇进行探索性调查,基本查明了岩溶碳汇的作用机理、影响因素和计量方法。研究表明: 碳酸盐岩溶蚀试片、径流-水化学和回归模型等方法均揭示了中国岩溶碳汇潜力巨大; 植被恢复、土壤改良、外源水灌溉和水生植物培育等是人工干预增加岩溶碳汇的重要途径; 流域尺度岩溶碳循环及碳汇效应调查技术的应用,助力取得了岩溶碳循环地质调查和碳汇效应评价方面的理论、技术和平台建设等系列成果。值得注意的是,岩溶碳汇计量、核查和人工干预固碳增汇试验示范等方面还面临巨大挑战,这需要在“十四五”期间及以后的研究中不断攻关、完善,从而满足地质碳汇服务碳中和目标的需求。 相似文献
14.
泰国岩溶面积约占中南半岛岩溶面积的1/4,横跨近11个纬度。泰国岩溶作用强烈,地貌奇特,类型多样,既有典型的高原坡立谷岩溶,也有典型的峰丛洼地谷地和滨海峰林岩溶地貌,因而在全球岩溶对比研究中具有重要地位。本文在初步查明泰国岩溶分布、典型岩溶区的水文地球化学特征的基础上,分析了泰国岩溶发育的主要特点和动力条件,并与中国西南岩溶作了对比,旨在推动中国与中南半岛岩溶的对比以及全球现代岩溶的对比研究。 相似文献
15.
碳酸盐岩是岩溶发育的物质基础,它记录着地球历史时期的环境变化,是地球最大的碳库,对地球大气和生命演变起到重要作用;现代全球岩溶分布面积2200万km~2,占陆地面积的15%,岩溶动力系统是地球表层系统的重要组成部分,全球25%的人口依赖岩溶地下水资源的供给,岩溶生态系统的脆弱性制约着区域经济社会发展;本文主要针对近30年以来,岩溶学科发展进行综述,包括岩溶动力学概念、内涵与发展,驱动岩溶发育的地质-生态机制,岩溶动力系统与碳循环新进展,岩溶动力系统与水循环新进展,岩溶动力系统与钙循环新进展;岩溶动力系统与全球环境变化研究发展展望(岩溶关键带下的资源环境效应及国际大科学计划的启动)。 相似文献
16.
岩溶关键带处于岩石、水、土壤、大气、生物五圈交汇地带。正确认识岩溶关键带的结构、功能及其水文循环过程是当前地球关键带与岩溶水科学研究的关键问题。剖析了岩溶关键带水循环过程与演变规律、水循环过程在岩溶关键带中的作用,探寻变化环境下岩溶关键带水循环过程演变的规律与驱动机制,总结不足与问题,提出未来研究的总体趋势和方向:岩溶关键带形成与演化和水循环过程相互作用机制;岩溶关键带水循环驱动的物质转化与能量迁移过程及其耦合;水循环过程在不同时空尺度上对全球变化与人类活动干扰的响应;多种观测与模拟手段的综合应用。 相似文献
17.
18.
岩溶动力学理论的核心是碳水钙循环,强调系统思维和全球视野观,提出了岩溶动力系统概念模型、结构与功能。岩溶动力学研究产生的新的学科生长点,对现代岩溶学形成与发展具有里程碑式的意义。“岩溶形态组合”概念的提出为岩溶不均一性研究、岩溶类型与形成环境划分奠定了完整的方法体系;将岩溶学研究成功引入全球变化领域,由此开辟了岩溶碳循环与碳汇效应研究,为重新认识岩溶作用在全球碳循环中的地位打开了窗口;将岩溶地球化学研究延伸至无机与有机过程的融合研究,为脆弱岩溶环境修复与保护提供了更加清晰的思路与方法。岩溶IGCP项目的执行,体现了岩溶动力学理论为建立联合国教科文组织国际岩溶研究中心的指导意义,同时,岩溶动力学理论为我们自觉融入国家“一带一路”倡议、生态文明发展战略和“双碳”目标等奠定了坚实的理论与方法基础。 相似文献
19.
中国岩溶碳汇潜力研究 总被引:17,自引:0,他引:17
为了应对全球环境变化,中国地质科学院岩溶地质研究所等单位在地质调查项目的资助下,在中国典型岩溶流域开展了岩溶碳汇调查,建立了岩溶碳汇观测网站,深化了岩溶碳汇过程、影响因素和形成机理研究,发现了岩溶区外源水、土地合理利用、植被恢复和水生光合作用等增加岩溶碳汇的途径,取得了大量的科技创新进展。在调查研究的基础上,将我国岩溶区划分为南方岩溶区、北方岩溶区、青藏高原岩溶区和埋藏岩溶区4种类型区,利用GIS技术计算各区的岩溶面积和岩溶碳汇量,获得中国岩溶碳汇总量为3699.1万tCO2/a,这是我国344万km2岩溶区碳水钙无机循环产生的大气CO2汇。该项研究进展在2011年的《Science》通讯报道中获得高度评价。 相似文献
20.
大气碳收支不平衡问题是全球碳循环研究的核心问题之一,决定了人类活动导致的气候变化速度和程度。在过去50年,陆地和海洋作为全球碳循环的主要汇呈增加趋势,而岩溶作用(CaMg(CO_3)_2+2CO_2+2H_2O Ca~(2+)+Mg~(2+)+4 HCO_3~-)则通过与岩石圈、水圈、大气圈(层)的密切联系成为联系陆地和海洋碳库的纽带。尽管岩溶作用在水循环和生物圈的作用下,每年可产生约8亿t的碳通量,使岩溶作用过程成为全球碳循环的一个重要环节。但在目前研究技术手段和认识水平的条件下,将岩溶作用这一可逆过程直接认定为岩溶碳汇有不妥之处。因此,在没有涉及生物固碳效应的前提下,应当将岩溶作用参与的碳循环表述为岩溶碳通量。 相似文献