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1.
Rocky desertification, a process of land degradation characterized by soil erosion and bedrock exposure, is one of the most serious land degradation problems in karst areas, and is regarded as an obstacle to local sustainable development. It is well known that human activities can accelerate rocky desertification; however, the effects of climate change on rocky desertification in karst areas are still unclear. This study focused on the effects of temperature and precipitation changes and human activities on rocky desertification in karst areas to determine the impacts of climate change and human disturbances on rocky desertification. Areas of different level of rocky desertification were obtained from Landsat TM (1987) and Landsat ETM+ (2000) images. The results show that, although the total desertification area increased by only 1.27% between 1987 and 2000, 17.73% of the slightly desertified land had degraded to a moderate or intense level, 2.01 and 15.71%, respectively. Meanwhile, between 1987 and 2000, the air temperature increased by 0.7°C, and precipitation increased by 170 mm. Statistical results indicate that the increase in precipitation was caused by heavy rainfall. In addition, under the interactive influences of heavy rainfall and temperature, the average karst dissolution rate was about 87 m3 km−2 a−1 during the 14 years in the study area. Further analysis indicated that rocky desertification was positively related with the increase in temperature and precipitation and especially with the heavy rainfall events. Climate change accelerated rocky desertification in the karst areas. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorized users.  相似文献   

2.
The loss of surface soil and water in the karst rocky desertification area of carbonate rock in Chenqi village, Puding County, Guizhou Province was monitored in this study. The results show that the major form of surface soil loss in the area is the loss of soil through underground channels. A creep test of red clay formed by loss through underground channels was conducted. The results of the test show that the creep curve of the red clay samples includes two stages: attenuation creep stage and stable creep stage. The creep law for the red clay samples in the karst cave can be described by Buger’s model. The parameters of Buger’s equation were deduced by fitting the creep curve, which provides the reference for analyzing the surface soil loss leaking through the underground channels.  相似文献   

3.
李渊  刘子琦  吕小溪 《中国岩溶》2016,35(3):322-331
洞穴滴水与沉积物中的元素作为环境替代指标,在反映其物质来源以及反演古环境气候的研究中有着重要的作用,已受到国内外学者的广泛关注。本文在总结前人研究成果的基础上,概述了喀斯特洞穴体系中的元素迁移机理,重点对土壤、基岩、滴水中Ca、Mg、Sr、Ba四种元素的迁移变化机制进行了系统归纳;结合环境影响因素,分析了各元素的来源与特性,进而对滴水与沉积物中元素比值所反映的环境指示意义进行了综述。同时提出,应深入探究洞穴体系的元素迁移机制;结合洞穴环境体系的自身特点,区分元素指标在不同环境中的信息指示特征,提高沉积物中元素指示古气候环境信息的精准性;结合石漠化地表环境特征,从洞穴滴水的降雨响应研究入手,建立石漠化环境地下监测指标体系。   相似文献   

4.
土壤的地下漏失是喀斯特石漠化地区一种特殊的水土流失方式。本文以喀斯特石漠化严重地区——贵州普定县陈旗小流域为例,阐明了土壤地下漏失的过程及其机理。研究结果表明喀斯特地区特殊的地质环境为土壤的地下漏失创造了有利的空间条件;地表降水的大量渗漏为土壤的地下漏失提供了侵蚀的水动力条件;风干的土壤团聚体遇水易崩解,离散出的细粒物质可沿土间孔隙和岩溶裂隙向地下空间迁移;岩溶洞隙内填积的粘土在流水的浸润软化下呈可塑、软塑甚至流塑状,可向其下的溶洞、地下河蠕滑搬运,最终导致地表土壤漏失。   相似文献   

5.
针对桂林市临桂区岩溶塌陷易发区域,采用FLAC3D模拟不同降雨速率下的强降雨入渗过程,探究不同直径土洞在强降雨作用下的致塌规律,结果表明:(1)强降雨条件下,不同直径土洞最大位移均出现在洞顶部。降雨速率相同,洞顶竖向位移增长速率随土洞直径的增加呈整体加快的特点;加快降雨速率,竖向位移增长明显,竖向位移与土洞大小呈正相关。(2)相同降雨速率下,土洞直径增大会引起土洞底部剪切破坏区域进一步扩展。上覆土层在强降雨初期主要受到潜蚀作用,加快降雨速率,土洞底部水位剧烈波动对上覆土体产生的水击气爆成为主导作用,剪切破坏速率加快,洞趾剪切应变明显增加,当土洞直径达到3 m时,水位波动愈加剧烈,加速上覆土层破坏。(3)降雨速率的变化对土洞塑性区拓展范围具有不同程度的影响,较大直径的土洞在加快降雨速率时塑性区拓展范围明显扩大,即土洞大小、降雨速率对上覆土层稳定性具有较大的影响。研究结果为定量研究强降雨与上覆土层塌陷的关系提供了依据,对有效、合理地预警岩溶塌陷具有一定的意义。   相似文献   

6.
The Meitanba Coal Mine area in Hunan province, China, had been impacted by severe cover collapse sinkholes since 1982 due to mine dewatering. After the coal mine was closed in February 2015, the groundwater level has increased significantly. A series of sinkholes were recorded in the study area during groundwater-level recovery. Analysis of monitoring results and in-situ investigation indicated that 13 sinkhole collapses were more likely induced by abrupt change of groundwater–air pressure in response to heavy rainfall from March 2015 to July 2016 when the groundwater level increased by as much as 76 m. When the karst conduit was flooded, a relatively sealed environment was formed between saturated sediments and flooded karst conduit. Implosion of entrapped air might have caused the cave roof to collapse followed by surface collapses in a short time. On the other hand, four sinkholes occurred in November 2016 when the groundwater levels were near the soil–bedrock interface at elevations between 52.5 and 58.9 m amsl and the groundwater-level increase was at slower paces. Field measurements indicate that the groundwater-level fluctuation at the soil–bedrock interface could enlarge the soil cavity and accelerate the subsoil erosion process.  相似文献   

7.
姚邦杰  刘琦  任标  王涵 《工程地质学报》2019,27(5):1179-1187
由于岩溶地区特有的地上地下二元水文结构,其岩溶水系统循环演化具有特殊性,因而水不仅会携带土壤发生地表流失,而且会发生地下漏失,造成该地区土壤流失量大,岩溶石漠化现象突出,治理难度大。本文以贵州贞丰-关岭花江高原峡谷石漠化治理示范区为研究区域,通过野外调查、水样分析及数值模拟方法,对该区岩溶水系统的补、径、排特征,水化学特征和水均衡量等进行分析模拟计算出地下水位、地下暗河流量变化情况,得到该区岩溶水均衡量,其结果基本反映了实际地下水系统排泄量变化及地下水流向特征,初步阐明该区域岩溶水系统循环演化特征,为岩溶石漠化地区的土壤地表流失和地下漏失的趋势研究及防治提供理论依据。  相似文献   

8.
Formation mechanism of large sinkhole collapses in Laibin,Guangxi, China   总被引:1,自引:1,他引:0  
On June 3, 2010, a series of karst sinkholes occurred at Jili village surrounded by Gui-Bei highway, Wu-Ping highway and Nan-Liu High-Speed Railway in Laibin, Guangxi, China. The straight-line distances from an large sinkhole pit, 85 m in diameter and 38 m in depth, to the above mainlines are 200, 600 and 500 m, respectively. Several investigation methods including geophysical technology, borehole and well drilling, groundwater elevation survey and hydrochemistry analysis of groundwater were used to study the formation mechanisms of these sinkholes. Based on the results, the spatial distribution of the Jili underground river was confirmed with a strike of SN along the middle Carboniferous limestone bedrock and the Quaternary deposits controlled the sinkhole formation. In addition, both historical sinkhole events and analysis of the groundwater–air pressure monitoring data installed in the underlying karst conduit system indicate that sinkholes in this area are more likely induced by extreme weather conditions within typical karst geological settings. Extreme weather conditions in the study area before the sinkhole collapses consisted of a year-long drought followed by continuous precipitation with a daily maximum precipitation of 442 mm between May 31 and June 1, 2010. Typical geological conditions include the Jili underground river overlain by the Quaternary overburden with thick clayey rubble. Especially in the recharge zone of the underground river, a stabilized shallow water table was formed in response to the extreme rainstorm because of the presence of the thick clayey rubble. When the underground conduit was flooded through the cave entrance on the surface, air blasting may have caused the cave roof collapse followed by formation of soil cavities and surface collapses. Borehole monitoring results of the groundwater–air pressure monitoring show that the potential karst sinkhole can pose threats to Shanbei village, the High-Speed Railway and the Wu-Ping highway. Local government needs to be aware of any early indicators of this geohazard so that devastating sinkholes can be prevented in the future. The results also suggest that groundwater–air pressure monitoring data collected both the Quaternary deposits and the bedrock karst system provide useful indicators for potential sinkhole collapses in similar karst areas where sinkholes usually occur during rainy season or karst groundwater level is always under the rockhead.  相似文献   

9.
土地石漠化概念与分级问题再探讨   总被引:8,自引:1,他引:7  
李森  董玉祥  王金华 《中国岩溶》2007,26(4):279-284
针对前人研究中将石漠化发生的地域限定在亚热带,将发生的时间限定在人类历史时期,将发生的原因均归结为人为不合理的经济活动,而忽视了石漠化可能发生的其它地域、其它时期和其它成因等问题,对土地石漠化概念作了修正。认为土地石漠化是在湿润、半湿润气候环境和岩溶环境中,由于人类活动和/或气候变化等因素作用,造成地表植被退化、土壤侵蚀、地表水流失、基岩裸露,形成类似石质荒漠景观的土地退化过程,并对其内涵作出释义。在此基础上依据生态基准面的理论,以坡面形态、溶蚀岩溶地貌形态、基岩出露率、土壤厚度和土被覆盖度、土壤侵蚀程度、植被覆盖率和植物种群、土地利用类型等为景观指征,将石漠化土地分为轻度、中度、重度和极重度4个等级,并以粤北岩溶山区为例,拟定了区域性石漠化土地分级及其综合景观指征。   相似文献   

10.
北京市海淀区四季青镇香山村普安店在近几年中发生了多起地面塌陷灾害,给当地村民的生命和财产安全造成严重威胁。要查明地面塌陷灾害的成因,必须先要寻找地下隐伏的空洞。在勘查工作区内,采用高密度电阻率法、孔间电磁波CT法相结合的综合物探手段,成功探测出两处地下空洞,经钻探验证为岩溶发育所致。综合研究分析认为:工作区内下伏基岩为灰岩,属于可溶性碳酸盐类岩石;地下水在基岩面附近,且基岩面的高低变化大,在漫长的潜蚀过程中将土中物质带入溶洞中,在上覆粘性土层中形成"土洞",一旦塌陷至地表,就有可能成为灾害。  相似文献   

11.
Karst rocky desertification (KRD), as a process of soil degradation, is a limiting factor on enhancing the life condition of people in Southwest China. Fortunately, Chinese governments at different levels had taken it seriously, and the ‘Green for Grain’ program was initiated to treat and protect the fragile environment. In order to assess the dynamic change of KRD and improve the treatment of it in the future, Pingguo County, one of the ‘one hundred typical counties for karst rocky desertification control in China,’ was chosen as the study area. The results indicated that the evolution process of KRD landforms in the county might be divided into two phases: degradation phase (1994–2001) and ecological reconstruction phase (2001–2009). In the degradation phase, the area of non-KRD landform decreased from 1,132.02 km2 in 1994 to 1,056.42 km2 in 2001. In this phase, the area of non-KRD landform lost 5.51 % to KRD landforms, which mainly transferred to slight KRD landform with an area of 35.55 km2 counting for 3.14 %. In another hand, the area of non-KRD gained 27.85 km2, mainly from the slight KRD landform. As a result the area of non-KRD was reduced, meaning that the evolution of KRD became serious. In this phrase, the dynamic change degree of the slight KRD landform was the minimum, and the area of it was the largest among the three KRD landforms. Therefore, transition of slight KRD landform was the main transition type in this phase. The area of slight KRD landforms increased 38.77 km2 in the county, which mostly took place in the middle and southwest karst regions. In ecological reconstruction phase, the area of non-KRD landform increased to 1,091.90 km2 in 2009. In this phase, non-KRD landform gained an area of 22.82 km2 and lost an area of 26.73 km2, major of which from or to the slight KRD landform. Therefore, the area of non-KRD landform was increased, implying that the evolution of KRD became alleviated. In this phase, transition of slight KRD landform was also the dominant transition type. The decreased area of slight KRD landform was the largest among severe, moderate and slight KRD cases in the southwest karst region, where the ecological reconstruction projects were initiated. The efficient degrees of KRD landforms in southwest karst region were the largest in the four karst regions in this county. This study results may provide a consultant for rocky desertification control and ecological restoration in the future.  相似文献   

12.
西南喀斯特山地水土流失特点及有关石漠化的几个科学问题   总被引:38,自引:4,他引:34  
由于特殊的岩土组构,喀斯特坡地的水土流失具有如下特点:地表和地下流失相互叠加;地表产流、产沙少;纯碳酸盐岩区地下流失比例大。论文区别了石漠化和石质化的科学内涵,指出了喀斯特山地石漠化的核心是土地的石质化,提出了按照地面物质组成与裸岩率叠加的石漠化分类系统。根据土壤中硅酸盐矿物的物质平衡,提出了不同碎屑岩含量碳酸盐岩区的土壤允许流失量介于5~500 t/(km2?a)之间。喀斯特坡地土壤虽然肥沃,但总量太少,矿质养分不足可能是石质坡地植物生产力低的重要原因。此外,根据农耕驱动土地石质化的机制,提出了相应的石漠化治理的对策建议,具体是:(1)不但要治标,提高植被覆盖率,更要治本,防止或减缓土地石质化,同时还要增加群众收入;(2)按照坡地岩土组成的垂直分带特点,因地(土)制宜,开展治理;(3)重视矿质肥料的施用;(4)在纯碳酸盐岩土石质和石质坡地农田的小型蓄水工程修建中,要加强集流面建设。   相似文献   

13.
Karst is widely distributed in the southwest of China, especially in Guizhou Province. The phenomenon of desertification in these areas is very serious. And soil erosion is the key link in the process of desertification. Through field monitoring, underground soil leakage is derived to the main mode of soil loss in this area. Shear strength tests and creep experiments were carried out with the aim of analyzing the creep mechanism in underground soil loss. It is shown that the water content can lead to the great influence on the shear strength of the brown clay. This variation has been combined with creep characteristics besides the structural geology, hydrology condition and brown clay distribution circumstance (field observation). A conceptual creep model of the brown clay sliding along the karst conduits has been unveiled to show the detailed inference of the creep mechanism in the underground soil loss: geology and hydrology control the development of the karst conduit system; and penetration of water induces the weakening of the shear strength of the surface soil and accelerates the creeping and sliding of the brown clay along the karst conduit system. This understanding of the creep mechanism has significant implications for the future management of the soil erosion in the karst area.  相似文献   

14.
近年,广东省粤北山区隐伏区岩溶地面塌陷日益增加,直接影响人民生产生活。英德市沙口镇某村地质环境复杂,第四系覆盖层厚度薄,底部卵石层与下覆天子岭组灰岩直接接触,溶洞与断层破碎带发育,溶洞与溶洞间连通性较好,岩溶地面塌陷地质灾害严重。在综合分析沙口镇某村地质环境条件基础上,从内、外两方面因素,对岩溶地面塌陷发育特征及形成机理进行分析,认为在长期地下水位波动、潜蚀及淘蚀等作用松散盖层土体颗粒流失形成土洞,地表水与地下水强烈交替形成正负压力等作用下,土洞上部盖层发生塌陷。研究结论为科学制定岩溶地面塌陷防治方案提供依据。  相似文献   

15.
广州市白云区夏茅村岩溶塌陷地质灾害严重,塌陷区内地质环境条件极其复杂,隐伏灰岩岩溶土洞发育强烈,溶洞、土洞规模较大,且发育多层溶洞,溶洞间相互连通,岩溶塌陷区基岩面起伏较大,高程变化剧烈,第四系覆盖层厚度较大,底部粉质黏土层土洞发育,土体中规模巨大的土洞是产生岩溶地面塌陷的基础条件。基岩断裂构造带及其影响带范围内,岩石破碎,形成导水断层,存在地下水迳流通道,沿断裂带地下水循环活跃,溶蚀强烈,形成岩溶强发育带,为岩溶塌陷的发生提供了良好的动力条件。区内楼房基础施工扰动了地下水和土洞间的平衡状态从而成为了地面塌陷发生的诱发因素。运用7项地质环境条件指标和5项经济人口指标分别定性评估岩溶地面塌陷的易发度和易损度,并将二者叠加进行地质灾害风险评估。研究结果表明,夏茅村潜在地质灾害风险大,只有严格控制地下水动力条件,才能避免再次发生岩溶地面塌陷。  相似文献   

16.
Karst rocky desertification is a typical type of land degradation in the Southwest China. An attempt was made to study quantitatively the relationships between rocky desertification and spatial pattern of land use through applying spatial analysis of Geographical Information System in Nandong underground river system, a typical karst area, Southwest China. The spatial distribution of rocky desertification and spatial pattern of land use were obtained from interpreting Landsat Images in Nandong area in 2007 by supervised classifications, and verified and rectified through field survey. The results indicate that: (1) the total land deserted area covers 378.3 km2, or 23.4% of the total area, of which intense, moderate and slight rocky desertification covers 269.46, 54.2, and 54.63 km2, respectively, in Nandong area. (2) There is an obvious effect of spatial pattern of land use on rocky desertification. With the increase of elevation and slope, there is a higher occurrence ratio of rocky desertification in the cultivated land and grass land. Also, more than half of total rocky desertification was dominated within the areas of 4 km from the construction land, and 97% of total rocky desertification was dominated within the areas of 10 km from the construction land in Nandong area. And what can be known from the data is that the primary effect distance of human on rocky desertification from the construction land is 4 km, and the farthest effect distance of human on rocky desertification from the construction land is 10 km in Nandong area.  相似文献   

17.
喀斯特裸坡土壤侵蚀模拟研究   总被引:4,自引:0,他引:4  
刘正堂  戴全厚  杨智 《中国岩溶》2014,33(3):356-362
文章通过人工模拟降雨试验,研究不同地下孔(裂)隙度、基岩裸露率和雨强对地表、地下产流、产沙的影响,其结果表明:(1)土壤侵蚀与地下孔(裂)隙度具有较高相关性,地表产流、产沙随地下孔(裂)隙度的增大而减小,而地下则相反;(2)坡面径流刚产生时,雨滴击溅和薄层水流冲刷,土壤细小颗粒堵塞其毛管空隙,渗漏率减小,而地表径流量增大,土壤团聚体被破坏、分散和迁移,降水与土壤渗漏率增大,地表径流量减小,雨滴击溅增强,如此循环,降水与土壤渗漏率呈波动性变化;总体而言,地表、地下悬移质均随降雨历时呈下降趋势,而地表推移质则相反,地表、地下产流量变幅较小,趋于平行;(3)地表产流、产沙量随基岩裸露率增大呈波动性变化,总体呈下降趋势;而地下产流、产沙量随基岩裸露率增大呈波动性变化,总体呈增大趋势;(4)在较小雨强30 mm/h时,地表只产生悬移质流失,没有产生推移质流失;地表、地下产流、产沙都是随雨强增大而增大;雨强由30 mm/h增大到150 mm/h,地表累积产流量为538.5 L,累积产沙量为2 393.81 g,地下累积产流量为207.8 L,累积产沙量为687.73 g,累积产沙量的递增速率比累积产流量的递增速率要大,地表产流、产沙的递增速率大于地下产流、产沙的递增速率;(5)各因子与土壤侵蚀间相关程度为:降雨历时>雨强>地下孔(裂)隙度>基岩裸露率。该实验有助于为喀斯特地区的水土流失研究、评价及制订石漠化治理措施提供理论依据。   相似文献   

18.
西南岩溶石山区地下水开发在石漠化防治中的地位   总被引:3,自引:0,他引:3  
王明章 《贵州地质》2006,23(4):261-265
石漠化的形成和发展与缺水密切相关,水资源开发利用是石漠化防治的首要问题。本文分析了石漠化形成和发展实质、岩溶石山区水资源的空间分布和开发利用条件,从理论上论述了岩溶地下水开发与石漠化治理的关系,并以实例论证了岩溶地下水开发对石漠化防治的效果。指出岩溶地下水的开发利用在岩溶石山地区石漠化防治中具有重要的地位。  相似文献   

19.
武汉地区浅层岩溶发育特征与岩溶塌陷灾害防治   总被引:6,自引:5,他引:1  
罗小杰 《中国岩溶》2013,32(4):419-432
运用综合分析和数学统计的方法,较为深入地研究了武汉地区浅层岩溶的发育特征。武汉地区存在6个走向 NWW-SEE、各自相对独立的碳酸盐岩条带。根据上覆盖层工程地质性能的差异,划分出5种岩溶地质结构类型。武汉地区浅层岩溶主要类型有溶隙、落水洞及小型溶洞等,钻孔遇洞率46.0%-50.1%,线岩溶率5.93%-6.00%。浅层岩溶带中,1/3的溶洞洞高小于0.6 m,50%小于1.0 m,90%小于3.0 m。1/3的溶洞顶板在基岩面以下2.5 m 以内,50%在4.5 m 以内,90%在12.5 m 以内。溶洞充填物主要是黏土,含有灰岩碎块石。全充填溶洞占70.8%,未充填溶洞约占1/5,半充填溶洞不到8%。全充填溶洞顶板在基岩面以下平均埋深5.13 m,半充填5.71 m,无充填7.69 m,且具有全充填和半充填溶洞埋深较小、无充填溶洞埋深较大的特点,反映出溶洞充填方式是自上而下充填,充填物主要来源于上部覆盖层。武汉地区浅层岩溶为上部“垂直渗流岩溶带”地下水垂直渗流作用下的产物。根据岩溶发育程度的差异,基岩面以下浅部碳酸盐岩在垂直方向上可分为上部强岩溶和下部弱岩溶两个带;岩溶塌陷灾害平面上可划分出高、中、低3个危险性区,各区防治原则不同。高危险区是岩溶塌陷灾害防治的重点,防治的基本原则是阻止上覆粉细砂的流失;中等危险区的防治原则是保护中部老黏土层或红层的完整性;低危险区应注意远城区土洞存在的可能性。各危险区治理应以岩溶地质结构为基础,在防治原则指导下制定相应的防治措施。此外,工程建设中应合理选择和利用弱岩溶带。  相似文献   

20.
岩溶石漠化的形成演化机制是被关注的科学问题,对脆弱的岩溶区生态环境恢复具有重要的现实意义。洞穴石笋δ13C受到多种因素影响,能敏感响应地表生态环境以及岩溶水文条件的变化。因此,利用石笋δ13C研究岩溶地区生态环境演变历史成为一个重要方向。本文从地表环境和洞穴沉积两个方面梳理了影响石笋δ13C的主要因素。结合现代洞穴监测及模型模拟研究,分析整理了影响洞穴滴水和沉积物中δ13C的主要因素和机理。在多重因素的影响下,石笋δ13C的环境意义具有多解性,文章从时间尺度、空间分布、沉积环境三方面归纳了石笋δ13C的指示意义。为了准确解释石笋δ13C环境意义,提出了综合分析、现代监测以及模型模拟的解决方案。通过对岩溶石漠化概念、成因、发展过程、以及环境效应的讨论,分析了地表石漠化与石笋δ13C记录的密切联系。总结了已经发表的利用石笋δ13C重建区域石漠化的研究成果,讨论了目前研究中面临的主要问题:(1) 如何正确解译石笋δ13C的指示意义?这是石笋δ13C能够用于重建区域石漠化历史的前提;(2) 在空间上,石笋δ13C记录反映上覆地表的面积是有限的,需考虑石笋能否代表目标研究区域的环境变迁;(3) 石漠化可在年—十年际时间尺度上快速发展,而石笋测年存在一定的年龄误差,石笋δ13C是否能够敏感记录地表的石漠化过程?为了准确重建区域岩溶环境以及石漠化演变历史,提出以下主要建议:(1) 为了避免石笋δ13C重建古环境的不确定性,可加强石笋δ13C与δ18O、微量元素、矿物结构等指标的综合对比分析,与现代监测以及模型模拟的解决方案综合集成,能更加准确重建研究区岩溶水文变化过程,判定石漠化的演化历史;(2) 通过区域和同一洞穴的多根石笋记录对比,减少单一石笋记录的区域代表性问题;(3) 高精度年代控制的高分辨率多指标石笋记录,有助于捕捉快速发生的石漠化过程。   相似文献   

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