共查询到20条相似文献,搜索用时 125 毫秒
1.
2.
3.
胶东西北部是我国重要的金矿聚集区,矿床类型以石英脉型和破碎带蚀变岩型为主。发育在三山岛–仓上断裂内部的三山岛金矿床是胶东西北部蚀变岩型金矿的典型代表。最新的勘探结果显示,三山岛金矿在大于2 km的垂深处仍有很好的金矿化,而且三山岛金矿的一个显著特点是主矿体均发育在断裂内部的断层泥之下,断裂的形成和演化对金矿床的形成及矿体的空间分布具有重要的控制作用。作者通过不同尺度的构造分析后发现,在三山岛金矿床形成过程中,区域构造应力场的状态发生过明显的转变,由成矿前的右行张扭,转变为成矿初期的NNW-SSE向挤压左行剪切应力场,三山岛主断裂也在成矿期发生左行挤压逆冲活动,主断裂封闭,主断裂内的断层泥逐渐形成,封堵成矿热液于断层泥之下,形成三山岛矿区大规模的破碎带蚀变岩型矿化。 相似文献
4.
胶东地区金矿床可以分为三种类型,即石英脉型、破碎蚀变岩型和胶(州)—莱(阳)盆地北缘拆离带中的角砾岩型。挑选玲珑、焦家、三山岛、仓上、望儿山、大尹格庄、邓格庄、蓬家夼、发云夼和大庄子10个矿床中成矿主期的黄铁矿、绢云母和钾长石进行了硫、氢、氧同位素测试,还对个别矿床成矿晚期的碳酸盐矿物进行了碳、氧同位素测定,同时对比测定了玲珑花岗岩和郭家岭花岗闪长岩中黑云母和钾长石的氢、氧同位素,结果表明这些金矿虽然产出形式有差别,但都是同一深部流体库中流体上涌、与围岩发生强烈水岩反应和与地壳流体混合,通过交代和沉淀成矿。胶东金矿在形成时代上晚于侏罗纪玲珑花岗岩(160~150Ma)和白垩纪郭家岭花岗闪长岩(130~126Ma),与煌斑岩墙及其他中基性岩墙同时生成(121~114Ma),两者具有富CO2流体和伴随着以钾交代为特征的蚀变作用,都是中生代岩石圈快速减薄过程的地壳浅部响应。 相似文献
5.
6.
中国胶东焦家式金矿类型及其成矿理论 总被引:8,自引:0,他引:8
胶东焦家式金矿是中国最重要的金矿类型,是受构造控制的热液型金矿,可分为破碎带蚀变岩型、含金石英脉型、破碎带石英网脉带型、硫化物石英脉型、层间滑动构造带型、蚀变砾岩型和盆缘断裂角砾岩型等亚类。金矿成矿时期为早白垩世,成矿物质来源于强烈的壳幔相互作用,常具有绢英岩化、黄铁矿化、硅化、钾化等矿化蚀变,金矿体产出具有尖灭再现、分支复合、侧伏、斜列、叠瓦规律。岩浆热隆、流体活动、伸展拆离是导致胶东大规模金矿形成的三大关键要素;早白垩世壳幔同熔岩浆活动分凝和激活的围岩流体是金矿迁移、富集的载体;岩浆上隆产生的伸展拆离构造为金矿成矿提供了有利空间。据此,提出了焦家式金矿“热隆-伸展”成矿理论。焦家式金矿形成于早白垩世中国东部岩石圈大规模减薄阶段,受伸展构造系统控制。控矿构造沿倾向呈现陡缓相间的倾角变化规律,金矿主要沿断裂倾角变化的平缓部位和陡、缓转折部位富集,构成“阶梯式”分布型式。 相似文献
7.
胶东蚀变岩型金矿金矿物微区地球化学特征 总被引:2,自引:1,他引:1
胶东半岛金矿集区是我国主要的产金地之一,其中"蚀变岩型"和"石英脉型"金矿为该区两个典型的矿床类型。位于胶东半岛西北部的三山岛-仓上断裂带发育两个典型的"蚀变岩型"金矿:三山岛金矿和新立金矿。这两个金矿区金矿物赋存状态以晶隙金、裂隙金和包裹金为主,呈片状、椭圆状、短柱状和板状形态赋存于载金矿物之中,载金矿物主要为黄铁矿,少量方铅矿、闪锌矿等硫化物。扫描电镜背散射(BSE)电子图像和二次电子图像发现,单个金颗粒表面具有明显的凹坑或凹槽,因内部填充杂质或反光而呈暗黑色区域。电子探针(EMPA)分析可得金矿物中Au含量为63.34%~72.54%,含有较高的Ag含量(27.39%~36.34%),属于银金矿系列。银金矿单个颗粒微区能谱分析(SEM-EDS)显示,银金矿中除了Au和Ag外,还存在N(6.12%~9.79%)、O(1.89%~6.18%)、W(0.42%~0.84%)、P(6.32%~10.38%)和Fe(1.62%~3.37%)等元素。研究区银金矿与玲珑金矿("石英脉型"金矿)金矿物微区元素对比分析发现,具有相同的Au、Ag、N、O和Fe元素,但是仅在研究区银金矿中发现W元素,并且所含N、O和Fe的含量远低于玲珑金矿床。研究区银金矿中低O含量反应金形成环境为还原环境,并且与"石英脉型"金矿形成环境相对比,还原性更高。N元素的存在可能指示成矿流体中有大气降水混入,并且"蚀变岩型"金矿比"石英脉型"金矿混入量较少。P可指示成矿流体中有幔源流体的加入。W指示成矿流体可能源自早白垩世岩浆作用形成的初始岩浆流体。通过金矿物微区地球化学与成矿流体氢氧同位素综合分析可得,胶东金矿成矿流体为多源混合。成矿物质来源与早白垩世中-基性脉岩具有同源性,可能源自深部地幔。Au运移过程中,主要以硫化物Au(HS)-2的形式运移。 相似文献
8.
胶东三山岛断裂构造蚀变岩三维控矿规律研究与海域超大型金矿的发现 总被引:3,自引:0,他引:3
三山岛北部海域金矿床位于胶东西北部三山岛成矿带之内,为一严格受断裂构造控制的超大型破碎带蚀变岩型金矿床。该次找矿预测并获重大突破的预测依据如下:(1)三山岛断裂蚀变矿化带,受NNE和NEE两组方向的区域构造控制,复合叠加呈“N”字形分布。陆上断裂蚀变矿化带接近海域,并没有间断,推测在三山岛北部延伸至海区。(2)焦家和三山岛两断裂蚀变矿化带,具有统一的三维控岩控矿规律。焦家断裂蚀变金矿带向西倾斜,控矿构造和矿化富集程度显示阶梯状分布,其中矿体向南西侧伏,矿体在剖面上呈左行右列式分布;而三山岛断裂蚀变金矿带向东倾斜,其中矿体向NE侧伏,矿体在剖面上呈右行左列式分布。依据陆内构造控岩控矿规律预测海域未知矿体的分布规律,获得了良好的验证。(3)三山岛金矿到焦家金矿的勘探剖面显示,两个控矿构造岩相带倾向相反,但是都在下盘花岗岩区段集中交代蚀变成矿。这一认识为确定深部成矿靶区提供了准确的地质依据。(4)地球物理勘查结果显示,三山岛矿带的重力和磁力异常指出沿“N”字形构造从陆地向海区延伸,这成为预测的重要依据。总之,三山岛北部海域金矿床目前业已取得找矿重大突破。矿床为焦家式破碎蚀变岩型金矿,属中生代燕山晚期岩浆热液脉型矿床,其深部及外围仍具有良好的找矿前景。 相似文献
9.
广西昭平湾岛金矿受断裂破碎带和花岗斑岩接触带的控制,主要围岩蚀变为硅化和绢云母化,矿化类型分为石英脉型和硅化蚀变岩型.金矿床属中低温热液构造蚀变岩型金矿. 相似文献
10.
以隐爆角砾岩型为主的金矿床系列模式 总被引:2,自引:0,他引:2
李胜荣 《有色金属矿产与勘查》1995,4(5):272-277
本文从成矿地质背景、成矿时代、成矿物质来源、成矿介质条件和成矿机制等5个方面,论述了河南嵩县祁雨沟及其外围地区斑岩角砾岩型、隐爆角砾岩型、破碎带蚀变岩型和石英脉型金矿。该系列金矿是在燕山中晚期钙碱性花岗质岩浆基础上发育起来的,具有同源、同期、同成因、不同空间成矿的特征,称之为以隐爆角砾岩型为主的金矿床系列。 相似文献
11.
Integrated gravitational, electrical-magnetic surveys and data processing carried out in the Sanshandao–Jiaojia area, Eastern Shandong Province, northeast China, aim to illuminate the geological characteristics of this shallow-covered area and delineate deep-seated gold prospecting targets. In this region, altogether 12 faults exert critical control on distribution of three types of Early Precambrian metamorphic rock series, i.e. those in the metamorphic rock area, in the granitic rock area underlying the metamorphic rock, and in the remnant metamorphic rock area in granites, respectively. Additionally, the faults have major effects on distribution of four Mesozoic Linglong rock bodies of granite, i.e. the Cangshang, Liangguo, Zhuqiao-Miaojia and Jincheng granites. The Sanshandao and Jiaojia Faults are two well-known regional ore-controlling faults; they have opposite dip direction, and intersect at a depth of 4500 m. Fracture alteration zones have striking geophysical differences relative to the surrounding county rocks. The two faults extend down along dip direction in a gentle wave form, and appear at some steps with different dips. These steps comprise favorable gold prospecting areas, consistent with a step metallogenic model. Six deep-seated gold-prospecting targets are delineated, i.e. Jincheng-Qianchenjia, Xiaoxizhuang-Zhaoxian, Xiyou-Wujiazhuangzi, Xiangyangling-Xinlicun, Panjiawuzi and Miaojia-Pinglidian. 相似文献
12.
Jingwen Mao Yitian Wang Houmin Li Franco Pirajno Changqing Zhang Ruiting Wang 《Ore Geology Reviews》2008,33(3-4):361-381
The largest gold district in China is the Jiaodong Peninsula, where three types of gold deposits are recognized: quartz vein, fracture-altered and breccia types. The first two developed along a group of NE-trending faults and are hosted by granitic intrusions, dated at 160 to 150 Ma (biotite granite) and 130 to 126 Ma (granodiorite), and by metamorphic rocks of the Precambrian crystalline basement. The breccia-type gold system is mainly located around the northern margin of the Jiaolai Cretaceous basin, where mineralisation is controlled by both detachment fractures and NE-trending faults. This study is based on stable isotope determinations from ten gold deposits, including Linglong, Jiaojia, Sanshandao, Cangshang, Wang'ershan, Dayigezhuang, Denggezhuang, Pengjiakuang, Fayunkuang and Dazhuangzi, as well as the Linglong Jurassic biotite granite, Guojialing Cretaceous granodiorite and Archean gneiss. The stable isotope systematics reflect the style of the three types of gold deposits, but also show that they belong to the same metallogenic system, in which the hydrothermal fluids were derived from a mantle fluid reservoir and mixed with crustal fluids. The ore-forming age is later than both the Jurassic biotite granite and Cretaceous granodiotite, but overlaps with the 121 to 114 Ma ages of lamprophyre and diabase dykes. The hydrothermal fluids that were responsible for both gold mineralisation and the retrograde alteration of the diabase and lamprophyre dykes are similar, and represent a CO2 and potassium-rich system. This fluid system is interpreted to be the consequence of Cretaceous lithospheric thinning, asthenospheric upwelling and mantle degassing in Eastern China. 相似文献
13.
Abstract. Intrusion‐related gold deposits are widely distributed within the North China craton or along its marginal fold belts. Presently, about 200 individual intrusion‐related gold deposits (prospects) have been discovered, among which Yuerya, Anjia‐yingzi, Linglong, Jiaojia, Chenjiazhangzi, Qiyugou, Jinjiazhuang, Dongping, Hougou, Huangtuliang, Guilaizhuang, Wulashan and Donghuofang are the most important ones. In general, the intrusion‐related gold deposits can be classified into three major groups according to their host rocks: (1) hosted by or related to felsic intrusions, including (la) calc‐alkaline granitoid intrusions and (lb) cryptoexplosion breccia pipes; (2) related to ultramafic intrusions, and (3) hosted by or related to alkaline intrusions. The first group contains the Yuerya, Anjiayingzi, Linglong, Jiaojia, Chenjiazhangzi and Qiyugou gold deposits. Gold mineralization at these deposits occurs within Mesozoic Yanshanian calc‐alkaline granitoid intrusions or cryptoexplosion breccia pipes as gold‐bearing quartz veins and replacement bodies. Pyrite, galena, sphalerite, chalcopyrite, native gold and electrum are major metallic minerals. The Jinjiazhuang deposit belongs to the second group, and occurs within Hercynian diopsidite and peridotite as quartz veins and replacement bodies. Pyrite, marcasite, arsenopyrite, native gold and electrum are identified. The third group includes the Dongping, Hougou, Huangtuliang, Guilaizhuang, Wulashan and Donghuofang deposits. Gold mineralization at these deposits occurs predominantly within the Hercynian alkaline intrusive complexes as K‐feldspar‐quartz veins and replacement bodies. Major metal minerals are pyrite, galena, chalcopyrite, tellurides, native gold and electrum. All these pyrite separates from Hercynian and Yanshanian intrusions or cryptoexplosion pipes associated with the gold deposits show a broad range in δ34S value, which is overall higher than those Precambrian rocks and their hosted gold deposits. For the alkaline intrusion‐related gold deposits, the δ34S values of the sulfides (pyrite, galena and chalcopyrite) from the deposits increase systematically from orebodies to the alkaline intrusions. All of these intrusion‐related gold deposits show relatively radiogenic lead isotopic compositions compared to mantle or lower crust curves. Most lead isotope data of sulfides from the gold ores plot in between the fields of the intrusions and Precambrian metamorphic rocks. Data are interpreted as indicative of a mixing of sulfur and lead from magma with those from Precambrian metamorphic rocks. Isotopic age data, geological and geochemical evidences suggest that the ore‐forming materials for the intrusion‐related gold deposits were generated during the emplacement of the Hercynian or Yanshanian intrusion. The calc‐alkaline or alkaline magma may provide heat, volatiles and metals for the intrusion‐related gold deposits. Evolved meteoric water, which circulated the wall rocks, was also progressively involved in the magmatic hydrothermal system, and may have dominated the ore fluids during late stage of ore‐forming processes. Therefore, the ore fluid may have resulted from the mixing of calc‐alkaline or alkaline magmatic fluids and evolved meteoric water. All these intrusion‐related gold deposits are believed to be products of Hercynian or Yanshanian calc‐alkaline and alkaline igneous processes along deep‐seated fault zones within the North China craton or along its marginal belts. 相似文献
14.
胶东中生代金成矿系统 总被引:74,自引:50,他引:24
胶东是我国最重要的金矿集区,其内已发现金矿床150余处,探明金资源储量4000余吨。虽然其金矿床数量众多、资源储量巨大、分布地域广泛、产出空间各异、矿化类型多样,但它们的成矿地球动力学背景、赋矿围岩环境与产出条件及其成矿作用特征总体一致:(1)胶东是一个主要由前寒武纪基底岩石和超高压变质岩块组成、中生代构造-岩浆作用发育的内生热液金矿集区,约130~110Ma的金成矿事件比区域变质作用晚约2000Myr;(2)区域金成矿系统形成于早白垩世的陆缘伸展构造背景,大规模金成矿事件发生在区域NW向伸展转换为NE向伸展后的NEE向挤压变形作用过程中,对应于中国东部岩石圈大规模减薄、华北克拉通破坏和大陆裂谷作用的高峰;(3)金矿床群聚于NNE向玲珑、鹊山和昆嵛山变质核杂岩周边,主要沿前寒武纪变质岩与中生代花岗岩体接触带形成的区域NE-NNE向拆离断层带分布;(4)控矿断裂带经历了早期的韧-脆性变形和晚期的脆性变形构造叠加,在三维空间上呈舒缓波状延展,控制了金矿体的侧伏和分段富集;(5)矿化样式以破碎带蚀变(砾)岩型、(硫化物-)石英脉型和复合脉带型为主,矿石普遍发育压碎、晶粒状和填隙结构,浸染状、细脉浸染状、网脉状、脉状、团块状和块状构造,反映其形成于韧-脆性→脆性变形环境;(6)矿石中金属矿物以黄铁矿、黄铜矿、方铅矿和闪锌矿为主,非金属矿物以石英、绢云母、钾长石、斜长石和方解石为主;金矿物以银金矿和自然金为主、含少量金银矿,主要以可见金的形式赋存于黄铁矿和石英裂隙中、含少量晶隙金和包体金;热液蚀变主要为黄铁矿化、硅化、钾长石化、绢云母化和碳酸盐化;成矿元素为Au-Ag(-Cu-Pb-Zn);呈现出中-低温蚀变矿化组合特征;(7)成矿流体为壳-幔混合来源,以壳源变质流体为主;成矿物质总体来源于中生代活化再造的前寒武纪变质基底岩石,并混入了少量浅部地壳和地幔组分。这种区域成矿特征的一致性,表明胶东金矿集区早白垩世大规模金成矿作用受控于统一的地质事件,属于后生的中-低温热液脉金成矿系统。这些金矿床具有明显的时空群聚分布特征,主要沿三个变质核杂岩周边的岩相接触带产出,且自西向东,金成矿作用年龄由老变新。据此,可划分为胶北隆起蚀变岩-石英脉型、苏鲁超高压变质带硫化物-石英脉型和胶莱盆地北缘蚀变砾岩型三个金成矿子系统。其矿化样式由浸染-细脉、细脉-网脉型和石英脉型→硫化物-石英脉型→蚀变(角)砾岩型变化,矿石结构、构造以细脉浸染状构造为主→环带结构与梳状构造→角砾状构造为特色,反映其成矿作用分别发生于脆-韧性转换带(约15km)→脆性张剪性断裂带→脆性角砾岩带(约5km)环境;矿化、蚀变规模和强度逐渐减弱,成矿物质中浅部壳源组分逐渐增多,可能与其矿床定位空间越来越远离源区有关;成矿温度和压力依次降低、成矿流体中大气降水和/或盆地卤水贡献逐渐增大,与其成矿深度越来越浅、成矿构造环境越来越偏张性的变化趋势一致。这种成矿特征的区域规律性变化反映至少在拆离断层韧-脆性转换带附近→脆性角砾岩带之间的地壳剖面中、在不同的垂向深度上连续成矿。胶东中生代金成矿系统的上述特征明显区别于典型的"与侵入岩有关的金矿"和"造山型金矿",也不同于全球其它已知的金矿床类型,不能被已有成矿模式所涵盖。为合理解释胶东中生代金成矿系统独特的地质与成矿特征,我们提出新的"胶东型金矿"成矿模式,指出古太平洋Izanagi俯冲板片的回转作用可能是引起区域前寒武纪变质基底岩石中成矿物质大规模活化再造的主要驱动机制,成矿流体主体来源于俯冲板片变质脱水,金可能主要以Au(HS)2-络合物的形式在流体中沿拆离断层系输运,在韧-脆性转换带附近→脆性角砾岩带,由于构造空间急剧增大、成矿流体的温度和压力突然降低,CO2、H2S逸出和硫化作用导致Au(HS)2-等金络合物失稳分解,金大规模沉淀富集成矿。 相似文献
15.
中生代,胶东地区存在燕山期和燕山晚期两期金矿化作用。燕山期金矿化与陆内碰撞(俯冲)的挤压地球动力学环境有关,形成中深石英脉型和蚀变岩型金矿床,以玲珑型和焦家型金矿床为代表,与区域花岗岩浆活动存在时间、空间和成因上的紧密联系。燕山晚期金-多金属矿化与陆内拉张火山裂谷带地球动力学环境有关,形成浅成蚀变岩型(或脉型)金-多金属矿床,以蓬家夼金矿床为代表,与青山期火山-岩浆活动有关。本就两期金矿化的成矿地球动力学环境、矿床地质特征、矿床稳定同位素特征等进行了详细的研究,指出燕山晚期金-多金属矿化作用是胶东地区与燕山期金矿化作用同等重要的成矿阶段。加强燕山晚期金-多金属成矿作用的研究,对于扩大胶东金矿床的找矿远景,保持胶东黄金产业的可持续发展具有十分重要的意义。 相似文献
16.
胶东蓬家夼金矿床地质与地球化学特征 总被引:9,自引:0,他引:9
蓬家夼金矿床是胶东地区新近发现的金矿床之一,矿体赋存在胶莱盆地东北缘层间滑动断层带中、莱阳组砾岩与荆山群地层的构造接触部位,为区内燕山期火山活动前期,在大气水和岩浆水的参与下形成的层间滑动角砾岩型金矿床。同位素研究表明,蓬家夼金矿的硫、碳来源于矿区围岩;部分铅则可能具有地幔成因。包裹体气相成分以H2O、CO2为主;液相成分中富Na+、Cl-,贫K+、F-。成矿流体δ18OH2O为0.59‰~4.03‰,δDH2O为-97.95‰~-89.5‰,反映了成矿流体由大气水和岩浆水混合组成的特点。成矿时代在100Ma。 相似文献
17.
胶东地区是典型的剪切带型金矿集中区,精确厘定该地区控矿剪切带的活动时代,可为探讨剪切带与金矿成因关系提供关键的时限约束,并且对矿床成矿模式的建立具有至关重要的意义。大量矿床地质证据显示胶东地区控矿剪切带中脆性变形活动对金矿体的形成具有直接影响,但其脆性变形时代尚不十分清楚。据此,本文在详细研究金矿体赋存特征的基础上,系统选取胶东焦家、玲珑、邓格庄、乳山这四个金矿区控矿剪切带断层泥中白云母进行40Ar-39Ar年代学研究。定年结果显示,胶东地区焦家剪切带、招平剪切带以及牟乳剪切带的脆性变形时代分别为110.3±1.5Ma、122.8±1.7Ma、119.6±1.2Ma~115.8±1.4Ma。其中焦家剪切带的脆性变形时代明显晚于招平和牟乳剪切带,可能代表了焦家蚀变岩型矿化形成后易遭受后期的构造叠加。综合胶东各金矿区控矿剪切带变形时代、岩体侵位时代、成矿时代及剪切带活动特征和矿体产出特征,本文认为在多期岩体侵位以及控矿剪切带递进变形过程中,剪切带韧性变形区中由高压流体作用产生的同期脆性破裂可形成脉型矿化,如乳山金矿;而在脆-韧性和脆性变形区中发生的大规模脆性变形可导致脉型和蚀变岩型矿化的形成,如玲珑、邓格庄和焦家金矿。但随着剪切带的递进变形和隆升剥蚀,后期多期次的脆性构造变形叠加,可导致多种矿化类型出现在同一构造部位,如焦家金矿中石英脉型和蚀变岩型矿化。 相似文献
18.
文章简要介绍了幔枝构造成矿理论,探讨了幔枝构造的特征、单元划分、断裂构造体系以及成矿控矿作用。在燕山运动晚期,华北东部地区进入了以伸展构造为主的地幔热柱演化阶段,在胶西北地区形成了莱阳地幔亚热柱及其外围郭家店、栖蓬、牟乳等幔枝构造。其中,郭家店幔枝构造于燕山运动晚期发生强烈的构造活动,总体形成了以焦家断裂为主的拆离带和与其相交的以三山岛断裂为反向铲状断裂的构造体系,同时控制着玲珑、焦家、三山岛等一系列大型—超大型矿床的形成。在众多成矿控矿因素中,区域性断裂构造是重要的主导性因素,既为成矿流体的运移提供了通道,又为成矿储矿提供了有利空间。深源含矿流体可通过地幔热柱→地幔亚热柱→幔枝构造→有利构造扩容带,即脆韧性-韧脆性剪切带、侵入岩体的内外接触带、密集的构造裂隙带、各种脉岩与围岩的接触带等有利构造部位集聚成矿。近年来在胶西北深部勘查发现,浅部沿断裂展布的若干个大—中型金矿在其深部的成矿蚀变构造带可能是连为一体的,一起组合成为超大型金矿。 相似文献
19.
焦家断裂带与三山岛断裂带,是胶东西jE部著名的金矿成矿带。利用综合物探资料,对三山岛断裂与焦家断裂带之间与金成矿关系密切的早前寒武纪变质岩系和中生代花岗岩的空间分布关系进行了重新划分。利用高磁、重力、大地电磁(MT)和可控源音频大地电磁(CSAMT)综合研究剖面,研究探索焦家断裂与三山岛断裂带深部断裂构造的分布关系及成矿模式。系统总结了两带金矿地球物理特征及成矿规律和找矿标志,并进行了深部成矿预测,提出了6处深部成矿靶区。其中Au4预测靶区,深孔验证见到厚大金矿体,取得了良好的地质科研效果,为胶西北地区深部地质找矿方向提供了重要依据。 相似文献