福建同安二长花岗岩风化壳中的粘土矿物

二长花岗岩风化壳自下而上划分为原生带、微风化带、弱风化带和强风化带。风化壳中粘土矿物主要为埃洛石,其次为高岭石及少量伊利石。微风化带下部以高岭石为主,往上埃洛石逐渐占优势,并于弱风化带中、上部和强风化带中局部富集,这与当时地下水活动状态有关。高岭石结晶程度随风化程度的增强而提高。在弱酸性介质条件下及水分丰富、溶出条件强烈时,从长石解理面上和长石的“溶蚀”空隙中可以直接形成高岭石或埃洛石,而过渡阶段的伊利石很不发育或不存在。     

发育完整的灰岩风化壳及其矿物学和地球化学特征

对于碳酸盐岩土覆土壤成因、尽管碳酸盐岩风化残积成土说被多数学者认同,但由于碳酸盐岩中酸不溶物含量极低,在风化成土过程中会伴随着巨大的体积缩小变化,原岩结构和半风化带无法保留,从而缺失了探索上覆土壤物质来源的重要中间环节,使得这种观点缺乏野外宏观证据的支持。最近,我们在贵州、湖南等地发现了数个以泥质灰岩和泥质白云岩为基岩的碳酸盐岩风化壳剖面,尚保留有较好的原岩结构,具有明显的风化壳分带和过渡现象。这些风化壳剖面的发现为深入研究碳酸盐岩风化成土过程提供了良好的研究场所。本文选取了较为典型的吉首泥灰岩风化壳剖面,从矿物学地球化学的角度来探讨碳酸盐岩风化壳的形成过程和发育特征,结果表明该风化壳既遵循非碳酸盐岩（主要是结晶岩类）风化壳的发育特征,也具有自己独特的地球化学演化规律。风化壳总体特点受碳酸盐中的酸不溶物矿物组合及化学成分的影响甚至控制,风化非碳酸盐风壳相似的发育特征。吉首泥灰岩风化壳剖面的发育特征和作者早先提出 的碳酸盐岩风化成土的两阶段模式是一致的,即以碳酸盐矿物大量淋失、酸不溶物逐渐堆积或残积为特征的早期阶段和残积物进一步风化成土的阶段,后一阶段的演化类似非碳酸盐岩类的风化过程。     

论铝土矿床成因及矿床类型

铝土矿全部是风化作用形成的，无一例外。地球上含铝（含少量铝质也可以）岩石在适宜的气候和地形条件下，风化成红土矿物，包括铝土矿物及少量粘土矿物、含铁矿物及少量含钛矿物等风化壳铝土物质（红土铝土物质）。第四纪以前的古风化作用形成的是古风化壳铝土物质（古红土铝土物质），迁移就位以后便形成风化壳铝土矿床（红土铝土矿床）。深埋地下经过成岩变化，再随地壳抬升进入地壳浅部，或地表的叫古风化壳铝土矿床。我国９８％是古风化壳铝土矿床，即国外所称的喀斯特铝土矿床。由于其迁移就位方式不同，便形成了不同的风化壳和古风化壳（亚型）矿床     

华南花岗岩风化壳中稀土元素地球化学及矿石性质研究

华南稀土花岗岩风化壳主要可分为腐值层、全风化层和半风化层。在岩石的风化淋滤过程中，稀土以水合或羟基水合离子吸附在全风化层中的主要矿物埃洛石和高岭石等粘土矿物上。这些层状粘土矿物具有取代结构和断面余键两个吸附活性中心。量子化学计算表明两个吸附活性中心对不同稀土的吸附能力为：Ｌａ＾３＋〉Ｃｅ＾３＋〉Ｐｒ＾３＋〉Ｎｄ＾３＋〉Ｓｍ＾３＋〉Ｅｕ＾３＋〉Ｇｄ＾３＋〉Ｔｂ＾３＋〉Ｄｙ＾３＋〉Ｈｏ＾３＋〉Ｙ＾３＋     

火成岩风化壳储集层特征与油气产能关系研究:以准噶尔盆地红山嘴石炭系油藏为例

红山嘴油田是准噶尔盆地典型的风化壳型油藏,具有广阔的勘探前景。利用宏微观岩矿分析、地球物理、地球化学等多种实验分析手段,对红山嘴地区火成岩岩石学特征、结构发育特征及控制因素开展综合研究,结果表明:(1)红山嘴地区发育侵入岩、次火山岩、火山熔岩、火山碎屑熔岩、火山碎屑岩和沉火山碎屑岩等6大类火成岩,其中安山岩和凝灰岩最为发育;(2)火成岩储集空间组合包括原生气孔—溶蚀孔—Ⅰ级裂缝型、溶蚀孔—Ⅰ/Ⅱ级裂缝型、Ⅲ级裂缝型和Ⅳ级裂缝型4类,Ⅰ—Ⅳ类储层物性依次变差;(3)风化壳自上而下发育水解带、淋蚀带、崩解Ⅰ带、崩解Ⅱ带、母岩带5个分带,顶部水解带风化强,多被分解成致密的泥土层,可作盖层,而淋蚀带和崩解Ⅰ带是风化淋蚀改造较好区,储层物性最好;(4)不同油气产能井与风化壳结构具有很好的对应关系,可为风化壳型火成岩油藏优势区带划分和产能预测提供指导。     

Geochemistry,mineralogy and petrogenesis of the northeast Niğde volcanics,central Anatolia,Turkey

The volcanics exposed in the northeast Niğde area are characterized by pumiceous pyroclastic rocks present as ash flows and fall deposits and by compositions ranging from dacite to rhyolite. Xenoliths found in the volcanics are basaltic andesite, andesite and dacite in composition. These rocks exhibit linear chemical variations between end‐member compositions and a continuity of trace element behaviour exists through the basaltic andesite–andesite–dacite–rhyolite compositional range. This is consistent with the fractionation of ferromagnesian minerals and plagioclase from a basaltic andesite or andesite parent. These rocks are peraluminous and show typical high‐K calc‐alkaline differentiation trends with total iron content decreasing progressively with increasing silica content. Bulk rock and mineral compositional trends and petrographic data suggest that crustal material was added to the magmas by subducted oceanic crust and is a likely contaminant of the source zone of the Niğde magmas. The chemical variations in these volcanics indicate that crystal liquid fractionation has been a dominant process in controlling the chemistry of the northeast Niğde volcanics. It is also clear, from the petrographic and chemical features, that magma mixing with disequilibrium played a significant role in the evolution of the Niğde volcanic rocks. This is shown by normal and reverse zoning in plagioclase and resorption of most of the observed minerals. The xenoliths found in the Niğde volcanics represent the deeper part of the magma reservoir which equilibrated at the higher pressures. Copyright © 2002 John Wiley & Sons, Ltd.     

准噶尔盆地滴西地区石炭系火山岩储集性能分布规律研究

火山岩储集性能分布的非均质性非常强,探索其分布规律成为火山岩油气勘探的难点和重要任务。本文以实际岩心及其分析化验等资料为基础,从滴西地区取心最佳储集性能段、最差储集性能段、风化壳储集性能分布模式、薄层熔岩储集性能分布模式、厚层熔岩储集性能分布模式等方面总结了石炭系火山岩储集性能的垂向分布规律,同时分析了储集性能的平面分布情况。火山熔岩储集性能在垂向上的分布差异,成岩阶段主要受岩相的影响,后期主要受构造作用及风化溶蚀作用等的影响。受成岩阶段岩相的影响,溢流相上部亚相和下部亚相均有可能形成较好的储集性能。与碎屑岩互层的薄层熔岩常具有较好的储集性能。与碎屑岩互层的厚层熔岩段的底部储集性能可能较好,其次是顶部,而中部常沦落为储集性能相对较差的位置。风化壳的风化粘土层、强风化带、中等风化带、弱风化带、未风化带5个垂向分带结构中,中等风化带往往具备相对最佳的储集条件。应用W风化指数新型工具对火山岩进行风化程度评估显示,准噶尔盆地火山岩具有多期风化的特征,并残留有大量未风化、轻微风化及中等风化的火山岩,这其中不乏储集性能优良的岩性段。从平面分布来看,研究区域火山岩储集性能具有强烈的各向异性特征,常表现为局部富集,快速变迁,随机分布。     

准西北缘哈山地区石炭系火山岩储层特征及影响因素

准西北缘哈山地区石炭系火山岩形成于陆缘岛弧及大洋岛弧背景,是该区重要的勘探目标类型。为探究哈山地区火山岩储层发育及控制因素,以露头观测为基础,利用岩心、普通和铸体薄片、扫描电镜等手段,结合成像测井资料,对火山岩岩石学特征、储集特征及影响因素进行研究。研究认为石炭系火山岩主要由熔岩类玄武岩、安山岩和火山碎屑岩类火山角砾岩、凝灰岩和沉凝灰岩两大类5种岩性组成;储集空间包括溶蚀—裂缝型、裂缝—溶蚀型、溶蚀型三类16种;岩性和岩相是影响储层的内在因素,风化淋滤和构造作用是外在因素;风化淋滤作用主要发生在风化壳、火山喷发旋回界面和喷发期次界面下,构造作用产生的大量裂缝,改善储层渗滤性能的同时还有效地增大了储集空间;断裂交汇处的风化壳和喷发旋回与期次界面处的火山角砾岩、凝灰岩、安山岩发育区是有利储层分布区。该研究为预测哈山地区石炭系火山岩有利储层分布提供依据,为勘探部署提供理论支撑。      

北戴河红色风化壳地球化学特征及气候环境意义

风化壳地球化学特征具有环境指示意义。用X射线荧光光谱法(XRF)和X射线衍射法(XRD)分别测试了秦皇岛北戴河燕山大学北侧红色风化壳(简称燕大风化壳)主量元素和粘粒粘土矿物。结果表明:除Ca外,Si、Al、Fe、Na、K的含量在风化壳上均有不同程度的波动,其中Si、Na、K波动轨迹基本一致,Al、Fe则与其相反,相关性分析显示SiO2与Al2O3、TFe、Fe2O3,Al2O3与TFe、Fe2O3,Na2O与CaO具有较好相关性;粘土矿物组合为1·4nm过渡矿物(25%~45%)+伊利石(10%~20%)+伊蒙混层矿物(20%~35%)+高岭石(15%~30%),矿物演化系列是长石、黑云母→(蛭石→1·4nm过渡矿物)→(伊利石)→高岭石。与粘土矿物以1∶1型高岭石为主的富铝化南方红色风化壳相比,燕大风化壳Si淋失度,Fe、Al富集度,矿物演化程度都较低,属硅铝化风化壳。燕大风化壳是上新世暖温带到北亚热带过渡型气候的风化产物,与现代秦皇岛暖温带半湿润型气候不同,这反映第四纪以来该区气候干旱因子增多。CIA、S/A等指示的风化强度异常表明,燕大风化壳形成后至少遭受过两次构造抬升,为剥蚀型风化壳,反映该区新构造运动间歇式上升的特点。     

Tomographic imaging of hydrated crust and mantle in the subducting Pacific slab beneath Hokkaido, Japan: Evidence for dehydration embrittlement as a cause of intraslab earthquakes

We estimate detailed three-dimensional seismic velocity structures in the subducting Pacific slab beneath Hokkaido, Japan, using a large number of arrival-time data from 6902 local earthquakes. A remarkable low-velocity layer with a thickness of ~ 10 km is imaged at the uppermost part of the slab and is interpreted as hydrated oceanic crust. The layer gradually disappears at depths of 70–80 km, suggesting the breakdown of hydrous minerals there. We find prominent low-velocity anomalies along the lower plane of the double seismic zone and above the aftershock area of the 1993 Kushiro-oki earthquake (M7.8). Since seismic velocities of unmetamorphosed peridotite are much higher than the observations, hydrous minerals are expected to exist in the lower plane as well as the hypocentral area of the 1993 earthquake. On the other hand, regions between the upper and lower planes, where seismic activity is not so high compared to the both planes, show relatively high velocities comparable to those of unmetamorphosed peridotite. Our observations suggest that intermediate-depth earthquakes occur mainly in regions with hydrous minerals, which support dehydration embrittlement hypothesis as a cause of earthquake in the subducting slab.     

Tomographic imaging of hydrated crust and mantle in the subducting Pacific slab beneath Hokkaido,Japan: Evidence for dehydration embrittlement as a cause of intraslab earthquakes

We estimate detailed three-dimensional seismic velocity structures in the subducting Pacific slab beneath Hokkaido, Japan, using a large number of arrival-time data from 6902 local earthquakes. A remarkable low-velocity layer with a thickness of ~ 10 km is imaged at the uppermost part of the slab and is interpreted as hydrated oceanic crust. The layer gradually disappears at depths of 70–80 km, suggesting the breakdown of hydrous minerals there. We find prominent low-velocity anomalies along the lower plane of the double seismic zone and above the aftershock area of the 1993 Kushiro-oki earthquake (M7.8). Since seismic velocities of unmetamorphosed peridotite are much higher than the observations, hydrous minerals are expected to exist in the lower plane as well as the hypocentral area of the 1993 earthquake. On the other hand, regions between the upper and lower planes, where seismic activity is not so high compared to the both planes, show relatively high velocities comparable to those of unmetamorphosed peridotite. Our observations suggest that intermediate-depth earthquakes occur mainly in regions with hydrous minerals, which support dehydration embrittlement hypothesis as a cause of earthquake in the subducting slab.     

Petrochemistry of Volcanic Rocks in the Hishikari Mining Area of Southern Japan, with Implications for the Relative Contribution of Lower Crust and Mantle-derived Basalt

Abstract. This study presents the petrographical, mineralogical, and geochemical characteristics of Late Pliocene‐Pleistocene volcanic rocks distributed in the Hishikari gold mining area of southern Kyushu, Japan, and discusses their origin and evolution. The Hishikari volcanic rocks (HVR), on the basis of age and chemical compositions, are divided into the Kurosonsan (2.4–1.0 Ma) and Shishimano (1.7–0.5 Ma) Groups, which occur in the northern and southern part of the area, respectively. Each group is composed of three andesites and one rhyodacite. HVR are characterized by high concentrations of incompatible elements compared with other volcanic rocks in southern Kyushu, and have low Sr/Nd and high Th/U, Th/Pb, and U/Pb ratios compared with typical subduction‐related arc volcanic rocks. Modal and whole‐rock compositions of the HVR change systematically with the age of the rocks. Mafic mineral and augite/hypersthene ratios of the andesites decrease with decreasing age in the Kurosonsan Group, whereas in the Shishimano Group, these ratios are higher in the youngest andesite. Similarly, major and trace element compositions of the younger andesites in the former group are enriched in felsic components, whereas in the latter group the youngest andesite is more mafic than older andesites. Moreover, the crystallization temperature of phenocryst minerals decreases with younger age in the former group, whereas the opposite trend is seen in the latter group. Another significant feature is that rhyodacite in the Shishimano Group is enriched in felsic minerals and incompatible elements, and exhibits higher crystallization temperatures of phenocryst minerals than the rhyodacite of the Kurosonsan Group. Geochemical attributes of the HVR and other volcanic rocks in southern Kyushu indicate that a lower subcontinental crust, characterized by so‐called EMI‐type Sr‐Nd and DUPAL anomaly‐like Pb isotopic compositions, is distributed beneath the upper to middle crust of the Shimanto Supergroup. The HVR would be more enriched in felsic materials derived from the lower crust by high‐alumina basaltic magma from the mantle than volcanic rocks in other areas of southern Kyushu. The Kurosonsan Group advanced the degree of the lower crust contribution with decreasing age from 51 %, through 61 and 66 % to 77 %. In the Shishimano Group, the younger rhyodacite and andesite are derived from hotter magmas with smaller amounts of lower crust component (58 and 57 %) than the older two andesites (65 % and 68 %). We suggest that the Shishimano rhyodacite, which is considered to be responsible for gold mineralization, was formed by large degree of fractional crystallization of hot basaltic andesite magma with less lower crustal component.     

重庆涪陵二龙口剖面P—T界线附近黏土矿物特征及其古环境意义

在二叠系—三叠系界线附近地层中,利用大气暴露面上沉积物恢复古环境的研究至今尚未展开.四川盆地东部涪陵地区的二龙口剖面在二叠纪末位于扬子碳酸盐岩台地内,为礁后开阔台地相,在上二叠统—下三叠统界线附近沉积了较为完整的海相碳酸盐岩.该地层从下到上可分为1～31层.其中,上二叠统长兴组(1～6层)顶面为侵蚀不整合面,下伏于厚3～10cm(平均厚度约5cm)的古风化壳(7层).相较于1～6层,飞仙关组7～19层中碳酸盐矿物含量降低,黏土矿物含量增高.而20～31层以泥晶灰岩为主,偶尔伴有薄层黏土岩夹层.二叠系—三叠系界线位于19～20层之间.岩石学和矿物学特征显示,风化壳以黏土矿物为主,主要为规则伊蒙混层(I/S)和少量伊利石.在扬子台地范围内不同的沉积相带中,该黏土矿物组合具有较好的地层可对比性,说明研究区长兴组之上风化壳中黏土矿物形成的主控因素可能是区域性的,如火山活动带来的外源沉积.结合其下伏围岩(1～6层)岩石学和稳定同位素组成均缺乏淡水改造特征,可以判断该风化壳形成于加积模式而非改造模式.值得注意的是,此种黏土矿物以规则伊蒙混层和伊利石为主的组合方式,与二叠纪末出现的碱性、高温、缺氧的沉积环境一致.自7层向上,黏土矿物中伊蒙混层相对含量逐渐降低,且混层比逐渐减小,而伊利石、绿泥石、绿蒙混层相对含量逐渐增加,则与逐渐加剧的碱性-高温-缺氧的极端沉积环境有关.因此,二叠系—三叠系界线附近黏土矿物对扬子台地二叠纪末古环境突变有较好的记录能力.     

青藏高原古岩溶的存在及其与东邻地区岩溶的对比

青藏高原古岩溶属形成于土下环境,经刻蚀作用剥露地表后,以石林、岩墙等形式广泛存在于山顶夷平面的外围,并不同程度地叠置气下改造特征。根据青藏高原及东邻岩溶区覆盖型岩溶和红色风化壳的剥露情况及改造特征对比,作者认为上述地区覆盖型岩溶从东到西具有良好的一致性,是岩溶双层夷平面的组成部分,其现阶段的不同表现是不同程度刻蚀作用的结果。      

高岭石-多水高岭石矿物晶体形态与演化

通过对我国南方许多风化型高岭土矿床研究查明,在表生条件下形成高岭石-多水高岭石矿物的基本因素是决定于风化母岩的岩性和水介质的物化性质。水介质的物化性质又明显地受到风化母岩的岩性类型和结构构造、动力裂隙的发育程度、围岩的稳定性和透水性、气候、地形地貌和植被等因素的综合性制约。     

风化壳40Ar/39Ar年代学研究意义：进展、问题与展望

风化壳是不同地质历史时期风化作用的环境和物质记录,其组成、厚度、成熟度、保存程度等是古气候条件、区域构造活动性及地貌演化的直接反映。风化壳的形成年代是风化壳研究的关键内容,精确的风化壳年龄数据是查明一系列区域甚至全球事件的重要途径。风化壳中次生矿物（主要是钡硬锰矿族矿物和明矾石族矿物）的40Ar/39Ar年代学研究首次实现了对风化壳和风化作用的直接和精确定年,所获得的年龄数据为风化壳的形成演化、区域古气候古环境恢复、化学风化历史与矿床次生富集过程及新构造运动和山脉隆升历史等一系列重大地质问题的解决提供了重要途径。然而,风化壳中次生矿物定年存在的潜在问题及风化壳剖面取样的不完整性,有可能使风化壳的年龄分布变得相当复杂,导致对化学风化历史、风化壳形成过程和形成环境等的认识出现困难。为此,必须开展对风化壳的详细野外地质研究和精细取样,并综合采用多种先进测试手段,才能获得可靠的风化壳年龄数据。在对风化壳年龄数据进行解释时,还需要系统分析多种地质、环境资料（如古生物、盆地沉积物等）,才可能获得有意义的地貌、构造和古气候信息。我国华南地区广泛分布的红色风化壳中含有丰富的钡硬锰矿族矿物,是研究该区新生代以来化学风化、大规模次生富集成矿及古气候古环境演变的理想对象。     

皖南姚村岩体花岗岩风化壳稀土元素赋存特征

皖南地区花岗岩风化壳中稀土元素普遍富集，局部已成为矿床，其中，郎溪县姚村岩体风化壳富集程度较高。LA- ICP- MS锆石U- Pb定年表明，姚村花岗岩体的形成年龄为127.9±1.4 Ma，属于皖南地区燕山期晚期岩浆作用的产物。风化壳可细分为残坡积层（A）、强半风化层（C1）、过渡层（C2）、弱风化层（C3）和基岩（D）五层。稀土总量在纵向剖面上呈“波浪式”分布，各层稀土分布型式表现出对原岩的继承性。风化壳稀土配分型式与基岩一致， 富集LREE，轻重稀土分馏明显(La/Yb)N=15.6），但总含量明显更高。基岩∑REE为338×10-6，半风化层∑REE最高达642×10-6，富集约两倍。风化壳物质由风化残余主矿物（石英、钾长石、斜长石、黑云母）、黏土矿物（高岭石、埃洛石、伊利石、三水铝石等）和副矿物（锆石、磷灰石、榍石等）等组成。黏土矿物以伊利石含量最高，指示风化壳发育不成熟。REE与埃洛石含量明显正相关，与其他黏土矿物关系不明显。（含）稀土矿物（尤其是榍石）对风化壳中稀土元素的贡献量超过百分之五十，其次为斜长石，是风化壳中REE的重要来源。     

皖南姚村岩体花岗岩风化壳稀土元素赋存特征

皖南地区花岗岩风化壳中稀土元素普遍富集，局部已成为矿床，其中，郎溪县姚村岩体风化壳富集程度较高。LA- ICP- MS锆石U- Pb定年表明，姚村花岗岩体的形成年龄为127. 9±1. 4 Ma，属于皖南地区燕山期晚期岩浆作用的产物。风化壳可细分为残坡积层（A）、强半风化层（C1）、过渡层（C2）、弱半风化层（C3）和基岩（D） 5层。稀土总量在纵向剖面上呈“波浪式”分布，各层稀土分布型式表现出对原岩的继承性。风化壳稀土配分型式与基岩一致， 富集LREE，轻重稀土分馏明显\[(La/Yb)N=15. 6\]，但总含量明显更高。基岩∑REE为338×10-6，半风化层∑REE最高达642×10-6，富集约两倍。风化壳物质由风化残余主矿物（石英、钾长石、斜长石、黑云母）、黏土矿物（高岭石、埃洛石、伊利石、三水铝石等）和副矿物（锆石、磷灰石、榍石等）等组成。黏土矿物以伊利石含量最高，指示风化壳发育不成熟。REE与埃洛石含量明显正相关，与其他黏土矿物关系不明显。（含）稀土矿物（尤其是榍石）对风化壳中稀土元素的贡献量超过 50%，其次为斜长石，是风化壳中REE的重要来源。     

济阳坳陷富林洼陷中生界复杂岩性风化壳储集层成岩作用*

风化壳储集层成因及其差异性特征分析是当今储层地质学研究热点。渤海湾盆地济阳坳陷沾化凹陷富林洼陷中生界油气勘探遇到瓶颈,目前探井仅钻揭白垩系顶部风化壳,且风化壳储集层岩性复杂、非均质性极强,明确风化壳储集层成岩改造、储集空间类型和组合关系,对本区乃至济阳坳陷中生界潜山油气勘探至关重要。通过岩心和薄片观察,结合录井、测井等资料,对富林洼陷白垩系西洼组复杂岩性风化壳储集层开展研究。结果表明: 风化壳岩性主要为安山岩和凝灰岩,其次为脉岩、隐爆角砾岩和砂砾岩。由于不同构造单元在复杂埋藏过程中经历了“洼—隆—隆”或“洼—隆—洼”的演化过程,不同岩性储集层的成岩序列和孔隙演化差异明显。火成岩和碎屑岩原生孔隙类型和成因明显不同,但现今储集空间均以次生孔隙特别是溶蚀孔为主,被溶蚀物质包括斑晶、基质以及火山岩屑等。溶蚀作用的主导流体多变,继抬升暴露过程中富含CO₂的大气淡水之后,有机质成熟时排出的有机酸对储集层改善有积极作用。有利风化壳储集层的形成受到岩性、埋藏演化过程和成岩流体的共同控制。整体上,富林洼陷白垩系西洼组储集层质量由好到次的顺序为: 凝灰质砂砾岩,火山角砾岩,含残余气孔安山岩,凝灰岩,次火山岩;不同岩性风化壳储集层在复杂埋藏过程中,经历了不同的成岩改造。