由甘肃宕昌好梯幔源包体推导的上地幔物质组成、热结构和流变学特征   总被引：8，自引：0，他引：8       下载免费PDF全文

史兰斌  林传勇  陈孝德 《地震地质》2003,25(4):525-542

新生代火山岩中的幔源包体可以提供有关上地幔的直接信息。通过对采自甘肃宕昌县好梯乡的幔源橄榄岩包体的详细研究 ,探讨该地区上地幔的热结构和流变学特征 ,并与华北地区进行对比。研究结果表明 ,该区自壳幔边界以下至 75km深处的上地幔主要由尖晶石二辉橄榄岩组成 ,75km以下则主要由石榴石二辉橄榄岩组成 ,方辉橄榄岩只占少数 ;与华北地区没有明显的差异。由包体平衡温度、压力建立的上地幔地温线低于华北地区地温线 ;确定的壳幔边界在 5 2km左右 ,莫霍界面附近为下地壳物质与尖晶石二辉橄榄岩的过渡带 ;岩石圈底界深度约为 12 0km左右。根据包体的研究结果建立了研究区上地幔的差异应力、应变速率和等效黏滞度剖面。结果表明 ,该区新生代时期存在软流层的底辟 ,以及相应的岩石圈的减薄 ,但其规模明显小于华北地区。这些结果表明该区处在中国东部大陆裂谷带和中国中部克拉通块体群的过渡带  相似文献   

郯庐断裂带沿线幔源包体的特征及初步推论          下载免费PDF全文

Ross.  JV 林传勇 《地震地质》1992,14(4):289-304

中国东部郯庐断裂带及共东侧6个地点的幔源包体主要为二辉橄榄岩及少量异剥橄榄岩,其结构显示出由残碎斑状、粒状变晶向糜棱结构的过渡,反映了上地幔不同条件下的变形。矿物平衡分析表明这些包体处于平衡状态,用3种不同方法汁算的平衡温度为700～1000℃,平衡压力为1.4～2.5Gpa。本区古地温线高于理论地温线,表明该地区存在有上地幔的底辟,同时推测在40～100km深度范围内存在有活动剪切带  相似文献   

大洋深俯冲带流变性质及其地球动力学意义     

金振民  章军锋H. W. GreenⅡ　 金淑燕 《中国科学D辑》2001,31(12):969-976

在压力3 GPa, 温度1450～1600 K, 应变速率10-4～10-5 s-1条件下, 对深俯冲带和上地幔中两种重要岩石(榴辉岩和方辉橄榄岩)的流变性质进行了实验研究, 获得了榴辉岩在超高压条件下的流变参数, 应力指数为3.4, 活化能为480 kJ/mol, 活化体积为12 cm3/mol. 实验结果表明具有中等石榴石含量榴辉岩的流变强度与方辉橄榄岩的流变强度在上地幔浅部条件下基本相当, 是多晶绿辉石岩强度的2～3倍和多晶石榴石岩强度的一半. 随榴辉岩中石榴石含量的逐步增加, 岩石的整体流变强度也不断增大. 在实验研究基础上, 计算了不同板块汇聚速率条件下深俯冲大洋岩石圈在不同深度层次上的流变强度, 以及橄榄岩和榴辉岩上地幔流变强度随深度的变化. 研究表明, 俯冲洋壳从下覆的上地幔拆离出来最有可能发生在缓慢俯冲的热俯冲带中; 而快速俯冲的冷俯冲带, 俯冲地壳与上地幔之间在强度上是耦合的, 发生拆离的可能性不大. 过渡带是上地幔中除岩石圈地幔外的高强度和高黏度层.  相似文献   

大洋深俯冲带流变性质及其地球动力学意义——来自地幔岩高温高压实验的启示   总被引：4，自引：0，他引：4  

金振民  章军锋  金淑燕 《中国科学D辑》2001,31(12)

在压力3GPa,温度1450～1600K,应变速率10-4～10-5s-1条件下,对深俯冲带和上地幔中两种重要岩石（榴辉岩和方辉橄榄岩）的流变性质进行了实验研究,获得了榴辉岩在超高压条件下的流变参数,应力指数为3.4,活化能为480kJ/mol,活化体积为12cm3/mol.实验结果表明具有中等石榴石含量榴辉岩的流变强度与方辉橄榄岩的流变强度在上地幔浅部条件下基本相当,是多晶绿辉石岩强度的2～3倍和多晶石榴石岩强度的一半.随榴辉岩中石榴石含量的逐步增加,岩石的整体流变强度也不断增大.在实验研究基础上,计算了不同板块汇聚速率条件下深俯冲大洋岩石圈在不同深度层次上的流变强度,以及橄榄岩和榴辉岩上地幔流变强度随深度的变化.研究表明,俯冲洋壳从下覆的上地幔拆离出来最有可能发生在缓慢俯冲的热俯冲带中;而快速俯冲的冷俯冲带,俯冲地壳与上地幔之间在强度上是耦合的,发生拆离的可能性不大.过渡带是上地幔中除岩石圈地幔外的高强度和高黏度层.  相似文献   

浙江省上地幔的热结构及流变学特征   总被引：5，自引：2，他引：3  

林传勇  史兰斌  韩秀玲  陈孝德  张小鸥 《中国科学D辑》1998,(2)

由尖晶石相和石榴石相二辉橄榄岩包体所建立的浙江省上地幔古地温线高于大洋地温线 ,与徐义刚等建立的中国东部地温线以及澳大利亚东南部的地温线较为接近 .由该地温线确定的该区壳幔边界为 34km ,软流圈与岩石圈边界大致在75km .上述结果与该区地球物理资料基本一致 .包体的流变特征研究表明 ,该区的包体至少经历了两期以上的变形事件 .前期可能与上地幔底辟有关 ,后期则可能与上地幔的剪切作用有关  相似文献   

山西大同第四纪火山岩中幔源包体的变形特征及其上地幔流变学意义   总被引：7，自引：1，他引：7       下载免费PDF全文

陈孝德  林传勇 《地震地质》1997,19(4):26-320

山西大同第四纪玄武岩中含有少量小型的幔源包体，主要为尖晶石二辉橄榄岩。包体的变形显微构造反映了上地幔条件下至少有两次变形事件；包体的平衡温度为９００～１０５０℃，平衡压力为１．１～１．７ＧＰａ，对应的来源深度为４０～６０ｋｍ。由包体的变形显微构造推导的上地幔流变学参数表明，该地区上地幔符合大陆拉张带上地幔的特征。在第四纪时期，该地区上地幔仍然继续其底辟上涌过程  相似文献   

由包体推导的河北汉诺坝下地壳-上地幔地温线及其地质意义   总被引：27，自引：4，他引：23       下载免费PDF全文

史兰斌  林传勇  陈孝德  韩秀伶 《地震地质》2000,22(1):37-46

通过对采自河北汉诺坝玄武岩中的下地壳和上地幔包体的详细研究 ,建立了本区下地壳—上地幔地温线。该地温线高于大洋地温线和古老地盾地温线 ,接近克拉通边缘的地温线 ,符合该区的大地构造环境。由该地温线建立的下地壳—上地幔地质结构剖面表明 ,该区下地壳主要由不同类型的麻粒岩相岩石组成 ,其化学成分以镁铁质为主 ,深度范围为 2 5～ 4 2km。上地幔由超镁铁质的二辉橄榄岩组成 ,在尖晶石二辉橄榄岩和石榴石二辉橄榄岩之间有一过渡层。由地温线确定的壳幔边界位于 4 2km附近 ,与地震资料确定的莫霍面一致 ,但在壳幔边界之上的下地壳底部有下地壳麻粒岩和超镁铁质岩的互层。这一现象可以解释在下地壳底部常见的层状反射层。该区岩石圈底界大约在 95km ,其下的软流层仍由石榴石二辉橄榄岩组成  相似文献   

苏北-胶南构造混杂岩带的地质特征和岩性地层柱   总被引：9，自引：1，他引：8       下载免费PDF全文

刘若新  马宝林  张兆忠  张志敏  杨惠南  胡琏 《地震地质》1989,11(1):47

本文简要介绍了产于华北板块与扬子板块碰撞带范围内的苏北-胶南构造混杂岩带的地质构造背景,并系统地研究滑移介质、中-浅源和深源构造块的基本特征。在深源构造岩块的研究基础上建立了壳幔过渡带至上地幔段的岩性地层柱,对上地幔可能存在的地质作用类型进行了探讨  相似文献   

伊通地堑上地幔剪切带   总被引：3，自引：1，他引：3  

张小鸥 《地震地质》1995,17(2):167

通过研究糜棱岩型幔源包体的变形显微构造、位错亚构造及组构特征，确定它是上地幔剪切带的代表物质。该带形成温度为７２９～８２８℃、压力为１．１０～１．３８ＧＰａ、差异应力为９７～１５０ＭＰａ、应变速率为ＩＯ￣（－１４）～１Ｏ￣（－１２）ｓ￣（－１）、等效粘滞度为１０～１０００ＥＰａ·ｓ和深度为３７～４５ｋｍ。这是一种与地幔底辟作用有关的规模较小的缓倾斜剪切带，也是应变集中带，能导致上地幔地震波速各向异性，并与地震活动有关  相似文献   

我国东北与华北上地幔某些物理状态特征的比较:来自幔源包体的信息   总被引：3，自引：0，他引：3  

何永年  林传勇  史兰斌 《中国地震》1986,(2)

研究由玄武岩岩浆携带到地表的幔源橄榄岩包体可以获得上地幔的许多信息。本文根据对采自我国东北和华北地区的某些幔源橄榄岩包体样品的研究结果,对这两个样品产地地区上地幔的某些物理状态特征,如温度、压力、流动应力、流动速率及等效粘滞度等作了初步比较。资料表明,分属东北与华北两区样品产地的上地幔自新生代(上新世—更新世)以来显示出裂谷的性质,但是,两区上地幔的古地温和其它一些物理状态参数存在一定的差别。  相似文献   

Generation of Cenozoic intraplate basalts in the big mantle wedge under eastern Asia   总被引：2，自引：0，他引：2  

Yigang Xu  Hongyan Li  Lubing Hong  Liang Ma  Qiang Ma  Mingdao Sun 《中国科学:地球科学(英文版)》2018,61(7):869-886

The roles of subduction of the Pacific plate and the big mantle wedge (BMW) in the evolution of east Asian continental margin have attracted lots of attention in past years. This paper reviews recent progresses regarding the composition and chemical heterogeneity of the BMW beneath eastern Asia and geochemistry of Cenozoic basalts in the region, with attempts to put forward a general model accounting for the generation of intraplate magma in a BMW system. Some key points of this review are summarized in the following. (1) Cenozoic basalts from eastern China are interpreted as a mixture of high-Si melts and low-Si melts. Wherever they are from, northeast, north or south China, Cenozoic basalts share a common low-Si basalt endmember, which is characterized by high alkali, Fe₂O₃^T and TiO₂ contents, HIMU-like trace element composition and relatively low ²⁰⁶Pb/²⁰⁴Pb compared to classic HIMU basalts. Their Nd-Hf isotopic compositions resemble that of Pacific Mantle domain and their source is composed of carbonated eclogites and peridotites. The high-Si basalt endmember is characterized by low alkali, Fe₂O ₃ ^T and TiO₂ contents, Indian Mantle-type Pb-Nd-Hf isotopic compositions, and a predominant garnet pyroxenitic source. High-Si basalts show isotopic provinciality, with those from North China and South China displaying EM1-type and EM2-type components, respectively, while basalts from Northeast China containing both EM1- and EM2-type components. (2) The source of Cenozoic basalts from eastern China contains abundant recycled materials, including oceanic crust and lithospheric mantle components as well as carbonate sediments and water. According to their spatial distribution and deep seismic tomography, it is inferred that the recycled components are mostly from stagnant slabs in the mantle transition zone, whereas EM1 and EM2 components are from the shallow mantle. (3) Comparison of solidi of garnet pyroxenite, carbonated eclogite and peridotite with regional geotherm constrains the initial melting depth of high-Si and low-Si basalts at <100 km and ～300 km, respectively. It is suggested that the BMW under eastern Asia is vertically heterogeneous, with the upper part containing EM1 and EM2 components and isotopically resembling the Indian mantle domain, whereas the lower part containing components derived from the Pacific mantle domain. Contents of H₂O and CO₂ decrease gradually from bottom to top of the BMW. (4) Melting of the BMW to generate Cenozoic intraplate basalts is triggered by decarbonization and dehydration of the slabs stagnated in the mantle transition zone.  相似文献   

Spinel peridotite xenoliths in the West Carpathian late cenozoic alkali basalts and their tectonic significance     

D. Hovorka  P. Fejdi 《Bulletin of Volcanology》1980,43(1):95-106

In the Late Cenozoic West Carpatian alkali olivine basalts spinel peridotite xenoliths have been found. Their mineral composition corresponds to those found in this type of xenoliths in alkali basalts throughout the world (Mg-rich olivine, Cr-diopside, clinopyroxene, spinel). For the studied West Carpathian alkali olivine basalts kaersutite amphibole and clinopyroxene magacrysts are characteristic. The presence of the xenoliths under consideration in the boundary zone between Tatra and Pannonian blocks is the consequence of tectonic conditions (thickness of the Crust) in the area mentioned as distinct from the other West Carpathian areas of alkali olivine basalt occurrences.  相似文献   

Characteristics of subcontinental lithospheric mantle beneath Baegryeong Island, Korea: Spinel peridotite xenoliths     

Young-Woo  Kil 《Island Arc》2006,15(2):269-282

Abstract   Geochemical data on Baegryeong Island spinel peridotites found in Miocene alkali basalt provide the information for lithosphere composition, chemical processes, equilibrium pressure and temperature conditions. Spinel peridotite xenoliths, showing transitional textures between protogranular and porpyroclastic textures, were accidentally trapped by the ascending alkali basalt magma. The xenoliths originate at depths from 50 to 70 km with a temperature range from 800 to 1100°C. The variations of modal and mineral compositions of the spinel peridotite xenoliths indicate that the xenoliths have undergone 1–10% fractional melting. The spinel peridotites from Baegryeong Island have undergone cryptic mantle metasomatism subsequent to melt extraction. Metasomatic agent of enriched spinel peridotite xenoliths was carbonatite melt.  相似文献   

A petrologic model for the constitution of the upper mantle and crust of the Koolau shield,Oahu, Hawaii,and Hawaiian magmatism     

Gautam Sen 《Earth and Planetary Science Letters》1983,62(2):215-228

A petrological model for the uppermost upper mantle and crust under the Koolau shield to a depth of about 60 km has been derived on the basis of petrology of the upper mantle and crustal xenoliths in nephelinites of the Honolulu Volcanic Series. Three main xenolith suites exist in the Koolau shield: dunites, spinel lherzolites, and garnet-bearing pyroxenites. On the basis of mineralogy, it is inferred that the dunites represent cumulates in shallow crustal tholeiitic magma chambers, the spinel lherzolites form a thick (～ 40 km) layer in the upper mantle, and the garnet pyroxenite suite occurs as veins and stringers in the spinel lherzolites at about 60 km depth.The eruption sequence in a Hawaiian volcano, i.e., tholeiite → transitional basalt → alkali basalt, is generated by partial melting of a volatile-bearing garnet-lherzolite part of a lithospheric plate as it rides over a hot spot. If the tholeiite, transitional, and alkali basalts of Hawaiian volcanoes are generated at the same depth, then the observed sequence of lavas requires replenishment of the source area with volatiles and gradual decrease of the degree of partial melting with time. Post-erosional olivine nephelinites are produced from isotopically distinct, deeper source area, which may be the asthenosphere.  相似文献   

Formation time of the big mantle wedge beneath eastern China and a new lithospheric thinning mechanism of the North China craton—Geodynamic effects of deep recycled carbon   总被引：1，自引：0，他引：1  

Shuguang Li  Yang Wang 《中国科学:地球科学(英文版)》2018,61(7):853-868

High-resolution P wave tomography shows that the subducting Pacific slab is stagnant in the mantle transition zone and forms a big mantle wedge beneath eastern China. The Mg isotopic investigation of large numbers of mantle-derived volcanic rocks from eastern China has revealed that carbonates carried by the subducted slab have been recycled into the upper mantle and formed carbonated peridotite overlying the mantle transition zone, which becomes the sources of various basalts. These basalts display light Mg isotopic compositions(δ26 Mg = –0.60‰ to –0.30‰) and relatively low87 Sr/86 Sr ratios(0.70314–0.70564) with ages ranging from 106 Ma to Quaternary, suggesting that their mantle source had been hybridized by recycled magnesite with minor dolomite and their initial melting occurred at 300-360 km in depth. Therefore, the carbonate metasomatism of their mantle source should have occurred at the depth larger than 360 km, which means that the subducted slab should be stagnant in the mantle transition zone forming the big mantle wedge before 106 Ma. This timing supports the rollback model of subducting slab to form the big mantle wedge. Based on high P-T experiment results, when carbonated silicate melts produced by partial melting of carbonated peridotite was raising and reached the bottom(180–120 km in depth) of cratonic lithosphere in North China, the carbonated silicate melts should have 25–18 wt% CO2 contents, with lower Si O2 and Al2 O3 contents, and higher Ca O/Al2 O3 values, similar to those of nephelinites and basanites, and have higher εNdvalues(2 to 6). The carbonatited silicate melts migrated upward and metasomatized the overlying lithospheric mantle, resulting in carbonated peridotite in the bottom of continental lithosphere beneath eastern China. As the craton lithospheric geotherm intersects the solidus of carbonated peridotite at 130 km in depth, the carbonated peridotite in the bottom of cratonic lithosphere should be partially melted, thus its physical characters are similar to the asthenosphere and it could be easily replaced by convective mantle. The newly formed carbonated silicate melts will migrate upward and metasomatize the overlying lithospheric mantle. Similarly, such metasomatism and partial melting processes repeat, and as a result the cratonic lithosphere in North China would be thinning and the carbonated silicate partial melts will be transformed to high-Si O2 alkali basalts with lower εNdvalues(to-2). As the lithospheric thinning goes on,initial melting depth of carbonated peridotite must decrease from 130 km to close 70 km, because the craton geotherm changed to approach oceanic lithosphere geotherm along with lithospheric thinning of the North China craton. Consequently, the interaction between carbonated silicate melt and cratonic lithosphere is a possible mechanism for lithosphere thinning of the North China craton during the late Cretaceous and Cenozoic. Based on the age statistics of low δ26 Mg basalts in eastern China, the lithospheric thinning processes caused by carbonated metasomatism and partial melting in eastern China are limited in a timespan from 106 to25 Ma, but increased quickly after 25 Ma. Therefore, there are two peak times for the lithospheric thinning of the North China craton: the first peak in 135-115 Ma simultaneously with the cratonic destruction, and the second peak caused by interaction between carbonated silicate melt and lithosphere mainly after 25 Ma. The later decreased the lithospheric thickness to about70 km in the eastern part of North China craton.  相似文献   

Structure and development of the lower crust and upper mantle of Southwestern Japan: Evidence from petrology of deep-seated xenoliths   总被引：1，自引：0，他引：1  

Toshio  Nozaka 《Island Arc》1997,6(4):404-420

Abstract Basic and ultrabasic xenoliths included in Cenozoic alkali basalts from the Kibi and Sera plateaus, Southwest Japan, can be classified into five groups on the basis of mineral association and texture. Their equilibration P-T conditions estimated from paragenesis and mineral chemistry indicate that the dominant rock type from the lower crust to upper mantle changes with increasing depth as follows: (i) pyroxene granulite (Group V) and meta-sediments; (ii) garnet gabbro (Group 111) and corundum anorthosite (Group IV); (iii) spinel pyroxenite (Group 11); and (iv) spinel peridotite and pyroxenite (Group I). Groups I1 and I11 show a lower degree of recrystallization than Groups I and V, and have similarities in composition and mineral chemistry to host basalts. Based on these facts along with the P-T conditions of equilibration, Groups I1 and I11 are interpreted as formed from basaltic magma that intruded beneath the crust-mantle boundary at an early stage of the magmatism of the alkali basalts, where the lower crust and uppermost mantle had consisted of Group V and metasediments, and Group I, respectively. It follows that the crust has grown downward due to underplating of basaltic magma beneath the bottom of pre-existing crust. Group IV has commonly the same mineral assemblage, corundum + calcic plagioclase + aluminous spinel, and shows locally, nearby kyanite crystals, almost the same texture as fine-grained aggregates in a quartzite xenolith. The aggregates appear to have been formed by reaction between kyanite and host basalt, and accordingly Group IV is interpreted as formed by reaction between metasediments and basaltic magma at the time of the underplating. The Kibi, Sera and Tsuyama areas are distinguished from the areas nearby the Sea of Japan by the occurrence of the garnet gabbro and corundum anorthosite xenoliths, by the absence of the association of olivine + plagioclase in basic and ultrabasic xenoliths, and by the lower temperature of equilibration of basic xenoliths. From these facts it is stressed that in general the crust becomes thinner and geothermal gradient becomes higher towards the back-arc side. Such a regional variation in crustal structure must reflect the tectonic situation of Southwest Japan at the time of the magmatism of the alkali basalts, namely rifting and shallow-level magmatism at the back-arc side.  相似文献   

Experimental study of spinel-garnet phase transition in upper mantle and its significance   总被引：3，自引：0，他引：3  

Qicheng Fan  Ruoxin Liu  Hongsen Xie  Yueming Zhang  Ping Xu  Zhuoran Lin 《中国科学D辑(英文版)》1997,40(4):383-389

Experimental study of spinel-garnet phase transition was carried out using natural mineral and rock specimens from xenolith of mantle rocks in Cenozoic basalt as starting materials. From the result it was found that the condition of spinel Iherzolite-garnet Ihenolite phase transition (T = 1 100°C andP = 1.8–2.0 GPa) is consistent with theP-T equilibrium condition of the five-phase assemblage spinel/garnet Iherzolite in eastern China, suggesting that there may exist a spinel-garnet Iherzolite phase transition zone with the thickness of a few km to several ten km at the depth of 55–70 km in the continental upper mantle of eastern China. The depth of phase transition from spinel pyroxenite to garnet pyroxenite is found to be less than 55 km. Experiment results also show that water promotes metasomatism on one hand but suppresses phase transition on the other. Zoning of mineral composition was also discussed. Project supported by the National Natural Science Foundation of China.  相似文献   

郯庐断裂带晚第三纪以来的浅部挤压活动与深部过程   总被引：32，自引：1，他引：32       下载免费PDF全文

朱光  刘国生  牛漫兰  宋传中  王道轩 《地震地质》2002,24(2):265-277

郯庐断裂带晚第三纪以来持续遭受着挤压 ,使前期大规模的断陷盆地抬升、消亡 ,近代还是中国东部最大的地震活动带。断裂带所遭受的近WE向的挤压 ,是西太平洋弧后扩张和印度板块向北碰撞中的构造挤出作用产生的区域动力。断裂带在新生代挤压活动中切入上地幔 ,出现了地幔剪切、地幔交代、部分熔融等深部过程 ,最终形成了挤压背景下的陆内断裂带大规模的玄武岩喷发  相似文献   

Mafic alkalic magmatism in central Kachchh,India: a monogenetic volcanic field in the northwestern Deccan Traps   总被引：1，自引：0，他引：1  

Pooja V. Kshirsagar  Hetu C. Sheth  Badrealam Shaikh 《Bulletin of Volcanology》2011,73(5):595-612

Magmatism in Kachchh, in the northwestern Deccan continental flood basalt province, is represented not only by typical tholeiitic flows and dikes, but also plug-like bodies, in Mesozoic sandstone, of alkali basalt, basanite, melanephelinite and nephelinite, containing mantle nodules. They form the base of the local Deccan stratigraphy and their volcanological context was poorly understood. Based on new and published field, petrographic and geochemical data, we identify this suite as an eroded monogenetic volcanic field. The plugs are shallow-level intrusions (necks, sills, dikes, sheets, laccoliths); one of them is known to have fed a lava flow. We have found local peperites reflecting mingling between magmas and soft sediment, and the remains of a pyroclastic vent composed of non-bedded lapilli tuff breccia, injected by mafic alkalic dikes. The lapilli tuff matrix contains basaltic fragments, glass shards, and detrital quartz and microcline, with secondary zeolites, and there are abundant lithic blocks of mafic alkalic rocks. We interpret this deposit as a maar-diatreme, formed due to phreatomagmatic explosions and associated wall rock fragmentation and collapse. This is one of few known hydrovolcanic vents in the Deccan Traps. The central Kachchh monogenetic volcanic field has >30 individual structures exposed over an area of ∼1,800 km² and possibly many more if compositionally identical igneous intrusions in northern Kachchh are proven by future dating work to be contemporaneous. The central Kachchh monogenetic volcanic field implies low-degree mantle melting and limited, periodic magma supply. Regional directed extension was absent or at best insignificant during its formation, in contrast to the contemporaneous significant directed extension and vigorous mantle melting under the main area of the Deccan flood basalts. The central Kachchh field demonstrates regional-scale volcanological, compositional, and tectonic variability within flood basalt provinces, and adds the Deccan Traps to the list of such provinces containing monogenetic- and/or hydrovolcanism, namely the Karoo-Ferrar and Emeishan flood basalts, and plateau basalts in Saudi Arabia, Libya, and Patagonia.  相似文献