Tectonic Evolution of the Palaeo——Tethys in Changning——Menglian Belt and Adjacent Regions,Western Yunnan

The Changning - Menglian belt , located between the Baoshan - Gengma massif and the Simao - Lincang massif in Western Yunnan , preserves the complete record of a suture zone and the most continuous record of deep water sedimentation , representing the main branch of the Palaeo - Tethys polyisland ocean in the Hercynian - Indo-sinian stage .This belt could be further subdivided into three tectono - lithofacies zones . In the east zone , terrigenous elastics , argillaceous ,marl-argillaceous and silicate sedi-ments lie on the metamorphosed Early Palaeozoic base ment in concealed unconformity , representing deep water sediments on a passive continental margin . The central zone , although the basement rocks are absent from outcropping here , includes a contemporary complex of various sedimentary types , among them one type is of deep ocean sediments represented by radiolarian bedded chert , appearing from at least early Early Devonian to the Middle Triassic . Another type includes pure carbonates of the Early Carboniferous to the Late Permian , a type of shallow water carbonate platform on seamount or oceanic plateau within an ocean basin . In the west zone , the Permo - Carboniferous terrigenous elastics , argillaceous and silicate sediments appear again -representing the passive continental slope sedimentation in the east of the Baoshan - Gengma massif .As the Permo-Carboniferous rock types,sedimentary environments and palaeontological characters of the east and west zones are quite similar , we hold that these two zones were originally formed all on the eastern continental slope of the Baoshan - Gengma massif , and were separated due to eastward thrust later in the Indosinian orogeny . Intense thrust compacting also resulted in tectonic melange in the central zone , which is displayed by shallow water carbonates overlapping on or embedded in deep water volcanics . In the Lancangjiang belt , the Permo - Carboniferous are very complicated in sedimentary types which include island arc volcanics , deep water turbidites, silicolites and shallow water carbonates , representing the active continental margin in the west of the Simao massif. Whether there existed by Early Permi an, a Lincang magma tic arc still awaits further evidence . From the Late Permian,both the Changning-Meng-lian belt and the Lancangjiang belt experienced important sedimentary and volanic events which took place contemporaneously or penecontemporaneously but with different characters . Evidence for the Lincang magmatic arc began to be apparent , and the turbidite deep water basin in the Lancangjiang belt closed . Nevertheless , the Palaeo - Tethys oceanic basin , represented by the Changning - Menglian suture zone , existed until the Mid-dle Triassic . In the Late Triassic . massifs of Baoshan -Gengma ,Simao - Lincang ,collided and aggregated ,resulting in the disappearance of the Palaeo - Tethys ocean .

Devonian to Triassic Successions of the Changning-Menglian Belt,Western Yunnan,China

Phanerozoic strata are distributed in several north-south trending zones in the central part of the Changning-Menglian Belt. Four types of Devonian to Triassic stratigraphic successions can be identified: (1) elastics with limestone lenses in the mid-section, changing up-section into alternations of fine elastics and cherts; (2) elastics with chert intercalations and limestone lenses, and topped by Permian basic volcanics; (3) elastics-basic volcanics-carbonates-clastics; and (4) limestones, dolomitic limestones-dark gray thin-bedded limestones, argillaceous limestones, mudstones and siliceous mudstones. Devonian to Triassic cherts occur in different horizons and different zones from east to west. These cherts are usually transitional to their neighboring elastics. There is no continuous Devonian to Middle Triassic chert sequence in the central zone of the Changning-Menglian Belt as Liu et al. (1991,1993) reported. Volcanics and the overlying carbonates described by some workers as 'seamount' sequences are more likely to have formed in a marine environment on continental crust. Succession (4) is newly recognized in the area from Menglai to Yong'an in Cangyuan County and further north to Padi of Gengma County. Basalts, cherts and elastics also appear in this area. Mid-Triassic (very probably Ladinian) radiolarians extracted from bedded cherts in the Ganzhejidi section indicate that they are in higher stratigraphic positions. The change from bedded cherts via siltstones to thick-bedded sandstones with thin-bedded fine intercalations in the Ganzhejidi section and (some other outcrops along the road from Cangyuan to Gengma) suggests a fundamental change of sedimentary environment caused by a rapid increase of a large quantity of detritus supply. These siliciclastic sediments are possibly syn-orogenic deposits.

Geochemistry and Zircon LA-ICP-MS U-Pb Dating for the Ganlongtang-Longba Ophiolite,Changning-Menglian Suture Zone

The detailed geochemical research indicates that the tholeiitic basalts from Ganlongtang-Longba ophiolitic m（?）lange exhibit distinctive geochemical characteristics of high TiO2 and low K2O,and depletion of light rare earth elements.They should be originated from a depleted asthenosphere mantle, belonging to ancient oceanic crust ophiolitic volcanic rock association.Compared with the Longba tholeiitic basalt,the Ganlongtang tholeiitic basalt shows

Occurrence and Damage Characteristics of Sugarcane Catastrophic Diseases and Pests in Menglian Sugarcane Area and Their Prevention and Control Strategies

In recent years,the conditions of continuous warm winter,more rain and high humidity are very beneficial to the breeding and survival of sugarcane diseases and pests.Coupled with the degradation of single varieties,more attention on new plants and less on ratoon cane and the unscientific and unreasonable use of chemical pesticides,the types of sugarcane diseases and pests in the Menglian sugarcane area are increasing day by day,and the damage is increasing year by year,resulting in a substantial reduction in production and sugar,and a serious disaster threat to sugarcane production.Based on the field survey and the current sugarcane production practice in Menglian,this paper systematically reviewed the occurrence and damage dynamics and outbreak reasons of catastrophic diseases and pests that seriously influence sugarcane production,and proposed corresponding prevention and control strategies and integrated prevention and control technology according to the occurrence and damage characteristics of catastrophic diseases and pests.

Change of ecosystem service value in Menglian county with large-area economic gardens

From the point of spatio-temporal changes of ecological system type,function and value,in Menglian county,land using/cover data was based on three Landsat TM images(respectively obtained in2000,2005,2010 and 2015) which were interpreted as basic information sources by using RS and GIS technology and then revising ecosystem service value per unit area in Menglian county.This paper has researched on the changes of ecosystem service value of economic garden for large area planting as well as evaluated ecosystem service value scientifically in Menglian county combined with the sensitivity analysis.The Results showed that:(1) In Menglian county,from 2000 to 2015,land use pattern manifested as the transformation from large areas of cultivated land,forest land and shrub to the economic landscape,the economic landscape is increased by 24458.31 hm^2,however,farm land,wood land and shrub are reduced by 24865.74 hm2 in total;(2) Changes of ecosystem service value is closely related to economic landscape development in Menglian county.The situation of ecosystem service value shows the changing trend from improvement to severity in 2000-2015.ESV is increased by 96.39 million yuan from 2000 to2005,whose annual growth rate is about 0.56%·a^(-1).But in the year of 2005 to 2015,ESV is reduced by120.23 million yuan and annual reduced rate is about 0.34%·a^(-1);(3) In Menglian county,the main ecological system is the woodland ecological system,the primary ecosystem service functions are biodiversity protection,gas regulation,soil formation and retention,climate regulation and water supply,the ecological benefit were decreased in 2000-2015;(4) From the aspect of space distribution,ecosystem service value in Menglian county is relatively high in the central area and relatively not high in the western and eastern area.ESV(yuan·hm`(-2)) was changed obvious,Gongxin town trended to decline,other towns increased first the then reduced.The temporal and spatial variation of ecosystem service value in Menglian county is affected by natural and human factors.The key to the development of economic landscape is rational land use according to the practical situation,which can create economic value and also keep its ecological value.

Geochemistry of Triassic Siliceous Rocks of the Muyinhe Formation in the Changning-Menglian Belt of Southwest China

The Changning-Menglian belt, distributed over southwestern Yunnan Province in Southwest China, contains oceanic rocks that are considered to be remnants of the Paleotethys. This study observed Triassic siliceous rocks of the Muyinhe Formation in the Changning-Menglian belt and analyzed their geochemistry. The samples have high concentrations of SiO2（81.65 wt.%–88.38 wt.%; average： 84.99 wt.%±2.14 wt.%）. Most of the samples were plotted in the non-hydrothermal field on the Al-Fe-Mn diagram. Most of the samples were plotted in the continental margin field on the Fe2O3/TiO2-Al2O3/（Al2O3＋Fe2O3） and（La/Ce）N-Al2O3/（Al2O3＋Fe2O3） diagrams. Moreover, the samples show a flat REE（rare earth element） pattern normalized to NASC（North America shale composite）. These geochemical results, in addition to the lack of rhythmical bedding of the siliceous rocks, strongly suggest that the siliceous rocks are unlikely to represent pelagic deposits. Although previous studies have suggested that the siliceous rocks are pelagic deposits, the present results indicate that the extent of the pelagic ocean basins in the Paleotethys during the Triassic is probably less than previously believed. These non-pelagic deposits may represent the closure stage of the Paleotethys.

U-Pb zircon dating of Early Paleozoic gabbro from the Nantinghe ophiolite in the Changning-Menglian suture zone and its geological implication

The Nantinghe ophiolite is located in the northern part of the Changning-Menglian suture zone in southeast Tibet. It is composed of meta-peridotite, cumulative gabbro, meta-gabbro, plagioclase amphibolite and meta-basalt. Zircon U-Pb dating of the cumulative gabbro gives concordant ages of 473.0±3.8 Ma and 443.6±4.0 Ma respectively, indicating the early and late episodes of mafic magmatisms during the Paleo-Tethys oceanic rifting. The 16 LA-ICPMS zircon U-Pb analyses of meta-gabbro yield a weight mean age of 439±2.4Ma. The gabbro shows relatively low contents of SiO2 (46.46%-52.11%), TiO2 (0.96%-1.14%) and K2O (0.48%-0.75%). Its trace element distribution patterns are partly similar to those of the mid-ocean ridge basalts, and part is depleted in high field strength elements such as Nb, Ta, Zr, Hf and Ti. These features suggest that the mafic rocks were probably formed in a MORB-like or backarc rift basin setting. The zircon U-Pb age of gabbro is consistent with a late crystallization age of the cumulative gabbro from the Nantinghe ophiolite, suggesting that the Paleo-Tethys oceanic basin was opened during 444-439 Ma, possibly as a backarc basin. It is the first precise age which defines the formation time of the early Paleozoic ophiolite in the Changning-Menglian suture zone. These geochronological and geochemical characteristics of the Nantinghe ophiolite are consistent with those from the Guoganjianianshan and Taoxinghu of the Longmu Co-Shuanghu suture in the Qiangtang region. Thus, we suggest that the both Changning-Menglian and Longmu Co-Shuanghu sutures were probably transformed from the relic oceanic crust of the uniform Paleo-Tethys, which likely represents the original and main Paleo-Tethys oceanic basin.

滇西昌宁-孟连带二叠纪碎屑岩地层:存在问题和研究进展

滇西的昌宁-孟连带被认为是古特提斯在该地区的遗迹,对研究古特提斯的演化意义重大。然而,该带中不同来源的地层单元或层序片段之间的关系非常复杂,既有时代相同而岩性迥异的层段,也有时代不同而岩性相近的层段,在很大程度上影响了人们对古特提斯演化的深入了解。一些早期建立的岩组,受露头较差、构造复杂、大化石稀少等具体条件的限制,对其所含内容的定义比较粗略,包含了不同时代、不同环境形成的岩石层段。这种情况尤以当初划归二叠系的碎屑岩地层为甚。本文对1980年代1∶20万地质填图时建立的涉及二叠纪碎屑岩地层的岩组,即中北部耿马—沧源一带的南皮河组和南部澜沧—孟连一带的拉巴组,进行了解析,并结合笔者近年来所获得的化石、沉积岩石学、碎屑锆石年龄等材料和数据、以及大量的野外观察,梳理了两个岩组所包括的不同时代和岩性的岩片,重新厘定了南皮河组的内含,论述了拉巴组为何不宜再作为一个岩组使用,并建议对拉巴组所包含的在区域上可识别的岩片,可在进一步深入研究后再予以慎重命名。

耀堂仙桃蛋黄果在云南孟连引种试种初报

为了解蛋黄果优良品种耀堂仙桃在云南孟连的生产状况及适应性,对2020年引种于云南孟连县勐马镇的耀堂仙桃蛋黄果生长表现进行现场调查,测定蛋黄果生长指标、果实品质性状,并与同地块种植的本地圆果型蛋黄果同龄植株进行对比。结果表明:耀堂仙桃蛋黄果在孟连适应性强,树体生长快,平均株高达199.3 cm、冠幅2.5 m×2.5 m、主干高度30.1 cm、干周23.4 cm、结果枝长度32.3 cm、结果枝条粗度3.1 cm;投产早,2.5年生苗定植第三年就可大量挂果,平均单株产量达12.8 kg,是本地圆果型蛋黄果产量的3倍;果实品质佳,可食率、蛋白质、抗坏血酸、总糖含量均高于本地圆果型蛋黄果,外观鲜亮,商品性好;一年可多次成花结果,主要以3—4月成花的小果为主,此时期成花的果在11月上旬至翌年1月上旬上市,刚好能够弥补冬季水果销售空挡期,价格可达14~25元/kg;抗寒、抗旱,耐贫瘠,粗放管理仍可正常挂果。调查分析认为,蛋黄果优良品种耀堂仙桃完全适宜在云南孟连推广种植。

4个蛋黄果品种在孟连地区的引种表现及评价

为筛选适宜在云南孟连地区栽培的优良蛋黄果品种,以优化当地及引进的蛋黄果品种的种植结构,对‘云热-205’、‘耀堂仙桃’、‘木瓜仙桃’、‘本地圆果’蛋黄果进行引种试验。试验采用田间观察与室内测试相结合的方法,包括观察记录各供试品种的物候期、植物学性状,测定果实的理化成分含量,评价果实的感官质量,最后利用主成分分析法对蛋黄果果实主要性状进行综合评价和排序。结果表明,在云南孟连地区,‘云热-205’、‘耀堂仙桃’的表现较好,其余2个品种的表现稍差。本研究可为云南孟连地区蛋黄果引种栽培和品种结构优化提供一定的理论依据。

昌宁-孟连结合带牛井山早古生代埃达克岩锆石U-Pb年龄、岩石成因及其地质意义

昌宁-孟连结合带是西南三江地区重要的古特提斯结合带,本文报道该带牛井山蛇绿混杂岩带内的早古生代英云闪长岩的锆石U-Pb年龄和Hf同位素、全岩地球化学特征,探讨其岩石成因,揭示早古生代(原)特提斯演化过程和恢复古地理格局。利用LA-ICP-MS对英云闪长岩进行锆石U-Pb定年,获得^(206)Pb/^(238)U加权平均年龄为468±2Ma(MSWD=1.4,n=22),代表岩浆岩结晶时代。对锆石进行原位微区Hf同位素分析获得锆石ε_(Hf)(t)=+1.6^+2.8。牛井山英云闪长岩具有高的SiO_2(61.6%~67.16%),Al_2O_3(15.4%~17.64%),Na_2O(2.93%~3.25%)含量,高的Na_2O/K_2O(3.9~5.4)比值。微量元素具有高Sr(469×10^(-6)~533×10^(-6)),低Yb(0.66×10^(-6)~1.22×10^(-6))和Y(8.5×10^(-6)~16.3×10^(-6)),Eu正异常(1.01~1.37)的特征。此外,在同等SiO 2条件下,还具有相对高的Mg~#和MgO(Mg~#=50~51,MgO=2.84%~3.58%)。这些特征表明英云闪长岩具有高镁埃达克岩的性质。岩石成因研究表明牛井山高镁埃达克岩很可能是俯冲洋壳加上部分大洋沉积物部分熔融并与上覆地幔橄榄岩反应的产物。早古生代洋壳俯冲成因的埃达克岩的发现证明昌宁-孟连特提斯洋演化历史可追溯至约468Ma。昌宁-孟连结合带早古生代岩浆作用与龙木错-双湖结合带早古生代洋壳残片的时代一致、构造属性相似,我们认为昌宁-孟连结合带与木错-双湖结合带可对比,它们代表了一个统一的古生代特提斯大洋残余。

滇西昌宁-孟连带三叠纪花岗岩地球化学、年代学及其意义

癞痢头山、云岭和耿马岩体位于昌宁-孟连带的中北段,主要岩性为二长花岗岩,锆石LA-ICP-MSU-Pb定年结果表明,这三个岩体几乎同期侵位于约231Ma。这三个岩体的SiO2含量为65.65%～67.68%,富钾(K2O/Na2O=2.71%～1.42%)和较低钙CaO(1.35%～2.98%),铝饱和指数(A/CNK)为1.10～1.22,富集Rb、Ba、Th、U、K、La和LREE等元素,相对亏损Nb、Ta、Ti、Zr及Hf等高场强元素。这些特征表明3个岩体属于强过铝质高钾钙碱性S型花岗岩。这三个岩体负且变化范围大的锆石εHf(t)值(-26.8～-8.2)和古老的Hf同位素地壳模式年龄(1.2～2.7Ga),表明它们主要来源于古老地壳物质(如含长石和黑云母且贫粘土的杂砂屑岩)的重熔,并有不同程度的幔源物质加入。它们可能侵位于后碰撞背景,可能指示缅泰马微陆块与思茅地块的主体碰撞在232Ma之前(即晚三叠世之前)已经发生。

滇西昌宁—孟连带存在一个古生代大洋吗?

古特提斯昌宁－孟连带的海域性质和规模历来存在争议和分歧。一些研究者认为，昌宁—孟连带存在一个古生代大洋，有一套完整的洋盆沉积序列（腊垒群，Ｄ－Ｐ）。另外一些研究者则认为昌宁—孟连带是一个陆间裂谷，等等。通过对本区三套硅质岩系（腊垒群、南皮河群、拉巴群）的岩石学、古生物学及地球化学研究认为：拉巴群和南皮河群无疑是大陆边缘沉积，而腊垒群为砂岩、泥岩和硅质的互层沉积，在硅质岩沉积中见由放射虫化石组成粒序层和侵蚀现象，缺乏潜穴或生物扰动。硅质岩的地球化学特征是：Ｆｅ２Ｏ３＜ＦｅＯ，Ｆｅ＝１６７００×１０－６～１７１００×１０－６，Ｍｎ＝１２０×１０－６～２９０×１０－６，Ｃｏ＝９×１０－６～１５×１０－６，Ｎｉ＝１７×１０－６～２４×１０－６，Ｚｎ＝２７．７×１０－６～１２１×１０－６，ＭｎＯ／ＴｉＯ＝０．１～０．２９，δＣｅ＝０．９９６～１．３４５，δＣｅ（页岩）＝１．０２～１．３９，δＥｕ＝０．５３～０．６７，δＥｕ＝０．３～１．０４，ＲＥＥ页岩标准化模式曲线近水平，球粒陨石标准化模式曲线明显向右倾。以上特征表明腊垒群形成于较闭塞的浅海大陆边缘深陆棚至斜坡环境，而非洋盆沉积。

昌宁-孟连缝合带干龙塘-弄巴蛇绿岩地球化学及Sr-Nd-Pb同位素组成研究

本文对三江古特提斯昌宁-孟连带中段弄巴-干龙塘蛇绿混杂岩进行了详细的主量、微量元素及Sr-Nd-Pb同位素地球化学研究。结果表明,弄巴玄武岩包括拉斑系列和碱性系列,弄巴拉斑玄武岩具有高TiO2和低K2O的特征,(La/Yb)N介于1.87～2.38之间,岩石的Sr-Nd-Pb同位素组成和典型MORB十分相似,结合岩石较高的Th/Yb和低的Zr/Nb值,可以认为弄巴拉斑玄武岩具有富集型洋脊玄武岩(E-MORB)的特征,可能起源于富集的地幔源区或是亏损地幔源区和地幔柱发生交代作用的结果。弄巴碱性玄武岩具有较高的TiO2(2.38%)和K2O(2.37%)含量,(La/Yb)N=11.19,富集轻稀土,表现出典型的碱性OIB的特征,可能是大洋板内热点浅部熔融的产物。干龙塘拉斑玄武岩具有高TiO2、Mg#,低K2O和亏损轻稀土等特征,表现出N-MORB的地球化学特征,岩石的Sr-Nd-Pb与MORB相似,表明岩石起源于亏损的地幔源区。

昌宁—孟连缝合带乌木龙—铜厂街洋岛型火山岩地球化学特征及其大地构造意义

详细的地球化学解析表明,乌木龙—铜厂街地区出露的蛇绿混杂岩主要包括方辉橄榄岩、纯橄榄岩和碱性玄武岩。其中,方辉橄榄岩和纯橄榄岩具有极低的CaO含量(<0.1%)、稀土总量(<5×10-6)和(La/Yb)N(0.96～1.14)值,(Ce/Yb)N为1.04～1.37,为轻稀土弱亏损型。本区碱性玄武岩具有高TiO2(2.57%～3.33%)、高K2O(2.29%～5.52%)的显著特征,(La/Yb)N为15.42～19.81,(Ce/Yb)N为12.48～14.76,为轻稀土强烈富集型;岩石Ti/V、Th/Ta、Th/Yb、Ti/Yb、Ta/Yb与来自亏损地幔的MORB以及与俯冲有关的岛弧火山岩明显不同,而主要显示为OIB型火山岩的微量元素地球化学特征,乃是典型的大洋板块内部岩浆作用的产物。该区洋岛型火山岩的厘定,表明昌宁—孟连古洋盆在石炭—二叠纪期间曾经历过一个由初始洋盆到成熟洋盆的完整发育演化过程。

昌宁—孟连带洋脊、洋岛型火山岩研究

在系统总结前人工作的基础上 ,结合自己的研究 ,建立了三江地区昌宁—孟连带晚古生代火山岩层序 ;对比了洋脊型火山岩与洋岛型火山岩在岩石组合、岩石化学及地球化学等方面的显著差别 。

昌宁-孟连结合带斜长角闪岩锆石U-Pb年龄、地球化学特征及其地质意义

昌宁-孟连结合带牛井山地区发育以构造岩片和透镜体形式产出的斜长角闪岩,其对于认识和恢复昌宁-孟连结合带特提斯演化历史具有重要意义。本研究对牛井山蛇绿混杂岩带内的斜长角闪岩进行了系统的岩石学、锆石U-Pb定年、Hf同位素及全岩地球化学研究。锆石CL图像揭示斜长角闪岩锆石为岩浆成因锆石。锆石U-Pb定年结果为272±1.2 Ma(MSWD=1.1,n=21),代表斜长角闪岩原岩时代。岩石地球化学分析表明,斜长角闪岩Si O2含量为51.83%~52.6%,全碱(Na2O+K2O)含量为3.33%~4.16%,Na2O/K2O比值为5.8~19.8,属于低钾拉斑玄武岩系列。微量元素结果表明斜长角闪岩具有N-MORB的地球化学特征。原岩恢复研究揭示斜长角闪岩的原岩为272±1.2 Ma的N-MORB型辉长岩。斜长角闪岩锆石初始(176Hf/177Hf)i值为0.282906~0.282956,对应的εHf(t)为10.7~12.5;单阶段亏损地幔Hf模式年龄tDM1为416~499 Ma(平均值为466Ma),明显老于原岩结晶时代。岩石地球化学特征和锆石Hf模式年龄揭示昌宁-孟连特提斯洋在272 Ma时具有一个长期亏损的地幔,地幔年龄为早古生代416~499 Ma。结合该带存在早古生代洋壳残余及洋壳俯冲成因埃达克岩的事实,我们认为昌宁-孟连带是一个连续演化的原-古特提斯洋,晚古生代272 Ma时还存在洋中脊扩张并产生具有N-MORB性质的洋壳。

滇西南昌宁-孟连构造带晚泥盆世枕状玄武岩和层状硅质岩的特征

滇西南耿马地区回爱剖面发育有昌宁-孟连构造带最早的枕状玄武岩,与其共生的放射虫硅质岩、硅质泥岩含有晚泥盆世放射虫和牙形石化石。对硅质岩和玄武岩的地球化学研究表明,玄武岩的化学成分具有高P、Ti的特点,轻稀土元素富集,在稀土元素球粒陨石标准化模式图上表现为明显的右倾,微量元素中K、Rb、Ba等大离子亲石元素与Nb、Ta、Zr等高场强元素富集。化学投图结果表明玄武岩形成于洋岛环境。硅质岩的Al／(Al+Fe+Mn)比值大部分介于0.5～0.7之间,Al_2O_3／(Fe_2O_3+Al_2O_3)位于0.41～0.8之间,大部分硅质岩的Ce／Ce*比值小于1,具弱的Ce负异常,总体表现为大陆边缘型硅质岩的特征。这说明研究区晚泥盆世为邻近大陆边缘的洋盆环境,具洋壳性质的昌宁-孟连古特提斯盆地在晚泥盆世已经形成。

昌宁-孟连结合带清平地区斜长角闪岩锆石年代学及Sr-Nd-Hf同位素研究

昌宁-孟连结合带清平地区发育较为完整的蛇绿岩组合,主要由蚀变橄榄岩、蛇纹岩、枕状玄武岩、斜长角闪岩等构造单元组成。通过对该蛇绿混杂岩中的斜长角闪岩的LA-ICP-MS U-Pb锆石年代学研究,获得206Pb/238U加权平均年龄分别为433.9±2.9Ma,436.7±2.4Ma,说明斜长角闪岩形成为早志留世。对锆石原位微区Hf同位素锆石分析获得εHf(t)值为5.5~6.7,均值6.2。SiO2含量为45.65%~50.71%,平均为48.02%,K2O/Na2O比值0.07~0.23,具有富钠贫钾的亚碱性系列岩石。轻稀土富集,重稀土亏损,(La/Yb)N=1.87~4.35,轻重稀土分馏明显,δEu=0.80~1.26,总体无明显的Eu异常。微量元素大离子亲石元素(Rb、Ba、Sr)相对富集,高场强元素Nb、Ta、Ti和Zr具有不同程度的亏损,反映俯冲带构造的特征,岩石地球化学特征显示具有E-MORB的性质,经构造环境图解判别,样品均落入E-MORB区域,说明在早志留世昌宁-孟连洋存在俯冲消减的作用。(87Sr/86Sr)t=0.704289~0.704742,(143Nd/144Nd)t=0.512107~0.512172,εNd(t)值在0.54~1.81,均值为0.99。Sr-Nd-Hf同位素组成表明,斜长角闪岩岩浆源区主要来源于富集地幔(EMII),未受到地壳物质的混染,可能受到昌宁-孟连洋俯冲沉积物析出流体的影响。Pb同位素特征显示具有Dupal异常特征,说明在昌宁-孟连结合带双江清平地区在早志留世存在与现今印度洋一致的Dupal异常地幔域,昌宁-孟连结合带在早志留世位于南半球,说明昌宁-孟连早志留世洋盆所处位置属冈瓦纳大陆的一部分。

滇西南昌宁—孟连带和澜沧江带古特提斯多岛洋构造演化

昌宁—孟连带位于保山—耿马和思茅一临沧地块之间,保存有多种缝合带记录和罕见的泥盆纪至中三叠世连续洋盆沉积序列,代表古特提斯多岛洋主支部位,临沧地块很可能是一个亲冈瓦纳的外来地体,晚二叠世前增生到思茅地块西缘。因此,澜沧江带和昌宁—孟连带晚二叠世前属于同一个洋盆,向南与泰国北部难河—程逸缝合带连接。古特提斯的最后封闭发生于晚印支期,以后又遭受新特提斯阶段喜马拉雅期构造运动的强烈影响。