The Indus-Tsangpo suture zone in Ladakh, northwest Himalaya: Further palaeomagnetic data and implications     

Chris Klootwijk  Madan Lal Sharma  Jozef Gergan  S.K. Shah  Biras Tirkey 《Tectonophysics》1984,106(3-4)

A total of 81 samples (244 specimens) from Upper Cretaceous Indus Molasse and Middle to Upper Cretaceous Dras Flyschoids of the Indus-Tsangpo suture zone in Ladakh (northwest Himalaya) has been studied by thermal demagnetization methods.Both formations showed a characteristic magnetization component indicative for equatorial to low northern palaeolatitudes of acquisition. Similar palaeolatitudes have been obtained before from secondary magnetization components of Early Tertiary age in the Ladakh Intrusives and in the Tibetan Sedimentary Series of central Nepal. The present characteristic components are interpreted likewise as secondary magnetizations which stabilized between 50 and 60 m.y. ago, during Greater India's collision with Asia's southern margin.The Dras Flyschoids show another magnetic component which, in case of primary origin, indicates acquisition at a low southern palaeolatitude. If correct, this interpretation supports recent suggestions for Late Cretaceous obduction of an island arc on Greater India's northern margin.  相似文献   

Paleo-uplift and cooling rates from various orogenic belts of India, as revealed by radiometric ages—reply (1)     

Kewal K. Sharma  K.D. Bal  Rajinder Prashad  Nand Lal  K.K. Nagpaul 《Tectonophysics》1984,107(1-2)

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Preferential solution of234U from recoil tracks and234U/238U radioactive disequilibrium in natural waters     

N Hussain  D Lal 《Journal of Earth System Science》1986,95(2):245-263

A mathematical model to calculate the²³⁴U/²³⁸U activity ratio (AR) in an aqueous phase in contact with rock/soil is presented. The model relies on the supply of²³⁸U by dissolution and that of²³⁴U by dissolution and preferential release from radiation damaged regions (recoil tracks). The model predicts that values of²³⁴U/²³⁸U AR>1 in the aqueous phase can be obtained only from weathering “virgin” surfaces. Thus, to account for the observed steady-state supply of²³⁴U excess to the oceans by the preferential leaching model, ‘virgin’ rock/soil surfaces would have to be continually exposed and weathered. The²³⁸U concentration and²³⁴U/²³⁸U AR in continental waters allow us to estimate the exposure rates of “virgin” rock/soil surfaces.  相似文献   

GEOSECS AtlanticSi profiles     

B.L.K. Somayajulu  R. Rengarajan  D. Lal  R.F. Weiss  H. Craig 《Earth and Planetary Science Letters》1987,85(4)

Measurements of five cosmogenic³²Si vertical profiles in Atlantic waters (27°N to 60°S) are presented. The amounts of dissolved SiO₂ extracted range from 2 to 54 g; the amounts of water from which SiO₂ was extracted range between 540 kg and 270, 000 kg. In additon, SiO₂ recovered from four surface particulate composites (64°N to 61°S) were also analyzed for³²Si.³²Si measurements were made by milking and counting the daughter activity, ³²P. The net³²P activities range from 0.7 to 6.8 cph; typical errors in measurements of the³²P activities are 20–30%.The³²Si concentrations vary from 0.6 dpm/10⁶ kg of water in the North Atlantic surface waters to 235 dpm/10⁶ kg at 400 m depth in the circumpolar waters. The vertical profiles of³²Si at the five Atlantic stations approximately follow the Si profiles but the depth gradients are different. This would be expected also considering the in-situ release mechanisms due to dissolution and advection/diffusion from the bottom waters. Except for the circumpolar station 89, where the Si and³²Si profiles show the effect of marked vertical mixing (nearly depth independent profiles), the profiles show the following features: (1) specific activities of³²Si (³²Si/SiO₂ ratios) are lowest at intermediate depths, and (2) on an average the surface specific activities are higher, by 2–4 times, than the bottom water values. These data are consistent with generation of the highest specific activity³²Si waters at the surface, where Si concentrations are lowest and precipitation adds cosmogenic³²Si scavenged from the troposphere. Rapid removal of biogenic silica to the water-sediment interface, without much dissolution during transit, leads to the second regime of high³²Si specific activities.The³²Si inventories in the water column in the latitude belt 27°N-27°S are in the range (1–1.4) × 10⁻² dpm³²Si/cm², which is consistent with the expected fallout of cosmogenic³²Si. However, the³²Si column inventories south of 40°S are higher by a factor of 5–7, whereas the corresponding Si inventories increase by only a factor of 3. This excess³²Si in the Southern Ocean cannot be explained by direct fallout from the stratosphere or by melting of Antarctic snow and ice. Instead, this excess is maintained primarily by the southward deep-water transport of³²Si dissolved from sinking particulates.  相似文献   

The Archean Craton of Southern India: Metamorphic evolution and P-T conditions     

Prof. Dr. M. Raith  Dr. P. Raase  Dr. D. Ackermand  Dr. R. K. Lal 《International Journal of Earth Sciences》1982,71(1):280-290

The Archaean craton of southern India is characterized by a highly complicated and not yet fully understood geological history comprizing several cycles of sedimentation and volcanism, deformation and metamorphism in the span between about 3400 and 2500 m. y. The large scale regional variation in metamorphic grade observed today is essentially related to a metamorphic event at about 2600 m. y. ago which affected an older migmatite, gneiss-greenstone terrain (2900–3400 m. y.).The southern area is characterized by granulite facies (700–750° C/8–10 kb). An extensive charnockite-khondalite belt has been generated by atectonic transformation of the migmatite-gneiss terrain through the influx of a CO₂-rich fluid. Towards the north of the terrain the metamorphic grade decreases to amphibolite facies (600° C/6–8 kb) and to greenschist facies (400° C) which is restricted to the Dharwar greenstone belts. Metamorphism related to younger shear zones in the southern part of the craton led to retrogression of the charnockite-khondalite series under conditions of amphibolite to greenschist facies.The P-T conditions of metamorphism have been evaluated applying mineral stability data and methods of geothermometry and geobarometry in an area between Shimoga-Chitradurga (North) and Coimbatore-Karur (South).

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Zusammenfassung Der archaische Kraton Südindiens ist durch eine komplexe, noch nicht vollständig aufgeklärte geologische Entwicklungsgeschichte gekennzeichnet. Sie umfaßt mehrere Zyklen von Sedimentation und Vulkanismus, Deformation und Metamorphose in der Zeitspanne von etwa 3400 bis 2500 Ma. Die großregionale metamorphe Zonierung wird im wesentlichen als das Ergebnis eines Metamorphose-Ereignisses vor ca. 2600 Ma angesehen, das den gesamten archaischen Komplex aus granitoiden Gneisen, Migmatiten und Greenstone-Serien erfaßte.Das südliche Gebiet ist durch Bedingungen der Granulitfazies (700–750° C/8–10 kb) charakterisiert. Hier entstand eine ausgedehnte Charnockit-Khondalit-Zone durch post-tektonische Umwandlung der Migmatit-Gneisserien infolge Zufuhr einer CO₂-reichen fluiden Phase. Nach Norden zu nimmt der Metamorphosegrad bis zur niedrigtemperierten Amphibolitfazies (600° C/6–8 kb) und in den Dharwar-Greenstone Belts sogar bis zur Grünschieferfazies (400° C) ab.Eine jüngere Metamorphose von Amphibolit-bis Grünschieferfazies ist auf proterozoische Scherzonen beschränkt. Im südlichen Gebiet führte sie zu einer örtlich unterschiedlich intensiven retrograden Überprägung der Charnockit-Khondalit-Serie.Die P-, T-Bedingungen der Regionalmetamorphose wurden anhand von Mineralstabilitätsdaten und mit Methoden der Geothermometrie und Geobarometrie für das Gebiet zwischen Shimoga-Chitradurga (Norden) und Coimbatore-Karur (Süden) abgeleitet.

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Résumé Le craton archéen de l'Inde méridionale est caractérisé par une évolution géologique complexe et mal connue. Elle comprend plusieurs cycles de sédimentation et de volcanisme, de déformation et métamorphisme d'une durée d'environ 3400 jusqu'à 2500 Ma.La variation du degré de métamorphisme observée aujourd'hui est considérée comme le résultat d'un épisode de métamorphisme datant d'environ 2600 Ma, qui a affecté l'ensemble du domaine archéen composé de granitoïdes et de ceintures de roches vertes.La région méridionale de craton est caractérisée par le faciès granulite (700–750 °C/ 8–10 kb). Une zone étendue de charnockites et khondalites est le produit d'une transformation postdéformative résultant de l'apport d'une phase fluide riche en CO₂. Vers le nord le degré de métamorphisme décroit jusqu'au faciès amphibolites (600 °C/6–8 kb) et même jusqu'au faciès schistes verts (400 °C) dans les ceintures dharwariennes de roches vertes.Un épisode tardif de métamorphisme de faciès amphibolites et schistes verts est limité aux zones à décollement intense d'âge protérozoïque. Dans la région méridionale il s'est produit un rétromorphisme des roches granulitiques dans la zone des charnockites et khondalites.Les conditions de pression et température ont été déduites de l'application de données sur la stabilité des minéraux et de méthodes de géothermométrie et de géobarométrie pour la région entre Shimoga-Chitradurga (nord) et Coimbatore-Karur (sud).

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, . , , 3400 2500 . , , 2600 , , , . (700–750 °, 8–10 ). / - , ₂. (600 °, 6–8 ) Dharwar (400 °). . / , . , Shimoga-Chitradurga () Coimbatore-Karur ().

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The present study is part of a joint project of Benaras Hindu University at Varanasi and University of Kiel. Financial Support by the Deustche Forschungsgemeinschaft is gratefully acknowledged.

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We especially thank M. N. Viswanatha, Geological Survey of India, for his cooperation during the field work.  相似文献   

Seismic Passive Earth Pressure Behind Non-vertical Retaining Wall Using Pseudo-dynamic Analysis   总被引：3，自引：0，他引：3  

Priyanka Ghosh 《Geotechnical and Geological Engineering》2007,25(6):693-703

This paper shows a detailed study on the seismic passive earth pressure behind a non-vertical cantilever retaining wall using pseudo-dynamic analysis. A planar failure surface has been considered behind the retaining wall. The effects of soil friction angle, wall inclination, wall friction angle, horizontal and vertical earthquake acceleration on the passive earth pressure have been explored. Unlike the Mononobe–Okabe method, which incorporates pseudo-static analysis, the present analysis predicts a nonlinear variation of passive earth pressure along the wall. The results have been thoroughly compared with the existing values in the literature.  相似文献   

Love waves in an inhomogeneous interstratum     

Tarkeshwar Lal 《Pure and Applied Geophysics》1970,81(1):37-44

Summary The propagation of Love waves in an inhomogeneous interstratum, whose rigidity and density follow generalized power law variation, lying between two homogeneous half-spaces has been considered. The characteristic frequency equations have been obtained. The computational results for some special cases are presented in the form of dispersion curves showing the variation of phase and group velocity of Love waves with wave number.  相似文献   

Actinometric determination of turbidity parameters in India     

Murari Lal  H. S. Rathor 《Pure and Applied Geophysics》1971,91(1):227-234

Summary A study of the wavelength exponent of aerosol scattering in the Ångström relation for extinction by aerosol has been made from the ground-based measurments of direct solar radiation using Ångström pyrheliometer with and without Schott filters. It has been observed that in India, mainly for the middle part of the year this exponent is zero or even negative which means that the aerosol scattering is nearly neutral which is in marked contrast with the condition prevailing in middle latitudes. It is evident from the -values that the aerosol size distribution in India is far different from that prevailing in middle latitudes. At four representative stations in India, the values of the wavelength exponent and the atmospheric turbidity coefficient have been determined using the method introduced byÅngström [1,2]) and are discussed here.  相似文献   

Annealing studies of fission tracks in allanite     

H. S. Saini  Nand Lal  K. K. Nagpaul 《Contributions to Mineralogy and Petrology》1975,52(2):143-145

The annealing characteristics of fission tracks in allanite have been studied. All the tracks in the mineral fade at 720° C for one hour heating. The activation energy of allanite ranges from 1.4 to 3.4 eV.  相似文献   

Investigations of gram quantities of Atlantic and Pacific surface particulates     

S. Krishnaswami  D. Lal  B.L.K. Somayajulu 《Earth and Planetary Science Letters》1976,32(2):403-419

Particulates amounting to 0.1–2.0 g efficiently collected from large volumes of Atlantic and Pacific surface waters have been analyzed for carbonate, opal, quartz and several natural and man-made radioisotopes.The concentrations of particles range between 10 and 600 μg/kg. In the equatorial regions particle concentrations are low and similar in both the oceans. At higher latitudes (>30°N or S), the Atlantic waters, however, have higher concentrations of particles compared to those in the Pacific. The latitudinal distribution exhibits a north-south symmetry with higher concentrations in the 30°–60° belt. Based on the particulate abundance for CaCO₃ and opal and their sedimentation, we have estimated their production and in-situ integrated dissolution rates for a few regions.Radioisotopes having different source functions, namely¹⁴C and²³⁹Pu injected due to nuclear weapon tests,²³⁴Th,²³⁰Th and²²⁸Th produced in-situ in seawater,²³²Th which derives primarily from land,²¹⁰Pb introduced via wet precipitations and²²⁶Ra introduced through diffusion from deep-sea sediments have been measured in the particulates. The relative enrichment factors for these nuclides in particles vary as Th ? Pu > Pb > Ra. The atmospheric bomb fallout pattern is discernible in the surface particulates; the²³⁹Pu concentration increases with latitude in both the hemispheres; however, the values are about a factor of two lower in the southern hemisphere.The distribution pattern of radioisotopes is found to be complex, even for²³⁴Th whose source function in the oceans is uniform. In view of the differences in the source functions it becomes possible to delineate the principal geochemical/geophysical processes which determine the concentrations of these nuclides in surface waters.  相似文献