Bastnaesite from Kanigiri granite, Prakasam district, Andhra Pradesh

For the first time we report bastnaesite and hydroxyl bastnaesite (lanthanum cerium fluoro-carbonate) from the Kanigiri granite. The host granitoids are of A-type and vary in composition from quartz syenites to peralkaline granites. Rare metal and rare earth-bearing minerals identified by X-ray diffraction (XRD) studies in Kanigiri granite are bastnaesite and hydroxyl bastnaesite, besides columbite-tantalite, monazite, fergusonite, thorite and euxenite. Petromineralogical studies have also revealed the presence of bastnaesite. The presence of bastnaesite in Kanigiri granite suggests that the host felsic rocks may also form a potential source for light rare earth mineral, bastnaesite, apart from the already known rare-metal minerals.     

The Purimetla gabbros,Prakasam District,Andhra Pradesh,India

Gabbros at Purimetla occur in close association with the alkaline pluton. Petrography and petrochemistry of these gabbros indicate their tholeiitic nature. Chemical variation of these tholeiites suggests that an initial undersaturated tholeiitic magma yielded oversaturated fractions in the final stages of differentiation. Their regional distribution suggests that basic magmatism preceded the emplacement of the alkaline rocks in the Prakasam alkaline province.     

Alkaline basic intrusives of Elchuru,Prakasam District,Andhra Pradesh,India

The igneous alkaline rocks at Elchuru start from a parent ijolite-melteigite association to basic malignite, melalusitanite and shonkinite followed by nepheline syenites and then biotite lamprophyres (as dykes) at the waning phase of the evolutionary course of the complex. The distinct alkalinity of the rocks is manifested by the development of modal nepheline and calcic amphibole (kaersutite). For both the basic rocks,i.e. alkali gabbro and biotite lamprophyre, the percentages of normative nepheline are always higher than modal nepheline, indicating silica deficiency and alkali enrichment of the mafics. It is evident from detailed petrological and geochemical studies that the two basic members are very much akin to each other and there is no major deviation in their bulk chemistry.     

The petrology and geochemistry of intrusive alkaline rocks of Elchuru,Prakasam District,Andhra Pradesh,India

The Elchuru alkaline igneous intrusion is an arcuate-shaped ring complex, approximately 16 km² in area, cropping out in the Eastern Ghats high grade metamorphic series. It is part of an alkaline province composed of a number of intrusions which range from ijolite-melteigite to alkali gabbro (viz. malignite, melalusitanite, shonkinite) and then to hypersolvus nepheline syenite followed by subsolvus nepheline syenite. The complex is cut by late lamprophyric dykes. A nephelinized alkaline gneiss, within the investigated complex, is the only deformed rock type and is regarded as an older unit not related to the comagmatic series. The remainder of the complex was emplaced post-tectonically. Sovitic carbonatite is a conspicuous Iithologic unit associated with the complex. Chemical analyses of 19 selected samples for 13 major oxides and 5 trace elements (Rb, Ba, Sr, Zr and Nb) are presented to establish a geochemical model for the investigated complex. The mineralogy, petrography and geochemistry of the rocks of the Elchuru Alkaline Complex suggest that it was formed by differentiation of an initially alkali-rich ijolitic magma as reflected in the crystallization of nepheline, kaersutitic amphibole and alkali feldspar. With progressive increase in alkali feldspar content (volume percentage) the ijolite passes to malignite and then nepheline syenites. Amphibole shows sodic enrichment from a dominant calcic variety. Pyroxene, likewise, shows sodic enrichment following the scheme salite-ferrosalite to aegirine-augite. The igneous cycle closes with the intrusion of biotite lamprophyre. There is a systematic increase in total alkalies (Na₂O+K₂O) and decrease in CaO from the early mafic rocks to the syenitic rocks. The alkali-lime index of the complex is 48 indicating its strongly alkaline nature (Peacock 1931), and they are miaskitic in character (agpaicity index <1, Currie 1976). Such miaskitic complexes are associated with carbonatites (Heinrich 1966).     

Geochemistry of groundwater in parts of Guntur district, Andhra Pradesh, India

Hydrogeochemical investigations, which are significant for the assessment of water quality, have been carried out to study the sources of dissolved ions in groundwaters of some rural areas of Guntur district, Andhra Pradesh, India. Groundwaters in the area are mostly brackish. High contents of SiO₂, and Na⁺ and Cl^- ions in groundwater, in comparison with those of seawater, suggests a meteoric origin of groundwater. The high concentration of SiO₂ and various geochemical signatures reflect the weathering of minerals. However, the Na⁺+K⁺ vs Cl^- ratio suggests weathering, has occurred only to some extent. The chemistry of groundwater favours the formation of clay minerals (montmorillonite, illite and chlorite), because of evapotranspiration. The positive saturation index of CaCO₃ and the high signatures of Ma²⁺:Ca²⁺ and Na⁺:Ca²⁺ reveals the occurrence of evaporation. The evaporation enhances the concentration of ions (which occurred originally in the water) in the soils during summer. The very high % MathType!MTEF!2!1!+- % feaaeaart1ev0aaatCvAUfKttLearuavTnhis1MBaeXatLxBI9gBae % bbnrfifHhDYfgasaacH8srps0lbbf9q8WrFfeuY-Hhbbf9v8qqaqFr % 0xc9pk0xbba9q8WqFfea0-yr0RYxir-Jbba9q8aq0-yq-He9q8qqQ8 % frFve9Fve9Ff0dmeaabaqaciGacaGaaeqabaqabeaadaaakeaacqqG % tbWucqqGpbWtdaqhaaWcbaGaeeinaqdabaGaeeOmaiJaeeyla0caaa % aa!2EC5! SO₄^{2 -} {\rm SO}_{\rm 4}^{{\rm 2 - }} and Cl^- contents in some groundwaters and the occurrence of kankar (CaCO₃) in the area suggest a long history of evaporation. Greater ionic concentration in the groundwaters of post-monsoon compared with pre-monsoon indicates the increasing addition of leachates into the groundwater from the soils in the monsoon and anthropogenic activities, which leads to a deteriorating quality of groundwater. According to the Gibbs' diagrams, rock weathering, to some extent, and evaporation are the dominant phenomena responsible for the higher ionic concentrations found in groundwater. Measures that benefit sustainable management of groundwater quality are suggested in this study.     

Hydrogeochemistry of the Sarada river basin,Visakhapatnam district,Andhra Pradesh,India

Systematic hydrogeochemical survey has been carried out for understanding the sources of dissolved ions in the groundwaters of the area occupied by Sarada river basin, Visakhapatnam district, Andhra Pradesh, India. Khondalites, charnockites and granite gneisses and calc-granulites of Precambrians and alluvial deposits of Quaternaries underlie the study area. Groundwaters are both fresh and brackish; the latter waters being a dominant. Most groundwaters are characterized by Na⁺:HCO₃⁻ facies due to chemical weathering of the rocks. Enrichment of Na⁺, K⁺, Cl⁻, SO₄²⁻, NO₃⁻ and F⁻ in some groundwater samples is caused by seawater intrusion, locally accompanied by ion-exchange, and anthropogenic activities, resulting in an increase of brackish in the groundwaters. Based on the results of this hydrogeochemical study, suitable management measures are recommended to solve the water quality problems.     

Sphene coronites from Hyderabad granites,Andhra Pradesh,India

Sphene coronites around magnetite are recorded in the granodiorite of Hyderabad. The metamorphic origin of the corona is discussed.     

Study of the apatite-magnetite veins near Kasipatnam,Visakhapatnam district,Andhra Pradesh,India

Summary A study of the mineralogy of zoned apatite-magnetite veins near Kasipatnam in the Eastern Ghats has led to the recognition of a broad paragenetic sequence starting with hyalophane, followed by calciferous pyroxene (salite-ferrosalite range), biotite, magnetite, zircon, fluorapatite, allanite and actinolite, calcite, barite and sulphide minerals. The fluorapatite is characteristically radioactive, containing appreciable amounts of thorium and rare earth elements. The association of hyalophane and calciferous pyroxene in the apatite-magnetite veins is due to the contamination of hydrothermal fluids by the calcareous material of the khondalite rocks. These veins are considered to be fracture filling metasomatic skam deposits displaying pegmatitic fabrics in charnockites of the Eastern Ghats. Zoned features and inward coarseness of minerals from margins of veins suggest that they have crystallized from skarn solutions, approaching a normal magmatic concept.

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Studium der Apatit-Magnetit-Gänge nahe Kasipatnam, Distrikt Visakhapatnam, Andhra Pradesh, Indien

Zusammenfassung Das Studium zonarer Apatit-Magnetit-Gänge bei Kasipatnam in den östlichen Ghats hat zur Erkennung einer breiten paragenetischen Abfolge geführt. Diese beginnt mit Hyalophan und wird mit Ca-führenden Pyroxenen der Salit-Ferrosalit-Reihe, Biotit, Magnetit, Zirkon, Fluorapatit, Allanit, sowie Aktinolith, Calcit, Baryt und Sulfidmineralen fortgesetzt; dabei hört der Ca-führende Pyroxen nach einer Weile auf, während der Hyalophan bis zur vollständigen Kristallisation des Fluorapatits andauert. Der Fluorapatit, der beträchtliche Mengen an Thorium und an Elementen der Seltenen Erden enthält, ist charakteristischerweise radioaktiv. Die Assoziation von Hyalophan und Ca-führendem Pyroxen in den Apatit-Magnetit-Gängen ist in der Kontaminierung hydrothermaler Lösungen durch kalkiges Material der Khondalit-Gesteine begründet. Zonarbau und Vergröberung der Minerale vom Rand der Gänge gegen innen legen nahe, daß sie aus Skarnlosungen kristallisierten, wobei man sich einem normalen magmatischen Konzept nährt.

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With 6 Figures     

Petrology of calc-silicate rocks from Koduru,Andhra Pradesh,India

Mineral assemblages, rock and mineral chemistry, and mineral reactions, in calc-silicate rocks from Koduru area, Andhra Pradesh, India are discussed. Mineralogical and bulk chemical differences indicate 3 calc-silicate rock types — type I with K feldspar+calcite+wollastonite+quartz+scapolite+diopside_ss +andradite_ss+sphene, has relatively high rock oxidation ratios. Type II is a highly calcic variety with high rock MgFe ratios, and has K feldspar+calcite+wollastonite+quartz+scapolite + diopside_ss±grossularite_ss+sphene+zoisite. Type III has K feldspar +calcite+wollastonite+quartz+scapolite+diopside_ss +sphene+hornblende+magnetite, and has relatively low oxidation ratio and low MgFe ratio. The 3 calc-silicate rock types have originated as mixtures of limestone/dolomite/marl.Diopside was produced by a reaction involving Ca-amphibole +calcite+quartz, and reversed during retrogression. Andradite_ss in type I rocks was produced at the expense of hedenbergitic component of pyroxene in a continuous reaction as a consequence of increase in the oxygen content of the original sediment relative to type III. Calcite+quartz reacted to give wollastonite. During cooling an influx of water caused scapolite to alter to zoisite.     

Groundwater quality in the Niva River basin, Chittoor district, Andhra Pradesh, India

 This study was made to assess the groundwater quality in relation to agricultural and domestic uses in a part of the Peninsular Archean granite and gneissic complex of India. Water samples were collected from the existing wells in the Niva River basin, Chittoor district, Andhra Pradesh, India and analysed for major ions. The analytical data, processed and interpreted acoording to the WHO standards, reveal that, in general, the groundwater is suitable for both agricultural and domestic uses, exept in a few locations. High concentration of nitrates were observed in some of the wells (both agricultural and domestic) that are affected by the impact of industrial effluents. Multiple regression analysis was performed and used as a positive predictive tool in understanding the chemistry of the groundwater. Received: 2 May 1996 / Accepted: 14 October 1996     

Nitrate pollution and its distribution in the groundwater of Srikakulam district, Andhra Pradesh, India

The complex depositional pattern of clay and sand in most of the areas controlled the vertical and lateral movement of nitrate in groundwater. The variation of nitrate concentration at different groundwater levels and the lateral distribution of nitrate in the groundwater at two sites indicated the filtration of nitrate by clayey formations. A rural agricultural district located in the Vamsadhara river basin, India was selected for studying the lateral and vertical distribution of nitrate in the groundwater and the association of nitrate with other chemical constituents. The nitrate concentrations in the groundwater are observed to vary between below detectable limit and 450 mg NO₃/L. The sources for nitrate are mainly point sources (poultry farms, cattleshed and leakages from septic tanks) and non-point sources (nitrogenous fertilisers). The nitrate concentrations are increased after fertiliser applications. However, very high concentrations of nitrate are derived from animal wastes. Relatively better correlations between nitrate and potassium are observed (R = 0.74 to 0.82). The better relationship between these two chemical constituents in the groundwater may be due to the release of potassium and nitrate from both point and non-point sources. The nitrate and potassium concentrations are high in the groundwater from clayey formations.     

Digital modeling studies for evaluation of hydrogeological characteristics in Shadnagar granite basin,Andhra Pradesh,India

The use of digital models has increased significantly in recent years with the accessibility of fast computing machines. A variable dimensioned digital model was constructed for the Shadnagar granite basin using SPECTRUM-7 micro computer to integrate various hydrogeological characteristics and for their quantitative evaluation. The basin has an areal extent of 437 sq km and is demarcated with clear water divides in all directions. Transmissivity, recharge and discharge at each cell of the basin area were estimated by trial and error simulation of the hydrogeological phenomenon under steady state condition. Dynamic simulation at representative nodes facilitated the estimation of storage coefficient. The capability of the constructed model was established by the conformance of the simulated hydrographs with the actual behaviour of the ground water system. The entire studies ammended the earlier arrived estimates of various input/output hydrogeological parameters and evolved a methodology for efficient processing of aquifer simulation data     

Distribution of iron in the surface and groundwaters of East Godavari district,Andhra Pradesh,India

With the progradation of Godavari delta in the east coast of India, increase in iron (Fe) concentrations in the groundwater was observed. High concentrations of Fe (>10 mg/l) were observed in khondalite and charnockite formations. A lower portion of the Godavari river basin, viz. East Godavari district was chosen for the study of the distribution of iron with special reference to the existing geological formations and the geomorphology of the area. The concentration of iron was observed to vary from below detection limit to 69 mg/l in the groundwater while it was less than 1 mg Fe/l in river and spring waters. The Fe of river water was reduced due to seawater mixing and the electrical conductivity (EC) was increased approximately to half of the seawater conductivity. Unlike the mixing of seawater at the surface, the same seawater mixing with groundwater yielded a water having similar order of EC with relatively high Fe. Fe was inversely related with nitrate in the groundwater. Fe was found to correlate considerably better with manganese in fluvial and coastal alluvium zones. The locations having higher Fe in delta are suspected to be related to palaeo channels. The association between Fe and Mn and their negative association with NO₃ may be due to the possible autotrophic denitrification that might have taken place in the subsurface.     

Petrology of metamorphic rocks of almandine-amphibolite facies in Saidapuram-Podalakuru area,Nellore district,Andhra Pradesh,India

Summary Precambrian amphibolites and quartz-mica schists in the Saidapuram-Podalakuru area fall within the almandine-amphibolite facies of regional metamorphism. The analysed rocks represent metamorphosed basic igneous rocks. It is suggested that the quartz-muscovite-staurolite schists underwent metamorphism between 550° and 700° C at an average pressure of 7.2 kb; the quartz-muscovite (±biotite), hornblende-biotite (±garnet), and hornblende-garnet schists between 600°–700° C/7.5 kb; and the quartz-biotitekyanite schists between 650°–700° C/8 kb.

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Petrologie der metamorphen Gesteine in Almandin-Amphibolit-Fazies im Gebiet von Saidapuram-Podalakuru, Distrikt Nellore, Andhra Pradesh, Indien

Zusammenfassung Präkambrische Amphibolite und Quarz-Glimmer-Schiefer im Gebiet von Saidapuram-Podalakuru gehören der Almandin-Amphibolit-Fazies an. Die analysierten Gesteine stellen metamorphe basische Erstarrungsgesteine dar. Die Quarz-Muskovit-Staurolith-Schiefer wurden bei 550°–700°C und einem durchschnittlichen Druck von 7,2 kb metamorph, die Quarz-Muskovit-(±Biotit-), die Hornblende-Biotit- (±Granat-) und die Hornblende-Granat-Schiefer bei 600°–700° C/7,5 kb, die Quarz-Cyanit-Schiefer bei 650°–700° C/8 kb.

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With 6 Figures     

Statistical and analytical evaluation of groundwater quality of Tirupati area,Chittoor district,Andhra Pradesh,South India

Buildings constructed on the expansive soil of Oji-Agu Akpugo area exposed to natural factors such as water, temperature and surface run off. Effect caused by these factors on the soil has a negative impact on the built structures in the area.