K. Soman scite author profile

The eVect of land use on the biogeochemistry of small tropical rivers and their estuaries was studied using the Kallada River and Ashtamudi estuary located in the State of Kerala, India, as a model system. Water, suspended matter and sediments collected during the monsoon and intermonsoon periods in 2002 and 2003 were analyzed for dissolved nutrients (nitrate, nitrite, phosphate, silicate) and for phytoplankton abundance and composition, amino acid contents and stable carbon (C)) and nitrogen (N) isotope ratios. Seasonal and spatial variations of dissolved nutrients and suspended matter along the course of the river point to distinct diVerences in the C and N sources that are controlled by hydrology, geology and land use. Unusually low concentrations of dissolved silicate and suspended matter suggest low erosion rates of the Precambrian basement rocks and the Wrm lateritic soils in non-agricultural areas. Most dissolved nutrients and suspended particulate organic matter originated from fertilized agricultural soils. The biogeochemistry of sedimentary organic matter indicates that most of the Kallada River load is deposited in the upper Ashtamudi estuary, while the middle and lower parts have a stronger marine inXuence. The spatio-temporal variation of dissolved and particulate river Xuxes clearly indicates an eVect of land use and land cover on the biogeochemistry of the Kallada River. While the phosphate yield was high (6 £ 10 3 mol km ¡2 year ¡1 or 185 kg km ¡2 year ¡1 ), the N yield was relatively low (10 £ 10 3 mol km ¡2 year ¡1 or 141 kg km ¡2 year ¡1 ), which is unlike the situation in many other densely populated regions of tropical Asia.

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Genesis of chrysoberyl in the pegmatites of southern Kerala, India

Soman

Nair

1985

Mineral. mag.

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ABSTRACT. In southern Kerala, India, chrysoberyl occurs in granitic pegmatites in association with quartz in alkali feldspar and is thought to crystallize earlier than beryl and sillimanite. The pegmatites are thought to have derived from the residual melts of granitic liquids formed by partial melting of the khondalites. In the absence of pyrometasomatic, desilication or aluminium-contamination processes, the genesis of chrysoberyl is explained by the CO 2 activity in residual melts. This model is at variance with the known concepts and may also explain the genesis of chrysoberyl in Sri Lanka where it is still controversial.

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Lateritization cycles and their relation to the formation and quality of kaolin deposits in south Kerala, India

Soman

Slukin

1987

Chemical Geology

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Chatoyancy in Chrysoberyl Cat’s-Eye from Pegmatites of Trivandrum District, Southern India

Soman¹,

Nair²

1985

Journ of Gemm

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K. Soman

Geology, genetic types, and origin of graphite in South Kerala, India

Effect of land use on the biogeochemistry of dissolved nutrients and suspended and sedimentary organic matter in the tropical Kallada River and Ashtamudi estuary, Kerala, India

Genesis of chrysoberyl in the pegmatites of southern Kerala, India

Lateritization cycles and their relation to the formation and quality of kaolin deposits in south Kerala, India

Chatoyancy in Chrysoberyl Cat’s-Eye from Pegmatites of Trivandrum District, Southern India

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