Soil characterization in and around a proposed waste disposal facility at Nuclear Fuel Complex,Hyderabad, India     

Amrit Pal Singh  Manish Chopra  Faby Sunny  A. Vinod Kumar  R. B. Oza  D. S. Suryanarayana 《Environmental Earth Sciences》2016,75(6):540

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Achievability of Municipal Solid Waste Compost for Tea Cultivation with Special Reference to Cadmium          下载免费PDF全文

Tanmoy Karak  Ornella Abollino  Ranjit K. Paul  Amrit K. Dutta  Agnese Giacomino  Puja Khare  Romesh K. Boruah 《洁净——土壤、空气、水》2018,46(6)

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Archaean crustal thickness of greenstone granite belts of South India     

C S Pichamuthu  R Srinivasan  Fareeduddin  Appaji Amrit Bhasker 《Journal of Earth System Science》1981,90(3):217-226

Archaean crustal thickness for the Dharwar craton is estimated using potash index and Rb?Sr crustal thickness grid. The volcanics of the Dharwar greenstone belts appear to have evolved in a less than 20 km thick crust. Whereas the tonalite-trondhjemite pebbles of the Dharwar conglomerates (3250±150 m.y.) were derived from gneisses that evolved in a crust less than 20 km thick, the bulk of the peninsular gneisses and associated granitoids were emplaced in a crust 25 to 35 km thick. The 2000 m.y. old Closepet granite suite was emplaced in a crust thicker than 30 km. It is deduced that the continental crust in the region thickened from 15 to 35 km during a span of about 1000 m.y. between 3250±150 to 2000 m.y. ago. Calculations show that Archaean gecthermal gradients in Dharwar craton were three to four times steeper when compared to the present 10.5°C/km. The thin crust and the steep geothermal gradients are reflected by the emplacement of high magnesia basalts, layered igneous complexes and the strong iron enrichment trend shown by Dharwar metavolcanics.  相似文献   

Mass Balance Estimation of Dokriani Glacier in Central Indian Himalaya Using Remote Sensing Data     

Har Amrit Singh Sandhu  Hemendra Singh Gusain  Manoj Kumar Arora  Arun Bawa 《Journal of the Indian Society of Remote Sensing》2018,46(11):1835-1840

Dokriani Glacier is regarded as one of the important glaciers of Bhagirathi River basin, which fed river Ganges. The length of the glacier is about 4.6 km, and snout elevation is about 4028 m m.s.l. The mass balance of this glacier was calculated using field-based measurements for few years during 1994 to 2000. However, due to remote and poor accessibility, the field-based measurements could not continue; thus, remote sensing-based methods become useful tool to estimate the long-term mass balance of the glacier. In this study, glacier mass balance has been determined using accumulation area ratio (AAR) method. Remote sensing data sets, e.g. Landsat TM, ETM?+?and OLI, have been used to estimate AAR for different years from 1994 to 2014. An attempt has also been made to develop a mathematical relationship between remote sensing-derived AAR and field-observed mass balance data of the glacier. Further, this relationship has been used to estimate mass balance of the glacier for different years using remote sensing-derived AAR. Estimated mass balance was validated from ground-observed mass balance for few years. The field-observed and remote sensing-derived mass balance data are compared and showed high correlation. It has been observed that AAR for the Dokriani Glacier varies from 0.64 to 0.71. Mass balance of the glacier was observed between ??15.54 cm and ??50.95 cm during the study period. The study highlights the application of remote sensing in mass balance study of the glaciers and impact of climate change in glaciers of Central Indian Himalaya.  相似文献   

Characteristics of meteorological droughts in northwestern India     

Kumar Amrit  Rajendra P. Pandey  Surendra K. Mishra 《Natural Hazards》2018,94(2):561-582

This study analyses regional drought characteristics (frequency, severity, and persistence) of meteorological droughts occurred in the northwestern parts falling under arid and semiarid regions of India with mean annual rainfall ranging between 100 and 900 mm. A drought is defined as a season or a year with rainfall less than 75% of corresponding mean at a place. Long-term monthly rainfall records (1901–2013) of 90 districts of north-west India located in the states of Punjab, Haryana, Rajasthan and Gujarat are used in the analysis. The percentage departure of seasonal rainfall from long-term average rainfall has been used for identification of onset, termination, and quantification of drought severity. The average frequency varied from once every 3–4 years. The westerly districts have an average drought return period of 3 years, while districts lying toward the east had droughts once every 4 years. Only four of the 90 districts in the study area experienced droughts once every 5 years. Persistent droughts of 2, 3, and 4 year duration occurred widely. Severe droughts occurred in the years 1904, 1905, 1911, 1918, 1931, 1939, 1985, 1986, 1987, 1993, and 2002, with an average frequency of severe drought events of one in 10 years. The analysis presented in this paper improves understanding of the regional drought characteristics and will inform drought mitigations and strategies in these arid and semiarid areas.  相似文献   

Relationship of drought frequency and severity with range of annual temperature variation     

Amrit  Kumar  Pandey  Rajendra P.  Mishra  Surendra K.  Daradur  Mihail 《Natural Hazards》2018,92(2):1199-1210

The frequency and severity of occurrence of meteorological droughts in different climatic regions depend on regional climatic factors. This study has made an effort to explore the relationship of range of annual temperature variation at a given place with the frequency of occurrence of drought and the maximum magnitude of seasonal rainfall deficit (i.e., severity). The seasonal rainfall refers to sum of monsoon season (rainy season) rainfall in India. The monthly precipitation data of 113 years (1901–2013) for 256 stations in different parts of India have been used to estimate the return period of meteorological drought at different stations. The daily normal values of observed maximum and minimum temperatures from 40 years of records have been utilized to estimate range of temperature variation (θ_R) during the year at each stations. In various parts of India, the θ_R ranges from 10 °C in humid regions to 40 °C in arid regions. The various climatic regions have been experiencing maximum deficiency of annual rainfall ranging from 30% (humid) to 90% (arid). The results reveal that places exhibiting θ_R values between 40 to 30 °C face more frequent droughts with average frequency of once in 3 to once in 6 years. The occurrence of extreme and severe drought events is more frequent in the regions with higher values of θ_R compare to that in lesser values of θ_R. The regions with θ_R values between 30 to 25 °C mostly face severe and moderate events having the average drought return period of 6–9 years, and the occurrence of extreme droughts in these regions is rare. Furthermore, regions with θ_R?<?20 °C face moderate droughts only with an average return period of 14 years. This study divulges that the average return period and magnitude of deficiency of drought events have notable relationship with the range of temperature variation during the year at a given place.

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Modelling the response of wheat grain yield to climate change: a sensitivity analysis   总被引：2，自引：0，他引：2  

Qunying Luo  Amrit Kathuria 《Theoretical and Applied Climatology》2013,111(1-2):173-182

The Agricultural Production System Simulator-Wheat model was used to test the sensitivity of wheat cropping system in NSW to a range of changes in temperature, rainfall and atmospheric carbon dioxide concentration based on wheat cultivars Sunvale and Janz under two extreme soil types (kandosol and sand) at six locations. Seven change levels (from 0 to 6°C at an interval of 1°C) in temperature, five change levels (from ?20 to 20 % at an interval of 10 %) in rainfall and three change levels (0, 171 and 316 ppm) in atmospheric pCO₂ were taken into account. It was found that there was a negative relationship between median grain yield and temperature while there were positive correlations of median grain yield with atmospheric pCO₂ and rainfall across all locations and soils considered. It was also found that the rate of decrease in median grain yield was more for higher temperatures in contrast to lower temperatures, and the rate of increase in median grain yield was less for higher rainfall and pCO₂ compared with the lower levels of these two variables. This study showed that environmental factors have significant effects on wheat grain yield, with soil as the most important factor, followed by site (reflecting both soil and climate), changes in atmospheric CO₂, rainfall and temperature. This study also showed that rainfall was more important under sandy soil conditions than under kandosol soil conditions. These findings provided a sound basis for preliminary scoping and prioritising adaptation options.  相似文献   

Carbon dynamics of paper,engineered wood products and bamboo in landfills: evidence from reactor studies     

Fabiano A. Ximenes  Amrit Kathuria  Morton A. Barlaz  Annette L. Cowie 《Carbon balance and management》2018,13(1):27

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