Search Results - "Adhya, T. K"

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  1. 1

    Effects of organic nitrification inhibitors on methane and nitrous oxide emission from tropical rice paddy by Datta, A., Adhya, T.K.

    Published in Atmospheric environment (1994) (01-08-2014)
    “…We have studied the effects of application of different nitrification inhibitors on methane (CH4) and nitrous oxide (N2O) emissions from rice paddy and…”
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    Journal Article
  2. 2

    Effects of rice straw and nitrogen fertilization on greenhouse gas emissions and carbon storage in tropical flooded soil planted with rice by Bhattacharyya, P., Roy, K.S., Neogi, S., Adhya, T.K., Rao, K.S., Manna, M.C.

    Published in Soil & tillage research (01-08-2012)
    “…[Display omitted] ► GWP were highest in rice straw+green manure treatment. ► The labile carbon pools were highest in rice straw+green manure treatment. ►…”
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  3. 3

    Dynamics of methanogenesis and methanotrophy in tropical paddy soils as influenced by elevated CO2 and temperature interaction by Das, Suvendu, Adhya, T.K.

    Published in Soil biology & biochemistry (01-04-2012)
    “…Response of methanogenesis and methanotrophy to elevated carbon dioxide (CO2) could be affected by changes in soil moisture content and temperature. In soil…”
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  4. 4

    Interaction effects of elevated CO2 and temperature on microbial biomass and enzyme activities in tropical rice soils by Das, Suvendu, Bhattacharyya, P, Adhya, T. K

    Published in Environmental monitoring and assessment (01-11-2011)
    “…The impacts of elevated CO2 and temperature on microbial biomass and soil enzyme activities in four physicochemically different types of tropical rice soils…”
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  5. 5

    Potential of double-cropped rice ecology to conserve organic carbon under subtropical climate by MANDAL, BISWAPATI, MAJUMDER, BIDISHA, ADHYA, T.K, BANDYOPADHYAY, P.K, GANGOPADHYAY, A, SARKAR, DIBYENDU, KUNDU, M.C, CHOUDHURY, SHREYASI GUPTA, HAZRA, G.C, KUNDU, S, SAMANTARAY, R.N, MISRA, A.K

    Published in Global change biology (01-09-2008)
    “…Understanding the processes of soil organic carbon (SOC) accumulation or depletion under different management strategies is vital for maintaining soil health…”
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  6. 6

    Nitrous oxide and methane emission from a flooded rice field as influenced by separate and combined application of herbicides bensulfuron methyl and pretilachlor by Das, Suvendu, Ghosh, A., Adhya, T.K.

    Published in Chemosphere (Oxford) (01-06-2011)
    “…► Bensulfuron methyl or pretilachlor individually can reduce N2O and CH4 emission from 2 flooded rice soil. ► Combined application of herbicides at normal dose…”
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  7. 7

    Root Exudates of Rice Cultivars Affect Rhizospheric Phosphorus Dynamics in Soils with Different Phosphorus Statuses by Bhattacharyya, P., Das, S., Adhya, T. K.

    “…Exudation of organic acids by the roots of three rice cultivars grown in three soils of different phosphorus (P) statuses, and their impacts on the…”
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  8. 8

    Influence of elevated carbon dioxide and temperature on belowground carbon allocation and enzyme activities in tropical flooded soil planted with rice by Bhattacharyya, P., Roy, K. S., Neogi, S., Manna, M. C., Adhya, T. K., Rao, K. S., Nayak, A. K.

    Published in Environmental monitoring and assessment (01-10-2013)
    “…Changes in the soil labile carbon fractions and soil biochemical properties to elevated carbon dioxide (CO 2 ) and temperature reflect the changes in the…”
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  9. 9

    Field Validation of DNDC Model for Methane and Nitrous Oxide Emissions from Rice-based Production Systems of India by Babu, Y. Jagadeesh, Li, C, Frolking, S, Nayak, D. R, Adhya, T. K

    Published in Nutrient cycling in agroecosystems (01-02-2006)
    “…The DNDC (DeNitrification and DeComposition) model was tested against experimental data on CH₄ and N₂O emissions from rice fields at different geographical…”
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  10. 10

    Development of methane emission factors for Indian paddy fields and estimation of national methane budget by Gupta, Prabhat K., Gupta, Vandana, Sharma, C., Das, S.N., Purkait, N., Adhya, T.K., Pathak, H., Ramesh, R., Baruah, K.K., Venkatratnam, L., Singh, Gulab, Iyer, C.S.P.

    Published in Chemosphere (Oxford) (2009)
    “…A state-wise assessment of methane (CH 4) budget for Indian paddies, based on a decadal measurement data across India is presented for the calendar year (CY)…”
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  11. 11

    Potassium application reduces methane emission from a flooded field planted to rice by Jagadeesh Babu, Y, Nayak, D.R, Adhya, T.K

    Published in Biology and fertility of soils (01-08-2006)
    “…In a field study, potassium (K) applied as muriate of potash (MOP) significantly reduced methane (CH4) emission from a flooded alluvial soil planted to rice…”
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  12. 12

    Factors influencing spatio-temporal variation of methane and nitrous oxide emission from a tropical mangrove of eastern coast of India by Chauhan, Rita, Datta, Arindam, Ramanathan, AL, Adhya, T.K.

    Published in Atmospheric environment (1994) (01-04-2015)
    “…We have studied the seasonal and tidal variation of methane (CH4) and nitrous oxide (N2O) emission from the intertidal sediment of Bhitarkanika mangrove in the…”
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  13. 13

    Molecular ecological perspective of methanogenic archaeal community in rice agroecosystem by Alpana, Singh, Vishwakarma, P., Adhya, T.K., Inubushi, K., Dubey, S.K.

    Published in The Science of the total environment (15-10-2017)
    “…Methane leads to global warming owing to its warming potential higher than carbon dioxide (CO2). Rice fields represent the major source of methane (CH4)…”
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  14. 14

    Methane Oxidation in an Intensively Cropped Tropical Rice Field Soil under Long‐Term Application of Organic and Mineral Fertilizers by Nayak, D. R., Babu, Y. Jagadeesh, Datta, A., Adhya, T. K.

    Published in Journal of environmental quality (01-11-2007)
    “…Methane (CH4) oxidation is the only known biological sink process for mitigating atmospheric and terrestrial emissions of CH4, a major greenhouse gas. Methane…”
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  15. 15

    Spatiotemporal modelling of methane flux from the rice fields of India using remote sensing and GIS by Manjunath, K. R., Panigrahy, S., Kumari, Kundan, Adhya, T. K., Parihar, J. S.

    Published in International journal of remote sensing (01-10-2006)
    “…Rice fields have been accredited as an important source of anthropogenic methane, with estimates of annual emission ranging from 47 to 60 Tg per year,…”
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  16. 16

    Methane emission from a flooded field of Eastern India as influenced by planting date and age of rice ( Oryza sativa L.) seedlings by Nayak, D.R., Adhya, T.K., Babu, Y.J., Datta, A., Ramakrishnan, B., Rao, V.R.

    Published in Agriculture, ecosystems & environment (01-07-2006)
    “…Flooded paddy is considered to be one of the major anthropogenic sources of atmospheric methane (CH 4), a potent greenhouse gas. Emission of CH 4 from flooded…”
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  17. 17

    Recalcitrant and labile carbon pools in a sub-humid tropical soil under different tillage combinations: A case study of rice–wheat system by Pandey, Divya, Agrawal, Madhoolika, Singh Bohra, Jitendra, Adhya, T.K., Bhattacharyya, P.

    Published in Soil & tillage research (01-11-2014)
    “…•Reduction in tillage frequency increased soil’s total and recalcitrant carbon content.•Recalcitrance index was unaffected by tillage permutations.•Soil in the…”
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  18. 18

    Environmental and economic opportunities of applications of different types and application methods of chemical fertilizer in rice paddy by Datta, A., Santra, S. C., Adhya, T. K.

    Published in Nutrient cycling in agroecosystems (01-04-2017)
    “…Mitigating greenhouse gas (GHG: Methane and nitrous oxide) emission from the rice cropland vis-à-vis increasing rice yield is one of the important challenges…”
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  19. 19

    Long-term application of compost influences microbial biomass and enzyme activities in a tropical Aeric Endoaquept planted to rice under flooded condition by Nayak, Dali R., Babu, Y. Jagadeesh, Adhya, T.K.

    Published in Soil biology & biochemistry (01-08-2007)
    “…In a field study, long-term application of compost to a tropical Aeric Endoaquept under continuous rice growing in a rice–rice–fallow sequence resulted in the…”
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  20. 20

    Effect of inorganic fertilizers (N, P, K) on methane emission from tropical rice field of India by Datta, A., Santra, S.C., Adhya, T.K.

    Published in Atmospheric environment (1994) (01-02-2013)
    “…In the tropical experimental rice field of Central Rice Research Institute, Odisha, India, an experiment was conducted during the dry season (January–April)…”
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