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Agriculture

IPCC Publications

IPCC (2001), Climate Change 2001: The Scientific Basis Contribution of Working Group I to the Third Assessment Report of the Intergovernmental Panel on Climate Change (IPCC)
CambridgeUniversityPress, UK
J. T. Houghton, Y. Ding, D.J. Griggs, M. Noguer, P. J. van der Linden and D. Xiaosu (Eds.)
IPCC (2001), Climate Change 2001: Impacts, Adaptation & Vulnerability
Contribution of Working Group II to the Third Assessment Report of the Intergovernmental Panel on Climate Change (IPCC)
Cambridge UniversityPress, UK
James J. McCarthy, Osvaldo F. Canziani, Neil A. Leary, David J. Dokken and Kasey S. White (Eds.)
IPCC (2001), Climate Change 2001: Mitigation Contribution of Working Group III to the Third Assessment Report of the Intergovernmental Panel on Climate Change (IPCC) .
Cambridge UniversityPress, UK
Bert Metz, Ogunlade Davidson, Rob Swart and Jiahua Pan (Eds.)

Authored Publications

Correlation between crop yields and climate variability / change &adaptation strategies

A Guide to Crop Pests.
Rajalakshmi Publications, Nagercoil. 242 pp.
Effect of planting seasons and the associated weather conditions on the incidence of the rice stem borer, Tryporyza incertulas.
Agric. Res. J. Kerala 10(2): 141-151.
Abraham, C. C., Thomas, B., Karunakaran, K. and Gopalakrishnan, R. 1972.
Rice - in a Variable Climate.
APC Publishing House, New Delhi pp. 252.
Abrol, Y.P. and Gadgil, S. (Eds.) 1999
Analysing constraints limiting crop productivity; New opportunities using crop growth modeling.
In (Ed. D.L.Deb) Natural Resource Management for Sustainable Agriculture and Environment, Angkor Publishers (P) Ltd., New Delhi, pp. 315-332.
Aggarwal, P.K. and Kalra, N. 1994.
Analyzing the limitations set by climatic factors, genotype, water and nitrogen availability on productivity of wheat. II. Climatically potential yields and optimal management strategies.
Field Crops Res., 38: 93-103.
Aggarwal, P.K. and Kalra, N. 1994.
Climate change and rice yields in diverse agro-environments of India. II. Effect of uncertainties in scenarios and crop models on impact assessment.
Climate Change, 52; 331-343.
Aggarwal, P.K., and Mall, R.K. 2002.
Carbon link between microbial biomass and soil organic matter.
In proceedings of the fourth international symposium on microbial ecology 9 F. Megusar and M. Gantar, Eds.) Solvene Society for Microbiology, Ljubljana, PP.467-471.
Anderson, T. H. and Domsch, K. H. 1986.
Measuring the impact of climate change on Indian agriculture
World Bank Technical paper No.402.
Anonymous, (1998)
Econometric-processes models for integrated assessment of agriculture production systems
Am. J. Agriculture Economics, 83 (2): 389-401.
Antle, J.M. and Capalbo, S.M. 2001
Maximum-minimum temperatures as basis for computing heat units.
Proc.Amer.Soc.Hort.Sci. 76: 682-692.
Arnold, C.Y. 1960
Effect of rainfall and temperature on mustard aphid, Lipaphis erysimi.
Indian J. Ent. 45(2): 202-205.
Bakhetia, D. R. C. and Sindhu, S. S. 1983.
Paddy pests.
In Entomology in India (New Delhi: Entomological Society of India), pp. 92-98.
Banerjee, S. N. (1964).
Rapid estimation of heat accumulation from maximum and minimum temperatures.
Ecology 50:514-517
Baskerville, G.L. and Emin,P. 1969.
Atmospheric gas concentrations over the past century measured in air from fin at the south pole
Nature 383, 231 - 235.
Battle, M., Bender, M., Sowers, T., Tans, P. P., Butler, J.H., Elkins, J.W., Ellis, J.T., Conway, T., Zhang, N., Lang, P. and Clarke, A.D. 1996.
Effect of temperature on the development and oviposition of the red cotton bug, Dysdercus koenigii and application of Pradhan's equation relating temperature to developmemt.
Indian J. Ent. 28:45-54.
Bhatia S. K. , and Kaul, H. N. 1966.
Environmental correlates of population buildup of rice insect pests through light trap catches.
Oryza 36(3): 241-245
Bhatnagar, A. and Saxena, R.R. 1999
Effect of nitrogen levels on rice water weevil populations.
J. Econ Entomol. 56(6): 826-827.
Bowling, C. C. 1963.
European oak decline and global warming: a theoritical assessment with special reference to the activity of Phytophthora cinnamoni
Bulletin OEPP 24, 221-232
Brasier, C.M. and Scot, J.K., 1994.
Effects of climatic change on the population dynamics of crop pests.
Adv. Ecol. Res.22 : 117-162
Cammell, M.H. & Knight, J.D. 1992
Temperature requirements of some aphids and their parasites.
J. Applied. Ecol.11:431-438.
Campbell, A., Frazer, B.D. Gilbert, N., Guitererrez, A.P and Mackauer M.1974.
Climatic change and future agroclimatic potential in Europe.
Int. J. Climatol :251-269
Carter, T.R., Parry, M.L and Porter, J.H.1991.
Infestation of root and foliage/earhead aphids on wheat in relation to predators.
Indian J. Agric. Sci. 68(11): 754-755.
Chander, S. 1998.
Effect of nitrogen and irrigation on the leaffolder, Cnaphalocrosis medinalis infestation in paddy.
Shashpa 6(1):49-51.
Chander, S. 1999.
Effect of nitrogen and cultural practices on pests of rice and wheat under rice-wheat cropping system.
Ann. Pl. Protec. Sci. 7(2): 159-162.
Chander, S. and Garg, R. N. 1999.
Infestation of armyworm, Mythimna separata in paddy.
Ann. Pl. Protec. Sci. 5(1):108-121.
Chander, S. and Sharma, S. N. 1997.
Simulating the impact of increase in carbon dioxide and temperature on growth and yield of maize and sorghum.
M.Sc Thesis, Division of Environmental Sciences, IARI, New Delhi.
Chatterjee, A. 1998.
Influence of nitrogen fertilization on the infestation by gall midge, Pachydiplosis oryzae in certain rice varieties.
Indian J.
Chelliah, S. and Subramanian A., 1972.
An investigation of the relationship between pesticide usage and climate change.
Climate Change .50 475-487
Chen, C and McCarl. B.A. 2001
Effect of abnormally high temperature and draught on the immigration of Cnaphalocrosis medinalis Guenee.
Insect Knowledge 27: 195-197
Cheng, P.Y.1990.
Effect of weather parameters on incidence of sorghum shootfly at perbhani
Sorghum News Letter 27:83
Chundurwar, R.D., Karanjkar,R.R.,Karyankar, S.P. and Ali, M.A. 1984.
Compensation of aphid injury to sugarbeet by means of supplementary rain.
Arciv fur Phytopathologie und Pflanzenschutz 13(3): 199-205.
Daebeler, F. and Hinz, B. 1977.
Adjustments to weather variation through cropping systems and fertilizer use
Fertilizer News Vol. 40(5) : 11 - 21.
Das, D.K. and Kalra, N. 1995.
Methane emissions from rice fields amended with biogas slurry and farm yard manure.
Climate Change 33, 97-109.
Debnath, G., Jain, M.C., Kumar, S., Sarkar, K. and Sinha, S.K.: 1996
Principles of Insect Pest Management.
NATIC
Dhaliwal, G. S. and Arora, R. 1996.
Influence of weather and climate on agriculturally important insects: An Australian perspective.
Aust. J. Agril. Res 45,487-509
Drake, 1994.
Sorghum shootfly incidence in relation to temperature and humidity.
Indian J. Entomol.41:273-274. Entomol. 34 : 255-256.
Dubey, R.C. and Yadav, T.S.1980.
The climatic factor in Australian grassland ecology.
In: R.M. More, (Ed) Australian Grassland. Australian national university press, Brisbane,3-26pp
Fitzpatrick, E.A and Nix, H.A. 1970.
On growth and fluctuation of Indian food grain production.
Current Science 76: 548 - 556.
Gadgil S, Abrol Y P, Seshagri Rao, P.R. 1999a
Modeling impact of climate variability in on rainfed groundnut.
Current Science 76: 557 - 569.
Gadgil S., Sheshagiri Rao, P.R., Sridhar, S, 1999b
Climate change and agriculture - An Indian Perspective.
Current Science 69: 649 - 659.
Gadgil, S. 1995.
Succession of insect pests in Kharif Paddy.
Indian J. Ent. 42 (3) : pp 482-487
Garg, A.K. and Sethi, G.R. 1980
Crop ecosystem response to climate change: Pest and population dynamics.
Div. Ecosystem Science .University of California.
Gutierrez, A.P. 2001.
Seasonal Abundance and association of light trap catches with field incidence of rice leafholder.
Oryza 35:91-92
Harinlkhere, J.P., Kandalkar, V.S. and Bhowmick, A.K., 1998.
Agricultural insect pests of temperate regions and their control.
Cambridge University Press, Cambridge,659pp.
Hill, D.S., 1987.
Impact of climate change agricultural/horticultural systems.
DSIR Entomology Division Submission to the New Zealand Climate Change Programme. Department of Scientific and Industrial Research, New Zealand, 16pp.
Hill, M.G..and Dymock, J.J., 1989
Global warming and rice arthropod community.
In :peng, S.,Ingram,K.T.,NeneH.U. and Ziska,L.H.(Eds) Climate change and rice Sympossium, Manilla Philipines, March 1994. Springer verlag,326-335pp
Hoeng, K.L., Song, Y.H., Pimasamam, S., Zhang, R. and Bac, S.D. 1995
Forecasting the favourableness of Australian environment for the Russian wheat aphid, Duraphis noxia(Homoptera;Aphididae) and its potential impact on Australian wheat yields.
Bull. Entomol. Res. 80,165-175
Hughes, R.D and Maywald,G.W 1990.
Application of CERES-Wheat model to yield prediction in the irrigated Plains of the Indian Punjab.
J. Agril. Sciences (Cambridge), 129; 13-18.
Hundal, S.S. and Kaur, P. 1997.
Flowering behaviour of the parents in CSH-1 and CSH-2 Jowar hybrids under differential sowings
Sorghum News Letter 10:33-34.
Hussaini, S.H. and Rao,P.V 1967.
Are the microbial biomass and basal respiration governed by the climatic regime
Soil Biol. Biochem. 22 (4); 525-532
Insam, H. 1990.
Gypsy moth, (Lymantria dispar) egg eclosion, degree-day accumulation.
Engiron. Entomol.12 : 929-932
Johnson, P.C., Mason, D.P., Radke, S.L. and Tracewski, K.T., 1983
Recent changes in relative pest status of rice insects as influenced by cultural, ecological and genetic factors.
Proc. International Rice Res. Conf. April 22-25, 1974. Los Banos, Philippines.
Kalode, M. B. 1974.
Evaluating water production functions for yield assessment in wheat using crop simulation models.
In (Eds. H.F.M. ten Berge, M.C.S. Wopereis and J.C.Shin), Nitrogen Economy of Irrigated Rice: Field of Simulation Studies, SARP Research Proceedings, AB-DLO, Wageningen, pp. 254- 266.
Kalra, N. and Aggarwal, P.K. 1994.
Evaluating the growth response for wheat under varying inputs and changing climate options using wheat growth simulator - WTGROWS.
In: Climate variability and Agriculture. Y.P. Abrol, Sulochana Gadgil and G.B. Pant (eds), Narosa Publishing House, New Delhi, 320-338pp.
Kalra, N. and Aggarwal, P.K. 1996.
Seasonal abundance of rice leaffolder in Kangra valley of Himachal Pradesh.India.
Oryza 36(1) : 96-97
Kaul, B.K. and Singh, R. 1999.
Kobak, K.I. et al., 1996
Current research and future needs on rice insects problem in Thailand.
Paper presented at a meeting of the planning Group for Integrated Control of Rice Pests in Southeast Asia, May9-12,1972.Los Banos, Philipines.
Kovitvadhi,K., 1972.
The relation between the outbreak of armyworm (Leucania separata) and richly nitrogenous manured cultivation of rice plant.
Jpn. J. Appl. Entomol. Zool. 10 : 123-128.
Koyama, J. 1966.
Oryza (34) : 185-186.
Krishnaiah, N.V., Pasalu, I.C., Padmavathi, L., Krishnaiah, K. and Pam Prasad, A.S. 1997.
Growth and yield response of soybean in Madhya Pradesh, India to Climate Variability and change.
Agriculture and Forest Meterology 93 :53 - 70.
Lal, M, Singh, K.K.,Srinivasan, G, Rathore, L.S. and Naidu D. 1999.
Current Science (69), 9:752-762
Lal, M., Cubasch, U., Voss, R., and Waszkewitz, J., 1995.
The greenhouse gas induced climate change over the Indian Sub-continent as projected by GCM model experiments.
Terrestrial, Atmospheric and Oceanic Sciences, TAO, 9(iv): 663-669.
Lal, M., Whettori, P.H., Pittodi, A.B. and Chakraborty, B. 1998.
Effects of temperature on life cycle of Lydella jalisco (Diptera: Tachinidae), a parasitoid of Eoruma Loftini (Lepidoptera:Pyralidae) 2001.
Phy. Chem. Ecol June 2002.432-437
Lauziere, I., Setamou, M., Legasri, J. and Jones, W.
Do armyworm follow the rain?
Wild Crops 21: 351-352.Ludhiana. 374 pp.
Lever, R. J. W. 1969.
Increase in the atmospheric nitrous oxide concentration during the last 250 years.
Geophys. Res. Lett. 22, 2921-2924.
Machida, T., Nakazawa, T., Fujii Yaola, S. and Watanable, O.:1995
Influence of season and weather factors on occurrence of sorghum stem borer, Chilo partellus Swinhoe in Tamil Nadu.
Tropical Pest Management 32: 212-214.
Mahadevan, N.R. and Chelliah, S. 1986.
Reducing nitrous oxide emission from rice field with nitrification inhibitors
Agric. Ecosys. Environ. 81, 163 - 169.
Majumdar, D., Kumar, S., Pathak, H., Jain, M.C. and Kumar, U.: 2000
Simulating the impact of climatic variability and climate change on growth and yield of chickpea and pigenonpea crops.
M.Sc Thesis, Division of Environmental Sciences, IARI, New Delhi.
Mandal, N. 1998.
Direct and indirect effects of climate change on insect herbivores: Auchenorrhyncha (Homoptera).
Ecol. entomol. 23(1): 45-52.
Masters, G. J., Brown,V.K., Clarke, I. P., Whittaker, J.B., Hollier, J.A. 1998.
Population sampling and bootsstrapping in complex designs:demographic analysis, 99232-252.
In: S.M. Scheiner and J.Gurevitch (Eds) Designs and analysis of ecological experiments, Chapman&Hall, New York.
Mcpeek, M.A and Kalisz, S. 1993
The impact of global warming on agriculture: A Ricardian analysis.
American Economic Review 84: 753 - 771.
Mendelsohn, R., Nordhaus, W and Shaw, D. 1994.
Issues and perspectives of the South Asian region, Global Change
Report No. 18, National Physical Laboratory, New Delhi.
Mitra A P. 2000.
Potential effects of global warming on occurrence of Japanese insects pests.
Appl. Entomol. Ecol. 33,147-155.
Morimoto, N., Imura, O. and Kura, P. 1998.
Assessing and mitigating nitrous oxide emissions from agricultural soils.
Clim. Change 40, 7-38.
Mosier, A.R., Duxbury, J.M., Freney, J.R., Hienemeyer, O. and Mnami, K.: 1998
Seasonal activity of sorghum shootfly, Entomol. Experiment.
Et.Applicata 26: 74-79.
Ogwara, K. 1979.
Studies on the population increase of green rice leafhopper Nephotettix cincticeps. II. The larval growth and oviposition on rice plants under controlled sunshine and nitrogenous fertilizer.
Proc. Assoc. Plant Prot. Hokuriku 19: 45-49.
Oya, S. and Suzuki, T. 1971.
Diseases of rice. I. Fungal diseases.
In Rice Research in India (New Delhi : ICAR), pp. 459-517.
Padmanabhan, S.Y. and N.K. Chakrabarti 1985.
Climate change and world food security: A new assessment.
Global Environmental Change 99: 51-67.
Parry M, Rosenzweig C, Iglesiasc A, Fischer G, Livermore M. 1999.
The greenhouse effect and the future of UK agriculture.
J. R. Agric. Soc. 150: 120-121.
Parry, M. L., Carter, T. R. and Porter, J. H. 1989.
The power of climate components on the flare-up of diseases and pests in rice.
In Rice in a Variable Climate (Ed. Y. P. Abrol and S. Gadgil) APC Publications, New Delhi, 243 pp.
Pasalu, I. C., Krishnaiah, N. V. and Muralidharan, K., Mayee, C. D., Venkataraman, S., Rajarajeshwari, N. V.L., and Sarkar, J.1999.
Strategies to reduce nitrous oxide emission from soil with fertilizer selection and nitrification inhibitor
Water, Air, Soil Pollut. 129, 217 - 228.
Pathak, H. and Nedwell, D.B.:2001
Insect Pests of Rice
(Eds.) P.D. Srivastava, M.D.Jotwani, R.A. Aggarwal, S.R.Wadhi, R.K. Bhanotar and R.K. Bhatnagar. Agriculture Rntomology, Vol II : 88-90
Pathak, M.D. and Pawar, A.D 1983.
Ecological factors affecting aphid, Lipaphis erysimi incidence on mustard crop.
Aphidology in India (ed.) A. R. printers Calcutta, pp. 37-42.
Phadke, K. G. 1986.
Effect of global warming on insect populations and crop damage.
Shashpa 1(2): 75-80.
Phadke, K. G. and Ghai, S, 1994.
The influence of rainfall deficits on abundance of Helicovarpa armigera in Andhra Pradesh, India.
Biol. Agric. &Horti. 8: 153-176.
Pimbert, M.P. and Srivastava, C.P. 1991.
The potential effects of climatic change on agricultural insect pests.
Agric. For. Meteorol.57: 221-240.
Porter, J.H., Parry, M.L. and Carter, T.R.1991
Measurement of soil microbial biomass provides an early indicator of changes in total soil organic matter due to straw incorporation.
Soil Biology and Biochemistry 19,159-164.
Powlson, D. S. and Brookes P. C. 1987.
Insect population studies. IV. Dynamics of temperature effect on insect development.
Proc. Nat. Inst. Sci. India. 12 (7): 385-404.
Pradhan, S. 1946.
Atmospheric emissions and trends of nitrous oxide deduced from 10 years of ALE - GAGE data
J. Geophys. Res. 95, 18369 - 18385.
Prinn, R.D., Cunnold, R., Rasmussen, R., Simmonds, P., Alyea, F., Crawford, A., Fraser, P. and Resen, R. 1990.
Final Report on Indo-USAID-Sus-Project, CRIDA, Hyderabad, India.
Ramana Rao, B.V., Katyal, J.C., Bhalra, P.C. 1994.
Weather effects on Insect pests
In: Abrol, Y.P., Gadgil, S., and Pant, G.B. (Eds.), Climate Variability and Agriculture, New Delhi.pp-281-294Regupathy, A., Palanisamy, S., Chandamohan, N. and Gunathilagaraj, K. (1994).
Rao, B.V.R. and Rao, M.S. 1996.
A comparison of the contribution of various gases to the greenhouse effect.
Science 248: 1217-1219.
Rodhe, A. L. 1990.
Simulating growth and yield of maize in the different agro-climatic regions.
M.Sc Thesis, Division of Environmental Sciences, IARI, New Delhi.
Sahoo, S.K. 1999.
Effects of climate change on rice production in the tropical humid climate of Kerala, India.
Climate Change 12:1-20
Saseendran, S.A., Singh, K.K., Rathore, L.S., Singh, S.V. and Sinha, S.K. 1999.
Disease management strategy in wheat.
Indian Farming 48 (1): 51-53 & 64-69.
Sharma, A. K., J. Kumar and S.Nagarajan (1998).
Climate and rice production in India.
In Rice in a Variable Climate (Ed. Y. P. Abrol and S. Gadgil) APC Publications, New Delhi, 243 pp.
Siddiq, E. A. 1999.
Pest management in wheat.
Indian Farming 48 (1): 47-50 & 59-63.
Singh, V.S. 1998.
Deforestation, climate change and sustainable nutrition security.
Climate Change. 16: 33-45.
Sinha, S.K. and Swaminathan, M.S. 1991
Why do natural enemies fail in classical biological control programs?
Am. Entomol. 39 : 31-37
Stilting, P. 1993
Soil and environmental pollution- a threat to sustainable agriculture.
Journal of the Indian Society of Soil Science 47(4): 611-633.
Subbarao, I.V. 1999
Effect of graded levels of nitrogen on the incidence of rice stem borer, tryporyza incertulas.
Sci. And cult. 43(5): 222-223.
Subramanian, v., m. Mani and v.d. Guruswamy roja 1977
Pest risk analysis and the green house effect.
Rev. Agric. Entomol. 79 (11/12): 1177-1187.
Sutherst, R. W. 1991
Rice Entomol.
Newsletter.(4), ref.-1 pp 33-34
Thomas, B.1976
Climate change ,dispersal and insect biodiversity.(Poster presented at ICE 2000).
Climate Impacts Group, department of Ecology, Plant Ecology, Lund University, SE-11362 Lund, Sweden
Travis, J.M.J. 2000
Effect of temperature on development of Heliothis armigera (Hubner) (Noctuidae; Lepidoptera).
Annal Entomol.3:67-69
Tripathi, S.R. and Sharma, S.C.1988
Does solar energy control organic diversity - butterflies, moths and British climate.
Oikos : 195-205.
Turner, J. R. G., Gatehouse, C. M. and Corey, C. A. 1987
Rising atmospheric CO2 and crop productivity.
Japan. J. Crop Sci 67:394-395.
Uprety, D. C. 1998
Incidence of brown Planthopper Nilaparvata lugens on IR50 at graded levels of fertilization at Aduthurai.
Intl. Rice Res. Newsl. 10(1): 23.
Uthamasamy, S., V. Velu, M. Gopalan and K.M Ramanathan 1983
Pesticide Conspiracy; Double day Garden city, New York
Vanden Bosch, 1978
Comparitive demography of three hawanian fruit flies (Diptera:Tephritidae) at temperatures.
Ann. Entomol. Soc. Am. (93) 1. 75-81.
Vargas, R.I., Walsh, W.A. Kanehisa, D. Stark. H.D.and Nishida, T.1999
The Regional Impacts of Climate Change: An Assessment of Vulnerability.
IPCC II Report, Cambridge University Press, 517p
Watson, R.T., Zinyowera, M.C. and Moss, R.H. (Eds). 1998

Impact of enhanced CO2 concentration on crop growth mainly rice and mustard

CO2, Climate change and Agriculture.
Proc. 1st Agril. Sci. Cong. (1992). pp 63-70.
Abrol, Y.P.; Uprety, D.C. and Sharma, A. 1992
Interactive effect of elevated CO2 and moisture stress on photosynthesis, water relations and growth of Brassica species.
J. Crop Sci. & Agron. 182, 4 : 223-230.
Mishra, R.S.; Abdin, M.Z. and Uprety, D.C. 1999
APN Project Report. (Japan).
Pp- 43-48.NC-IGBP News Letter. Report on visit of Dr. D.C. Uprety, START Visiting Scientist to Free Carbon dioxide Enrichment (FACE) facility at Maricopa, USA, Feb. 1997.
Mitra, A.P., Garg, S.C. and Uprety, D.C. (2001)
Effects of elevated CO2 and moisture stress on Brassica juncea.
Photosynthetica. 35, 4, pp- 597-602.
Rabha, B.K. and Uprety, D.C. 1998
Changes in atmospheric composition and its impact.
START Network News, USA. May 2001. pp-18.
Uprety, D.C. (2001)
Crop responses to rising atmospheric CO2 in India.
GCTE News. No.17. pg. 7.
Uprety, D.C. (2001)
South Asian studies on crop responses to the rising atmospheric CO2.
Abstr. Global Change Open Sci. Cong. 2001. Amsterdam. pp.-272.
Uprety, D.C. (2001)
Effects of increasing atmospheric CO2 on crop plants. "Global Change".
SASCOM News Letter. 2.2-3.
Uprety, D.C. 1995
CO2 enrichment studies.
NC.IGBP News Letter. 1,2,2-3.
Uprety, D.C. 1996
Carbon dioxide maligned for degrading the atmosphere, also enhances vegetative cover.
Down to Earth. P 26.
Uprety, D.C. 1997
CO2 enrichment study results and development of Free Air CO2 Enrichment (FACE) facility for CO2 enrichment studies in South Asian Region.
Supple. to changes in Global Climate due to natural and human activities. (S.N. Das and R.S. Thakur Eds.). Allied Publishers Ltd. pp. 86-105.
Uprety, D.C. 1997
Carbon dioxide enrichment technology; Open Top Chambers a new tool for global climate research.
J. Sci. Indus. Res. Vol. 57 : pp 266-270.
Uprety, D.C. 1998
Characterization of plant responses to elevated CO2 under moisture stress condition.
Jpn. J. Crop Sci. 67, 3, 396-397.
Uprety, D.C. 1998.
CO2 enrichment research in the South Asian Region :
A START Initiative. START Newsletter. No. 3, pp . 14.
Uprety, D.C. 1998
Free Air CO2 Enrichment (FACE) facility for South Asian region.
ICAR News. Vol. 4, No. 2. April-June. pp -12.
Uprety, D.C. 1998
Rise in atmospheric carbon-dioxide and agriculture. Indian Farming.
ICAR. Vol. 48, No. 6. September, 1998. pp- 7-11.
Uprety, D.C. 1998
Rising atmospheric CO2 and crop productivity.
Jpn. J. Crop Sci. 67, 3, 394-395.
Uprety, D.C. 1998
Compendium of current research and published work by IARI on "Rising atmospheric CO2 and crop responses".
FACE Research Series-01. SASCOM Scientific Report.
Uprety, D.C. 1999
Contributed to a note on "IARI as main center for CO2 enrichment research on crops in South Asian region".
IARI News, 16, 2, 1-2.
Uprety, D.C. 2000.
Chapter 5 "Implications of Regional and Global Changes for Agriculture". pp- 1-27.
Contributory Author of International Geosphere Biosphere Programme (IGBP)- SASCOM Synthesis Report.
Uprety, D.C. 2000.
Responses of C3 plants to elevated CO2.
2nd International Crop Sci. Cong. Abstr. P 8-066. P 257.
Uprety, D.C. and Abrol, Y.P. 1996.
Effect of elevated CO2 and nitrogen nutrition on some physiological characters in Brassica juncea.
J. Crop Sci. & Agron. (Germany). 184 (4), 271-276.
Uprety, D.C. and Mahalaxmi, V. 2000.
Effect of elevated CO2 and moisture stress on the carbon and nitrogen contents in Brassica juncea.
Biologia Plantarum, 42, (1), pp- 133-136.
Uprety, D.C. and Rabha, B.K. 1999.
Response of rice varieties to elevated CO2.
Biologia Plantarum. Vol. 46, (1):35-39.
Uprety, D.C., Dwivedi, N.; Jain.V.; Mohan, R.; Saxena, D.C., Jolly, M. and Paswan, G. 2003.
Comparative study on the effect of elevated CO2 in mungbean and maize cultivars.
Proc. Indian Nat. Sci. Acad. (B) 62: 1, 31-38.
Uprety, D.C.; Abrol, Y.P.; Bansal, A.K. and Mishra, R.S. 1996.
Interactive effect of rising atmospheric carbon dioxide and drought on nutrient constituents of Brassica juncea seeds.
Sci. & Culture 63 (11-12): 291-292.
Uprety, D.C.; Dwivedi, N. and Mohan, R. 1997.
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