Items where Subject is "Atmosperic Science > Climatology"
Group by: Creators | Item Type
Number of items at this level: 346.
Abdu, N. and Agbenin, J.O. and Buerkert, A. (2011) Phytoavailability, human risk assessment and transfer characteristics of cadmium and zinc contamination from urban gardens in Kano, Nigeria. Journal of the Science of Food and Agriculture, 91 (15). pp. 2722-2730.
Adger, W.N. and Huq, S. and Brown, K. and et al, . (2003) Adaptation to climate change in the developing world. Progress in Development Studies, 3 (3). pp. 179-195.
Ahmad, J. (2011) Climate Changes and its Possible Impact on Indian Economy. Economic Affairs, 56 (1). pp. 17-24.
Akinnuoye, D.B. and Modi, A.T. (2015) Germination Characteristics of SC701 Maize Hybrid According to Size and Shape at Different Temperature Regimes. Plant Production Science, 18 (4). pp. 514-521.
Akponikpè, P.B.I. and Minet, J. and Gerard, B. and Defourny, P. and Bielders, C.L. (2011) Spatial fields’ dispersion as a farmer strategy to reduce agro-climatic riskat the household level in pearl millet-based systems in the Sahel: a modeling perspective. Agricultural and Forest Meteorology, 151 (2). pp. 215-227.
Albert, C. and Zimmermann, T. and Knieling, J. and Haaren, C. v (2012) Social learning can benefit decision-making in landscape planning: Gartow case study on climate change adaptation, Elbe valley biosphere reserve. Landscape and Urban Planning, 105 (4). pp. 347-367.
Almeida, J. and Dias, R. (2016) Impact of climate change on Indian water resources. Journal of Global Resources, 1 (1). pp. 56-70.
Almeida, J. and Dias, R. (2016) Impact of climate change on Indian water resources. Journal of Global Resources, 1 (1). pp. 56-70.
Amaru, S. and Chhetri, N.B. (2013) Climate adaptation: Institutional response to environmental constraints, and the need for increased flexibility, participation, and integration of approaches. Applied Geography, 39. pp. 128-139.
Angus, J.F. and Manalo, E.B. (1979) Weather and climate data for philippine rice research. Other. International Rice Researich Institute, Manila, Philippines.
Antle, J. M. and Stoorvogel, J .J. (2008) Agricultural carbon sequestration, poverty, and sustainability. Environment and Development Economics, 13 (3). pp. 327-352.
Arana, J.E. and Leon, C.J. (2012) Can Defaults Save the Climate? Evidence from a Field Experiment on Carbon Offsetting Programs. Environmental and Resource Economics . pp. 1-14.
Archie, K.M. and Dilling, L. and Milford, J.B. and Pampel, F.C. (2014) Unpacking the ‘information barrier’: Comparing perspectives on information as a barrier to climate change adaptation in the interior mountain West. Journal of Environmental Management, 133. pp. 397-410.
Arnell , N.W and Cannell, M.G.R. and Hulme, M and et al, . (2002) The Consequences Of Co2 Stabilisation For The Impacts Of Climate Change. Climatic Change, 53. pp. 413-446.
Arora-Jonsson, S. (2011) Virtue and vulnerability: Discourses on women, gender and climate change. Global Environmental Change, 21 (2). pp. 744-751.
Arunkumar , R. and Sairam, R.K. and Deshmukh , P.S. and Pal, M. and Khetarpal, S. and Pandey, S.K. and Kushwaha, S.R. and Singh, T.P. (2012) High temperature stress and accumulation of compatible solutes in Chickpea (Cicer Arietinum L. Indian Journal of Plant Physiology, 17 (2). pp. 145-150.
Asafu-Adjaye, J. and Mallawaarachchi, T. and Yirga, C. (2016) Strategies for managing climate risk: a case study of smallholder farmers in Ethiopia. Journal of Agricultural Economics and Rural Development, 3 (2). pp. 91-104.
Ashfaq , M. and Shi , Y. and W-wen,, T. and et al, . (2009) Suppression of south Asian summer monsoon precipitation in the 21st century. Geophysical Research Letters, 36 (1). pp. 1-5.
Assefa, Y. and Roozeboom, K.L. and Staggenborg, S.A. and Du , J. (2011) Dryland and Irrigated Corn Yield with Climate, Management, and Hybrid Changes from 1939 through 2009. Agronomy Journal , 104 (2). pp. 473-482.
Aurbacher, J. and Parker, P.S. and Sánchez, G.A.C. and et al, . (2013) Influence of climate change on short term management of field crops – A modelling approach. Agricultural Systems. pp. 1-14.
Bahar, A.H. and Adam, K.I and Ali, S.A.M. (2015) Effect of Variety and Sowing Date on Performance of Rain-fed Sorghum (Sorghum bicolor L. Moench) Grown at Zalingei Locality in Darfur, Sudan. Journal of Agricultural Science and Engineering, 1 (1). pp. 22-27.
Balota, M. and Payne, W and Veeragoni, S.K. and Stewart, B.A. and Rosenow, D.T. (2010) Respiration and Its Relationship to Germination, Emergence, and Early Growth Under Cool Temperatures in Sorghum. Crop Science, 50 (4). pp. 1414-1422.
Bannayan, M. and Soler, C.M.Tojo and Garcia, A. Garcia y. and Guerra, L.C. and Hoogenboom, G. (2009) Interactive effects of elevated [CO2] and temperature on growth and development of a short- and long-season peanut cultivar. Climatic Change, 93 (3-4). pp. 389-406.
Barbehenn, R.V. and Karowe, D.N. and Chen, Z. (2004) Performance of a generalist grasshopper on a C 3 and a C 4 grass: compensation for the effects of elevated CO 2 on plant nutritional quality. Oecologia , 140 (1). pp. 96-103.
Barbehenn, R.V. and Karowe, D.N. and Spickard, A. (2004) Effects of elevated atmospheric CO 2 on the nutritional ecology of C 3 and C 4 grass-feeding caterpillars. Oecologia , 140 (1). pp. 86-95.
Bari, A. and Khazaei, H. and Stoddard, F.L. and et al, . (2016) In silico evaluation of plant genetic resources to search for traits for adaptation to climate change. Climatic Change, 134 (4). pp. 667-680.
Barnwal, P. and Kotani, K. (2013) Climatic impacts across agricultural crop yield distributions: An application of quantile regression on rice crops in Andhra Pradesh, India. Ecological Economics, 87. pp. 95-109.
Bastakoti, R.C. and Gupta, J. and Babel, M.S. and van Dijk, M.P. (2014) Climate risks and adaptation strategies in the Lower Mekong River basin. Regional Environmental Change, 14 (1). pp. 207-219.
Baxendale, F.P. and Teetes, G.L. and Sharpe, P.J.H. (1984) Temperature-dependent Model for Sorghum Midge (Diptera: Cecidomyiidae) Spring Emergence. Environmental Entomology, 13 (6). pp. 1566-1571.
Begg, J.E. and Bierhuizen, J.F. and Lemon, E.R. and Misra, D.K. and Slayter, R.O. and Stern, W.R. (1964) Diurnal energy and water exchanges in bulrush millet in an area of high solar radiation. Agricultural Meteorology, 1 (4). pp. 294-312.
Beilin, R. and Sysak, T. and Hill , S. (2012) Farmers and perverse outcomes: The quest for food and energy security, emissions reduction and climate adaptation. Global Environmental Change, 22 (2). pp. 463-471.
Bell, M. J. and Muchow, R. C. and Wilson, G. L. (1987) The effect of plant population on peanuts (Arachis hypogaea) in a monsoonal tropical environment. Field Crops Research, 17 (2). pp. 91-107.
Bellon, M.R. and Hodson, D. and Hellin, J. (2011) Assessing the vulnerability of traditional maize seed systems in Mexico to climate change. PNAS. 9pp..
Beroya, M.A.A and Aydin, A. (2007) First-level liquefaction hazard mapping of Laoag City, Northern Philippines. Natural Hazards, 43 (3). pp. 415-430.
Bezabih, M. and Di Falco , S. (2012) Rainfall variability and food crop portfolio choice: evidence from Ethiopia. Food Security . pp. 1-11.
Bhatta, G.D. and Aggarwal, P.K. and Kristjanson, P. and Shrivastava, A.K. (2016) Climatic and non-climatic factors influencing changing agricultural practices across different rainfall regimes in South Asia. Current Science, 110 (7). pp. 1272-1281.
Bhogeesh, B.M. and Thirumalaraju, G.T. and Mutthuraju, G.P. and et al, . (2013) Utilization of carbon dioxide - a novel method for the management of Caryedon serratus (Oliver) (Coleoptera: Bruchidae) on stored groundnut. Environment and Ecology, 31 (1A). pp. 283-288.
Bhutiyani, M. R. and Kale, V. S. and Pawar, N. J. (2007) Long-term trends in maximum, minimum and mean annual air temperatures across the Northwestern Himalaya during the twentieth century. Climate Change, 85 (1-2). pp. 159-177.
Bichard, E. and Kazmierczak, A. (2012) Are homeowners willing to adapt to and mitigate the effects of climate change? Climate Change, 112 (3-4). pp. 633-654.
Blankenship, P.D. and Hutchison, R.S. (1971) Differences in the Moisture Content of Mature and Immature Peanuts. ARS (Series) (United States. Agricultural Research Service), 52-61 . Agricultural Research Service, U.S. Department of Agriculture, U.S..
Boontang, S. and Girdthai, T. and Jogloy, S. and Akkasaeng, C. and Vorasoot, N. and Patanothai, A. and Tantisuwichwong, N. (2010) Responses of released cultivars of peanut to terminal drought for traits related to drought tolerance. Asian Journal of Plant Sciences, 9 (7). pp. 423-431.
Butler, D.R. and Wadia, K.D.R. and Reddy, R.K. and Das, N.D. and Johnson, B. and et al, . (2000) A weather-based scheme to advise on limited chemical control of groundnut leaf spot diseases in India. Experimental Agriculture, 36 (4). pp. 469-478.
Byerlee, D. and Morris , M. (1993) Research for marginal environments. Are we underinvested? Food Policy, 18 (5). pp. 381-393.
Byg, A. and Salick, J. (2009) Local perspectives on a global phenomenon—Climate change in Eastern Tibetan villages. Global Environmental Change, 19 (2). pp. 156-166.
Byjesh, K. and Kumar, S.N. and Aggarwal, P.K. (2010) Simulating impacts, potential adaptation and vulnerability of maize to climate change in India. Mitigation and Adaptation Strategies for Global Change, 15. pp. 413-431.
Calzadilla, A. and Rehdanz,, K. and Betts, R. and et al, . (2013) Climate change impacts on global agriculture. Climate Change, 120. pp. 357-374.
Calzadilla, A. and Zhu, T. and Rehdanz,, K. and Toler, R.S.J. and Ringler, C. (2013) Economywide impacts of climate change on agriculture in Sub-Saharan Africa. Ecological Economics, 93. pp. 150-165.
Campbell, G.S. (1974) A simple method for determining unsaturated conductivity from moisture retention data. Soil Science, 117 (6). pp. 311-314.
Canavar, Öner and Kaynak, Mustafa Ali (2010) Growing degree day and sunshine radiation effects on peanut pod yield and growth. African Journal of Biotechnology, 9 (15). pp. 2234-2241.
Cash, D.W and Moser, S.C. (2000) Linking global and local scales: designing dynamic assessment and management processes. Global Environmental Change, 10 (2). pp. 109-120.
Challinor, A.J. and Wheeler, T.R. (2008) Crop yield reduction in the tropics under climate change: processes and uncertainties. Agricultural and Forest Meteorology, 148 (3). pp. 343-356.
Challinor, A.J. and Wheeler, T.R. and Craufurd, P.Q. and Ferro, C.A.T. and Stephenson, D.B. (2007) Adaptation of crops to climate change through genotypic responses to mean and extreme temperatures. Agriculture, Ecosystems & Environment, 119 (1-2). pp. 190-204.
Chandran, K.P.V. and Sandhya, P. (2011) Linkages Between Climate Change and Human Health: Need for an Action. Economic Affairs, 56 (1). pp. 55-59.
Chapman, S.C. and Chakraborty, S. and Dreccer, M.F. and et al, . (2012) Plant adaptation to climate change—opportunities and priorities in breeding. Crop & Pasture Science, 63. pp. 251-268.
Chauhan, B.S. and Prabhjyot-Kaur, . and Mahajan, G. and et al, . (2014) Chapter two - global warming and its possible impact on agriculture in India. Advances in Agronomy, 123. pp. 65-121.
Chipanshi, A.C. and Chanda, R. and Totolo, O. (2003) Vulnerability assessment of the maize and sorghum crops to climate change in Botswana. Climatic Change, 61 (3). pp. 339-360.
Claessens, L. and Antle, J. M. and Stoorvogel, J. J. and et al, . (2011) A method for evaluating climate change adaptation strategies for small-scale farmers using survey, experimental and modeled data. Agricultural Systems, 111. pp. 85-95.
Cobben, M M P and van Treuren, R. and van Hintuma, T.J.L. (2013) Climate change and crop wild relatives: can species track their suitable environment, and what do they lose in the process? Plant Genetic Resources. pp. 1-4.
Dangthaisong, P. and Banterng, P. and Jogloy, S. and Vorasoot, N. and Patanothai, A. and Hoogenboom, G. (2006) Evaluation of the CSM-CROPGRO-peanut model in simulating responses of two peanut cultivars to different moisture regimes. Asian Journal of Plant Sciences, 5 (6). pp. 913-922.
Das, I.K. and Kumar, B.S.V. and Ratnavathi, C.V. and Komala, V.V. and Annapurna, A. and Seetharama, N. (2010) Toxigenicity of Fusarium isolates and fumonisin B1 contamination in rainy season sorghum (Sorghum bicolor). Indian Journal of Agricultural Sciences , 80 (8). pp. 724-729.
Das, S.K. and Jenamani, R.K. and Kalsi, S.R. and Panda, S.K. (2007) Some evidence of climate change in twentieth-century India. Climatic Change, 85 (3-4). pp. 299-321.
Das, V S R and Rao, K.R. and Rao, K.S. and Malakondaiah, N. (1976) Photochemical activities of chloroplasts from plants with and without bundle sheath in leaves. Turrialba, 26 (1). pp. 148-153.
Dave, R. S. and Mitra, R. K. (1998) A low temperature induced apoplastic protein isolated from Arachis hypogaea. Phytochemistry, 49 (8). pp. 2207-2213.
Dawson, I.K. and Vinceti, B. and Weber, J.C. and et al, . (2011) Climate change and tree genetic resource management: maintaining and enhancing the productivity and value of smallholder tropical agroforestry landscapes. A review. Agroforestry Systems, 81 (1). pp. 67-78.
De Lucia, E. and Nabity, P. and Zavala, J. and Berenbaum, M. (2012) Climate Change: Resetting Plant-Insect Interactions. Plant Physiology, 160 (4). pp. 1677-1685.
Delobel, A.G.L. (1982) Effects of sorghum density on oviposition and survival of the sorghum shoot fly, Atherigona soccata. Entomologia Experimentalis et Applicata, 31 (2). pp. 170-174.
Denton, F. (2002) Climate change vulnerability, impacts,and adaptation: Why does gender matter? Gender and Development, 10 (2). pp. 10-20.
Devi, P.S. and Saravanakumar, M. and Mohandas, S. (2012) The effects of temperature and pH on stability of anthocyanins from red sorghum (Sorghum bicolor) bran. African Journal of Food Science, 6 (24). pp. 567-573.
Dodds, Rachel (2010) Destination marketing organizations and climate change—the need for leadership and education. Sustainability, 2. pp. 3449-3464.
Dorner, J.W. (2008) Relationship between kernel moisture content and water activity in different maturity stages of peanut. Peanut Science, 35 (2). pp. 77-80.
Downes , R.W. (1970) Effect of Light Intensity and Leaf Temperature on Photosynthesis and Transpiration in Wheat and Sorghum. Australian Journal of Biological Sciences, 23 (4). pp. 775-782.
Downton , W. J. S. (1971) Further evidence for two modes of carboxyl transfer in plants with C4 Photo synthesis. Canadian Journal of Botany, 49 (8). pp. 1439-1442.
Drieschova, A. and Fischhendler, I. and Giordano, M. (2011) The role of uncertainties in the design of international water treaties: an historical perspective. Climatic Change, 105 (3-4). pp. 387-408.
Dudhade, D.D. and Deshmukh, G.P. and Harer, P.N. and Patil, J.V. (2009) Studies on intercropping of pulse crops with pigeonpea under rainfed condition. Legume Research, 32 (3). pp. 215-217.
Easterling, W.E. and Rosenberg, N.J. and McKenney, M.S. and Jones, C.A. (1992) An introduction to the methodology, the region of study, and a historical analog of climate change. Agricultural and Forest Meteorology, 59 (1-2). pp. 3-15.
Ebele, N.E. and Emodi, N.V. (2016) Climate Change and Its Impact in Nigerian Economy. Journal of Scientific Research & Reports, 10 (6). pp. 1-13.
Edwards, G E and Gutierrez, M. (1972) Metabolic Activities in Extracts of Mesophyll and Bundle Sheath Cells of Panicum miliaceum (L.) in Relation to the C4 Dicarboxylic Acid Pathway of Photosynthesis. Plant Physiology, 50 (6). pp. 728-732.
Erpelding, J. E. (2008) Field evaluation of anthracnose resistance for sorghum germplasm from the Sikasso Region of Mali. The Open Agriculture Journal, 2. pp. 113-120.
Fethi, Bnejdi and Mohamed, El Gazzah (2010) Epistasis and genotype-by-environment interaction of grain yield related traits in durum wheat. Journal of Plant Breeding and Crop Science, 2 (2). pp. 24-29.
Fiedler, K. and Bekele, W.A. and Friedt, W. and Snowdon, R. and Stutzel, H. and Zacharias, A. and Uptmoor, R. (2012) Genetic dissection of the temperature dependent emergence processes in sorghum using a cumulative emergence model and stability parameters. Theoretical and Applied Genetics. pp. 1-15.
Fischer, G. and Shah, M. and Tubiello, F.N. and et al, . (2005) Socio-economic and climate change impacts on agriculture: an integrated assessment, 1990–2080. Philosophical Transactions of the Royal Society, B, 360 (1463). pp. 2067-2083.
Fischer, K.S. and Wilson, G.L. (1971) Studies of grain production in Sorghum vulgare. II. Sites responsible for grain dry matter production during the post-anthesis period. Australian Journal of Agricultural Research , 22 (1). pp. 39-47.
Fischer, K.S. and Wilson , G.L. (1971) Studies of grain production in Sorghum vulgare. I. The contribution of pre-flowering photosynthesis to grain yield. Australian Journal of Agricultural Research, 22 (1). pp. 33-37.
Flores, F. and Hybl, M. and Knudsen, J.C. and Marget, P. and et al, . (2013) Adaptation of spring faba bean types across European climates. Field Crops Research, 145 (1). pp. 1-9.
Folliard, A. and Traoré, P.C.S. and Vaksmann, M. and Kouressy, M. (2004) Modeling of sorghum response to photoperiod: a threshold-hyperbolic approach. Field Crops Research, 89 (1). pp. 59-70.
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Gautam, R.C. and Lingegowda, B.K. and Patil, R.R. and Kaushik, S.K. (1982) Nitrogen requirement of fingermillet at different agro-climatic centres. Indian Journal of Agronomy, 27 (4). pp. 344-346.
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Hill, R.V. and Hoddinott, J. and Kumar, N. (2013) Adoption of weather-index insurance: learning from willingness to pay among a panel of households in rural Ethiopia. Agricultural Economics, 44 (4-5). pp. 385-398.
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Hoque, R. and Nakayama, D. and Matsuyama, H. and Matsumoto, J. (2011) Flood monitoring, mapping and assessing capabilities using RADARSAT remote sensing, GIS and ground data for Bangladesh. Natural Hazards, 57 (2). pp. 525-548.
Huang, J.K. (2014) Climate change and agriculture: Impact and adaptation. Journal of Integrative Agriculture, 13 (4). pp. 657-659.
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Iizumi, T. and Sakuma, H. and Yokozawa, M. and et al, . (2013) Prediction of seasonal climate-induced variations in global food production. Nature Climate Change. pp. 1-5.
Islam, M.N. and Hossen, M.S. (2016) Farmer’s perception and agricultural adaptation of climate change in drought prone areas of Bangladesh. Journal of Environmental Science and Natural Resources, 9 (1). pp. 147-150.
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