Items where Subject is "Plant Physiology and Biochemistry > Plant Physiology"

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A

Aarathi, A. and Urooj, A. and Puttaraj, S. (2003) In vitro starch digestibility and nutritionally important starch fractions in cereals and their mixtures. Starch, 55 (2). pp. 94-99.

Abbott, J.L. (1978) Importance of the organic phosphorus fraction in extracts of calcareous soil. Soil Science Society of America Journal, 42 (1). pp. 81-85.

Abdelrahman, A.A. and Hoseney, R.C. (1984) Basis for Hardness in Pearl Millet, Grain Sorghum, and Corn. Cereal Chemistry, 61 (3). pp. 232-235.

Abdoul-latif, F. Md and Bayili, R.G. and Obame, L. and Bassolé, I.H.N. and Dicko, M.H. (2012) Comparison of phenolic compounds and antioxidant capacities of traditional sorghum beers with other alcoholic beverages. African Journal of Biotechnology , 11 (80). pp. 14671-14678.

Abdu, N. and Agbenin, J.O. and Buerkert, A. (2012) Fractionation and mobility of cadmium and zinc in urban vegetable gardens of Kano, Northern Nigeria. Environmental Monitoring and Assessment, 184 (4). pp. 2057-2066.

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.

Abdulraheem, M.O. and Aberuagba, F. and Okafor, J.O. and Otaru, A.J. (2013) Physio-Chemical Properties of Malted Sorghum as Material For Mucamalt Using Cashew Apple Juice Extract As Vitamin C Fortifier. IOSR Journal of Applied Chemistry, 4 (2). pp. 67-78.

Aboagye, L.M. and Isoda , A. and Nojima, H. and Takasaki, Y. and Yoshimura, T. and Ishikawa, T. (1994) Plant Type and Dry Matter Production in Peanut (Arachis hypogaea L.) Cultivars : I. Varietal differences in dry matter production. Japanese Journal of Crop Science , 63 (2). pp. 289-297.

Abouziena, H.F. and El-Wahed, M.S.A.A. and Eldabaa, M.A.T. and El-Desoki, E.R. (2013) Effect of sowing date and reduced herbicides rate with additives on peanut (Arachis hypogaea L.) productivity and associated weeds. Journal of Applied Sciences Research, 9 (3). pp. 2176-2187.

Acevedo Hinojosa, E. (1975) The Growth of Maize (zea mays l.) under Field conditions as affected by its Water Relations. PhD thesis, University of California.

Adams, C.A. and Blee, E. and Casida, J.E. (1983) Dichloroacetamide herbicide antidotes enhance sulfate metabolism in corn roots. Pesticide Biochemistry and Physiology, 19 (3). pp. 350-360.

Afria, B.S. and Mukherjee, B.S. (1982) Protein and Ascorbic Acid Changes in Shoot of Certain c3 and c4 Plants in Relation to Light and Dark. Proceedings of Indian National Science Academy, 48 (5). pp. 681-684.

Afria, B.S. and Mukherjee, D (1982) Studies of Peroxidase Activity during Early Seedling Growth in Light and Dark. Plant Physiology & Biochemistry, 9 (1). pp. 18-21.

Ageeb, O.A.A. (1976) Agronomy and Crop Physiology. In: Annual report of the Hudeiba Research-Station-1976-1977. Ministry of Agriculture, Food and Natural Resources,, Sudan, pp. 1-15.

Agrawal, R.P. and Khanna, R.K. and Nath, J. and Batra, M.L. (1975) Root penetration studies with 32P in cereals as affected by compact layers at varying depths. Annals of Arid Zone, 14 (4). pp. 339-346.

Agrawal, R.P. and Sharma, S.K. (1984) Effect of triple superphosphate and polyvinyl alcohol on crust strength, soil physical properties and seedling emergence of pearl millet. Tropical Agriculture, 61 (4). pp. 269-272.

Ahmed, M. and Asif, M. and Hassan, F. (2013) Augmenting drought tolerance in sorghum by silicon nutrition. Acta Physiologiae Plantarum. pp. 1-11.

Ahsan ul haq , Md. (1990) Genetic and physiologic studies on induced mutants of chickpea Cicer arietinum L. PhD thesis, University of the Punjab.

Ainsworth, E.A. and Davey, P.A. and Bernacchi, C.J. and Dermody, O.C. and Heaton, E.A. and Moore, D.J. and Morgan, P.B. and Naidu, S.L. and Ra, H.S.Y. and ZhuX.G., X.G. and Curtis, P.S. and Long, S.P. (2002) A meta-analysis of elevated [CO2] effects on soybean (Glycine max) physiology, growth and yield. Global Change Biology, 8 (8). pp. 695-709.

Aisien, A.O. and Ghosh, B.P. (1978) Preliminary studies of the germination behaviour of Guinea corn (Sorghum vulgare). Journal of the Science of Food and Agriculture, 29 (10). pp. 850-852.

Akhter, A. and Wagatsuma, T. and Khan, M.S.H. and Tawaraya, K. (2009) Comparative studies on aluminum tolerance screening techniques for sorghum, soybean and maize in simple solution culture. American Journal of Plant Physiology, 4 (1). pp. 1-8.

Akotkar, S.N. and Deshmukh, V.A. (1974) Effect of BHC on ammonification, nitrification and nitrogen uptake in jowar [sorghum]. Pesticides, 8 (10). pp. 48-50.

Al Sohaily , IA and Mankin, C.I. and Semeniuk, G. (1963) Physiological Specialization of Sphacelotheca reiliana to Sorghum and Corn. Phytopathology , 53. pp. 723-726.

Al-Rabadi, G.J. and Torley, P.J. and Williams, B.A. and Bryden, W.L. and Gidley, M.J. (2012) Particle size heterogeneity in milled barley and sorghum grains: Effects on physico-chemical properties and starch digestibility. Journal of Cereal Science. pp. 1-33.

Alagarswamy, G. and Reddy, D.M. and Swaminathan, G. (1998) Durations of the photoperiod-sensitive and -insensitive phases of time to panicle initiation in sorghum. Field Crops Research, 55 (1-2). pp. 1-10.

Alagarswamy, G. and Seetharama, N. (1982) Nitrogen uptake and translocation to the grain in Sorghum. In: First International Symposium on Genetic on Genetic Specificity of Mineral Nutrition of Plants, 30 Aug - 4th Sept 1982, Belgrade, Serbia.

Allen, L.H.Jr (1975) Shade-cloth microclimate of soybeans. Agronomy Journal, 67 (2). pp. 175-181.

Amawate, J.S. and Dabral, K.C. (1970) Variability in Kodo-Millet (Paspalum Scrobiculatum L.). Indian Journal of Agricultural Sciences, 40 (7). pp. 618-622.

Arshad, M. and Ranamukhaarachchi, S.L. (2012) Effects of legume type, planting pattern and time of establishment on growth and yield of sweet sorghum-legume intercropping. Australian Journal of Crop Science , 6 (8). pp. 1265-1274.

Asadi, M. and Heidari, M.A. and Kazemi, M. and Filinejad, A.R. (2013) Salicylic acid induced changes in some physiological parameters in chickpea (Cicer arietinum L.) under salt stress. Journal of Agricultural Technology, 9 (2). pp. 243-248.

Asadi , A. and Kelestanie, A.R.A. and Mirfakhraii, S.R.G. and Abasi, A.R. (2013) Genetic variation of the 20 bread wheat cultivars under chilling stress by using GGE biplot analysis. International Journal of Agronomy and Plant Production, 4 (4). pp. 696-706.

Ashri, A. and Herzog, Z. (1972) Differential physiological sensitivity of peanut varieties to seed treatments with DES and EMS. Radiation Botany, 12 (3). pp. 173-178.

Ashri, A. (1976) Frequencies of plasmon types in a germ plasm sample of peanuts, Arachis hypogaea. Euphytica, 25 (1). pp. 777-785.

Aslam, M. and Maqbool, M.A. and Akhtar, S. and Faisal, W. (2013) Estimation of genetic variability and association among different physiological traits related to biotic stress (Fusarium oxysporum L.) in chickpea. Journal of Animal and Plant Sciences, 23 (6). pp. 1679-1685.

Atif, M. and Saleem, A. and Rashid, N. and et al, . (2013) NaCl salinity a deleterious factor for morphology and photosynthetic pigments attributes of maize (Zea mays L.). World Journal of Agricultural Sciences , 9 (2). pp. 178-182.

Awasthi, V. and Nath, V. and Asthana, A.K. (2012) In vitro study and micropropagation of ethnomedicinally important bryophyte: plagiochasma appendiculatum lehm. & lindenb. Proceedings of the National Academy of Sciences, India Section B: Biological Sciences, 82 (3). pp. 405-412.

Azad, M.A.K. and Alam, M.S. and Hamid, M.A. (2013) Modification of salt tolerance level in groundnut (Arachis hypogaea L.) through induced mutation. Legume Research, 36 (3). pp. 224-233.

Azubuike, C. and Odulaja, J.O. and Okhamafe, A.O. (2012) Physicochemical, spectroscopic and thermal properties of powdered cellulose and microcrystalline cellulose derived from groundnut shells. Journal of Excipients and Food Chemicals, 3 (3). pp. 106-115.

B

Babiker, A.G.T. and Hamdoun, M. (1982) Factors affecting the activity of GR7 in stimulating germination of Striga hermonthica (Del.) Benth. Weed Research, 22 (2). pp. 111-115.

Babu, V.R. and Murty, P.S.S. and Reddi, G.H.S. and Reddy, T.Y. (1983) Leaflet angle and radiation avoidance by water stressed groundnut (Arachis hypogaea L.) plants. Environmental and Experimental Botany, 23 (2). pp. 183-188.

Bagga, A.K. and Ghare, M.M. and Asana, R.D. (1973) Physiological analysis of the response of sorghum hybrids 'CSH 1' and 'CSH 2' to rain-fed cultivation. Indian Journal of Agricultural Sciences, 43 (3). pp. 225-229.

Baisakh, N. and Rehana, S. and Rai, M. and Oliva, N. and Jing, Tan and Mackill, D.J. and Khush, G.S. and Datta, K. and Datta, S.K. (2006) Marker-free transgenic (MFT) near-isogenic introgression lines (NIILs) of 'golden' indica rice (cv. Ir64) with accumulation of provitamin A in the endosperm tissue. Plant Biotechnology Journal, 4 (4). 467-475 .

Baligar, V C and Nash, V E (1978) Sorghum root growth as influenced by soil physical properties. Communications in Soil Science and Plant Analysis, 9 (7). pp. 583-594.

Bandoni, R.J. and Moore, K. and Subba Rao, P.V. and Towers, G.H.N. (1968) Phenylalanine and tyrosine ammonia-lyase activity in some basidiomycetes. Phytochemistry, 7 (2). pp. 205-207.

Banterng, P. and Hoogenboom, G. and Patanothai, A. and Singh, P. and Wani, S.P. and Pathak, P. and Tongpoonpol, S. and Atichart, S. and Srihaban, P. and Buranaviriyakul, S. and Jintrawet, A. and Nguyen, T.C. (2010) Application of the Cropping System Model (CSM)-CROPGRO-soybean for determining optimum management strategies for soybean in tropical environments. Journal of Agronomy and Crop Science, 196 (3). 231-242 .

Bar-El Dadon , S. and Pascual , C.Y. and Eshel , D. and et al, . (2013) Vicilin and the basic subunit of legumin are putative chickpea allergens. Food Chemistry, 138 (1). pp. 13-18.

Barbehenn, R.V. (2001) Roles of peritrophic membranes in protecting herbivorous insects from ingested plant allelochemicals. Archives of Insect Biochemistry and Physiology, 47 (2). pp. 86-99.

Barrau, E.M. and Berg, W.A. (1977) Pyrite and pyritic mill tailing as a source of iron in a calcareous iron-deficient soil. Soil Science Society of America Journal, 41 (2). pp. 385-388.

Barshile, J.D. (2015) Frequency and spectrum of induced viable macromutations in chickpea (Cicer arietinum L.) cultivar ‘Vishwas’. International Letters of Natural Sciences, 3. pp. 1-10.

Barthélémy, Y. and Georges, Y. and Jonas, K. (2014) Influence of the Leaf Biomass of Piliostigma reticulatum on Sorghum Production in North Sudanian Region of Burkina Faso. Journal of Plant Studies, 3 (1). pp. 80-90.

Batchelor, W.D. and Jones, J.W. and Boote, K.J. and Hoogenboom, G. (1994) Carbon-based model to predict peanut pod detachment. Transactions of the ASAE , 37 (5). pp. 1639-1646.

Beachy, R.N. and Loesch-Fries, S. and Tumer, N.E. (1990) Coat Protein-Mediated Resistance Against Virus Infection. Annual Review of Phytopathology, 28. pp. 451-474.

Beardsell, M.F. and Cohen, D. (1975) Relationships between leaf water status, abscisic acid levels, and stomatal resistance in maize and sorghum. Plant Physiology, 56 (2). pp. 207-212.

Berger, J.D. and Turner, N.C. and Siddique, K.H.M. and Knights, E.J. and Brinsmead, R.B. and Mock, I. and Edmondson, C. and Khan, T.N. (2004) Genotype by environment studies across Australia reveal the importance of phenology for chickpea (Cicer arietinum L.) improvement. Australian Journal of Agricultural Research, 55 (10). pp. 1071-1084.

Bhagsari, A.S and Brown, R.H. (1976) Relationship of Net Photosynthesis to Carbon Dioxide Concentration and Leaf Characteristics in Selected Peanut (Arachis) Genotypes. Peanut Science, 3 (1). pp. 10-14.

Bhatnagar-Mathur, P. and Kumar, K (1960) Anthesis Studies in Rajasthan Bajra (Pennisetum Typhoideum). Indian Journal of Agricultural Science, 39 (3). pp. 185-195.

Bhatt, K.C. and Vaishnav, P.P. and Singh , Y.D. and Chinoy , J.J. (1976) Reversal of gibberellic acid induced inhibition of root growth by manganese. Biochemie und Physiologie der Pflanzen, 170 (4-5). pp. 453-455.

Bhor, S.M. and Kibe , M.M. and Zende, G.K. (1970) Interrelationship between free lime status of soils and the uptake of Mn, P and Ca by paddy and jowar plants. Journal of the Indian Society of Soil Science, 18 (4). pp. 479-484.

Bishnoi, U.R. (1966) A note on the estimation of leaf area in two varieties of sorghum. Annals Arid Zone, 5 (2). pp. 255-256.

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..

Boisen, S. (1983) Protease inhibitors in cereals. Occurrence, properties, physiological role, and nutritional influence. Acta Agriculturæ Scandinavica, 33 (4). pp. 369-381.

Boswell , T.E. (1968) Pathogenicity of Pratylenchus Brachyurus to Spanish Peanut. PhD thesis, Texas A&M University.

Bouldin, D.R. and Mughogho, S. and Lathwel, D.J. and Scott, T.W. (1979) Nitrogen fixation by legumes in the tropics. Other. Cornell University, Ithaca, New York.

Bowen, J.R. and Kosuge , T. (1979) In vivo activity, purification, and characterization of shikimate kinase from sorghum. Plant Physiology, 64 (3). pp. 382-386.

Brooks, J.S. (1967) Internode length in height mutants of the sorghum variety Wheatland. Crop Science, 7 (6). p. 676.

Brown, A.L. and Yamaguchi, S. and Leal-Diaz, J. (1965) Evidence for translocation of iron in plants. Plant Physiology, 40 (1). pp. 35-38.

Brown, R.H. and Byrd, G.T. (1997) Transpiration Efficiency, Specific Leaf Weight, and Mineral Concentration in Peanut and Pearl Millet. Crop Science, 37 (2). pp. 475-480.

Buddenhagen, I. and Kelman, A. (1964) Biological and Physiological Aspects of Bacterial Wilt Caused by Pseudomonas Solanacearum. Annual Review of Phytopathology, 2. pp. 203-230.

Bulant, C. and Gallais, A. and Matthys-Rochon, E. and Prioul, J.L. (2000) Xenia effects in maize with normal endosperm: II. Kernel growth and enzyme activities during grain filling. Crop Science, 40 (1). pp. 182-189.

Bunker, R.N. and Mathur, K. (2006) Host range of leaf blight pathogen (Exserohilum turcicum) of sorghum. Indian Phytopathology , 59 (3). pp. 370-372.

Burch, G.J. and Smith, R.C.G. and Mason, W.K. (1978) Agronomic and physiological responses of soybean and sorghum crops to water deficits II. Crop evaporation, soil water depletion and root distribution. Australian Journal of Plant Physiology, 5 (2). pp. 169-177.

Burton, G.W. and Monson, W.G. and Hanna, W.W. and Constantin, M.J. (1975) Silage production and quality of pearl millet, sorghum, and corn hybrids grown from seed exposed to low doses of gamma rays. Radiation Botany, 15 (1). pp. 33-38.

Buthelezi , N.M. and Conlong, D.E. and Zharare, G.E. (2013) A Comparison of the Infestation of Aproaerema simplexella (Walker) on Groundnut and other Known Hosts for Aproaerema modicella (Deventer) (Lepidoptera: Gelechiidae). African Entomology, 21 (2). pp. 183-195.

Byrd, G.T. and May ii, P.A. (2000) Physiological comparisons of switchgrass cultivars differing in transpiration efficiency. Crop Science, 40 (5). pp. 1271-1277.

C

Cao, W. and Moss, D.N. (1989) Temperature effect on leaf emergence and phyllochron in wheat and barley. Crop Science, 29 (4). pp. 1018-1021.

Capiel, M. and Brenes, E. and Lugo-Lopez, M.A. and et al, . (1978) An evaluation of the growth and water consumption rate of grain sorghum (Sorghum bicolor) at four climatic sites in the tropics and subtropics. Journal of Agriculture of the University of Puerto Rico, 62 (1). pp. 10-28.

Casady, A.J. (1961) Inheritance of Resistance to Physiologic Races 1, 2, and 3 of Sphacelotheca Sorghi in Sorghum. Crop Science, 1 (1). pp. 63-68.

Ceotto, E. and Di Candilo, M. and Di Candilo, F. (2013) Comparing solar radiation interception and use efficiency for the energy crops giant reed (Arundo donax L.) and sweet sorghum (Sorghum bicolor L. Moench). Field Crops Research, 149 (1). pp. 159-166.

Chaerle, L and et al, . (2004) Thermal and Chlorophyll-Fluorescence Imaging Distinguish Plant-Pathogen Interactions at an Early Stage. Plant and Cell Physiology, 45 (7). pp. 887-896.

Chamberlin, K.D.C. and Melouk, H.A. and Payton, M.E. (2010) Evaluation of the U.S. peanut mini core collection using a molecular marker for resistance to Sclerotinia minor Jagger. Euphytica, 172 (1). pp. 109-115.

Chandran, K. (2010) In vitro multiplication and conservation of Saccharum germplasm. Indian Journal of Plant Genetic Resources, 23 (1). pp. 65-68.

Chandrasekara, M.R and Swaminathan, M. (1954) Enzymes of Ragi (Eleusine coracana) & Ragi Malt: Part III Pyro & Glycerophosphatases. Journal of Science Industry Research , 13B. pp. 492-495.

Channappagoudar, B.B. and Biradar, N.R. and Bharamagoudar, T.D. and Rokhade, C.J. (2008) Morpho-physiological traits of sorghum parental lines determining grain yield and biomass. Karnataka Journal of Agricultural Sciences, 21 (2). pp. 168-170.

Channappagoudar, B.B. and Biradar, N.R. and Patil, J.B. and Hiremath, S.M. (2007) Study on morpho-physiological, biophysical characters and alcohol production in sweet sorghum genotypes. Karnataka Journal of Agricultural Science, 20 (2). pp. 234-237.

Chaudhary, D. and Sindhu, S.S. (2015) Inducing salinity tolerance in chickpea (Cicer arietinum L.) by inoculation of 1-aminocyclopropane-1-carboxylic acid deaminase-containing Mesorhizobium strains. African Journal of Microbiology Research, 9 (2). pp. 117-124.

Chen, H. and Wang, L. and Su, C.X. and et al, . (2008) Isolation and characterization of lipopeptide antibiotics produced by Bacillus subtilis. Letters in Applied Microbiology, 47 (3). pp. 180-186.

Chenault, K.D. and Maas, A.L. and Damicone, J.P. and et al, . (2009) Discovery and characterization of a molecular marker for Sclerotinia minor (Jagger) resistance in peanut. Euphytica, 166 (3). pp. 357-365.

Chiang, M.S. and Smith, J.D. (1967) Diallel analysis of the inheritance of quantitative characters in grain sorghum. I. Heterosis and inbreeding depression. Canadian Journal of Genetics and Cytology, 9 (1). pp. 44-51.

Chinna, Virkki (1937) On the occurrence of winged spores in the lower Gondwana Rocks of India and Australia. Proceedings of Indian Academy of Sciences B, 4 (32). pp. 428-431.

Chotib, A. and Evenson, J.P. and Harty, R L (1976) The role of the primary seminal root system in the promotion of normal growth in hybrid sorghum. Seed Science and Technology, 4 (2). pp. 239-243.

Choudhari, S.D. and Tatwawadi, G.R. (1977) Effect of plant density, levels of nitrogen and season on translocation of nitrogen in Sorghum bicolor (Pers), Moench. Current Research, 6 (2). pp. 26-27.

Chougule, N.P. and Hivrale, V.K. and Chhabda, P.J. and Giri, A.P. and Kachole, M.S. (2003) Differential inhibition of Helicoverpa armigera gut proteinases by proteinase inhibitors of pigeonpea (Cajanus cajan) and its wild relatives. Phytochemistry, 64 (3). pp. 681-687.

Cicchino, M. and Edreira, J.I.R. and Uribelarrea, M. and Otegui, M.E. (2010) Heat stress in field-grown maize: response of physiological determinants of grain yield. Crop Science, 50 (4). pp. 1438-1448.

Clark, R B and Pier, P A and Knudsen, D and Maranville, J W (1981) Effect of Trace Element Deficiencies and Excesses on Mineral Nutrients in Sorghum. Journal of Plant Nutrition, 3 (1 - 4). pp. 357-374.

Clark, R.B. (1982) Iron deficiency in plants grown in the Great Plains of the U.S. Journal of Plant Nutrition, 5 (4-7). pp. 251-268.

Cline, G.R. and Reid, C.P.P. and Powell, P.E. and Szaniszlo, P.J. (1984) Effects of a hydroxamate siderophore on iron absorption by sunflower and sorghum. Plant Physiology, 76 (1). pp. 36-39.

Cloutier, S. and McCallum, B.D. and McCallum, T.W. and Jordan, M.C. and et al, . (2007) Leaf rust resistance gene Lr1, isolated from bread wheat (Triticum aestivum L.) is a member of the large psr567 gene family. Plant Molecular Biology, 65 (1-2). pp. 93-106.

Collinge, D B and Jørgensen, H J L and Lund, O S and et al, . (2011) Engineering Pathogen Resistance in Crop Plants:Current Trends and Future Prospects. Annual Review of Phytopathology, 48. pp. 269-291.

Coskun, Y. and et al, . (2011) Physiological response of maize (Zea mays L.) to high temperature stress. Australian Journal of Crop Science, 5 (8). pp. 966-972.

Coulis, M. and Bernard, L. and Gérard, F. and et al, . (2014) Endogeic earthworms modify soil phosphorus, plant growth and interactions in a legume–cereal intercrop. Plant and Soil, 379 (1-2). pp. 149-160.

Cox, F.R. (1978) Effect of quantity of light on the early growth and development of the peanut. Peanut Science , 5 (1). pp. 27-30.

Cruz, A.F. and Hamel, C. and Yang, C. and et al, . (2012) Phytochemicals to suppress Fusarium head blight in wheat–chickpea rotation. Phytochemistry. pp. 1-9.

Cui, Y. and Zhao, N. (2009) Oxidative stress and change in plant metabolism of maize (Zea mays L.) growing in contaminated soil with elemental sulfur and toxic effect of zinc. Plant Soil Envrionment, 57 (1). pp. 34-39.

Culbreath, A.K. and Kemerait Jr., R.C. and Brenneman, T.B. (2008) Management of Leaf Spot Diseases of Peanut With Prothioconazole Applied Alone or in Combination With Tebuconazole or Trifloxystrobin. Peanut Science, 35 (2). pp. 149-158.

D

Daiber, K.H. (1975) Enzyme inhibition by polyphenols of sorghum grain and malt. Journal of the Science of Food and Agriculture, 26 (9). pp. 1399-1411.

Dalrymple, R.L. and Dwyer, D.D. (1967) Root and Shoot Growth of Five Range Grasses. Journal of Range Management, 20 (3). pp. 141-145.

Dalvi, V.A. and Saxena, K.B. and Madrap, I.A. and Ravikoti, V.K. (2008) Cytogenetic studies in A4 cytoplasmic-nuclear male-sterility system of pigeonpea. Journal of Heredity, 99 (6). pp. 667-670.

Darapuneni, M.K. and Morgan, G.D. and Ibrahim, A. M. H. and Duncan, R.W. (2014) Effect of vernalization and photoperiod on flax flowering time. Euphytica, 195 (2). pp. 279-285.

Dasgupta, S.N and Narain, A (1960) A Note on Physiologic Races of Sphacelotheca Sorghi. Current Science, 29 (6). pp. 226-227.

Datta, B. and Chakraborty, P.K. (2013) Characterization of a Tn5-induced siderophore over-producing mutant of Rhizobium nodulating chickpea. Journal of Mycopathological Research , 51 (1). pp. 39-47.

Dean, R. and et al, . (2012) The Top 10 fungal pathogens in molecular plant pathology. Molecular Plant Pathology. pp. 1-17.

Deepadevi, M. and Basu, M.J. and Santhaguru, K. (2010) Response of sorghum bicolor (l.) Monech to dual inoculation with glomus fasciculatum and Herbaspirillum seropedicae. General and Applied Plant Physiology , 36 (3-4). pp. 176-182.

Demers, J.E. and Garzon, C.D. and Jiménez-Gasco, M.M. (2014) Striking genetic similarity between races of Fusarium oxysporum f. sp. ciceris confirms a monophyletic origin and clonal evolution of the chickpea vascular wilt pathogen. European Journal of Plant Pathology. pp. 1-16.

Deshmukh, D.D. and Dev, D.V. (1995) Nodulation in groundnut cultivars during kharif under different packages of practices. Madras Agricultural Journal, 82 (5). pp. 354-357.

Deshmukh, D.V. and Kusalkar, D.V. and Patil, J.V. (2009) Evaluation of pigeonpea genotypes for morpho-physiological traits related to drought tollerance. Legume Research, 32 (1). pp. 46-50.

Deshmukh, V.A. and Shrikhande, J.G. (1975) Note on the efficacy of three herbicides on emergence of pea and sorghum seeds. Indian Journal of Agricultural Research, 9 (3). pp. 157-158.

Deshpande, K.S. and Gajewar, D.M. (1976) Effect of toxic metabolites of Helminthosporium longirostratum on germination of 'M 35-1' sorghum. Indian Journal of Agricultural Sciences, 46 (12). pp. 584-588.

Devine, T.E. and Kuykendall, L.D. and Breithaupt, B.H. (1983) Nodule-Like Structres Induced on Peanut by Chlorosis Producing Strains of Rhizobium Classified as R. Japonicum. Crop Science, 23 (2). pp. 394-397.

Deyoe, C.W. and Shellenberger, J.A. (1965) Amino acids and proteins in sorghum grain. Journal of Agricultural and Food Chemistry , 13 (5). pp. 446-450.

Dhaliwal, S. and King, P.J. (1978) Direct pollination of Zea mays ovules in vitro with Z. mays, Z. mexicana and Sorghum bicolor pollen. Theoretical and Applied Genetics, 53 (1). pp. 43-46.

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