Items where Subject is "Plant Protection > Control Methods"
Group by: Creators | Item Type
Number of items at this level: 103.
Afolabi, C.G and Ojiambo, P.S. and Ekpo, E.J.A. and Menkir, A. and Bandyopadhyay, R. (2008) Novel sources of resistance to fusarium stalk rot of maize in tropical Africa. Plant Disease, 92 (5). pp. 772-780.
Ahmad, S. and Akhtar, M. and Zia-Ul-Haq, M. and Mehajbeen, . and Ahmed, S. (2010) Antifungal and Nematicidal Activity of Selected Legumes of Pakistan. Pak. J. Bot., 42 (2). pp. 1327-1331.
Akande, M.O. and Makinde, E.A. and Taiwo, L.B. and Adediran, J.A. (2010) Effects of Terralyt - Plus on soil pH, nutrient uptake and dry matter yield of Maize. African Journal of Plant Science, 4 (3). pp. 32-37.
Akula, U.V. and Poluru, P.G. and et al, - (2012) Influence of types of sterile cytoplasm on the resistance to sorghum shoot fly (Atherigona soccata). Plant Breeding, 131 (1). pp. 94-99.
Ambang, Z. and Ndongo, B. and Essono, G. and Ngoh, J.P. and Kosma, P. and Chewachong, G.M. and Asanga, A. (2011) Control of leaf spot disease caused by Cercospora sp on groundnut (Arachis hypogaea) using methanolic extracts of yellow oleander (Thevetia peruviana) seeds. Australian Journal of Crop Science, 5 (3). pp. 227-232.
Bado, V. and Sawadogo, A. and Thio, B. and Bationo, A. and Traoré, K. and Cescas, M. (2011) Nematode infestation and N-effect of legumes on soil and crop yields in legume-sorghum rotations. Agricultural Sciences, 2 (2). pp. 49-55.
Baba, G. and Lawal, A.O. and Sharif, H.B. (2012) Mosquito repellent activity and phytochemical characterization of essential oils from Striga hermonthica, Hyptis spicigera and Ocimum basilicum leaf extracts. British Journal of Pharmacology and Toxicology, 3 (2). pp. 43-48.
Babariya, P.M. and Kabaria, B.B. and Patel, V.N. and Joshi, M.D. (2010) Chemical control of gram pod borer,Helicoverpa armigera hubner infesting pigeonpea. Legume Research, 33 (3). pp. 224-226.
Bhandari, M M and Mehrotra, H N (1971) Mutagenic Effect of Vegetable Oils on Maize and Bajra. Rajasthan Agriculturist, 10 (11). pp. 21-26.
Brader, L. (1982) Recent trends of insect control in the tropics. Entomologia Experimentalis et Applicata, 31 (1). pp. 111-120.
Brar, A.P. and Punia, S.S. and Yadav, A. and Malik, R.K. (2007) Persistence of sulfosulfuron applied in wheat on succeeding crop of sorghum. Indian Journal of Wed Sience, 39 (1-2). pp. 40-43.
Brecke, B J and Currey, W L and Teem, D H (1981) Weed Control In Grain Sorghum. Soil and Crop Sciences, 40. pp. 131-136.
Burnside, O.C. (1976) Control of Weeds in Non-Cultivated, Narrow-Row Sorghum. Agronomy Journal, 69 (5). pp. 851-854.
Carmeille, A and Prior, P and Kodja, H and et al, . (2006) Evaluation of Resistance to Race 3, Biovar 2 of Ralstonia solanacearum in Tomato Germplasm. Journal of Phytopathology, 154 (7/8). pp. 398-402.
Carson, M.L. (1999) Vulnerability of U.S. maize germ plasm to Phaeosphaeria leaf spot. Plant Disease, 83 (5). pp. 462-464.
Chavan, V.A. and Padule, D.N. (2006) Effect of fungicides to control purple stain of soybean [glycine max. (l.) Merill] caused by Cercospora kikuchii. New Botanist, 33 (1-4). pp. 33-38.
Creamer, R. and He, X. (1997) Transmission of sorghum stunt mosaic rhabdovirus by the leafhopper vector, Graminella sonora (Homoptera: Cicadellidae). Plant Disease, 81 (1). pp. 63-65.
Dhillon, M.K. and Sharma, H.C. and Singh, R. and Naresh, J.S. (2005) Mechanisms of resistance to shoot fly, Atherigona soccata in sorghum. Euphytica, 144 (3). pp. 301-312.
Demski, J.W. (1975) Source and spread of peanut mottle virus in soybean and peanut. Phytopathology, 65 (8). pp. 917-920.
Deshpande, S B and Gaikwad, C B and Jadhav, S B (1981) Effects of Tillage and Manuring on Growth and Yield of Cotton and Rabi Jowar Under Rainfed Conditions of Pune Region. Madras agricultural journal, 68 (6). pp. 385-391.
Dhillon, M.K. and Sharma, H.C. and Reddy, B.V.S. and Singh, Ram and Naresh, J.S and Kai, Z (2005) Relative susceptibility of different male-sterile cytoplasms in sorghum to shoot fly, Atherigona soccata. Euphytica , 144 (3). pp. 275-283.
Dhindsa, M.S and Toor, H.S. and Sandhu, P.S (1984) Community Structure of Birds Damaging Pearl Millet and Sorghum and Estimation of Grain Loss. Indian Journal of Ecology, 11 (1). pp. 154-159.
Doering, G.W. and Randolph, N.M. (1960) Field methods to determine the infestation of the sorghum web worm and the damage by the sorghum midge in grain sorghum. Journal of Economic Entomology, 53 (5). pp. 749-750.
Ekvised, S. and Jogloy, S. and Akkasaeng, C. and Keerati-kasikorn, M. and Kesmala, T. and Buddhasimma, I. and Patanothai, A. (2006) Field evaluation of screening procedures for thrips resistance in peanut. Asian Journal of Plant Sciences, 5 (5). pp. 838-846.
Elisabeth, Z.P. and Paco, S. and Vibeke, L. and Philippe, S. and Irenee, S. and Adama, N. (2008) Importance of seed-borne fungi of sorghum and pearl millet in Burkina Faso and their control using plant extracts. Pakistan Journal of Biological Sciences, 11 (3). pp. 321-331.
Ellsbury, M.M. and Nielson, M.W. (1981) Comparative host plant range studies of the blue alfalfa aphid, Acyrthosiphon kondoi Shinji, and the pea aphid, Acyrthosiphon pisum (Harris) (Homoptera: Aphididae). Other. Science and Education Administration, USA.
Elyasi-Gomari, S. (2010) Virulence of Puccinia triticina on wheat in Iran. African Journal of Plant Science Vol. 4 (2), pp. 026-031,, 4 (2). pp. 26-31.
Fontesa, P.C.R. and Moreira, M.A. and Fontes, R.L.F. and Cardoso, A.A. (1999) Effects of zinc fungicides and different zinc fertilizer application methods on soluble and total zinc in potato plant shoots. Communications in Soil Science and Plant Analysis, 30 (13-14). pp. 1847-1859.
Foote, R.H. (1981) The genus rhagoletis loew south of the United States (Diptera: Tephritidae). Other. Science and Education Administration, Washington, USA.
Frederiksen, R. A. (1983) Integrated control of sorghum downy mildew. Documentation. Texas Agricultural Experiment Station, Texas, USA.
Fujimaki, H. and Hiraiwa, S. and Kushibuchi, K. and Tanaka, S. (1977) Artificially induced male-sterile mutants and their usages in rice breeding. Japanese Journal of Breeding, 27 (1). pp. 70-77.
Fulpagare, Y.G. and Deshmukh, A.P. and Chavan, I.G. and Desale, J.S. (1983) Prediction of in vitro dry matter digestibility of sorghum fodder from various chemical constituents. Journal of Maharashtra Agricultural Universities, 8 (1). p. 84.
Garg, D.O. and Taley, Y.M. (1977) Chemical control of sorghum earhead midge Contarina sorghicola Coquillet. Pesticides, 11 (2). pp. 37-38.
Goszczynska, T. and Botha, W.J. and Venter, S.N. and Coutinho, T.A. (2007) Isolation and Identification of the causal agent of brown stalk rot, a new disease of maize in South Africa. Plant Disease, 91 (6). pp. 711-718.
Griffin, G.J. and Garren, K.H. (1976) Colonization of Aerial Peanut Pegs by Aspergillus flavus and A. niger-Group Fungi Under Field Conditions. Phytopathology, 66 (10). pp. 1161-1162.
Hassanein, M.K. and Abul-Soud, M. (2010) Effect of different compost types and application methods on growth and yield of Three maize hybrids. Journal of Applied Sciences Research, 6 (9). pp. 1387-1399.
Hoshino, Tsuguhiro and Duncan, R R (1982) Sorghum Tannin Content during Maturity under Different Environmental Condition. Japanese Journal of Crop Science, 51 (2). pp. 178-184.
Isakeit, Thomas and Prom, Louis K. and Michael, Wheeler and Puckhaber, Lorraine S. and Liu, Jinggao (2008) Mycotoxigenic otential of ten fusarium species grown on Sorghum and in vitro. Plant Pathology Journal, 7 (2). pp. 183-186.
Jain, S.K. and Elangovan, M. and Patel, N.V. (2010) Correlation and path coefficient analysis for agronomical traits in forage sorghum [Sorghum bicolor (L.) Moench. Journal of Plant Genetic Resource, 23 (1). pp. 15-18.
Jeger, M.J. and Holt, J. and Bosch, F. van den and Madden, L.V. (2004) Epidemiology of insect-transmitted plant viruses: modelling disease dynamics and control interventions. Physiological Entomology, 29 (3). pp. 291-304.
Johnson, J.W. and Rosenow, D.T. and Teetes, G.L. (1974) Response of greenbug-resistant grain sorghum lines and hybrids to a natural infestation of greenbugs. Crop Science, 14 (3). pp. 442-443.
Joshi, P K and Upadhyay, U C and Sondge, V D and Borulkar, D N (1981) Response and Economics of Nitrogen Application to Sorghum (Sorghum bicolor, L. Moench). Journal of Maharashtra Agricultural Universities, 6 (3). pp. 194-196.
Kannangara, T and Durley, R.C. and Simpson, G.M. (1982) diurnal changes of leaf water potential abscisic acid phaseic acid and indole-3 acetic acid in field grown sorghum bicolor l.moench. Z.pflanzenphysiol, 106. pp. 55-61.
Karn, S.K. and Harada, H. (2001) Surface water pollution in three urban territories of Nepal, India, and Bangladesh. Environmental Management, 28 (4). pp. 483-496.
Khare, L.J. (1980) Phytotoxicity of the weed Urgenia indica Kunth on the seed germination of associated crops. Indian Journal of Botany, 3 (1). pp. 87-91.
Kirk, V.M. (1959) Control the Corn Earworm in Grain Sorghum Heads. Journal of Economic Entomology, 52 (2). pp. 338-339.
Kumar, N. and Nandwal, A.S. and Waldia, R.S. and et al, . (2012) Drought Tolerance in Chickpea as Evaluated by Root Characteristics, Plant Water Status, Membrane Integrity and Chlorophyll Fluorescence Techniques. Experimental Agriculture. pp. 1-10.
Labidi, Nehla and Mahmoudi, Henda and Dorsaf, Messedi and Slama, Ines and Abdelly, Chedly (2009) Assessment of intervarietal differences in drought tolerance in chickpea using both nodule and plant traits as indicators. Journal of Plant Breeding and Crop Science , 1 (4). 080-086.
Laserna-Ruiz, I. and De-Los-Mozos-Pascual, M. and Santana-Meridas, O. and Sanchez-Vioque, R. and et al, . (2012) Screening and selection of lentil (Lens Miller) germplasm resistant to seed bruchids (Bruchus spp.). Euphytica. 10 p..
Latha, A.M. and Rao, K.V. and Reddy, T.P. and Reddy, V.D. (2000) Development of transgenic pearl millet (Pennisetum glaucum (L.) R. Br.) plants resistant to downy mildew. Plant Cell Rep , 25. pp. 927-935.
Lau, J. A. and Tiffin, P. (2009) Elevated carbon dioxide concentrations indirectly affect plant fitness by altering plant tolerance to herbivory. Oecologia, 161 (2). pp. 401-410.
Mallikarjuna, N. and et al, . (2004) Influence of foliar chemical compounds on the development of Spodoptera litura (Fab.) in interspecific derivatives of groundnut. Journal of Applied Entomology, 128 (5). pp. 321-328.
McDonald, D. (1969) Aspergillus flavus on groundnut (Arachis hypogaea L.) and its control in Nigeria. Journal of Stored Products Research, 5 (3). pp. 275-280.
Melander, Bo and Holst, N. and Rasmussen, A. and Hansen, P.K. (2012) Direct control of perennial weeds between crops – Implications for organic farming. Crop Protection, 40. pp. 36-42.
Metzker, M.L. (2010) Sequencing technologies — the next generation. Nature Reviews Genetics, 11 (1). pp. 31-46.
Minja, E.M. and Shanower, T.G. and Songa, J.M. and Ongaro, J.M. and Kawonga, W.T. and Mviha, P.J. and Myaka, F.A. and Slumpa, S. and Okurut-Akol, H. and Opiyo, C. (1999) Studies of pigeonpea insect pests and their management in Kenya, Malawi and Uganda. African Crop Science Journal, 7 (4). pp. 59-69.
Murillo-Williams, A. and Munkvold, G.P. (2008) Systemic Infection by fusarium verticillioides in maize plants grown under three temperature regimes. Plant Disease, 92 (12). pp. 1695-1700.
Nagre, K T and Baporikar, V R (1981) Response of Hybrid Sorghum CSH-1 to Plant Densities and NPK Fertilizersa. The PKV Research Journal, 5 (1). pp. 47-49.
Navi, S.S. and Bandyopadhyay, R. and Reddy, R.K. and Thakur, R.P. and Yang, X.B. (2005) Effects of wetness duration and grain development stages on sorghum grain mold infection. Plant Disease, 89 (8). pp. 872-878.
Nour, A.R.M and Hassabo, A.A. (2011) Growth of fodder crop (Sorghum bicolor L.) as animal feed. Research Opinions in Animal & Veterinary Sciences , 1 (4). pp. 198-199.
Pande, S. and Bandyopadhyay, R. and Blummel¨, M. and Rao, J.N. and Thomas, D. and Navi, S.S. (2003) Disease management factors influencing yield and quality of sorghum and groundnut crop residues. Field Crops Research, 84 (1-2). pp. 89-103.
Pande, S. and Mughogho, L.K. and Karunakar, R.I. (1992) Incidence of charcoal rot in sorghum cultivars as affected by sowing date and plant density. Indian Journal of Plant Protection, 20. pp. 162-170.
Pandya, N. and Chouhan, G.S. and Nepalia, V. (2006) Production potential and energy budgeting of soybean (Glycine max) varieties as influenced by weed-management practices under different crop geometries. Indian Journal of Agronomy, 51 (3). pp. 209-212.
Patel, R.H. and Judith, O. and Usadadia, V.P. (2005) Influence of Irrigation Schedule and Weed Management Practices on Growth and Yield of Fenugreek trigonellafoenum-graecum L.). Indian Journal of Weed Science, 37 (3-4). pp. 237-239.
Patil, T M and Mirajkar, P B and Hegde, B A and Joshi, G V (1983) Influence of soil salinity on morphology, rate of carbon assimilation, photosynthetic products and enzyme activities in a sorghum hybrid CSH-5. Indian Journal of Plant Physiology, 26 (2). pp. 155-162.
Patnaik, N.C. and Satpathy, J.M. and Bhagat, K.C. (1977) Note on the occurrence of aphidophagous insect predators in Puri district (Orissa) and their predation on the sorghum aphid, Longiunguis sacchari (Zhnt.). Indian Journal of Agricultural Sciences, 47 (11). pp. 585-586.
Persson, D.P. and Hansen, T.H. and Laursen, K.H. and Schjoerring, J.K. and Husted, S. (2009) Simultaneous iron, zinc, sulfur and phosphorus speciation analysis of barley grain tissues using SEC-ICP-MS and IP-ICP-MS. Metallomics, 1 (5). pp. 418-426.
Phillips, W.M. (1964) A New Technique of Controlling Weeds in Sorghum in a Wheat-Sorghum Fallow Rotation in the Great Plains. Weed Science, 12 (1). pp. 42-44.
Prom, L.K. and Perumal, R and Erpelding, J. and Isakeit, T and Montes-Garcia, N and Magill, C.W. (2009) A pictorial technique for mass screening of sorghum germplasm for anthracnose (Colletotrichum sublineolum) resistance. The Open Agriculture Journal, 3. pp. 20-25.
Rana, B S and Anahosur, K H and Rao, V J M and Parameshwarappa, R and Rao, N G P (1982) Inheritance of Field Resistance to Sorghum Charcoal Rot and Selection For Multiple Disease Resistance. Indian Journal of Genetics and Plant Breeding, 42. pp. 302-310.
Reddy, K.R.N. and Raghavender, C.R. and Reddy, B.N. and Salleh, B. (2010) Biological control of Aspergillus flavus growth and subsequent aflatoxin B1 production in sorghum grains. African Journal of Biotechnology , 9 (27). pp. 4247-4250.
Reddy, S.V. and Kumar, P.L. (2004) Transmission and properties of a new luteovirus associated with chickpea stunt disease in India. Current Science, 86 (8). pp. 1157-1161.
Roughan, P G and Warrington, I J (1976) Effect of nitrogen source on oxalate accumulation in Setaria sphacelata (cv. Kazungula). Journal of the Science of Food and Agriculture, 27 (3). pp. 281-286.
Sadakathulla, S. (1981) Studies on the control of stemborer and grain midge on sorghum. Pesticides, 15 (6). pp. 27-29.
Sammauria, R. and Yadav, R.S. (2010) Performance of fenugreek (Trigonella foenum-graecum) - pearlmillet (Pennisetum glaucum) system as influenced by phosphorus and zinc application to fenugreek. Indian Journal of Agronomy, 55 (3). pp. 197-202.
Santo, G.K. (2010) Growth and yield response of groundnut (Arachis hypogyaea L.) to weeding regime and plant spacing. Masters thesis, Kwame Nkrumah University of Science and Technology, Kumasi.
Sarkate, M.B. and Raodeo, A.K. (1978) Relative efficacy of different insecticides tested against sorghum midge (contarinia sorghicola coq) based on new method of detecting infestation. Research Bulletin of Marathwada Agricultural University, 2 (2). pp. 13-14.
Sarwar, Nighat and Hayat Zahid, M. and Ashfaq, Shafaq. and Jamil, Farhat F. (2011) Induced systemic resistance in chickpea against ascochyta blight by safe chemicals. Pakistan Journal Botany, 43 (2). pp. 1381-1387.
SeedQuest, . (2007) Africa: working towards aflatoxin-resistant groundnut varieties. SeedQuest.com, Montepellier, France.
Shahane, T G and Borikar, S T (1982) Character association and path analysis in winter sorghum. Indian Journal of Agricultural Sciences, 52 (7). pp. 429-431.
Sharma, H.C. and Pampapathy, G. and Reddy, L.J. (2003) Wild relatives of pigeonpea as a source of resistance to the pod fly (Melanagromyza obtusa Malloch) and pod wasp (Tanaostigmodes cajaninae La Salle). Genetic Resources and Crop Evolution , 50 (8). pp. 817-824.
Sharma, H.C. and Soman, P. and Subramanian, V. (1995) Effect of host plant resistance and chemical control of the head bug,Calocoris angustatus Leth.,on grain quality and seedling establishment in soghum. Annals of Applied Biology, 126 (1). pp. 131-142.
Sinclair, J.B. (1983) Fungicide sprays for control of internally seed-borne fungi. Seed Science and Technology, 11 (3). pp. 959-968.
Singh, A.L. (2007) Prevention and Correction of Zinc Deficiency of Groundnut in India. In: Proceeding of Zinc Crops, 24-26th May, 2007, Istanbul, Turkey.
Sisodia, N S and Gupta, Y K and Henry, A (1982) Note on Path Coefficient Analysis of Grain Yield in Sorghum. The Madras Agricultural Journal, 69 (10). pp. 688-689.
Starks, K.J. and Burton, R.L. (1975) Preventing greenbug outbreaks. In: Leaflet. Deptartment of Agriculture, U.S.A..
Stenberg, P. (2001) Ploidy determination in insects. BioTechniques, 31 (6). pp. 1268-1269.
Sugimoto, K. and Matsuia, K. and Ozawa, R. and Takabayashi, J. (2011) Characterization of the promoter sequence of chitinase gene from lima bean plant. Journal of Plant Interactions, 6. pp. 163-164.
Sumit, R. and Sahu, B. B. and Xu, M. and et al, . (2012) Arabidopsis nonhost resistance gene PSS1 confers immunity against an oomycete and a fungal pathogen but not a bacterial pathogen that cause diseases in soybean. BMC Plant Biology, 12 (87). 30 p..
Tang, H.V. and Chang, R. and Pring, D.R. (1998) Cosegregation of single genes associated with fertility restoration and transcript processing of sorghum mitochondrial orf107 and urf209. Genetics , 150. pp. 383-391.
Thobbi, V.V. and Naidu, M.B. and Singh, M.B. (1979) Control of sorghum shootfly, Atherigona soccata (Rondani) by systemic insecticides in different types of soils. Indian Journal of Entomology, 41 (3). pp. 250-259.
Thomas, M.B. and Wood, S.N. and Langewald, J. and Lomer, C.J. (1997) Persistence of Metarhizium flavoviride and consequences for biological control of grasshoppers and locusts. Pesticide Science, 49 (1). pp. 47-55.
Tiznado, J.A.G. and Palazuelos, M.J.H. and Moreno, R.J.E. and et al, . (2013) Antioxidant and Antimutagenic Activities of Optimized Extruded Desi Chickpea (Cicer arietinum L) Flours. Journal of Pharmacy and Nutrition Sciences, 3. pp. 38-47.
Upadhyaya, H.D. (2003) Phenotypic diversity in groundnut (Arachis hypogaea L.) core collection assessed by morphological and agronomical evaluations. Genetic Resources and Crop Evolution , 50 (5). pp. 539-550.
Varma, G. P. Fertilizer practices for dryland agriculture. Indian Farmer's Digest, IV (10). pp. 13-16.
Vetriventhan, M. and Nirmalakumari, A. (2010) Identification and Screening of Restorers and Maintainers for different CMS Lines of Pearl Millet (Pennisetum glaucum (L.) R.Br.). Electronic Journal of Plant Breeding, 1 (4). pp. 813-818.
Wani, S.P. and Rego, T.J. and Rajeswari, S. and Lee, K.K. (1995) Effect of legume-based cropping systems on nitrogen mineralization potential of Vertisol. Plant and Soil , 175 (2). pp. 265-274.
Weak, E D and et al, . (1972) Rapid Determination of Germ Damage in Cereal Grains. Cereal Chemistry, 49. pp. 653-663.
Wilson, J.P. and Gates, R.N. (1999) Disease resistance and biomass stability of forage pearl millet hybrids with partial rust resistance. Plant Disease, 83 (8). pp. 733-738.
Wilson Jones, K (1952) Three Experiments in witchweed control. The Empire Journal of Experimental Agriculture, 20 (78). pp. 98-102.
Yadav, R.P and Singh, S.P. (1970) Effect of heterosis on growth rate in pearl-millet (Pennisetum typhoides (Burm. f., Stapf & C. E. Hubb.). Indian Journal of Agricultural Science, 40. pp. 428-430.
Yoshida, M. and Cowgill, S.E. and Wightman, J.A. (1995) Mechanism of resistance to Helicoverpa annigera (Lepidoptera: Noctuidae) in chickpea: role of oxalic acid in leaf exudate as an antibiotic factor. Journal of Economics Entomology, 88 (6). pp. 1783-1786.
Zhang, C. and Wang, C.Z. (2003) cDNA cloning and molecular characterization of a cysteine-rich gene from Campoletis chlorideae polydnavirus. DNA Sequence, 14 (6). pp. 413-419.