421. Cultivar * herbicide screening: 2002 results.

• Authors:
  • Littlewood, B.
  • Lemerle, D.
  • Lockley, P.
• Source: Cultivar * herbicide screening: 2002 results
• Year: 2003
• Summary: Results are presented of the evaluation of herbicide tolerance (based on yield performance) in wheat, barley, oat, triticale, rape, lupin, field pea, lentil, chickpea and faba bean cultivars and advanced lines grown in Wagga Wagga, New South Wales, Australia, during 2002. Compatibility charts of herbicide * cultivar combinations are included to provide guidelines to farmers on the relative risk of crop damage for various herbicide * cultivar combinations.

422. Virus and virus-like diseases of major crops in developing countries.

• Authors:
  • Thottappilly, G.
  • Loebenstein, G.
• Source: Virus and virus-like diseases of major crops in developing countries
• Issue: xlvii + 800 pp
• Year: 2003
• Summary: This book is a comprehensive up-to-date treatise on virus and virus-like diseases of the major crops (cassava, potatoes, sweet potato, yam, rice, maize, sorghum, other cereal crops, cowpea, soyabean, groundnut, common bean, other legumes, banana, pawpaw, cocoa, sugarcane, coconut, palm trees, citrus, tomato, cucurbits, other vegetables, cotton, sunflower and spices) in developing countries and their detection, isolation, biological and molecular characterization, transmission and possible approaches for their control. Also included are chapters on the general impact of these diseases, epidemiology, quarantine and technology transfer.

423. Winter Crop Variety Sowing Guide 2003.

• Authors:
  • McCaffery, D. W.
  • McRae, F. J.
  • Carpenter, D. J.
• Year: 2003
• Summary: This guide should assist in the selection of the most suitable variety for cultivation and aims to assist growers to make better cropping decisions. Information on variety selection, varietal characteristics and reaction to disease, crop injury guide and marketing are supplied for wheat, durum wheat, barley, oats, triticale, cereal rye, rape, chickpeas, faba beans, field pea ( Pisum sativum) and lupins. Additional material includes information on options for control of stored products pests, cereal seed dressings, industry information, and locations of district agronomists.

424. Weed management in irrigated fenugreek grown for forage in rotation with other annual crops

• Authors:
  • Mir, Z.
  • Acharya, S. N.
  • Moyer, J. R.
  • Doram, R. C.
• Source: Canadian Journal of Plant Science
• Volume: 83
• Issue: 1
• Year: 2003
• Summary: Fenugreek (Trigonella foenum-graecom L.) is an annual legume that has potential as a forage crop on the Canadian Prairies. Experiments were established to determine the tolerance of fenugreek to several herbicides and their efficacy on various weeds. Potentially, fenugreek could be grown in conservation tillage systems in rotation with other annual crops. Therefore, additional multi-factor experiments were conducted to determine the effect of herbicides, seeding method, and 11 previous crops on fenugreek yield. Without herbicide application, weeds contributed 37 to 86% to total dry matter production. When imazamox/imazethapyr, or-combinations of imazamoz/imazethapyr or imazethapyr with ethalfluralin was applied, weed contents were about 5% of the total dry matter and the herbicides did not reduce fenugreek yield compared to the hand-weeded check. Total forage samples with a low weed content had lower fibre content and higher protein and digestible dry matter content than forages with a high weed content. When imazamox/imazethapyr was used for weed control, fenugreek yields and weed biomass were similar after direct seeding and after cultivation plus seeding. In addition, the effect of previous crop and the previous crop by seeding method interaction was not significant for fenugreek yield and weed biomass. Therefore, irrigated fenugreek can be successfully grown in conservation tillage systems in rotation with several crops provided an effective herbicide is used for weed control.

425. Weed control in winter crops 2003.

• Authors:
  • Dellow, J. J.
  • Francis, R. J.
  • Mullen, C. L.
  • McRae, F. J.
• Source: Weed control in winter crops 2003
• Year: 2003
• Summary: This publication, intended for use by New South Wales Agriculture (New South Wales, Australia), presents some guidelines on chemical weed control in fallows, wheat, barley, oats, rye, triticale, rape, safflower, lentil, linseed, lupin, chickpea, faba bean and field pea. Tabulated data on herbicides, along with application rates suggested for particular weed species, are included.

426. Report from the Danish working group on the co-existence of genetically modified crops with conventional and organic crops.

• Authors:
  • Ostergard, H.
  • Pedersen, S.
  • Kjellsson, G.
  • Holm, P. B.
  • Gylling, M.
  • Buus, M.
  • Boelt, B.
  • Andersen, S. B.
  • Tolstrup, K.
  • Mikkelsen, S. A.
• Source: DIAS Report, Plant Production
• Issue: 94
• Year: 2003
• Summary: The paper focuses on the possible sources of dispersal (cross pollination, seed dispersal, vegetative dispersal, dispersal by farming machinery, dispersal during handling and transport) from genetically modified crop production to conventional and organic production, the extent of dispersal and the need for control measures, and the possible control measures for ensuring the co-existence of genetically modified production with conventional and organic production systems. Specific sections are provided on the crops currently genetically modified in Denmark or likely to be within the next few years (oilseed rape, maize, beet, potatoes, barley, wheat, triticale, oats, rye, forage and amenity grasses, grassland legumes, field peas, faba beans and lupins, and vegetable seeds). Brief discussions on the legislation, seed production, monitoring and analytical methods used, and measures to ensure crop purity (such as reducing pollen dispersal, reducing seed dispersal, adopting cultural methods reducing pollen and seed dispersal) are also presented.

427. Relationships between host foods and cotton bollworm and population characteristics on the cotton field.

• Authors:
  • Huang, D. L.
  • Dai, Z. Y.
  • Liang, G. W.
  • Pang, X. F.
  • Yang, Y. Z.
• Source: Journal of Yangzhou University, Agricultural and Life Sciences Edition Issue: 2
• Volume: 24
• Issue: 2
• Year: 2003
• Summary: The development of cotton bollworm (H. armigera) fed with different host foods was investigated. Higher values for pupal weight and eggs per female were recorded for the cotton bollworms fed with pea and soyabean leaves, compared with those fed with aubergine fruit and groundnut leaf. The rate larval development was highest with pea leaf, followed by maize fruits, and lowest for cotton leaf, flower, bud and boll. Based on values of the index of population trend, the preference of the cotton bollworm to different host foods were as follows: pea > soyabean > maize > Chinese sorghum > cotton > groundnut > aubergine. The results of a study of the dynamics of the cotton bollworm population in a cotton field in China are presented.

428. Pocket guide to varieties of cereals, oilseeds & pulses for autumn 2003.

• Authors:
  • UK, National Institute of Agricultural Botany (NIAB)
• Source: Pocket guide to varieties of cereals, oilseeds & pulses for autumn 2003
• Year: 2003
• Summary: This edition presents information on the autumn sown varieties of wheat, barley, oats, triticale, rye, durum wheat, oilseed rape, linseed, peas and beans. Individual information on each variety is given, including variety notes, yield performance, relative ranking position in different environments and a summary of the important character ratings from the Recommended Lists.

429. Biochemical bases of fodder production on cultivated lands in Yakutia.

• Authors:
  • Abramov, A. F.
• Source: Kormoproizvodstvo
• Issue: 7
• Year: 2003
• Summary: On the basis of biochemical analyses, the types of fodder and the fodder plants that can be produced under the severe environmental conditions of Yakutia in north-east Russia are discussed. Suitable species include oats, barley, rye, sunflower, rape, peas, lucerne and sweet clover [ Melilotus], while the fodders that can be produced include silage, haylage, meal produced from the green matter of cereals and grasses, combined fodders and fodder mixtures.

430. Accumulation and distribution of nitrate-nitrogen and extractable phosphorus in the soil profile under various alternative cropping systems

• Authors:
  • Ulrich, D.
  • Brandt, S. A.
  • Malhi, S. S.
  • Lemke, R.
  • Gill, K. S.
• Source: Journal of Plant Nutrition
• Volume: 25
• Issue: 11
• Year: 2002
• Summary: Cropping systems can influence the accumulation and distribution of plant nutrients in the soil profile, which can affect their utilization efficiency by crops and pollution potential in the environment. A field experiment was conducted on a Dark Brown loam soil at Scott, Saskatchewan, Canada to assess the effects of input level, cropping diversity and crop phase on the accumulation and distribution of nitrate-nitrogen (N) and extractable phosphorus (P) in the soil profile at the end of 1995 to 2000 growing seasons. The 54 treatments were combinations of three input levels (organic-ORG, reduced-RED and high-HIGH), three cropping diversities (low diversity-LOW, diversified annual grains-DAG, and diversified annual and perennials-DAP), and six crop phases chosen from fallow (tillage-fallow or chemfallow), green manure [lentil-Lens culinaris Medicus or sweet clover-Melilotus officinalis (L.) Lam], spring wheat (Triticum aestivum L.), canola (Brassica napus L. and Brassica rapa L.), fall rye (Secale cereale L.), field pea (Pisum sativum L.), spring barley (Hordeum vulgare L.), flax (Linum usitatissimum L.), oats (Avena sativa L.), and bromegrass (Bromus inermis Leyss), alfalfa (Medicago sativa Leyss) mixture hay. Soil was sampled from the 0-15, 15-30, 30-60, and 60-90cm depths in each crop phase from 1995 to 2000, with additional depths 90-120, 120-150, 150-180, 180-210, and 210-240cm taken from the wheat phase in 2000. In general, there were greater amounts of nitrate-N with HIGH input compared to ORG or BID inputs, especially under LOW diversity. The nitrate-N in various soil depths suggested some downward movement of nitrate-N to the deeper soil depths when HIGH input was compared to ORG input. In LOW cropping diversity, green manure or fallow usually had more nitrate-N in soil than other crop phases. In DAG and DAP cropping diversities, nitrate-N varied with crops and on average it had maximum concentration after wheat or canola in DAG and after hay followed closely by wheat in DAP. The ORG input level had greater nitrate-N than RED or HIGH inputs in some instances, most likely due to relatively low extractable P in soil for optimum crop growth under ORG input. Extractable P in the 0-15 and 15-30 cm soil depths tended to be greater under HIGH or RED inputs compared to the ORG input level in many cases. In summary there was no consistent effect of cropping diversity on extractable P in soil under ORG input, but LOW diversity tended to show more extractable 13 compared to DAG and DAP diversities in some cases of RED and HIGH inputs. The green manure/fallow, HIGH input and LOW diversity treatments tended to result in higher nitrate-N and extractable P levels compared to the corresponding treatments, and the effects were more pronounced on nitrate-N than extractable P and in shallow compared to deeper soil layers.