361. The agrometeorology of crops: the climatic factor in agricultural production.

• Authors:
  • Monteiro, J. E. B. A.
• Source: Agrometeorologia dos cultivos: o fator meteorológico na produção agrícola
• Year: 2009
• Summary: This book brings together a broad base of information on 32 major Brazilian agricultural crops and their relations with climate. The focus of the book is not on the methodologies and applications of agrometeorology per se, but rather restricts its focus to crops and traits that determine yield as a function of the environment. The crops included are rice, castor oil, sunflowers, pineapples, soyabeans, triticale, maize, potatoes, barley, peanuts, oats, onions, canola, wheat, cotton, beans, sugarcane, Pinus, black wattle ( Acacia mearnsii), tropical and temperate grapes, coconuts, citrus, bananas, sisal, cocoa, coffee, apples, Jatropha, Eucalyptus and the fodder plants Cynodon, Brachiaria and Panicum. The contents of the book are divided into three main parts, I. Introduction, II. Temporary crops and III. Permanent crops, with each chapter within parts II and III dedicated to a particular crop, and covering: (1) the main features of farming and phenology; (2) agrometeorological productivity constraints - water availability, temperature, solar radiation, photoperiod and wind; and (3) adverse events - hail and rainstorms, droughts and dry spells, winds and gales, frost, and too much rain and over-prolonged drought. The book was organized by the National Institute of Meteorology and had the collaboration of 105 researchers from 37 Brazilian institutions (federal and state), research centres, institutes and universities.

362. Are there indications of climate change induced increases in variability of major field crops in the northernmost European conditions?

• Authors:
  • Jauhiainen, L.
  • Peltonen-Sainio, P.
  • Hakala, K.
• Source: Agricultural and Food Science
• Volume: 18
• Issue: 3-4
• Year: 2009
• Summary: As the northern hemisphere will experience the greatest increases in temperature and indications of climatic change are already visible in the north (in the 2000s average temperatures exceeded the long-term mean), we sought to establish if there are already signs of increased variability in yield and quality of the major field crops grown under the northernmost European growing conditions: spring and winter cereals (barley Hordeum vulgare L., oat Avena saliva L., wheat Triticum aestivum L., rye Secale cereale L.), spring rapeseed (turnip rape Brassica rapa L., oilseed rape B. napus L.), pea (Piston sativum L.) and potato (Solanum tuberosum L.). We used long-term yield datasets of FAO for Finland (1960s to date) and MTT Agrifood Research Finland (MTT) Official Variety Trial datasets on yield and quality of major field crops in Finland since the 1970s. Yield variability was exceptionally high in the 1980s and 1990s, but previously and subsequently national yields were clearly more stable. No progressive increase in yield variability was recorded. No marked and systematic changes in variability of quality traits were recorded, except for rapeseed, which exhibited reduced variability in seed chlorophyll content. This may at least partly attribute to the differences in intensity of input use and thereby responsiveness of the crops before and after 1980 and 1990 decades. We also noted that in the 2000s average temperatures were higher than in earlier decades and this was the case for all months of the growing season except June, which represents, however, the most critical phase for yield determination in most of the field crops in Finland. Also in the 2000s precipitation increased in the first three months of the growing season and thereafter decreased, but without signs of significantly increased numbers of heavy showers (extreme rain events). Hence, in general constant, increased average temperatures during the growing seasons of the 2000s were identified, but with reduced yield variability, which was partly attributable to the diminished use of inputs, especially fertilisers.

363. Crop rotation and Heterodera avenae (cereal cyst nematode) populations in spring cereals at high altitude in Qinghai, China.

• Authors:
  • Hou, S. Y.
  • Riley, I. T.
  • Chen, S. L.
• Source: Cereal Cyst Nematodes: Status, Research and Outlook: Proceedings of the First Workshop of the Cereal Cyst Nematode Initiative, 21-23 October, 2009, CIMMYT, Ankara, Turkey
• Year: 2009
• Summary: Cereal cyst nematode (Heterodera avenae) population densities were determined in spring cereals at harvest in two high-altitude villages in Qinghai, China in order to examine the effect of crop rotations. The two rotational systems sampled were wheat with rapeseed, broad bean and/or potato, and barley with rapeseed and/or oat. The previous season's crop, including fields where two host crops had been grown in succession, did not appear to influence the final nematode density. A high degree of variation in population density appeared to be strongly influenced by the occurrence of hyperparasites, thus masking any possible crop rotation effects. Nevertheless, a third of the fields had final egg densities greater than 10 eggs/g soil, creating a risk of yield loss if an intolerant host was to be grown in the next year. From the findings, it is suggested that future research should focus on developing locally adapted resistant cultivars and examining factors that determine the efficacy of natural biocontrol.

364. Aiming for 45 t/ha per annum: yield of supplementary feed crops grown in sequences designed for maximum productivity.

• Authors:
  • Sim, R.
  • Maley, S.
  • Fletcher, A.
  • Ruiter, J. M. de
  • George, M.
  • de Ruiter, J. M.
• Source: Proceedings of the New Zealand Grassland Association
• Volume: 71
• Year: 2009
• Summary: Dairy industry strategies have demanded feeding systems with high productivity and high quality. A 45 t DM/ha annual target for feed production was addressed. Six crop sequence treatments were established in large plots (40*12 m) at Lincoln, Canterbury, in the first year of a 2-year experiment to determine practical upper limits for yield. Summer crops included maize, kale and whole crop barley and these were followed by combinations of winter crops (oats, Italian ryegrass, forage rape, tick beans and triticale). Crops were grown with minimal transition time to reduce potential yield losses, and with optimum nitrogen and irrigation management. Highest plot yield in the first annual crop cycle was 11.9 t DM/ha short of the 45 t DM/ha target. Best productivity was with a maize - triticale+tick bean (32.5 t DM/ha) sequence followed by maize - wheat (30.0 t DM/ha), barley - oats+Italian ryegrass (28.1 t DM/ha) and kale - triticale+tick bean (26.1 t DM/ha). Fertiliser management, crop water use in high input cropping systems are discussed together with practical issues around handling crops with large accumulated biomass.

365. Productivity of fodder crop rotation in forest-steppe of the Middle Volga Region.

• Authors:
  • Zudilin, S. N.
• Source: Kormoproizvodstvo
• Issue: 2
• Year: 2009
• Summary: Productivity of fodder crop rotation was studied in the Samara Region, Russia in 1993-2004. The fodder crop rotation consisted of 7 following combinations: (1) rape and radish; (2) winter wheat; (3) pea; (4) maize; (5) vetch and oat; (6) pea and barley and (7) goat's-rue. The most productive crop was goat's-rue which showed green mass yield of 20.27 t/ha. Rape, maize, vetch and oat mix had green mass yield of 19.78, 20.11 and 16.42 t/ha, respectively. Winter wheat and pea produced 2.4 and 1.18 t/ha of grain, respectively. Application of mineral fertilizers increased yield by 25-40%. Detailed data are presented in 2 tables.

366. Pesticide availability for cereals and oilseeds following revision of Directive 91/414/ECC; effects of losses and new research priorities.

• Authors:
  • Gladders, P.
  • Ellis, S.
  • Cook, S.
  • Berry, P.
  • Twining, S.
  • Wynn, S.
  • Clarke, J.
• Source: HGCA Research Review
• Issue: 70
• Year: 2009
• Summary: This report reviews the most important scenarios that could affect the availability of pesticides (fungicides, herbicides, insecticides and rodenticides) for use in wheat, winter barley, spring barley, oats and oilseed rape, and describes the effects of reduced pesticide availability as an outcome of the revision of Directive 91/414/EEC on weeds, pests and diseases they control, and on the resultant level of production and value that the crop could achieve. The analysis focused on changes in yield and quality, and the area affected, taking into account simple changes in management to mitigate the problems, such as changes in cultivation, cultivars, sowing rate and planting date.

367. Soil Conservation Measures in Rainfed Olive Orchards in South-Eastern Spain: Impacts of Plant Strips on Soil Water Dynamics

• Authors:
  • Durán Zuazo, V. H.
  • Rodríguez Pleguezuelo, C. R.
  • Arroyo Panadero, L.
  • Martínez Raya, A.
  • Francia Martínez, J. R.
  • Cárceles Rodríguez, B.
• Source: Pedosphere
• Volume: 19
• Issue: 4
• Year: 2009
• Summary: Sloping and mountainous olive production systems are widespread, occupying large parts of the Mediterranean landscape prone to water erosion. Soil erosion, runoff, and soil water content patterns over a three-year period were monitored in erosion plots on a mountainside with rainfed olive (Olea europaea cv. Picual) trees under: 1) non-tillage with barley strips of 4 m width (BS); 2) non-tillage with native vegetation strips of 4 m width (NVS); and 3) non-tillage without plant strips (NT). The erosion plots, located in Lanjaron (Granada, south-eastern Spain), on a 30% slope, were 192 m(2) in area. For assessing soil water dynamics in real-time and near-continuous soil water content measurements, multisensor capacitance probes were installed in the middle of plant strips and beneath the olive tree at five soil depths (10, 20, 30, 50, and 100 cm). The highest erosion and runoff rates were measured under NT, with a mean of 17.3 Mg ha(-1) year(-1) and 140.0 mm year(-1), respectively, over the entire study period. The BS and NVS with respect to the NT reduced erosion by 71% and 59% and runoff by 95% and 94%, respectively. In general, greater available soil water content was found under BS than NVS and NT, especially beneath the olive tree canopies. These results supported the recommendation of non-tillage with barley strips in order to reduce erosion and to preserve soil water for trees in traditional mountainous olive-producing areas, where orchards cover vast tracts of land.

368. Integrating Cropping Systems with Cultural Techniques Augments Wild Oat (Avena fatua) Management in Barley

• Authors:
  • Clayton, G. W.
  • Turkington, T. K.
  • Irvine, R. B.
  • O'Donovan, J. T.
  • Harker, K. N.
• Source: Weed Science
• Volume: 57
• Issue: 3
• Year: 2009
• Summary: Wild oat causes more crop yield losses and accounts for more herbicide expenditures than any other weed species on the Canadian Prairies. A Study was conducted from 2001 to 2005 at four Canadian Prairie locations to determine the influence of repeated cultural and herbicidal management practices on wild oat Population density, biomass, and seed production, and on barley biomass and seed yield. Short or tall cultivars of barley were combined with normal or double barley seeding rates in continuous barley or a barley-canola-barley-field-pea rotation under three herbicide rate regimes. The same herbicide rate regime was applied to the same plots in all crops each year. In barley, cultivar type and seeding rate were also repeated on the same plots year after year. Optimal Cultural practices (tall cultivars, double seeding rates, and crop rotation) reduced wild oat emergence, biomass, and seed production, and increased barley biomass and seed yield, especially at low herbicide rates. Wild oat seed production at the quarter herbicide rate was reduced by 91, 95, and 97% in 2001, 2003, and 2005, respectively, when call barley cultivars at double seeding rates were rotated with canola and field pea (high management) compared to short barley cultivars at normal seeding rates Continuously planted to barley (low management). Combinations of favorable cultural practices interacted synergistically to reduce wild oat emergence, biomass and seed production, and to increase barley yield. For example, at the quarter herbicide rate, wild oat biomass was reduced 2- to 3-, 6- to 7-, or 19-fold when optimal single, double, or triple treatments were combined, respectively. Barley yield reductions in the low-management scenario were somewhat compensated for by full herbicide rates. However, high management at low herbicide rates often produced more barley than low management in higher herbicide rate regimes.

369. Chemical composition of residue from cereal crops and cultivars in dryland ecosystems.

• Authors:
  • Reisenauer, P. E.
  • Kennedy, A. C.
  • Stubbs, T. L.
  • Burns, J. W.
• Source: Agronomy Journal
• Volume: 101
• Issue: 3
• Year: 2009
• Summary: Cropping systems in the dryland farming region of eastern Washington State are dominated by winter and spring wheat ( Triticum aestivum L.) and spring barley ( Hordeum vulgare L.). Excessive levels of residue may be an obstacle in the adoption of conservation farming systems. Decomposition of cereal crop residues is associated with fiber and nutrient content, and growers have observed differences in decomposition among cultivars; however, little information exists on their residue characteristics. Cultivars of spring barley (SB), spring wheat (SW), and winter wheat (WW) grown at four locations over two crop years were analyzed for neutral detergent fiber (NDF), acid detergent fiber (ADF), acid detergent lignin (ADL), C, and N contents, and winter wheat decomposition was tested in a laboratory incubation study. Acid detergent lignin was highest in spring barley (9.9%), and least in winter wheat (9.2%) and hard white spring wheat (9.5%). Fiber components and nutrient content varied by location, precipitation zone, and cultivar. Residue in the drier year of the study had lower NDF, ADF, ADL, C, and C/N ratio. Foot rot ( Fusarium spp.) - resistant winter wheat cultivars had higher NDF, ADF, and ADL than susceptible cultivars. Laboratory incubation studies showed decomposition of winter wheat straw in soil was correlated with ADF ( R2>0.66, P=0.002) and total N ( R2>0.67, P=0.04). Fiber and nutrient characteristics of residue from wheat and barley cultivars currently produced in the Pacific Northwest can be used to predict residue decomposition in cropping systems that conserve soil and water, and enhance build-up of organic matter.

370. Compression characteristics of selected ground agricultural biomass.

• Authors:
  • Tabil, L. G.
  • Adapa, P. K.
  • Schoenau, G. J.
• Source: Agricultural Engineering International: the CIGR Ejournal
• Volume: 11
• Year: 2009
• Summary: Agricultural biomass such as barley, rape, oat and wheat straw has the potential to be used as feedstock for bioenergy. However, the low bulk density straw must be processed and densified in order to facilitate handling, storage and transportation. It is important to understand the fundamental mechanism of the biomass compression process, which is required in the design of energy efficient compaction equipment to mitigate the cost of pre-processing and transportation of the product. Therefore, a comprehensive review of various compression models was performed and the compression behaviour of selected ground agricultural biomass was studied. Five compression models were considered to determine the pressure-volume and pressure-density relationship to analyse the compression characteristics of biomass samples, namely Jones (1960), Heckle (1961), Cooper-Eaton (1962), Kawakita-Ludde (1971) and Panelli-Filho (2001) models. Densification studies were conducted on four selected biomass samples at 10% moisture content and 1.98 mm grind size using four pressure levels of 31.6, 63.2, 94.7 and 138.9 MPa. The mean densities of barley, rape, oat and wheat straw increased from 907 to 977 kg/m 3, 823 to 1003 kg/m 3, 849 to 1011 kg/m 3 and 813 to 924 kg/m 3, respectively. The Kawakita-Ludde model provided an excellent fit having R 2 values of 0.99 for selected agricultural straw samples. It was also concluded that the ground oat and rape straw had the highest level of porosity and failure stress, respectively. The parameters of Cooper-Eaton model indicated that the ground straw samples were densified easily by the particles rearrangement method and Jones model indicated that canola and oat straw were more compressible as compared to barley and wheat straw.