241. Cereal grains: assessing and managing quality.

• Authors:
  • Wrigley, C. W.
  • Batey, I. L.
• Source: Cereal grains: assessing and managing quality
• Year: 2010
• Summary: This book provides a convenient and comprehensive overview of academic research and industry best practice in the assessment and management of cereal grain quality. It includes 18 chapters and 2 appendices organized into 5 parts. Part I (3 chapters) introduces the themes of the book, reviews cereal grain morphology and composition, and discusses the diversity of uses of cereal grains. Part II (7 chapters) describes the characteristics and quality requirements of particular cereals, including wheat, rye, triticale, barley, oats, maize, rice, sorghum and millets. Part III (3 chapters) covers the use of analytical methods at different stages of the value-addition chain. It discusses the analysis of grain quality at receival, identification of grain variety and quality type, and food safety aspects of grain and cereal product quality. Part IV (5 chapters) reviews the factors affecting grain quality, such as breeding, storage and grain processing, and discusses possible future developments. Part V includes appendices on the composition of grains and grain products and the equivalence between metric and US units for the grain industry. This book will be a valuable reference for all those involved in the production and processing of cereal grains worldwide.

242. Soil nitrous oxide fluxes following cover crops management under tillage and no tillage in south Brazil.

• Authors:
  • Vieira, F.
  • Bayer, C.
  • Zanatta, J.
• Source: Proceedings of the 19th World Congress of Soil Science: Soil solutions for a changing world, Brisbane, Australia, 1-6 August 2010. Congress Symposium 4: Greenhouse gases from soils
• Year: 2010
• Summary: Emissions of N 2O were measured following cover crops management (oat - O and vetch - V) under tillage (CT) and no tillage (NT) in a silt loam Acrisol in South Brazil. Effects of tillage systems and residue management on N 2O emissions were examined over 55 days in 2007 and 54 days in 2008. Larger emissions were measured in 2008 compared to 2007. N 2O emissions increased in the presence of crops residues and were further increased in NT V/M in 2007 (19384 g N/m 2/ha) and in CT V/M in 2008 (431138 g N/m 2/ha) and they are related to high water content and available soil nitrogen. Smallest fluxes of N 2O were measured from the NT O/M treatments, which 28861 g N/m 2/ha in 2007 and 27419 g N/m 2/ha in 2008.

243. Winter cover crops increase soil carbon and nitrogen cycling processes and microbial functional diversity.

• Authors:
  • Chen, C.
  • Xu, Z.
  • Wu, H.
  • Zhou, X.
• Source: Proceedings of the 19th World Congress of Soil Science: Soil solutions for a changing world, Brisbane, Australia, 1-6 August 2010. Working Group 3.5 Paddy soils and water scarcity
• Year: 2010
• Summary: Winter cover crops are not only one of effective agricultural management practices to control weeds but also can improve soil fertility, resulting in increasing crop productions. Up to now, however, little is known about information on how much of soil soluble organic carbon (C) incorporates into the soils applied with winter cover crops, which is a prerequisite to design strategies that improve C sequestration in agricultural ecosystems. The aims of this study were to: (1) assess the effects of winter cover crops on soluble organic carbon (SOC) pools using different extraction methods (KCl extractable organic C; microbial biomass) and microbial community functional diversity, and (2) quantify how much of the potentially mineralizable organic C pools (C 0) incorporates into the soils and associated half-life of SOC remaining under seven cover crops and nil-crop control (CK) in temperate agricultural soils of southern Australia. Cover crop treatments are cereal rye, wheat, saia oats, vetch, field peas, mustard and the mixture of cereal rye and vetch. Results showed that the CK treatment had higher soil moisture content and lower soluble organic nitrogen (SON) compared to the cover crop treatments. Among the cover crop treatments, there was significantly higher SON in the wheat, oats and vetch treatments than in the other treatments. The oats treatment had the highest amount of cumulative CO 2-C than any other treatments over one-month incubation experiment. An exponential regression approach for C mineralization was used to estimate C o and soil samples under the cover crops can be divided into four groups depending on C o. The principal component analysis of the MicroResp TM profiles showed that the CK treatment was significantly different from the cover crop treatments. The cover crop treatments with wheat, vetch and peas as well as mustard form a cluster which was significantly different from the other clusters. In addition, the vetch, field peas and mustard treatments showed higher Shannon diversity H and Evenness (E) and Simpson diversity H compared to the other cover crop treatments with the lowest Shannon H and E at CK. In conclusion, overall, the vetch and field peas as well as wheat winter cover crop may be better management practices for agricultural ecosystems in southern Australia.

244. Oat-based cropping system for sustainable agricultural development in arid regions of northern China.

• Authors:
  • Xue, X.
  • Chen, G.
  • Hu, Y.
  • Ren, C.
  • Eneji, A.
  • Islam, M.
• Source: Journal of Agriculture, Biotechnology and Ecology
• Volume: 3
• Issue: 3
• Year: 2010
• Summary: Oat is an important grain and forage crop and is now being cultivated as a promising forage crop in northern China. Increased land degradation and shortage of forage resources for animal production over-winter have accentuated the need for alternative cropping systems in arid regions of northern China (

245. Comparison of florasulam+2,4-D application effect in wheat, barley and oat cultivated in monocrops and in two-species mixtures.

• Authors:
  • Adamczewski, K.
  • Kaczmarek, S.
  • Matysiak, K.
• Source: Acta Scientiarum Polonorum - Agricultura
• Volume: 9
• Issue: 4
• Year: 2010
• Summary: The aim of this study was to compare the herbicidal efficiency of mixture florasulam+2,4-D (Mustang 306 SE) in spring wheat cultivar Bryza, spring barley cultivar Antek and oat cultivar Cwa sown in monocrops and two-species mixtures. Field experiments were carried out in 2005-2007 at the Experimental Station in Winna Gora (5212′N; 1727′E), owned by the Institute of Plant Protection - National Research Institute in Poznan. Herbicyd Mustang 306 SE was applied in a dose of 0.5 dm 3.ha -1 at 3-5 leaf stage of cereals using the knapsack sprayer Gloria. The analysis of weed infestation of cereal stand was made with the quantitative-weighing method twice in the growing period (3-4 weeks after the application and 7-8 weeks after the application). Efficiency of herbicide action in mixtures was compared with its effectiveness in monocrops of individual species. From the analyses made it follows that of the cereal mixtures, the barley-oat mixture was infested in the least degree, and the wheat-oat mixture in the most degree. Strongest effect of cultivation in mixtures on reduction of weed infestation was noticeable on the control treatments, where the herbicide was not applied, whereas the cereal cultivation system (pure or mixed sowing) not always differentiated the herbicide efficiency. Cereal grain yields in mixtures after the application of mixture florasulam+2,4-D were significantly higher than yields of at least one of the component, and yields of mixtures harvested from the control treatments exceeded grain yields of both cereal species in monocrops.

246. Crop rotation and soil biochemical and microbiological characteristics and corn crop yield.; Rotacao de culturas e relacoes com atributos quimicos e microbiologicos do solo e produtividade do milho.

• Authors:
  • Silva, M.
  • Goncalves, M.
  • Souza, C.
  • Souza, L.
  • Marchetti, M.
  • Mercante, F.
  • Lourente, E.
• Source: SEMINA-CIENCIAS AGRARIAS
• Volume: 31
• Issue: 4
• Year: 2010
• Summary: Soil management practices exert important influence on biological and biochemical properties of soil. This work aimed to valuate the impact of crop rotation on soil biochemical and microbiological attributes, as well and influence on corn crop yield. The experiment was carried out during 2005/06 crop season, in Dourados - MS, Brazil. Experimental design was randomized blocks with treatments established in sub-divided plots with tree replications, which seasons were plots and management systems were sub-plots. Studied seasons were winter and summer and no tillage systems were represented by five crop rotation schemes, which involved the cultures of hairy vetch, bean, oat, forage turnip, soybean, crotalaria, corn, sorghum, pearl millet, sunflower and, in conventional tillage, with corn in winter and with soybean in summer. Native vegetation constituted one treatment and, with conventional tillage, it was used as ecosystem of reference as control for comparison between possible alterations in chemical and microbiological attributes with the establishment of a system more conservationist for soil management. There was a positive correlation among Norg, Corg, Porg and C-BMS contents with chemical attributes of soil fertility, which shows interdependence between chemical and biology of soil. The elimination of native vegetation and the substitution for cultivation system after that reduce the C-BMS. In Cerrado conditions, studied cultivation systems increased phosphorus content in soil. Crop rotation influenced corn yield after the cultivation of determined species as crotalaria and vetch in crop rotation.

247. Impacts of extreme weather events, climate change, and crop water relationship for crops grown in Western Canada.

• Authors:
  • Grant, C.
  • Khakbazan, M.
  • Mohr, R.
• Source: López-Francos A. (comp.), López-Francos A. (collab.). Economics of drought and drought preparedness in a climate change context. Zaragoza : CIHEAM / FAO / ICARDA / GDAR / CEIGRAM / MARM, 2010 (Options Méditerranéennes : Série A. Séminaires Méditerranéens;
• Issue: 95
• Year: 2010
• Summary: The objective of this paper was to study the impact of drought and adaptation measures on the economics of production for some major crops grown in Western Canada. Crop yields, yield variability, and crop losses were analyzed to quantify drought impacts and statistical models were developed to estimate the relationship between yield and growing season precipitation for wheat, canola, oats, and barley. The linear and quadratic precipitation terms were found to have the correct sign and to be significantly related to yield (p

248. Cultivar improvement and environmental variability in yield removed nitrogen of spring cereals and rapeseed in northern growing conditions according to a long-term dataset

• Authors:
  • Jauhiainen, L.
  • Peltonen-Sainio, P.
• Source: Agricultural and Food Science
• Volume: 19
• Issue: 4
• Year: 2010
• Summary: The balance between applied and harvested nitrogen (yield removed nitrogen, YRN %) is a recognized indicator of the risk of N leaching. In this study we monitored the genetic improvements and environmental variability as well as differences among crop species (spring cereals and rapeseed) in YRN in order to characterize changes that have occurred and environmental constraints associated with reducing N leaching into the environment. MTT long-term multi-location field experiments for spring cereals (Hordeum vulgare L., Avena sativa L. and Triticum aestivum L.), turnip rape (Brassica rapa L.), and oilseed rape (B. napus L.) were conducted in 1988-2008, covering each crop's main production regions. Yield (kg ha(-1)) was recorded and grain/seed nitrogen content (N(grain), g kg(-1)) analyzed. Total yield N (N(yield), kg ha(-1)) was determined and YRN (%) was calculated as a ratio between applied and harvested N. A mixed model was used to separate genetic and environmental effects. Year and location had marked effects on YRN and N(yield). Average early and/or late season precipitation was often most advantageous for N(yield) in cereals, while in dry seasons N uptake is likely restricted and in rainy seasons N leaching is often severe. Elevated temperatures during early and/or late growth phases had more consistent, negative impacts on YRN and/or N(yield) for all crops, except oilseed rape. In addition to substantial variability caused by the environment, it was evident that genetic improvements in YRN have taken place. Hence, YRN can be improved by cultivar selection and through favouring crops with high YRN such as oat in crop rotations.

249. Romanian modern equipments for tillage and cereal drilling.

• Authors:
  • Meca, A. V.
  • Popescu, N.
• Source: Annals of the University of Craiova - Agriculture, Montanology, Cadastre Series
• Volume: 40
• Issue: 2
• Year: 2010
• Summary: Within our country conditions the wheat, rye, barley, oilseed rape and pea-oat fodder are sown in autumn. They may be grown after crops that are harvested during summer or perennial crops or pastures that are included is crop rotation schemes. In the conditions of our country, crops that are harvested during the summer are: pea-oat fodder, pea, early potato, barley and wheat. After harvesting these crops, there must be done, immediately, the summer plowing because the soil is still moist, resulting a good quality plowing. Any delay conducts to diminishing the yields. Usually, the summer plow is made at 18-20 cm depth. Deeper plow are not necessary on most soil types from our country. Twenty cm deeper plow is need only on clayey soil that easily compacts, when the soil is highly infested by weeds, covered by high straw or when in the last year there was made a shallow plow. Summer plow, no matter the depth must be done along with harrow after plow. During the fall, till drilling, the soil has to be harrowed in order to destroy weeds and to maintain soil loosened.

250. Potential Economic Benefits of Adapting Agricultural Production Systems to Future Climate Change

• Authors:
  • Bengtson, L. E.
  • Fagre, D.
  • Pederson, G.
  • Zeyuan, Q.
  • Prato, T.
  • Williams, J. R.
• Source: Environmental Management
• Volume: 45
• Issue: 3
• Year: 2010
• Summary: Potential economic impacts of future climate change on crop enterprise net returns and annual net farm income (NFI) are evaluated for small and large representative farms in Flathead Valley in Northwest Montana. Crop enterprise net returns and NFI in an historical climate period (1960-2005) and future climate period (2006-2050) are compared when agricultural production systems (APSs) are adapted to future climate change. Climate conditions in the future climate period are based on the A1B, B1, and A2 CO(2) emission scenarios from the Intergovernmental Panel on Climate Change Fourth Assessment Report. Steps in the evaluation include: (1) specifying crop enterprises and APSs (i.e., combinations of crop enterprises) in consultation with locals producers; (2) simulating crop yields for two soils, crop prices, crop enterprises costs, and NFIs for APSs; (3) determining the dominant APS in the historical and future climate periods in terms of NFI; and (4) determining whether NFI for the dominant APS in the historical climate period is superior to NFI for the dominant APS in the future climate period. Crop yields are simulated using the Environmental/Policy Integrated Climate (EPIC) model and dominance comparisons for NFI are based on the stochastic efficiency with respect to a function (SERF) criterion. Probability distributions that best fit the EPIC-simulated crop yields are used to simulate 100 values for crop yields for the two soils in the historical and future climate periods. Best-fitting probability distributions for historical inflation-adjusted crop prices and specified triangular probability distributions for crop enterprise costs are used to simulate 100 values for crop prices and crop enterprise costs. Averaged over all crop enterprises, farm sizes, and soil types, simulated net return per ha averaged over all crop enterprises decreased 24% and simulated mean NFI for APSs decreased 57% between the historical and future climate periods. Although adapting APSs to future climate change is advantageous (i.e., NFI with adaptation is superior to NFI without adaptation based on SERF), in six of the nine cases in which adaptation is advantageous, NFI with adaptation in the future climate period is inferior to NFI in the historical climate period. Therefore, adaptation of APSs to future climate change in Flathead Valley is insufficient to offset the adverse impacts on NFI of such change.