781. Impact of climate change on water requirement of main crops in irrigated oasis of Hexi corridor.

• Authors:
  • Wang, H. L.
  • Niu, J. Y.
  • Lv, X. D.
  • Wang, R. Y.
• Source: Acta Prataculturae Sinica
• Volume: 20
• Issue: 5
• Year: 2011
• Summary: The crop water requirement is one of the most important factors in farmland water circulation system, study the effects of climate warming on water requirement of major crops in irrigated oasis in Hexi corridor when 1-4degreesC temperature rise in the future scenarios. The results show that climate change will have great impact on water requirement of cotton and corn, followed by spring wheat, when the temperature rises 1-4degreesC during the growth period, cotton, water requirement of cotton will increase by 2.17%-12.66%, equivalent to 15.00-83.00 mm; corn will increase by 1.90%-11.49%, equivalent to 14.60-82.50 mm; wheat will be increase by 1.80%-10.03%, equivalent to 9.70-50.70 mm. There are certain regional differences which the impact of climate change on crop water requirements. When the temperature increases 1degreesC, the crop water requirement of Wuwei in arid regions slightly larger than Dunhuang in extreme arid region; When increases 2degreesC, the demand almost equivalent. Dunhuang is greater than the Wuwei if increased 3 and 4degreesC. According to the current planting planning in Hexi Oasis, the given temperature scenario will cause an additional water requirement of 0.11, 0.21, 0.37, 0.62 million m 3 for cotton, 0.16, 0.33, 0.56, 0.93 million m 3 for corn; and 0.14, 0.26, 0.45, 0.71 million m 3 for spring wheat. The total irrigation water increase 0.41, 0.80, 1.38, 2.25 billion m 3. Climate warming will make the situation of water shortage more severe.

782. Intensive crop rotation yield and economic performance in minimum tillage and no tillage in northeastern Oregon.

• Authors:
  • Williams, J. D.
  • Long, D. S.
• Source: Crop Management
• Issue: March
• Year: 2011
• Summary: In the intermediate annual precipitation zone (14 to 18 inches) of northeastern Oregon, there is interest in increasing the intensity of cropping with spring crops. Mechanical tillage remains popular for seedbed preparation and weed control, but contributes to environmental problems and high labor and fuel cost. No-tillage (NT) crop production can reduce on site and off site problems and has lower labor and fuel costs, but soil-borne disease and weed control problems can limit yields. We compared crop yields, production costs, and economic returns of an intensive, four-year crop production rotation under two management systems: (i) minimum tillage (MT) with cultivation by chiseling, sweeping, and rod weeding; and (ii) NT with chemical weed control. The rotation was fallow-winter wheat-dry spring pea-winter wheat in which a spring broadleaf crop is included to aid in the control of winter annual weeds and reduce host pathogen levels of soil-borne cereal diseases. Four year averages of wheat yields in the NT treatment were equal to or greater than those in the MT treatment whereas dry green pea production was roughly equal in each treatment. Crop productivity differed significantly in each phase of the rotation in descending order from winter wheat following fallow [4,578 lb/acre (76 bu/acre)], winter wheat following dry spring pea [3,548 lb/acre (59 bu/acre)], to dry spring pea (1,505 lb/acre). Partial budget analysis shows that NT is substantially less costly than MT in terms of labor and fuel, potentially making NT economically viable for intensive cropping systems in the intermediate precipitation dryland region of northeastern Oregon.

783. Developing patterns of root systems of four cereal crops planted in dryland areas.

• Authors:
  • Zhang, Y. Q.
  • Yang, .L W.
• Source: Scientia Agricultura Sinica
• Volume: 44
• Issue: 11
• Year: 2011
• Summary: Objective: The study was to explore the geometric characteristics, spatial and temporal distributive patterns of root systems of spring wheat, millet, grain sorghum, and broomcorn millet. Method: Experimental methods employed were pot culture, soil column culture, chain link mesh box cultivation and field investigation. Result: Differences in root system characteristic patterns of the four cereal crops: Number of seminal root and secondary root was different, maximum striking depth of root systems was different which usually followed the order of grain sorghum > millet > spring wheat > broomcorn millet, maximum root extension was different, maximum root extension often showed an order of grain sorghum > broomcorn millet > millet > spring wheat. The basilar 1-3 node of millet, broomcorn millet and grain sorghum formed 1st round to 3rd round support root after tasselling, while spring wheat did not have support root commonly. Temporal distributive patterns of the four cereal crops in the experiment: root systems of millet, broomcorn millet and spring wheat grew downward gradually along with developing stage, root length and root weight increased persistently, the increase of root length and root weight showed slow-fast-slow patterns. The growth patterns of root weight and total root length of the four cereal crops accorded with S-type growth curve, while the increase per day for root length and root weight of grain sorghum was far larger than that of millet and broomcorn millet. Spatial distributive patterns of the four cereal crops in the experiment: in seedling stage root systems of the four cereal crops grew downward mainly; in each soil layer the absolute root amount increased gradually; root length and root dry weight mostly distributed in the soil layer of 0-40 cm depth; root systems hardly distributed in the soil layer of below 40 cm. Therefore, spatial patterns of the four cereal crops showed a clear T-shape. At jointing stage, root systems kept on growing downward, and the root amount in different soil layers increased distinctly. The spring wheat root weight enhanced notably, and spring wheat root length distribution showed 8-shape approximately. Patterns for root length and weight of the other three crops still showed a T-shape. At heading stage, the root length distributive patterns in different depth soil of millet, broomcorn millet and grain sorghum turned into 8-shape approximately, while the root length distributive patterns in different depths of soil of spring wheat showed an egg-shape. So, the root length of the four cereal crops in the experiment at late heading stage had superiority in middle and bottom soil layer. The vertical distribution of root weight of millet, broomcorn millet, grain sorghum followed the exponential equation y=A.e -bx , but different crops had different b values. The total root length distributive patterns of the four cereal crops in different soil depths at early stage followed the exponential equation y=A.e -bx , but at late stage it followed the multinomial y= ax3+ bx2+ cx+ d. Conclusion: The similarities in spatial distributive patterns of the root systems of the four cereal crops were positive, which provided a theoretical basis for root regulation for cultivation.

784. Grinding performance and physical properties of non-treated and steam exploded barley, canola, oat and wheat straw

• Authors:
  • Schoenau, G.
  • Tabil, L.
  • Adapa, P.
• Source: Biomass and Bioenergy
• Volume: 35
• Issue: 1
• Year: 2011
• Summary: Grinding experiments were conducted on non-treated and steam exploded barley, canola, oat and wheat straw using a forage chopper and a hammer mill (screen sizes of 30, 6.4, 3.2 and 1.6 mm) to determine specific energy requirements, and geometric mean particle size and distribution of ground material. The bulk density of non-treated biomass was significantly higher than bulk density of steam exploded agricultural biomass. For non-treated agricultural straw, the particle density of canola and oat straw significantly increased with a decrease in hammer mill screen size from 30 to 1.6 mm. The particle density of steam exploded barley and oat straw was significantly higher than non-treated straw, except for barley at 6.4 mm hammer mill screen size. The particle density of steam exploded canola straw was not statistically different from non-treated straw. The chopper consumed highest (3.15 +/- 0.09 kWh t(-1)) and lowest (1.96 +/- 0.33 kWh t(-1)) specific energy to chop barley and canola straw, respectively. The highest and lowest specific energy was consumed by wheat (42.57 +/- 2.04 kWh t(-1)) at 1.6 mm and canola (1.46 +/- 0.30 kWh t(-1)) straws ground using 30 mm hammer mill screen size, respectively. For steam exploded agricultural biomass, the highest and lowest specific energy was consumed by oat (33.18 +/- 3.10 kWh t(-1)) at 1.6 mm and canola (2.69 +/- 0.26 kWh t(-1)) straws ground using 6.4 mm hammer mill screen size, respectively. Specific energy required by hammer mill to grind non-treated and steam exploded barley, canola, oat and wheat straw showed a negative power correlation with hammer mill screen sizes. (C) 2010 Elsevier Ltd. All rights reserved.

785. Validation of farm pond size for irrigation during drought.

• Authors:
  • Gautam, M.
  • Ambati, R. R.
  • Reddy, A. R.
• Source: Indian Journal of Agronomy
• Volume: 56
• Issue: 4
• Year: 2011
• Summary: Field trials were conducted to validate farm pond sizes for supplemental irrigations during 2004-2011 at the Central Institute for Cotton Research, Nagpur (′21degrees09′N, 79degrees09′E.). Ten farm ponds 200 to 15,120 m 3 size resulted in a runoff storage of about 60, 75 and 28, 36, 58% (2007, 2010 and 2008, 2009, 2011) in normal and drought years at the end of August month. During actual drought the water availability was 0 and 18% only of the capacity designed in 2011 and 2008 July seedling droughts. Special recharging techniques like opening borewells/percolation tanks etc in under ground storages and using it with sprinkler irrigation during seedling droughts is the only option. Two supplemental irrigations at flowering stage along with application of deficient micronutrients on shallow and medium soils to Bt hybrid cotton ( G. hirsutum L.) resulted in increased seed cotton yield by 50% and 44%, which was verified during 2008 and 2009 seasons in Yeotmal district. The minimum economical catchment was found to be 21 ha or 0.7 ha m pond size, with which 25% and 50% area could be irrigated by conventional and alternate furrow/sprinkler irrigation respectively, with a payback period (PBP) of 2 years in Bt hybrid cotton. Rotational soybean ( Glycine max (L.) Merrill) could be irrigated to the extent of 16 and 33% catchment area with improved water use efficiency (WUE) from 250 to 500 kg/ha-cm for 1.5 and 3.5 years of pay back period (PBP) under conventional and sprinkler irrigation, respectively, during drought conditions. The same sprinkler and drip irrigation systems could also be used to irrigate subsequent wheat [ Triticum aestivum (L.) emend. Fiori & Paol] crop with a gravitational well, covering 14 and 57% of catchment area with WUE of 180 kg/ha-cm with a PBP of 11 and 21 years.

786. Prevalence of mycotoxins in poultry feeds and feed ingredients in Punjab (Pakistan).

• Authors:
  • Akram, M.
  • Sahota, A. W.
  • Anjum, M. A.
  • Ali, I.
• Source: Journal of Animal and Plant Sciences (JAPS)
• Volume: 21
• Issue: 2
• Year: 2011
• Summary: A total of 100 samples, 50 each of layer starter and broiler starter feeds manufactured by 10 different commercial feed mills were collected to assess contamination of aflatoxin B 2 and Ochratoxin A in poultry feeds and feed ingredients in Punjab. 440 samples of different poultry feed ingredients including cereal grains and animal and vegetable protein sources were also collected from all over Punjab and were analyzed for Ochratoxin A (OA) content. The mean concentration of aflatoxin B 2 in layer and broiler starter rations was observed to range from 10.80 (2.16) to 39.20 (3.67) g Kg 1. Out of 100 feed samples tested, 40 contained higher than the maximum tolerance level of 20 gKg -1 aflatoxin B 2. Out of the 440, 19.32 percent (n=85) were contaminated with OA. The occurrence of OA was found to be higher in maize (40%), sun flower (30%), wheat (28%), corn gluten (25%) and barley (24%). OA detected in rice, sorghum, peanut meal, soybean meal, guar meal, corn gluten and rice polish was found to be 20 percent. The findings further showed that maize had maximum mean OA concentration of 112.20 (22.69) gKg -1, followed by 59.43 (22.32) gKg -1 in wheat, 50.33 (13.79) gKg -1 in sunflower meal, 49.20 (10.23) gKg -1 in peanut meal and 39.14 (15.06) gKg -1 in rice polishing. Corn gluten meal, sorghum, barley, cotton seed meal and rapeseed meal contained mean OA concentration ranging from 30 to 36 gKg -1. The OA content ranging from 10 to16.67 gKg -1 was detected in samples of wheat bran, fish meal, blood meal and meat meal. The aflatoxin B 2 and OA contamination of poultry feeds and feed ingredients having deleterious effects seems to pose a serious threat for local poultry farming sector which calls for regular testing and surveillance of poultry feeds and adoption of necessary remedial measures.

787. The influences of crop rotation and irrigation on protein content of wheat grains in the west of Romania.

• Authors:
  • Bandici, G. E.
  • Ardelean, I.
• Source: Analele Universităţii din Oradea, Fascicula ProtecÅ£ia Mediului
• Volume: 17
• Year: 2011
• Summary: The paper based on the research carried out during 2008-2010 in the long term trial placed in 1990 on the preluvosoil from Oradea. Three kind of crop rotation (wheat - monocrop; wheat - maize; wheat - maize - soybean) were studied in unirrigated and irrigated conditions. The smallest content of the protein from wheat grains were registered in the wheat monocrop both nonirrigated and irrigated variant. In the wheat-maize and wheat-maize-soybean crop rotation the values registered were significant statistically bigger than in wheat monocrop. Irrigation determined the decrease of the protein content.

788. Evaluation of tropical feedstuffs for carbohydrate and protein fractions by CNCP system.

• Authors:
  • Jha, N.
  • Kundu, S. S.
  • Singh, S.
  • Gupta, A.
• Source: The Indian Journal of Animal Sciences
• Volume: 81
• Issue: 11
• Year: 2011
• Summary: Seventeen feed ingredients comprising protein sources (linseed cake-LSC, mustard seed cake-MSC, cotton seed cake-CSC, soybean cake-SBC and groundnut cake-GNC), energy sources (deoiled rice bran-DORB, maize grain-MG, barley grain-BG and wheat bran-WB), legume roughages (berseem, cowpea hay-CH, Stylosanthes hamata-SH and Acacia catechu-AC) and non-legume roughages (ammoniated wheat straw-AWS, guinea grass-GG maize fodder-MF and sorghum fodder-SF) were evaluated for carbohydrate and nitrogen fractions as well as mineral contents. In CNCP system, crude protein content of feed is partitioned into 5 fractions (A, B 1, B 2, B 3 and C) and carbohydrate into 4 fractions (A, B 1, B 2 and C) according to degradation rates. The proximate composition, cell wall constituents, carbohydrate and nitrogen fractions of different feeds vary significantly amongst the groups. The CHO, C NSC, C B1, and Cc fractions of carbohydrate were higher in energy, while C A and C B2 fraction of CHO were more in protein sources. Total CHO and C B2 fraction of carbohydrates were more in non-legume while C A, C NSC and Cc fractions were higher in legume roughages. Amongst the studied feedstuffs P A and P B fractions of protein were higher in protein sources, while P B2, P B3 and P C fractions were higher in energy sources. Legumes exhibited higher contents of P B2, while non-legume had higher P A, P B1 and P B3 fraction of protein. Concentration of macro (%) and micro minerals (ppm) of feed stuffs differed across feeds (energy and protein) and roughages (legumes and non legumes). It is concluded from the present study that feedstuffs chemical properties for carbohydrate and nitrogen fractions are unique and different. Therefore feed ingredients selection based on CNCPS evaluation will be more logical for formulating efficient diets for livestock.

789. An evaluation of the life cycle cost of rapeseed oil as a straight vegetable oil fuel to replace petroleum diesel in agriculture

• Authors:
  • Puig, R.
  • Rius, A.
  • Riba, J.-R.
  • Esteban, B.
  • Baquero, G.
• Source: Biomass and Bioenergy
• Volume: 35
• Issue: 8
• Year: 2011
• Summary: The use of straight vegetable oil (SVO) as biofuel has been recognized as a valid substitute of diesel fuel in the agricultural sector under specific circumstances. Its direct use reduces most of the chemical processes involved when converting it into biodiesel, thus lowering harmful emissions. This study presents the economic analysis of a self-supply farming model that uses rapeseed as its fuel base. This model addresses agricultural environmental concerns and can even minimize dependence on the fluctuating costs of diesel fuel. The use of SVO in agriculture can help reduce farmers' vulnerability to fossil fuel prices. The economic evaluation of the model proposed in this study shows clear economic benefits of introducing rapeseed to the traditional crop rotation of wheat and barley. The key factors analyzed in this model are diesel fuel price, diesel fuel grants and crop aids. The current situation in Spain favors the use of diesel fuel in agriculture rather than rapeseed SVO due to an 8% profit difference. However, results show that changes in key factors slightly affect the profit margin, calculating a difference of only 3.7% for particular factor combinations. Combined environmental-friendly agriculture supporting policies are necessary to cover this slight profit difference to promote this biofuel. (C) 2011 Elsevier Ltd. All rights reserved.

790. Clover cover crops under-sown in winter wheat increase yield of subsequent spring barley-Effect of N dose and companion grass

• Authors:
  • Elfstrand, S.
  • Båth, B.
  • Wetterlind, J.
  • Stenberg, M.
  • Bergkvist, G.
• Source: Field Crops Research
• Volume: 120
• Issue: 2
• Year: 2011
• Summary: Four two-year field trials, arranged in randomised split-plots, were carried out in southern Sweden with the aim of determining whether reduced N fertiliser dose in winter wheat production with spring under-sown clover cover crops, with or without perennial ryegrass in the seed mixture, would increase the clover biomass and hence the benefits of the cover crops in terms of the effect on the wheat crop, on a subsequent barley crop and on the risk of N leaching. Four doses of nitrogen (0, 60, 120 or 180 kg N ha(-1)) constituted the main plots and six cover crop treatments the sub-plots. The cover crop treatments were red clover (Trifolium pratense L). white clover (Trifolium repens L) and perennial ryegrass (Lolium perenne L.) in pure stands and in mixtures. The winter wheat (Triticum aestivum L.) was harvested in August and the cover crops were ploughed under in November. The risk of N leaching was assessed in November by measuring the content of mineral N in the soil profile (0-30, 30-90 cm). In the following year, the residual effects of the cover crops were investigated in spring barley (Hordeum distichon L) without additional N. Under-sowing of cover crops did not influence wheat yield, while reduced N fertiliser dose decreased yield and increased the clover content of the cover crops. When N was applied, the mixed cover crops were as effective in depleting soil mineral nitrogen as a pure ryegrass cover crop, while pure clover was less efficient. The clover content at wheat harvest as well as the amount of N incorporated with the cover crops had a positive correlation with barley yield. Spring barley in the unfertilised treatments yielded, on average, 1.9-2.4 Mg DM ha(-1) more in treatments with clover cover crops than in the treatment without cover crops. However, this positive effect decreased as the N dose to the preceding wheat crop increased, particularly when the clover was mixed with grass. (C) 2010 Elsevier B.V. All rights reserved.