141. Agricultural water productivity assessment for the Yellow River Basin.

• Authors:
  • You, L. Z.
  • Zhao, J. S.
  • Ringler, C.
  • Yang, Y. C. E.
  • Cai, X. M.
• Source: Agricultural Water Management
• Volume: 98
• Issue: 8
• Year: 2011
• Summary: Agricultural water productivity (WP) has been recognized as an important indicator of agricultural water management. This study assesses the WP for irrigated (WPI) and rainfed (WPR) crops in the Yellow River Basin (YRB) in China. WPI and WPR are calculated for major crops (corn, wheat, rice, and soybean) using experimental, statistical and empirically estimated data. The spatial variability of WPI and WRR is analyzed with regard to water and energy factors. Results show that although irrigated corn and soybean yields are significantly higher than rainfed yields in different regions of the YRB, WPI is slightly lower than WPR for these two crops. This can be explained by the seasonal coincidence of precipitation and solar energy patterns in the YRB. However, as expected, irrigation stabilizes crop production per unit of water consumption over space. WPI and WPR vary spatially from upstream to downstream in the YRB as a result of varying climate and water supply conditions. The water factor has stronger effects on both crop yield and WP than the energy factor in the upper and middle basin, whereas energy matters more in the lower basin. Moreover, WP in terms of crop yield is compared to that in terms of agricultural GDP and the results are not consistent. This paper contributes to the WP studies by a basin context, a comparison between WPI and WPR, a comparison of WP in terms of crop yield and economic value, and insights on the water and energy factors on WP. Moreover, policy implications based on the WP analysis are provided.

142. Case study: a hayfield conversion to a multi-layered planting.

• Authors:
  • Ebert, W.
  • Olson, R.
  • Demchik, M.
• Source: Agroforestry: A Profitable Land Use. Proceedings of the 12th North American Agroforestry Conference, Athens, Georgia, USA, 4-9 June 2011
• Year: 2011
• Summary: In fall of 2006, a 2-acre hayfield on a tree farm in central Wisconsin was laid out into 10-foot wide terraces/swales along contour lines. The beds were strip sprayed with glyphosate and a two-bottom plow was used to create swales. A total of 2400 linear feet of planting bed were created. Each terrace was planted to 2-3 rows of plants, with trees on 20-ft spacing and shrubs interplanted at 5-8 foot spacing. This will create a multi-layer canopy with crops from each layer. Over 40 species/varieties were planted on the site in the spring of 2007 (240 trees, 480 shrubs, and 250 perennials). The entire site was electrically fenced. Plants were mulched with either wood chips or fabric mulch and treatments of drip-irrigation or no irrigation were applied to the plants. After three growing seasons, no difference was found between treatments. The swales and mulching was adequate to ensure survival and growth without the need of supplemental irrigation. Growth and fruiting of individual species as well as other observations will be discussed in this presentation.

143. Nitrogen response and economics for irrigated corn in Nebraska.

• Authors:
  • Tarkalson, D. D.
  • Shapiro, C. A.
  • Hergert, G. W.
  • Ferguson, R. B.
  • Wortmann, C. S.
  • Dobermann, A.
  • Walters, D. T.
• Source: Agronomy Journal
• Volume: 103
• Issue: 1
• Year: 2011
• Summary: Nitrogen management recommendations may change as yield levels and efficiency of crop production increase. The mean yield with nutrients applied in 32 irrigated corn ( Zea mays L.) trials conducted across Nebraska from 2002 to 2004 to evaluate crop response to split-applied N was 14.8 Mg ha -1 The mean economically optimal nitrogen rates (EONR) for irrigated corn varied with the fertilizer N/grain price ratio. At a fertilizer N/corn price ratio of 7 the EONR was 171, 122, and 93 kg ha -1, respectively, for cropping systems with corn following corn (CC), soybean [ Glycine max (L.) Merr.] (CS), and drybean ( Phaseolus vulgaris L.) (CD). At this price ratio the present University of Nebraska (UNL) recommendation procedure gave mean N recommendations that were 17.2 and 68.1 kg ha -1 higher than the mean EONR determined in this study for CC and CD, respectively, but essentially equal to mean EONR for CS. The UNL algorithm, adjusted for mean cropping system EONR gave more accurate prediction of site-year EONR than alternative N rate predictions for CC and CD with returns to applied nitrogen (RTN) of -$22 and -$13 ha -1 compared with measured site-year EONR. Prediction of site-year EONR using mean EONR adjusted for soil organic matter was more accurate for CS than other methods with an RTN of -$6 ha -1 compared with measured site-year EONR. Further research is needed to extend the results to: lower yield situations, alternatives to split application of N, and adjustment of EONR to protect against inadequate N in atypical seasons or for environmental protection.

144. Reducing nitrate leaching after winter oilseed rape and peas in mild and cold winters

• Authors:
  • Linden, B.
  • Aronsson, H.
  • Stenberg, M.
  • Engstrom, L.
• Source: Agronomy for Sustainable Development
• Volume: 31
• Issue: 2
• Year: 2011
• Summary: Nitrate leaching after winter oilseed rape and peas has not been studied at the most northern limits of oilseed rape cultivation where winters vary between being mild, with continuous drainage, and cold, with periods of frozen soil. Here, we studied the effect of N fertilisation to oilseed rape, catch crops after oilseed rape and peas and dired drilling of winter wheat after oilseed rape on N leaching in south-west Sweden. Nitrate leaching was determined in two field experiments, dated 2004-2006 and 2005-2007, respectively, on a sandy loam. Our results show that under oilseed rape nitrate leaching was low, at 16-23 kg N ha(-1), in a mild winter with drainage from October to March. In the subsequent mild winter nitrate leaching under wheat was higher, amounting to 35-94 kg N ha(-1). Nitrate leaching levels were similar, 32-58 kg N ha(-1), for all crops in a cold winter with a long-lasting snow cover and main drainage occurring after snowmelt in March and April. Application of fertiliser N to oilseed rape at the optimum N rate, rather than 50 kg N ha(-1) above optimum, reduced leaching in a following winter wheat crop by 25 and 27 kg N ha(-1) in a cold and a mild winter, respectively. Spring undersowing of perennial ryegrass as a catch crop reduced leaching by 12 kg N ha(-1) after optimally fertilised oilseed rape in a mild winter, despite only growing until mid-September when winter wheat was sown. An undersown catch crop of peas, then grown until November, reduced leaching by 15 kg N ha(-1). Direct drilling of winter wheat after oilseed rape had no effect. These findings show that there are risks of enhanced leaching in early spring after a cold winter with a snow cover and superficially frozen soil. Optimising the spring N rate for oilseed rape was the most effective measure to decrease leaching in both mild and cold winters, and this effect was improved by an undersown catch crop in a mild winter.

145. Biodigestion of Plant Material Can Improve Nitrogen Use Efficiency in a Red Beet Crop Sequence

• Authors:
  • Gertsson, U.
  • Linden, B.
  • Gunnarsson, A.
• Source: HortScience
• Volume: 46
• Issue: 5
• Year: 2011
• Summary: Nitrogen (N) tied up in or lost from decomposing biomass decreases the residual N effects of green manure and of other crop residues. During anaerobic degradation in a biogas digestor (biodigestion), N mineralization takes place under conditions in which losses can be kept to a minimum. Therefore, biodigestion of green manure biomass and beet foliage was tested to generate readily available N and compared with a direct green manure fertilization system. The effluent was applied as fertilizer in field experiments on a sandy soil as a tool for improving N supply for an organic farming system. Data from the field experiments were used for simulating the amount of net inorganic N equivalents (inorganic N equivalents from effluent plus inorganic N equivalents from pre-crops) in three crop sequences: A) green manure ley, red beets rye; B) harvested ley, red beets, winter rye; and C) harvested ley, spring barley, red beets in which (B) and (C) represented biogas nutrient management systems and (A) a green manure system. When all available effluent from biogas production from 1 ha of grass clover ley with two or three harvests (2H-ley or 3H-ley) and one hectare of beet foliage was used as a fertilizer for red beets (Beta vulgaris var. conditiva Alef) after barley (Hordetum vulgare L.), the yield of marketable red beets increased by 5.7 Mg.ha(-1) (33%) with effluent from 2H-ley and beet foliage and 9.1 Mg.ha(-1) (53%) with effluent from 3H-ley and beet foliage compared with red beets grown without effluent fertilization after a green manure ley. When total dry matter production was taken into account, the advantage for the BC systems with 2H- and 3H-Iey was 15% and 28%, respectively. The nitrate concentration in the red beets was not higher with effluent supplied at this level than with green manure as the only N source. The simulated amount of net inorganic N equivalents was 128 kg N for the whole of crop sequence (C) with 1 ha of each crop and where effluent supply to red beets was based on digested biomass in ley and beet tops. The corresponding amount of net inorganic N equivalents for the green manure crop sequence (A), in which no effluent was supplied, was 73 kg N. Unused soil mineral N (0- to 90-cm depth) at red beet harvest indicated that the risk of leaching in BG systems was lower than in GrM systems (88, 76, and 61 kg N(min)/ha left after unmanured beets after Gr-M-Iey, low manured beets after 3H-ley and high manured beets after barley, respectively). Effluent fertilization of red beets directly after 2H- and 3H-ley gave unexpectedly low yield responses compared with red beets after barley. The reasons may be the result of nutritional imbalance of other nutrients than N or may be plant pathological in nature. The conclusion is that a nutrient management system with biodigestion can increase net inorganic N equivalents and reduce risk for N leaching, but inappropriate use of the effluent, i.e., at an unsuitable point in the crop rotation, may negate the benefits.

146. Pests and diseases in a changing climate: a major challenge for Finnish crop production

• Authors:
  • Jalli, M.
  • Huusela-Veistola, E.
  • Hannukkala, A. O.
  • Hakala, K.
  • Peltonen-Sainio, P.
• Source: Agricultural and Food Science
• Volume: 20
• Issue: 1
• Year: 2011
• Summary: A longer growing season and higher accumulated effective temperature sum (ETS) will improve crop production potential in Finland. The production potential of new or at present underutilised crops (e. g. maize (Zea mays L.), oilseed rape (Brassica napus L.), lucerne (Medicago sativa L.)) will improve and it will be possible to grow more productive varieties of the currently grown crops (spring wheat (Triticum aestivum L.), barley (Hordeum vulgare L.), oats (Avena sativa L.)). Also cultivation of autumn sown crops could increase if winters become milder and shorter, promoting overwintering success. Climatic conditions may on the other hand become restrictive in many ways. For example, early season droughts could intensify because of higher temperatures and consequent higher evaporation rates. Current low winter temperatures and short growing season help restrict the development and spread of pests and pathogens, but this could change in the future. Longer growing seasons, warmer autumns and milder winters may initiate new problems with higher occurrences of weeds, pests and pathogens, including new types of viruses and virus vectors. Anoxia of overwintering crops caused by ice encasement, and physical damage caused by freezing and melting of water over the fields may also increase. In this study we identify the most likely changes in crop species and varieties in Finland and the pest and pathogen species that are most likely to create production problems as a result of climate change during this century.

147. Methods of agrometeorological grain crop forecasts for the districts, farms, and fields.

• Authors:
  • Shostak, Z. A.
• Source: Russian Meteorology and Hydrology
• Volume: 36
• Issue: 12
• Year: 2011
• Summary: The methods are presented of agrometeorological forecasting of winter and spring grain crops for the district, all types of farm units, and field taking account of the regional crop forecast, weather conditions, cereal cropping technologies, and soil cultivation level. The additional yields of winter and spring wheat and spring barley and oat are developed depending on the soil cultivation level, summertime soil moistening, and doses of mineral fertilizers. The method tested on the basis of independent data demonstrated that the accuracy of such forecasts is 83-99% for the fields with intensive cultivation technology and 80% for the farm units.

148. Some quality characteristics of potato tubers grown in the ecological system depending on irrigation.; Wybrane cechy jakosci bulw ziemniakow uprawianych w systemie ekologicznym w zaleznosci od nawadniania.

• Authors:
  • Wierzbicka, A.
• Source: Journal of Research and Applications in Agricultural Engineering
• Volume: 56
• Issue: 4
• Year: 2011
• Summary: The aim of the study was to assess the dry matter, starch, vitamin C, glycoalkaloids and nitrates content in potato tubers from organic system cultivated in light, sandy soil of IHAR Jadwisin (Mazovia). The objective of this work was to evaluate the tuber chemical composition of 8 cultivars of potatoes under the influence of the irrigation. Irrigation had no effect on dry matter, starch and vitamin C, but significantly affected glycoalkaloids and nitrates. The study showed a significant effect of variety and years of research on the content of dry matter, starch, vitamin C, nitrates and glicoalkaloids. Genotypic differences were the most evident in the case of nitrates and glycoalkaloids content. Under the influence of irrigation decreased the nitrate content and increased content of glycoalkaloids.

149. 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.

150. 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.