981. Yield and water use efficiency of wheat and cotton under alternate furrow and check-basin irrigation with canal and tube well water in Punjab, India.

• Authors:
  • Buttar, G. S.
  • Thind, H. S.
  • Aujla, M. S.
• Source: Irrigation Science
• Volume: 28
• Issue: 6
• Year: 2010
• Summary: A 4-year field experiment was conducted in a semi-arid area to evaluate the response of each furrow and alternate furrow irrigation in wheat-cotton system using irrigation waters of different qualities in a calcareous soil. Irrigation was applied to each and alternate furrow of bed-planted wheat followed by ridge-planted cotton for comparison with standard check-basin method of irrigation to both the crops. These methods of irrigation were evaluated under three water qualities namely good quality canal water (CW), poor quality tube well water (TW) and pre-sowing irrigation to each crop with CW and all subsequent irrigations with TW (CWpsi+TW). The pooled results over 4 years revealed that wheat grain yield was not affected significantly with quality of irrigation water, but significant yield reduction was observed in alternate bed irrigation under canal water and tube well water irrigations. In cotton, poor quality tube well water significantly reduced the seed cotton yield in all the three methods of planting. The pre-sowing irrigation with canal water and all subsequent irrigations with tube well water improved the seed cotton yield when compared with tube well water alone. However, this yield increase was significant only in alternate furrow irrigation, and the yield obtained was on a par with yield under alternate furrow in CW. When compared to check-basin irrigation, each furrow and alternate furrow irrigation resulted in a saving of 30 and 49% of irrigation water in bed-planted wheat, whereas the corresponding savings in ridge-planted cotton were 20 and 42%, respectively. Reduced use of irrigation water under alternate furrow, without any significant reduction in yield, resulted in 28.1, 23.9 and 43.2% higher water use efficiency in wheat under CW, TW and CWpsi+TW, respectively. The corresponding increase under cotton was 8.2, 2.1 and 19.5%. The implementation of alternate furrow irrigation improved the water use efficiency without any loss in yield, thus reduced use of irrigation water especially under poor quality irrigation water with pre-sowing irrigation with canal water reduced the deteriorating effects on yield and soil under these calcareous soils.

982. Effects of irrigation and nitrogen application rates on nitrate nitrogen distribution and fertilizer nitrogen loss, wheat yield and nitrogen uptake on a recently reclaimed sandy farmland.

• Authors:
  • Song, W. X.
  • Zhao, W. Z.
  • Shi, S. L.
  • Zhang, E. H.
  • Zhao, L.
  • Li, F. R.
  • Wang, Q.
  • Vance, M. M.
• Source: Plant and Soil
• Volume: 337
• Issue: 1/2
• Year: 2010
• Summary: Monitoring of drinking water has shown an increase in nitrate-nitrogen (NO 3--N) concentration in groundwater in some areas of the Heihe River Basin, Northwest China. A combination of careful irrigation and nitrogen (N) management is needed to improve N uptake efficiency and to minimize fertilizer N loss. A 2-year experiment investigated the effects of different irrigation and N application rates on soil NO 3--N distribution and fertilizer N loss, wheat grain yield and N uptake on recently reclaimed sandy farmland. The experiment followed a completely randomized split-plot design, taking flood irrigation (0.6, 0.8 and 1.0 of the estimated evapotranspiration) as main plot treatment and N-supply as split-plot treatment (with five levels of 0, 79, 140, 221, 300 kgN ha -1). Fertilizer N loss was calculated according to N balance equation. Our results showed that, under deficit irrigation conditions, N fertilizer application at a rate of 300 kgha -1 promoted NO 3--N concentration in 0-200 cm depth soil profiles, and treatments with 221 kgN ha -1 also increased soil NO 3--N concentrations only in the surface layers. Fertilizer N rates of 70 and 140 kgha -1 did not increase NO 3--N concentration in the 0-200 cm soil profile remaining after the spring wheat growing season. The amount of residual NO 3--N in soil profiles decreased with the amount of irrigation. Compared with N 0, the increases of fertilizer N loss, in N 79, N 140, N 221 and N 300 respectively, were 59.9, 104.6, 143.5 and 210.6 kgha -1 over 2 years. Under these experimental conditions, a N rate of 221 kgha -1 obtained the highest values of grain yield (2775 kgha -1), above-ground dry matter (5310 kgha -1) and plant N uptake (103.8 kgha -1) over 2 years. The results clearly showed that the relative high grain yield and irrigation water productivity, and relative low N loss were achieved with application of 221 kgN ha -1 and low irrigation, the recommendation should be for those farmers who use the upper range of the recommended 150-400 kgN ha -1, that they can save about 45% of their N and 40% of their irrigation water application.

983. Compression characteristics of non-treated and steam-exploded barley, canola, oat, and wheat straw grinds.

• Authors:
  • Tabil, L. G.
  • Adapa, P. K.
  • Schoenau, G. J.
• Source: Applied Engineering in Agriculture
• Volume: 26
• Issue: 4
• Year: 2010
• Summary: Compaction of low bulk density agricultural biomass is a critical and desirable operation for sustainable and economic availability of feedstock for biofuel industry. A comprehensive study of the compression characteristics (density of pellet and total specific energy required for compression) of ground non-treated and steam-exploded barley, canola, oat, and wheat straw obtained from three hammer mill screen sizes of 6.4, 3.2 and 1.6 mm at 10% moisture content (wb) was conducted. Four preset pressures of 31.6, 63.2, 94.7, and 138.9 MPa were applied using an Instron testing machine to compress samples in a cylindrical die. Ground steam-exploded barley straw at screen sizes of either 3.2 or 1.6 mm produced high density compacts, while ground steam-exploded canola, oat, and wheat straw at screen sizes of 6.4, 3.2 or 1.6 mm produced high density compacts. Steam-exploded barley straw for 3.2 mm at 138.9 MPa produced compacts having 13% higher density and consumed 19% lower total specific energy compared to non-treated straw. Steam-exploded canola straw for 1.6 mm at 138.9 MPa produced compacts having 13% higher density and consumed 22% higher total specific energy compared to non-treated straw. Steam-exploded oat straw for 3.2 mm at 94.7 MPa produced compacts having 19% higher density and consumed 13% higher total specific energy compared to non-treated straw. Steam-exploded wheat straw for 6.4 mm at 138.9 MPa produced compacts having 17% higher density and consumed 17% higher total specific energy compared to non-treated straw. Three compression models, namely: Jones model, Cooper-Eaton model, and Kawakita-Ludde model were considered to determine the pressure-volume and pressure-density relationship of non-treated and steam-exploded straws. Kawakita-Ludde model provided the best fit to the experimental data having R 2 values of 0.99 for non-treated straw and 1.00 for steam-exploded biomass samples. The steam-exploded straw had higher porosity than non-treated straw. In addition, the steam-exploded straw was easier to compress since it had lower yield strength or failure stress values compared to non-treated straw.

984. Weed Populations as Affected by Residue Management Practices in a Wheat-Soybean Double-Crop Production System

• Authors:
  • Kelley, J.
  • Oliver, D.
  • Gbur, E. E.
  • Brye, K. R.
  • Amuri, N.
• Source: Weed Science
• Volume: 58
• Issue: 3
• Year: 2010
• Summary: Management practices and cropping systems that serve as integrated weed management practices, and at the same time can contribute to improved soil quality, will be important for the sustainability of agricultural production systems. The objective of this study was to assess weed species population density under contrasting tillage (conventional tillage [CT] and no tillage [NT]), residue burning (burn and no burn), and residue level (low and high) treatments after 5 and 6 yr of consistent management in a wheat-soybean double-crop production system. A field experiment was conducted from fall 2001 to fall 2007 in the Mississippi River Delta region of eastern Arkansas on a Calloway silt-loam. Weed assessments were conducted twice during the soybean growing season, before (early season) and after herbicide application (late season) in 2006 and 2007. Total weed density was greater under CT (513 plants m(-2)) than under NT (340 plants m(-2)) early in the growing season in 2006, but was greater under NT than CT late in the season in 2007, suggesting that the effectiveness of glyphosate on total weeds differs between CT and NT. Averaged across residue levels, grass species density was greatest in the NT burn (68 to 167 plants m(-2)) combination and lowest in the NT no-burn (41 to 63 plants m(-2)) early in the growing season in both years. Broadleaf density was greater early (200 to 349 plants m(-2)) than late (18 to 20 plants m(-2)) in the growing season under both CT and NT in 2006, but in 2007 broadleaf density did not differ by tillage treatment between seasons. Perennial weed density was greater in the burn (99 plants m(-2)) than in the no-burn (59 plants m(-2)) treatment in 2006. No tillage, no burning, and a high residue level appeared to contribute to the suppression of most weed species without reducing herbicide efficiency.

985. Survival and reproduction of the pest mites Balaustium medicagoense and Bryobia spp. on winter grain crops

• Authors:
  • Hoffmann, A. A.
  • Umina, P. A.
  • Weeks, A. R.
  • Arthur, A. L.
• Source: Experimental and Applied Acarology
• Volume: 52
• Issue: 2
• Year: 2010
• Summary: Balaustium medicagoense and Bryobia spp. have recently been identified as emerging pests of winter crops and pastures in Australia. These mites have a high natural tolerance to currently registered pesticides, highlighting the need to develop alternative control strategies such as cultural controls which require an understanding of plant associations. In shade-house experiments, Bryobia spp. survived and reproduced successfully on pasture, lupins and oats, but progeny failed to reach the adult stage on canola and wheat. Balaustium medicagoense progeny failed to produce a generation on any crop but parental adults survived a few months on all crops, particularly wheat. Bryobia spp. damaged canola, pasture and lupins, but caused minimal damage to oats and wheat, whereas Ba. medicagoense caused considerable damage to wheat and lupins, but only moderate damage to canola, oats and pasture. Field survey data, taken from approximately 450 sites across southern Australia, combined with analysis of historical pest reports, suggest broadleaf crops such as canola, lucerne, lupins and weeds appear particularly susceptible to attack by Bryobia species. Balaustium medicagoense was more commonly found on cereals and grasses, although they also attacked broadleaf crops, particularly canola, lucerne and lupins. These findings show that the mites have the potential to be an important pest on several winter grain crops and pasture, but there are important differences that can assist in management strategies such as targeted crop rotations.

986. Economics of crop diversification in Akola district of Vidarbha.

• Authors:
  • Raut, D. V.
  • Bhopale, A. A.
  • Awaghad, P. R.
  • Rathod, A. L.
• Source: Annals of Plant Physiology
• Volume: 24
• Issue: 1
• Year: 2010
• Summary: The study of cropping pattern assumes a great significance as it is one of the important path for balanced development of agriculture to meet the human requirements. In this context, an effort has been made to examine the changes in cropping pattern in Akola district (M.S.) extent of crop diversification and economics. The present study was based on secondary data collected from different government publications. The data covered a period of 21 years i.e. 1986-87 to 2006-07. In all 8 crops were considered for study. Simple tabular analysis was used to examine the changes in cropping pattern in various tahsils of Akola district (M.S.). In order to study the extent of crop diversification Herfindahl index has been used. In order to study the economics of crop diversification, land concentration ratio in tahsils with comparative advantage was computed for selected years. Tahsil wise analysis showed that the area under kharif jowar has found to be decreased in all the tahsils of Akola district Area under tur crop was decreased in Barshitakali and patur tahsil. The area under mung has found to be increased in all the tahsils. Cotton still remains as major crop of the district. In majority of tahsils of Akola district i.e. Balapur, Barshitakali and Patur, Crop diversification has significantly increased during the study period. While in Murtizapur tahsil it has showed more or less stationery diversification. The results of analysis of economics of crop diversification revealed that, no one crop has shown increasing or decreasing trend of land concentration ratio over the time. Particular crop was beneficial in the particular year in the district.

987. The influence of the crop rotation on some indicators of the wheat yield quality in the conditions of the Crisurilor plain.

• Authors:
  • Domua, C.
  • Borza, I.
  • Ardelean, I.
  • Domuta, C.
  • Bandici, G.
  • Radu, B.
• Source: Natural Resources and Sustainable Development
• Issue: 2010
• Year: 2010
• Summary: The paper sustain the importance of the crop rotation on quality of the wheat yield and is based on the results carried out during 2003-2006 in a long term trial out placed on the preluvosoil from Oradea in 1990. Both in nonirrigated and irrigated conditions the smallest values of the protein, wet gluten and dry gluten were obtained in wheat monocrop; the values increased in the crop rotation wheat maize and the biggest values were registered in the crop rotation wheat-maize-soybean.

988. Challenges and characteristics of the South American grain and oilseed postharvest system.

• Authors:
  • Bartosik, R.
• Source: Julius-Kühn-Archiv
• Issue: 425
• Year: 2010
• Summary: Concerning grain production, South America is divided in two main regions: (1) the Mercosur region (Argentina, Brazil, Uruguay and Paraguay) which produces more than 250 million tonnes of grains and oilseeds, and (2) the Andes Mountain region countries, which are net importers of these products. The main challenges related to grain postharvest that South America is facing are to minimize the quality and quantity losses; improve the food safety; enhance the capability for segregation and traceability of identity preserved (IP) grains; and incorporate technology to maintain the overall efficiency of the postharvest system. Among the critical points affecting the efficiency of the system are the shortage of permanent storage capacity; large storage structures which affects the segregation of IP grains; deficient transportation system (roads and railroads); poor management of integrated pest control system; and unsatisfied demand of formal and informal education in suitable grain postharvest technologies and practices. However, the region remains highly competitive in producing and delivering food for the rest of the world and it has demonstrated high capacity for incorporating cost efficient grain handling technologies. As a result, one of the main changes in the region was the appearance of the silobag system for temporary storage of dry grain and oilseeds. Each silobag can hold approximately 200 tonnes of wheat and with the available handling equipment is quite simple to load and unload. During the 2008 harvest season, more than 33 million tonnes of grain were stored in these plastic bags in Argentina (including corn, soybean, wheat, sunflower, malting barley, canola, cotton seed, rice, lentils, sorghum, beans and even fertilizers). The silobag technology is also being adopted not only in neighbor countries, but also in countries around the world such as the USA, Mexico, South Africa, Australia, Russia and Ukraine, among others.

989. Analysis of methane yields from energy crops and agricultural by-products and estimation of energy potential from sustainable crop rotation systems in EU-27

• Authors:
  • Friedl, A.
  • Amon, B.
  • Boesch, P.
  • Leonhartsberger, C.
  • Bauer, A.
  • Amon, T.
• Source: Clean Technologies and Environmental Policy
• Volume: 12
• Issue: 2
• Year: 2010
• Summary: Currently an increasing demand for renewable energy can be observed. A part of this demand could be covered by the production of energy from agrarian biomass. Due to the limited availability of arable land, food and feed production are starting to compete for agrarian resources. A way out of this dilemma is to develop concepts that are based on otherwise unused agrarian biomass like straw and include new technologies for the fermentation of lignocellulosic biomass. In this paper, the energy potentials of two different cropping systems are compared. In the energy-based crop rotation system all crops were used either for biogas or ethanol production. In the biorefinery-based approach, the various crops were used in cascades for the production of food as well as feed. Experimental laboratory work and field trials were combined to calculate energy and biomass yields of the crops under investigation. The results demonstrate that steam explosion pretreatment of wheat straw led to a 30% increase in the specific methane yield. The calculated energy output of the biorefinery-based crop rotation system amounted to a total of 126 GJ ha(-1) year(-1). Extrapolating this energy output to the total arable land of the EU-27 member states, 13,608 PJ of energy could be produced. Therefore, biorefinery-based crop rotation systems could provide approximately three times more energy to the European population than energy-based crop rotation systems.

990. Red fescue undersown in winter wheat suppresses Elytrigia repens

• Authors:
  • Hansson, M.
  • Adler, A.
  • Bergkvist, G.
  • Weih, M.
• Source: Weed Research
• Volume: 50
• Issue: 5
• Year: 2010
• Summary: P>Elytrigia repens (syn. Elymus repens) is a perennial grass weed that is controlled by herbicides or by tillage. Both methods are expensive and may have negative effects on the environment. Therefore, alternative methods of weed control, such as using competition from under-sown perennial forage crops, are of interest. Red fescue can be sown together with winter wheat as a non-flowering understorey crop that has its main growth during late summer and autumn. This study quantified the effect of red fescue and E. repens on wheat biomass and tested the hypothesis that under-sown red fescue reduces the amount of E. repens rhizomes and thus the need for herbicides or tillage. Two field experiments in which winter wheat, red fescue and E. repens were grown in all possible combinations were conducted between 2003 and 2005. Elytrigia repens reduced wheat biomass by 8%, while red fescue had no significant effect on wheat biomass. Red fescue reduced late autumn biomass of E. repens rhizomes by 40%. The results suggest that red fescue sown with winter wheat can reduce propagation of E. repens during summer and autumn, without a significant reduction in wheat biomass.