371. Optimisation of fertilisation for irrigated vegetables.; Optimisation de la fertilisation azotee de cultures industrielles legumieres sous irrigation.

• Authors:
  • Xanthoulis, D.
  • Heens, B.
  • Fonder, N.
• Source: Biotechnologie, Agronomie, Société et Environnement
• Volume: 14
• Issue: S1
• Year: 2010
• Summary: Experiments were performed over four years, testing five cultivations to optimise mineral nitrogen fertilisation when irrigation with wastewater occurs. The experimental site was located inside an irrigated perimeter around the agro-food industry Hesbaye Frost, producing frozen vegetables, in Belgium. Depending on the crop rotation adopted by the farmer, four vegetable cultivations (spinach, bean, carrot and broad bean) and one cereal (winter wheat) were tested. Because of the time required for implementation of the experiment and meteorological conditions, the irrigation factor was not tested for spinach (1999) and wheat (2000) cultivations. The two experimental factors were three fertilisation levels, with comparison to a reference without any mineral nitrogen supply, and irrigation with or without wastewater. These factors were assessed for their impacts on crop yields and mineral nitrogen residues in the soil after harvest. The three vegetable cultivations of bean, carrot and broad bean were irrigated and systematically presented statistically higher yields with wastewater irrigation supply than without. The fertilisation factor also significantly improved all the yields, or protein rate for cereal cultivation, except for carrot and broad bean where differences were not significant, even for the zero fertilisation rate. The nitrogen residues in the soil after harvest were acceptable and regular as long as the fertilisation advice was not exceeded; the maximum fertilisation level tested, 50% higher than the recommendation, systematically left unacceptable nitrogen residues in the soil, harmful for the environment. Mainly located on the top surface horizon layers, the nitrogen residues could be held back by a catch crop classified as a nitrogen trap, with the condition to be set on late summer, with fall being considered as too late to have any influence to avoid nitrogen leaching. For all fertilisation levels, nitrogen residues were too high for the broad beans cultivation because of the phenomenon of surface mineral nitrogen release, due to meteorological conditions and the wastewater high nitrogen load brought by irrigation. The nitrogen residues under conditions of no irrigation were higher than under irrigation. Irrigation allowed better nitrogen solubility, easier for uptake by the plants and thus left fewer residues in the soil.

372. Sleepers in the soil - vertical distribution by tillage and long-term survival of oilseed rape seeds compared with plastic pellets.

• Authors:
  • Claupein, W.
  • Mohring, J.
  • Bühler, A.
  • Gruber, S.
• Source: European Journal of Agronomy
• Volume: 33
• Issue: 2
• Year: 2010
• Summary: Conventional tillage systems with high soil disturbance are being steadily replaced by tillage systems with low or no soil disturbance. An approach using three methodological steps (greenhouse, deliberate seed burial and field) revealed the long-term vertical distribution and losses of a soil seed bank as effects of different tillage operations. Seeds (oilseed rape; Brassica napus L.) and seed substitutes (plastic pellets) acted as models for a seed bank. (a) A pot experiment in the greenhouse showed that emergence rates were highest in soil depths of 1-5 cm. Germination and emergence was clearly reduced in depths of 0 and 7 cm, and emergence was completely inhibited at 12 cm. About 40-50% of seeds fell dormant in 0 and 12 cm depth, while almost no seeds fell dormant in 1-7 cm depth. (b) The high-dormancy variety Smart persisted to a high extent (60% of the initial seed number), but only 8% of seeds of the low-dormancy variety Express persisted over 4.5 years, after deliberate seed burial. Seed persistence was similar in all soil depths of 0-10 cm, 10-20 cm, and 20-30 cm. (c) The field experiment lasted from 2004 to 2009 and had different tillage treatments of inversion and non-inversion tillage: stubble tillage immediately after harvest combined with primary tillage by mouldboard plough (SP), chisel plough (SC), or rototiller (SRTT); primary tillage without stubble tillage by mouldboard plough (P), chisel plough (C); or no tillage (NT). The seed bank from an artificial seed rain of 20,000 seeds m -2 was significantly higher in all treatments with immediate stubble tillage, and clearly declined over time. However, seed bank depletion was slow once a seed bank had been established. The distribution of oilseed rape seeds and plastic pellets (7000 pellets m -2 broadcast) tended to equalise over the soil layers of 0-10, 10-20 and 20-30 cm over the course of five years. Since seed bank depletion was not attributable to a specific soil depth, shallow and low disturbance tillage did not generally result in a high seed persistence. More important than the depth was the timing of tillage. Though no-till systems provided conditions for seeds to fall dormant at the soil surface to a small extent, the effect lasted only for a limited time. Seed substitutes can be well used in methodological approaches to picture movement of seeds in the soil in order to optimize tillage strategies in agricultural practice.

373. Safe application of reclaimed water reuse for agriculture in Korea.

• Authors:
  • Park, S. W.
  • Lee, H. P.
  • Sung, C. H.
  • Lee, S. B.
  • Jang, T. I.
• Source: Paddy and Water Environment
• Volume: 8
• Issue: 3
• Year: 2010
• Summary: This article describes the pilot study on the water reuse for agricultural irrigation in Korea. The project is a part of the application of wastewater reuse system for Agriculture project, a 21st Century Frontier R&D Program sponsored by the Ministry of Education, Science, and Technology and associated with the Sustainable Water Resources Research Program. The goal of the project was to develop infra-technologies necessary to reclaim wastewater for irrigation in agriculture. The project involved two phases: laboratory and field research. Reclamation techniques for irrigation and feasible reuse were developed as a first step in proposing appropriate water quality standards. Reclaimed wastewater of various qualities was used to irrigate cereal crops and vegetables, and possible adverse effects on crops, humans, and the environment were investigated. The optimal reclamation methods required to satisfy water quality standards were explored and the operational characteristics investigated. Moreover, an inventory of farmlands that could reuse reclaimed wastewater was established. Feasible delivery systems for irrigation were developed, and pilot project sites were identified. Finally, operational field data from pilot units were collected and analyzed. This research and development may help solve water shortage problems in Korea, which left unaddressed will have an adverse effect on future generations.

374. Effect of various sources of organic manures on yield and yield attributes of irrigated maize ( Zea mays L.) Super 900M.

• Authors:
  • Pitchai, G. J.
  • Kumar, V. S.
• Source: Asian Journal of Soil Science
• Volume: 5
• Issue: 2
• Year: 2010
• Summary: Maize is the third most important cereal crop after wheat and rice grown in virtually every suitable agricultural region of the globe. Maize being an exhaustive crop responds well to higher levels of NPK. The use of organic sources had significant effect on macro and micronutrients and thus it helps in sustenance of the soil fertility. For the study, a field experiment was conducted in Malayalathanpatty village, Madurai to evaluate the response of maize (Super 900M) with different organic sources like vermicompost, sewage sludge, green leaf manures and composted coir pith combined with inorganic fertilizers. There were ten treatment combinations replicated thrice in RBD in Annaiyur soil series (Entic Haplustert). The results showed that the highest grain yield of 4402 kg ha -1 was recorded in treatment that received vermicompost @ 5 t ha -1 with 75 per cent RDF and it was found to be superior to over other treatments.

375. Managing Cranesbill across a short rotation: effects of the cultivation depth, and the type or timing of oilseed rape drilling.; Gestion des geraniums dans une rotation colza-ble-orge: effets du dechaumage et des dates et techniques de semis du colza. colza-ble-orge: effets du dechaumage et des dates et techniques de semis du colza.

• Authors:
  • Duroueix, F.
  • Sauzet, G.
  • Lieven, J.
• Source: 21ème Conférence du COLUMA. Journées Internationales sur la Lutte contre les Mauvaises Herbes, Dijon, France, 8-9 décembre, 2010
• Year: 2010
• Summary: CETIOM evaluated cultural methods during the intercropping period in the Berry region. Shallow tillage before winter oilseed rape (WOSR) or before winter barley were not effective to stimulate weed germination. Before winter wheat drilling, it gave whole satisfaction. Other results indicated a back-effect of the cultivation before WOSR establishment on the autumnal infestation of Crane's-bills. Deep cultivation (10-15 cms), realized a few weeks preceding the WOSR drilling, amplified the autumnal weed emergence, probably by bringing old seeds from depth to the surface and by breaking their dormancy. In comparison, a very shallow cultivation sharply reduced the subsequent weed infestation in the WOSR. Finally, if the interest of no-till drilling to limit the weed emergence was confirmed, that of the delayed drilling was not attested.

376. Western Climate Initiative

• Authors:
  • WCI
• Volume: 2010
• Year: 2010
• Summary: Welcome to the Western Climate Initiative (WCI). The WCI is a collaboration of independent jurisdictions working together to identify, evaluate, and implement emissions trading policies to tackle climate change at a regional level. This is a comprehensive effort to reduce greenhouse gas pollution, spur investment in clean-energy technologies that create green jobs and reduce dependence on imported oil.

377. Trends in the Northeast dairy industry: Large-scale modern confinement feeding and management-intensive grazing

• Authors:
  • Hyman, J. M.
  • Lichau, A.
  • Richardson, A.
  • Kerchner, C. D.
  • Winsten, J. R.
• Source: Journal of Dairy Science
• Volume: 93
• Issue: 4
• Year: 2010
• Summary: This paper provides a summary of results from a recent survey of 987 dairy farmers in 4 northeastern US states. The survey results provide descriptive characteristics of the current state of dairy farming in the region, as well as farmer satisfaction levels, concerns, and plans for the future of their farming operations. The paper analyses characteristics of two increasingly important dairy production systems used in the Northeast. Averages from across the survey states (Maryland, Pennsylvania, New York, and Vermont) show that approximately 13% of dairy producers use management-intensive or rotational grazing and 7% use large, modern confinement systems with more than 300 cows. These more specialized production systems show many significant differences in farm and farmer characteristics, satisfaction levels, and plans for the future compared with farms using more traditional production systems. The changing structure of the dairy industry has potentially important implications for environmental quality, rural communities, and the food system.

378. Global warming contributions from wheat, sheep meat and wool production in Victoria, Australia. A life cycle assessment.

• Authors:
  • Biswas, W. K.
  • John, M. B.
  • Kelly, K.
  • Graham, J.
• Source: Journal of Cleaner Production
• Volume: 18
• Issue: 14
• Year: 2010

379. Influence of nitrification inhibitors on nitrification and nitrous oxide (N2O) emission from a clay loam soil fertilized with urea

• Authors:
  • Chen, D.
  • Suter, H. C.
  • Islam, A.
  • Edis, R.
• Source: Soil Biology and Biochemistry
• Volume: 42
• Issue: 4
• Year: 2010

380. Biofuels agriculture: landscape-scale trade-offs between fuel, economics, carbon, energy, food, and fiber

• Authors:
  • Bryan, B. A.
  • King, D.
  • Wang, E.
• Source: Global Change Biology Bioenergy
• Volume: 2
• Issue: 6
• Year: 2010
• Summary: First-generation biofuels are an existing, scalable form of renewable energy of the type urgently required to mitigate climate change. In this study, we assessed the potential benefits, costs, and trade-offs associated with biofuels agriculture to inform bioenergy policy. We assessed different climate change and carbon subsidy scenarios in an 11.9 million ha (5.48 million ha arable) region in southern Australia. We modeled the spatial distribution of agricultural production, full life-cycle net greenhouse gas (GHG) emissions and net energy, and economic profitability for both food agriculture (wheat, legumes, sheep rotation) and biofuels agriculture (wheat, canola rotation for ethanol/biodiesel production). The costs, benefits, and trade-offs associated with biofuels agriculture varied geographically, with climate change, and with the level of carbon subsidy. Below we describe the results in general and provide (in parentheses) illustrative results under historical mean climate and a carbon subsidy of A$20 t−1 CO2−e. Biofuels agriculture was more profitable over an extensive area (2.85 million ha) of the most productive arable land and produced large quantities of biofuels (1.7 GL yr−1). Biofuels agriculture substantially increased economic profit (145.8 million $A yr−1 or 30%), but had only a modest net GHG abatement (−2.57 million t CO2−e yr−1), and a negligible effect on net energy production (−0.11 PJ yr−1). However, food production was considerably reduced in terms of grain (−3.04 million t yr−1) and sheep meat (−1.89 million head yr−1). Wool fiber production was also substantially reduced (−23.19 kt yr−1). While biofuels agriculture can produce short-term benefits, it also has costs, and the vulnerability of biofuels to climatic warming and drying renders it a myopic strategy. Nonetheless, in some areas the profitability of biofuels agriculture is robust to variation in climate and level of carbon subsidy and these areas may form part of a long-term diversified mix of land-use solutions to climate change if trade-offs can be managed.