601. One-time tillage of no-till crop land five years post-tillage.

• Authors:
  • Franti, T.
  • Drijber, R.
  • Wortmann, C.
• Source: Agronomy Journal
• Volume: 102
• Issue: 4
• Year: 2010
• Summary: Continuous no-till (NT) can be beneficial relative to tillage with fewer field operations, reduced erosion, and surface soil improvement. Field research was conducted at two locations for 5 yr in eastern Nebraska to test the hypotheses that one-time tillage of NT can result in increased grain yield, reduced stratification of soil properties persisting for at least 5 yr, a net gain in soil organic carbon (SOC), and a restoration of the soil microbial community to NT composition. Stratification of soil test P, SOC, and bulk density was similar for all tillage treatments at 5 yr after tillage. Water stable soil aggregates (WSA) were not affected by tillage treatments except that there was more soil as macroaggregates at one location in the 5- to 10-cm depth with moldboard plow tillage (MP) compared with NT. Tillage treatments had no effect on SOC mass in the 0- to 30-cm depth. Soil microbial biomass was greater at the 0- to 5-cm compared with the 5- to 10-cm depth. Biomass of bacteria, actinomycetes, and arbuscular mycorrhizal fungi was greater with NT compared with one-time MP at one location but not affected by the one-time tillage at the other location. Microbial community structure differed among tillage treatments at the 0- to 5-cm depth at one location but not at the other location. Grain yield generally was not affected by tillage treatment. One-time tillage of NT can be done without measureable effects on yield or soil properties.

602. Dryland performance of sweet sorghum and grain crops for biofuel in Nebraska.

• Authors:
  • Ferguson, R. B.
  • Liska, A. J.
  • Wortmann, C. S.
  • Lyon, D. J.
  • Klein, R. N.
  • Dweikat, I.
• Source: Agronomy Journal
• Volume: 102
• Issue: 1
• Year: 2010
• Summary: Sweet sorghum [SS; Sorghum bicolor (L.) Moench] is a potential biofuel crop for the Great Plains. Sweet sorghum was compared with corn [ Zea mays (L.)] and grain sorghum for potential ethanol yield, energy use efficiency, and greenhouse gas (GHG) emissions at seven dryland site-years in Nebraska. Seasonal rainfall ranged from approximately 340 to 660 mm. Soils were deep with medium texture at all site-years. The effects of seeding rate, N rate, and cultivar on SS performance were evaluated. Sweet sorghum sugar yield was not affected by seeding rate and N application at six of seven site-years, but yield was increased by 19% at one site-year. Calculated ethanol yield and net energy yield were 33 and 21% more, respectively, with the grain crops compared with SS, but mean net energy yield of an earlier-maturing SS cultivar was comparable with the grain crops. The mean ratio of energy produced in ethanol per total energy invested was 23% less for grain crops compared with SS. Mean life cycle GHG emissions were 53% and 66 to 69% less compared with gasoline for SS and grain crops, respectively. Very efficient use of the ethanol coproducts was assumed for the grain crops while SS bagasse was assumed to be returned to the field. At least one SS cultivar is competitive with grain crops for some biofuel criteria, but SS is not competitive with grain crops for total or net liquid transportation fuel produced per hectare.

603. Effects of conservation tillage on crop yield and carbon pool management index on top soil within a maize-wheat-soy rotation system in the Loess Plateau.

• Authors:
  • Li, G.
  • Luo, C.
  • Wang, X.
  • Niu, Y.
  • Gao, C.
  • Nan, Z.
  • Shen, Y.
  • Yang, J.
• Source: Acta Prataculturae Sinica
• Volume: 19
• Issue: 1
• Year: 2010
• Summary: The effects of conventional tillage (t), conventional tillage with stubble retention (ts), no-tillage (nt), and no-tillage with stubble retention (nts) treatment on crop yield, soil total nitrogen and carbon, total organic carbon, oxidizible organic carbon, and carbon pool management index (CPMI) were investigated within a maize-wheat-soy rotation system in the western Loess Plateau. Total crop yield for ten harvests during the years 2001 to 2007 under ts and nts treatments increased by 3.63 and 1.62 g/kg compared with conventional tillage, but decreased by 2.48 g/kg on the nt treatment. Total nitrogen contents under nts treatment were 15.4%, 30.2% and 16.2% higher than t, ts and nt treatments. Total carbon under nts treatment was significantly increased by 2.04 g/kg and total organic carbon were 2.50, 1.56 and 1.70 g/kg higher than under t, ts and nt treatment, respectively. Easily oxidized organic carbon under nts was 2.13 g/kg higher than under t treatment. TN/TC decreased by 12.75%, 15.97%, 6.87% and 24.16% under t, ts, nt and nts treatments. The CPMI under ts, nt and nts were 12.6%, 20.1% and 46.6% higher than under t, both stubble retention and no-till were beneficial to increasing the soil organic carbon content and improving the quality of the carbon pool.

604. Using maize as a reference plant material and natural 13C for field assays of soil carbon dynamics.

• Authors:
  • Balesdent, J.
  • Munoz, C.
  • Vidal, I.
  • Zagal, E.
• Source: Proceedings of the 19th World Congress of Soil Science: Soil solutions for a changing world
• Year: 2010
• Summary: Sustainable agriculture should maintain soil organic carbon to prevent soil degradation and erosion, but soil C management still requires basic data on soil C dynamics under many climates, soil types and land uses. We applied a simple field method for the measurement of soil carbon dynamics, based on the natural 13C labelling technique of carbon inputs. The method implies the addition of locally produced maize material into the soil with C3 crops, in a simple, light and cost-effective design, and the kinetic analysis of soil 13C/ 12C. In Chile the approach was applied on a nine years fertility experiment with no till conditions sustaining a wheat-oat rotation, and followed thereafter for 5 years. The experimental site is located in the Andes pre-mountain (36degrees55′S, 71degrees53′O). The soil is of volcanic origin (medial, amorphic, mesic, Typic Haploxerands) and the crop rotation wheat-oat. The labeling technique showed that a very low amount (about 1 t ha -1) was incorporated to the soil (new C) during the time-period of the experiment (4 years). The ratio of remaining C/ added C after 4 years was very low (0.03) suggesting that the high carbon content of the soil can therefore be considered as due to a large amount of passive carbon, or to ancient carbon inputs, that have saturated the sorption capacity.

605. Sediments transported from an Hapludox through water erosion events.; Sedimentos transportados pela enxurrada em eventos de erosao hidrica em um Nitossolo Haplico.

• Authors:
  • Cogo, N. P.
  • Paz Gonzalez, A.
  • Vidal Vazquez, E.
  • Bertol, I.
  • Luciano, R. V.
  • Fabian, E. L.
• Source: REVISTA BRASILEIRA DE CIENCIA DO SOLO
• Volume: 34
• Issue: 1
• Year: 2010
• Summary: Quantity and size distribution of sediments transported by runoff are influenced by soil management, cover and crop systems, and by rainfall, among other factors, representing an important aspect in soil conservation planning. The objective of this study was to quantify runoff sediments and relate them with runoff velocity, during soybean growth, in a simulated rainfall experiment initiated in 1998 on a typical Hapludox, under the following soil management systems: conventional tillage with one plowing plus two diskings (CT) and no-tillage on a never tilled soil with burned residues (NT). In these treatments, the rotation crop systems consisted of oat, soybean, vetch, corn, oats, bean, fodder radish, soybean, vetch, corn, and soybean. An additional treatment with bare soil with one plowing plus two diskings (BS) was also studied. Five simulated rainfall tests were applied to the treatments in the last soybean crop cycle, with an intensity of 63-67 mm h -1 for one hour, 24 h after a pre-wetting rainfall, with an intensity of 65 mm h -1 and long enough to initiate runoff. The sediments were quantified in runoff samples collected 10 minutes before the end of each simulated rainfall test, and were related with the runoff velocity. The sediment size in the runoff was influenced by soil management systems and the rainfall quantity. In the treatment without soil cover (BS), the quantity of coarse sediments was higher than in the treatments with cultivated soil, whereas in CT and NT treatments the quantity of fine-sized sediments was higher than in the BS treatment. More sediments tended to be transported in the runoff with the application of more rainfall events. The sediment quantity transported by runoff was related with the sediment size, fitting to a positive exponential model, while runoff velocity decreased exponentially with increased soil cover. The D 50 index was related with other variables, fitting to the potential model and increasing with runoff velocity.

606. Host suitability of oats for Pratylenchus brachyurus.; Reacao de aveias a Pratylenchus brachyurus.

• Authors:
  • Inomoto, M. M.
  • Machado, A. C. Z.
  • Borges, D. C.
• Source: Tropical Plant Pathology
• Volume: 35
• Issue: 3
• Year: 2010
• Summary: Black oat ( Avena strigosa), white oat ( A. sativa) and Algerian oat ( A. byzantina) are extensively cultivated in the south of Brazil for grain, forage, hay and silage production, or as cover crop in no-tillage and crop-pasture integration systems. In both systems, the genotypes of oat used as cover crop must be nonhosts or poor hosts of damaging nematodes for summer cash crops. Taking into account the relevance of Pratylenchus brachyurus as a pathogen for many cash crops in Brazil, two experiments were carried out in a glasshouse in order to evaluate the host suitability of selected oat cultivars to this nematode. The initial population inoculated (Pi) were 92 specimens/plot in experiment 1, and 270 in experiment 2. At the end of experimental periods (86 days after inoculation in experiment 1 and 67 days in experiment 2), the final population (Pf) of P. brachyurus was estimated and the reproductive factor (RF=Pf/Pi) was calculated. The results demonstrated that black oat (RF=0.04-1.03) is more valuable than Algerian oat (RF=2.63-2.88) or white oat (RF=1.37-1.93) for the management of P. brachyurus.

607. Power demand and soil mobilization in fixed shanks of seed drills.; Forca de tracao e mobilizacao do solo por hastes sulcadoras de semadoras-adubadoras.

• Authors:
  • Conte, O.
  • Levien, R.
  • Trein, C.
  • Cepik, C.
• Source: REVISTA BRASILEIRA DE ENGENHARIA AGRICOLA E AMBIENTAL
• Volume: 14
• Issue: 5
• Year: 2010
• Summary: No tillage implies keeping the soil surface covered with crops or crop residues, which might influence planter performance. Using fixed shanks as furrow openers to place fertiliser is an alternative to minimize compaction, as it mobilizes the soil in the sowing line. The aim of this research was to evaluate the effect of different amounts of winter cover crop residues evenly distributed on the soil, the effect of the shanks working depth and quantity of planter lines on power demand, cross sectional furrow area and total volume of soil mobilized in the lines and corresponding wheel slippage in distrophic red Argisol. During winter, black oats and black oats plus turnip were used as cover crops before maize and beans, respectively. Increasing the working depth showed an increase in power demand, as measured directly at the shanks (three lines for maize and five for beans). There was also an effect of residue, increasing power demand on the shanks, but only measurable with the planter operating with three lines in maize sowing. Soil mobilization in the sowing lines was influenced by the amount of residues, the working depths of shank and the quantity of planter lines. Wheel slippage was higher with larger amounts of soil cover residues and when power demand was higher.

608. Patterns in phosphorus and corn root distribution and yield in long-term tillage systems with fertilizer application.

• Authors:
  • Vieira, F. C. B.
  • Flores, J. P. C.
  • Anghinoni, I.
  • Souza, E. D.
  • Costa, S. E. V. G. A.
  • Martins, A. P.
  • Ferreira, E. V. O.
• Source: Soil & Tillage Research
• Volume: 109
• Issue: 1
• Year: 2010
• Summary: The distribution of phosphorus in the soil profile as a function of soil tillage, fertilizer management system and cultivation time is strongly related to root distribution. As the dynamics of this process are not well understood, long-term experiments are useful to clarify the cumulative effect through time. The study evaluated an 18-year-old experiment carried out on Rhodic Paleudult soil, located in Rio Grande do Sul state - Brazil, with cover crops (black oat and vetch) in the winter and corn in the summer. In the 0- to 20-cm layer, the amounts of clay, silt and sand were 22, 14, and 64 g kg -1, respectively. This layer had a mean slope of 3%. The mean local annual rainfall is 1440 mm. The climate is subtropical with a warm humid summer (Cfa), according to the Koeppen classification. The treatments consisted of three soil managements (conventional tillage, no tillage and strip tillage) and three application modes (broadcast, row and strip) for triple superphosphate and potassium chloride fertilizers. Data for phosphorus and root distribution in the soil from the 1989/90, 1999/00 and 2006/07 growing seasons were used. Phosphorus stratification occurred through time, irrespective of soil and fertilizer management, mainly in the 0- to 5-cm layer. The tillage and fertilization systems promoted significant differences in the Pi and Pt fractions up to a depth of 20 cm. For the Po fraction, significant differences were found only in the 0- to 5- and 15- to 20-cm layers. Inorganic phosphorus accumulated in the fertilized zone (0-10 cm), with higher intensity in the no-tillage system under row fertilization with values around 150 mg dm -3. Root distribution presented a strong positive relationship with phosphorus distribution, exhibiting redistribution in the soil profile through time. This redistribution was accompanied by increases in organic phosphorus and total organic carbon content. Corn grain yield was not affected by long-term tillage systems.

609. Resource conserving technologies in relation to food security.

• Authors:
  • Karmakar, R.
  • Das, S. K.
  • Das, I.
• Source: SATSA Mukhaptra Annual Technical Issue
• Volume: 14
• Year: 2010
• Summary: In India, rice-wheat cropping system (RWCS) has contributed and will continue to contribute largely towards food security. Well-planned steps are necessary to make it sustainable and more productive without any adverse effects on the natural resources and the environment. Past studies indicate that sustainability of RWCS in the Indo-Gangetic Plains is at risk mainly due to decline in groundwater levels, soil organic matter content and nutrient availability, increased soil salinization and pest incidence. Practices for sustainable management diversified crop rotations that enhance soil cover and fertility, and accelarated adoption of resource conserving technologies like zero-tillage, bed planting, laser leveling, surface seeding, intercropping of high value crops, furrow irrigated raised bed planting technique, etc., all of which have been briefed in the present paper.

610. Soybean and corn yield after soil winter covers and soil mechanical loosening.; Produtividade de soja e milho apos coberturas de inverno e descompactacao mecanica do solo.

• Authors:
  • Conte, O.
  • Trein, C. R.
  • Levien, R.
  • Debiasi, H.
  • Kamimura, K. M.
• Source: PESQUISA AGROPECUARIA BRASILEIRA
• Volume: 45
• Issue: 6
• Year: 2010
• Summary: The objective of this work was to evaluate the effect of soil winter covers and soil mechanical loosening on soybean and corn yield, in no-tillage system. Two experiments were carried out in Rio Grande do Sul state, Brazil, in a compacted Argissolo Vermelho (Haplic Acrisol), in the 2005/2006 and 2006/2007 crop seasons. The first experiment was carried out in a complete block design, with a split plot arrangement. The treatments were two theoretical working depths of a driller chisel-type furrow opener (0.06 and 0.12 m, split plot), and three soil winter covers (main plot): fallow, black oat ( Avena strigosa), and black oat+common vetch ( Vicia sativa). In 2006, the soil cover black oat+common vetch was replaced by oilseed radish ( Raphanus sativus). In the second experiment, in a complete block design, the soil was chiseled and treatments consisted of black oat or oilseed radish as winter cover crops. Cover crops reduced soil superficial (0-0,06 m) compaction compared to fallow and, in the 2005/2006-crop season, under low water availability, provided higher soybean and corn yields. In the 2006/2007-crop season, when water availability was higher, the same did not happen. Increasing working depths of the chisel-type furrow opener did not affect soybean or corn yields. Soil chiseling reduced soybean and corn yields in comparison to the continuous no-tillage system.