381. Studi of opportunities for alternative weed control in soybeans ( Glycine max [L.] Merr.). I. Soybeans ( Glycine max [L.] Merr.) - allelopathic-mulching culture oats ( Avena sativa L.).

• Authors:
  • Marinov-Serafimov, P.
• Source: Selskostopanska Nauka (Agricultural Science)
• Volume: 43
• Issue: 2
• Year: 2010
• Summary: The study was conducted during 2005-2007 at the experimental field of Experimental stations in soybeans - Pavlikeni without irrigated conditions in secondary leaching on black earth in order to establish the possibility of an alternative control against weeds in soybean ( Glycine max [L.] Merr.) using allelopathic-mulching crop-oats. Relations between the two plant species, soybean-barley were followed in two factors: Factor A - the quantity of oats in the rate of propagation rate: a 1 - (Control manual removal of weeds, soybean monoculture) a 2 - (Control without manual removal of weeds, soybean monoculture) a 3 - 12%; a 4 - 25% and a 5 - 50%. Factor B - duration of the development of soybeans to emergence (VE): b 1 - flowering (R 2), b 2 - pod formation (R 4) and b 3 - technical ripeness (R 8). It was found that the use of oats as allelopathic-mulching culture in soy reduces the rate of sowing weed infestans from 33.0 to 66.0% and the cumulative amount of fresh and dry biomass (from 12.0 to 68.0%) of the group of late spring weeds, a disproportionate amount of the increased propagation norm; Weed suppression resolution allelopathic-mulching culture agrophytocenosa study is the result of limiting the density of some dicotyledonous annual weeds Amaranthus ssp., Abutilon theophrasti Medik. and Chenopodium album (L.), despite being down compensation processes in population density of Convolvulus arvensis L. uniformity in distribution of (J) - from -4.2 to -10.2; species composition (S) of weed communities is from 4 to 8 species, but in terms of their diversity (H) - from -5.9 to -21.2; complex effect of weed infestants and extent of the propagation rules of oats have a negative impact on yield of soybeans - kg/ha from 25.3 to 63.0 percent, the height of soybean flour (RCI varies from 0.11 to 0.35) and formed on fresh and dry biomass (RCI is in the range of 0.44 to 0.83) on the soybean, which can be offset by the reduced level of weed infestans in soybean agrophytotsenosis.

382. Weed communities of transgenic glyphosate-tolerant soyabean crops in ex-pasture land in the southern Mesopotamic Pampas of Argentina.

• Authors:
  • Guglielmini, A. C.
  • Abelleyra, D. de
  • Kruk, B. C.
  • Verdu, A. M. C.
  • Mas, M. T.
  • Satorre, E. H.
• Source: Weed Research
• Volume: 50
• Issue: 4
• Year: 2010
• Summary: Weed surveys were performed in commercial no-till glyphosate-tolerant soyabean crops in southern Entre Rios province (Mesopotamic Pampas of Argentina) in 2005 and 2007, during the soyabean grain filling to maturity growth stages. The objectives were to describe the weed communities in fields recently introduced to crop production and to analyse the effect of the new cropping patterns on assemblages. The fields surveyed varied in the length of the no-till period (1-11 years), the previous crop and the soil productivity rating. Weed communities were described in terms of composition, constancy, life forms, morphotypes and (only during 2007) frequency. Tragia geraniifolia, Bidens subalternans, Sida spinosa, and Eryngium horridum were species associated with fields with more than 5 years of no-till glyphosate-tolerant crops. These fields had a significantly higher relative abundance of perennials (52% versus 32%) and of dicotyledons (66% versus 39%) than fields with less than 5 years of no-till. Previous crop and soil productivity affected weed community structure. Six species, five of them annuals, were associated with fields that had high yields and maize as the previous crop. In contrast, perennials and dicotyledons had the highest relative abundance when wheat-soyabean double cropping was the previous crop. The results show that changes in cropping systems acted as filters on functional traits, modifying the previous weed community assemblage. The information may be used to develop integrated crop-weed management strategies, leading to a reduction in the assemblage of highly competitive weed communities.

383. Irrigation and time of harvest effects on evaluation of selected soybean accessions against Phomopsis longicolla.

• Authors:
  • Bellaloui, N.
  • Smith, J. R.
  • Mengistu, A.
  • Paris, R. L.
  • Wrather, J. A.
• Source: Crop Science
• Volume: 50
• Issue: 5
• Year: 2010
• Summary: Phomopsis seed decay (PSD) of soybean ( Glycine max L. Merr) is primarily caused by Phomopsis longicolla. Currently, percent seed infection is used as a method for evaluating resistance to PSD. However, researchers need a common system for classifying soybean genotypes for their reaction to P. longicolla that is consistent across environments. The purpose of this research was: (i) to evaluate the reaction of a select set of soybean accessions to P. longicolla, and (ii) determine the effects of irrigation and two harvest regimes (normal and delayed) on seed infection. We propose a classification system for comparing reactions to P. longicolla among accessions based on a Phomopsis seed infection index (PSII), derived by dividing the percent seed infection of each accession by percent seed infection values of susceptible standards selected within early and late maturity groups. Percent seed infection by P. longicolla infection was greater when accessions were irrigated during the growing season and harvested at normal maturity. Some lines such as MO/PSD-0259 were rated as resistant to P. longicolla (7% seed infection) when not irrigated and harvested at maturity, but were rated as susceptible (39% seed infection) with irrigation and delayed harvest. The resistance ratings to P. longicolla using percent seed infection and PSII varied among accessions. SS93-6012, for example, had similar ratings for both (9% seed infection and 16% PSII). PI 416942 exhibited some resistance to P. longicolla based on percent seed infection (8%), but no resistance based on PSII (32%). Accessions PI 594478, Delmar, SS93-6012, SS93-6181, PI 594603A, and PI 594712 were classified by PSII as moderately resistant under irrigation and with delayed harvest. These results indicate that simple comparisons of percent seed infection among accessions without irrigation, without delayed harvest, and without a standard control of a similar maturity group might result in false conclusions about resistance to P. longicolla.

384. Cover Crop Effects on Crop Yields and Soil Organic Carbon Content

• Authors:
  • Lang, J. M.
  • Ebelhar, S. A.
  • Olson, K. R.
• Source: Soil Science
• Volume: 175
• Issue: 2
• Year: 2010
• Summary: An 8-year cover crop study was conducted in southern Illinois to evaluate the effects of conservation tillage systems on corn and soybean yields and for the maintenance and restoration of soil organic carbon (SOC) and soil productivity of previously eroded soils. In 2001, the no-till (NT), chisel plow, and moldboard plow (MP) treatment plots, which were replicated six times in a Latin square design, were split (with cover crop and without) on sloping, moderately well-drained, moderately eroded soil. The average corn and average soybean yields were similar for NT, chisel plow, and MP systems with and without cover crops. By 2009, the tillage zone, subsoil, and rooting zone of all treatments had similar SOC on a volume basis for the cover crop treatments as for the same tillage treatment without a cover crop. However, using the baseline 2000 SOC contents only, the NT with cover crops maintained most of the SOC levels in the topsoil and subsoil during the 8-year study, when the sediment was high in SOC and retained in the upland landscape by soil conservation practices, including border and filter strips and sod waterways adjacent to the plots, with and without cover crops. Soil carbon creation retention in the upland landscape was greatest for the MP treatments when sediments were retained by the soil conservation practices, which should reduce soil erosion and sediment rich in SOC being transported by overland flow into water and the eventual release of methane and carbon dioxide to the atmosphere.

385. Effect of palm bunch ash on the seed germination, seedling growth and biochemical parameter of soybean.

• Authors:
  • Onwugbuta-Enyi, J.
  • Offor, U. S.
• Source: Journal of Agriculture and Social Research (JASR)
• Volume: 10
• Issue: 1
• Year: 2010
• Summary: The work was carried out to study the effects of Palm Bunch Ash (PBA) on seed germination, seedling growth and biochemical parameters of Soybean. Soybean seeds were raised in petri-dishes and irrigated with different concentrations of PBA (0-control, 10, 25,40,65,80 and 100%). At lower concentrations, PBA had promotory effects on all the parameters studied while 100% concentration had inhibitory effects.

386. Nutritional management in oilseeds: present status and future strategies.

• Authors:
  • Pasricha, N. S.
• Source: Journal of Oilseeds research
• Volume: 27
• Issue: 2
• Year: 2010
• Summary: A review of the recently published information on the nutritional aspects of oilseed crops in relation to their yield and quality reveals a substantial scope for increasing their production in the country. National self-sufficiency of edible oil would be enhanced if the productivity of the oilseed crops on marginal soils under rainfed conditions is increased through adoption of improved management technology and improved germplasm. This warrants intensive research efforts in these areas. Applying mineral fertilizers in balanced amounts and in an integrated manner by combining with bulky organic manures and crop residues can ensure sustainable production at higher productivity and higher quality level of the oilseed crops. For optimum utilization of other essential inputs, fertilizer requirements need to be fine tuned, especially in oilseed-based cropping systems and intercropping systems. Besides making best use of the applied nutrients, such management practices can substantially benefit the major cereal crops from the fixed-N, if the accompanying oilseed crop happens to be a leguminous like soybean and groundnut. Combining a cheap source of sulphur with other basic nutrients like nitrogen, phosphorus and potassium and required micronutrients like zinc is very essential in case of oilseeds for both yield and higher oil production under irrigated as well as rainfed conditions. To make best use of the soil-derived phosphorus, inoculation with naturally occurring phosphorus solubalizing micro-organism can be successfully employed.

387. Romanian modern equipments for tillage and cereal drilling.

• Authors:
  • Meca, A. V.
  • Popescu, N.
• Source: Annals of the University of Craiova - Agriculture, Montanology, Cadastre Series
• Volume: 40
• Issue: 2
• Year: 2010
• Summary: Within our country conditions the wheat, rye, barley, oilseed rape and pea-oat fodder are sown in autumn. They may be grown after crops that are harvested during summer or perennial crops or pastures that are included is crop rotation schemes. In the conditions of our country, crops that are harvested during the summer are: pea-oat fodder, pea, early potato, barley and wheat. After harvesting these crops, there must be done, immediately, the summer plowing because the soil is still moist, resulting a good quality plowing. Any delay conducts to diminishing the yields. Usually, the summer plow is made at 18-20 cm depth. Deeper plow are not necessary on most soil types from our country. Twenty cm deeper plow is need only on clayey soil that easily compacts, when the soil is highly infested by weeds, covered by high straw or when in the last year there was made a shallow plow. Summer plow, no matter the depth must be done along with harrow after plow. During the fall, till drilling, the soil has to be harrowed in order to destroy weeds and to maintain soil loosened.

388. Elevated Atmospheric Carbon Dioxide Effects on Soybean and Sorghum Gas Exchange in Conventional and No-Tillage Systems

• Authors:
  • Arriaga, F. J.
  • Rogers, H. H.
  • Runion, G. B.
  • Prior, S. A.
• Source: Journal of Environmental Quality
• Volume: 39
• Issue: 2
• Year: 2010
• Summary: Increasing atmospheric CO(2) concentration has led to concerns about potential effects on production agriculture. In the fall of 1997, a study was initiated to compare the response of two crop management systems (conventional tillage and no-tillage) to elevated CO(2). The study used a split-plot design replicated three times with two management systems as main plots and two atmospheric CO(2) levels (ambient and twice ambient) as split plots using open-top chambers on a Decatur silt learn soil (clayey, kaolinitic, thermic Rhodic Paleudults). The conventional system was a grain sorghum [Sorghum bicolor (L.) Moench.] and soybean (Glycine max (L.) Merr.] rotation with winter fallow and spring tillage practices. In the no-tillage system, sorghum and soybean were rotated, and three cover crops were used [crimson clover (Trifolium incarnatum L.), sunn hemp (Crotalaria juncea L.), and wheat (Triticum aestivum L.)]. Over multiple growing seasons, the effect of management and CO(2) concentration on leaf-level gas exchange during row crop (soybean in 1999, 2001, and 2003; sorghum in 2000, 2002, and 2004) reproductive growth were evaluated. Treatment effects were fairly consistent across years. In general, higher photosynthetic races were observed under CO(2) enrichment (more so with soybean) regardless of residue management practice. Elevated CO(2) led to decreases in stomatal conductance and transpiration, which resulted in increased water use efficiency. The effects of management system on gas exchange measurements were infrequently significant, as were interactions of CO(2) and management. These results Suggest that better soil moisture conservation and high rates of photosynthesis can occur in both tillage systems in CO(2)-enriched environments during reproductive growth.

389. Heliotropic responses of soybean cultivars at three phenological stages and under two water regimes.

• Authors:
  • Nepomuceno, A. L.
  • Oliveira, G. M. de
  • Neumaier, N.
  • Rakocevic, M.
  • Farias, J. R. B.
• Source: Pesquisa Agropecuária Brasileira
• Volume: 45
• Issue: 7
• Year: 2010
• Summary: The objectives of this work were to determine the heliotropic movements of the upper trifoliates for two soybean cultivars, BR 16 and Embrapa 48, during a daily cycle, in three phenological stages and two water regimes, and to estimate the impact of irrigation and daily leaflet movements on agronomic characteristics and grain yield. Heliotropic movements were studied in three phenological stages: V4-V6, V7-V10, and R5 in irrigated and non-irrigated plots. For each stage, the leaflet elevation and azimuth were measured hourly. Under a low (V4-V6 stage) and mid (V7-V10 stage) leaf area index (LAI) the diaheliotropism was slightly more frequent and intensive in non-irrigated than in irrigated plants, only at early morning and late afternoon hours. At R5 stage (high LAI) the paraheliotropism of superior trifoliates was predominant and more intensive in non-irrigated plants. The heliotropic movements are correlated to carbon gain, but not to environment (light intensity or temperature), for measurements at 11 h. 'Embrapa 48' expresses greater paraheliotropism than 'BR 16' at high LAI, while 'BR 16' displays lower heliotropic plasticity under irrigation. In spite of significant heliotropic differences, genotype and water availability treatments did not influence the final grain yield.

390. Fertilization effects on yield sustainability and soil properties under irrigated wheat-soybean rotation of an Indian Himalayan upper valley.

• Authors:
  • Srivastva, A. K.
  • Mina, B. L.
  • Kundu, S.
  • Bhattacharyya, R.
  • Chandra, S.
  • Pandey, S. C.
  • Gupta, S.
  • Saha, S.
• Source: Nutrient Cycling in Agroecosystems
• Volume: 86
• Issue: 2
• Year: 2010
• Summary: To date, the sustainability of wheat ( Triticum aestivum)-soybean ( Glycine max) cropping systems has not been well assessed, especially under Indian Himalayas. Research was conducted in 1995-1996 to 2004 at Hawalbagh, India to study the effects of fertilization on yield sustainability of irrigated wheat-soybean system and on selected soil properties. The mean wheat yield under NPK+FYM (farmyard manure) treated plots was ~27% higher than NPK (2.4 Mg ha -1). The residual effect of NPK+FYM caused ~14% increase in soybean yield over NPK (2.18 Mg ha -1). Sustainable yield index values of wheat and the wheat-soybean system were greater with annual fertilizer N or NPK plots 10 Mg ha -1 FYM than NPK alone. However, benefit:cost ratio of fertilization, agronomic efficiency and partial factor productivity of applied nutrients were higher with NPK+FYM than NPK, if FYM nutrients were not considered. Soils under NPK+FYM contained higher soil organic C (SOC), total soil N, total P and Olsen-P by ~10, 42, 52 and 71%, respectively, in the 0-30 cm soil layers, compared with NPK. Non-exchangeable K decreased with time under all treatments except NPK. Total SOC in the 0-30 cm soil layer increased in all fertilized plots. Application of NPK+FYM also improved selected soil physical properties over NPK. The NPK+FYM application had better soil productivity than NPK but was not as economical as NPK if farmers had to purchase manure.