961. Energy and economic evaluation of farm operations in crop production.

• Authors:
  • Dahatonde, S.
  • Bunde, D.
  • Katkhede, S.
  • Pohare, J.
  • Khambalkar, V.
• Source: Journal of Agricultural Science
• Volume: 2
• Issue: 4
• Year: 2010
• Summary: The present research work has been carried out at Central Research Station farm of Dr. PDKV, Akola and at Katkheda and Sutala village of the Akola and Bulbhana district respectively. The operations considered were land preparation, sowing, intercultural, harvesting and crop residue management etc. The inputs like human power, bullock power for traditional operation were studied in entire work of the research. Similarly, for the same crops these operations were carried out by the mechanized practice for the exact quantification of the operational energy input. The study reflects the energy use patterns in mechanized and traditional farming and optimized energy efficient cropping system through mechanized farming over traditional farming. The practices evaluated for the crop production which resulted in the high yielding of crop and the crop residues. On the basis of results obtained, it was observed that the traditional operational energy requirement increases from 2680.78 MJ/ha in traditional method to 3130.72 MJ/ha in mechanized method for green gram crop. While, there is decrease in cost of operation from Rs 8407.5/ha in traditional method to Rs 5147.0/ha in mechanized system. Similar trend was observed in cotton, soybean, sorghum and wheat crop. For all the crops seed bed preparation is done by tractors in traditional as well as mechanized method except in mechanized method land smoothening is done by self propelled tiller instead of bullock drawn blade harrow. In most of the crops the farm operations were mechanized with different implements except harvesting operation, due to unavailability of appropriate machine for harvesting of crops except wheat crop. Overall it seen that the application of modern implements and machineries for the crop production over the traditional practices reduces the cost of production which surely impact on the crop production and the net income of the farmers.

962. Simulating of production and carbon sequestration of crops under climate change scenarios in the Northeast China.

• Authors:
  • Shi, C. L.
  • Jin, Z. Q.
  • Zhu, D. W.
• Source: Jiangsu Journal of Agricultural Sciences
• Volume: 26
• Issue: 6
• Year: 2010
• Summary: In order to explore the effects of climate change on the crop production and agricultural vegetation on the carbon sequestration ability in the Northeast China in the future, the CERES models ran under both baseline weather and climate change scenarios, which were based on 3 global climate models (GCMs) of GISS, GFDL and UKMO, were used to evaluate the effects of climate change on productivities, moisture status and carbon sequestration of soybean, maize, spring wheat and rice in the Northeast China. In 2040, the growth duration of maize and rice would be shortened by 27 d and 29 d, respectively, while 13 d and 9 d were shortened by for soybean and spring wheat, respectively. The simulated soybean biomass under rainfed scenario was averagely 50% higher than that under the baseline weather, while 10% and 6% increments were simulated for irrigated rice and rainfed maize, respectively. The simulated biomass of rainfed spring wheat would be vulnerable to the climate change. The carbon sequestration ability of crops in the Northeast China would be enhanced from 3.82 t/hm 2 to 4.39 t/hm 2 by the climate change. The results indicated that the climate in the Northeast China would display a warm-dry tendency, and the warming climate would shorten the growth period of crops. The soybean productivities would increase significantly in scenarios of doubled CO 2, and rice and maize productivities would increase slightly, while spring wheat productivities would be unstable due to its sensibility to the moisture. Currently, compared with other regions, the crop carbon sequestration ability in the Northeast China was relative weak, while the climate change in the future would be beneficial for the improvement of crop productivities and the strengthening of agricultural carbon pool.

963. Tillage system effects on water use and grain yield of winter wheat, maize and soybean in rotation.

• Authors:
  • Constantin, N.
  • Zaharia, G. V.
  • Cociu, A. I.
• Source: Romanian Agricultural Research
• Issue: 27
• Year: 2010
• Summary: The increase of water use efficiency is very important, especially in water-limited conditions. The research project, carried out on cambic chernozem soil at Fundulea, in 2008 and 2009, had as the main objective the evaluation of contribution of the deep sub-soiling, done before the implementation of this experiment, and of certain tillage systems on over-winter soil water storage, water use efficiency (WUE) and water use as well as on the yield of winter wheat ( Triticum aestivum L.), maize ( Zea mays L.) and soybean [ Glycine max. (L) Merr.], in rotation. The following tillage systems were studied: (1) traditional, with moldboard plough (TS); (2) cizel plough tillage (CS); (3) disc/sweep tillage (DS); (4) strip till, only for row crops (ST); and no till (NT). The over-winter soil water storage estimation was based on calculation of the coefficient of rainfall accumulation during winter (CA), and of capacity of soil water conservation (CC). In the case of maize after wheat, CA was 0.6 on plots with deep sub-soiling, 0.6 on plots without deep sub-soiling, 0.6 with TS, 0.6 with CS, 0.7 with DS, 0.7 with ST, and 0.7 with NT. CC was 85% on plots with deep sub-soiling, 85% on plots without deep subsoiling, 82% with TS, 0.84% with CS, 86% with DS, 86% with ST, and 86% with NT. For soybean after maize, CA was 0.5 on plots with deep sub-soiling, 0.6 on plots without deep sub-soiling, 0.5 with TS, 0.5 with CS, 0.5 with DS, 0.6 with ST, and 0.6 with NT. CC was 77% on plots with deep sub-soiling, 79% on plots without deep sub-soiling, 72% with TS, 78% with CS, 78% with DS, 78% with ST, and 79% with NT. Water use and water use efficiency showed non significant differences for all crops under this study on both plots with deep sub-soiling and without deep sub-soiling, suggesting that the yield differences were not significantly determined by water supply. The water use average for wheat was: 380 mm with TS, 377 mm with CS, 395 mm with DS, and 382 mm with NT. For maize, water use was 339 mm with TS, 345 mm with CS, 343 mm with DS, 341 mm with ST and 343 mm with NT. For soybean, water use was 320 mm with TS, 315 mm with CS, 317 mm with DS, 314 mm with ST and 319 mm with NT. Water use efficiency from precipitations was given for wheat, maize and soyabean. Yield increases due to deep sub-soiling were: 0.1% for wheat 1.5% for maize, and 7.3% for soybean. The average yields recorded were: For wheat 4948 kg ha -1 with TS. 4536 kg ha -1 with CS, 4814 kg ha -1 with DS, 5048 kg ha -1 with NT. For maize 8743 kg ha -1 with TS, 8954 kg ha -1 with CS, 8792 kg ha -1 with DS, 7940 kg ha -1 with ST and 9052 kg ha -1 with NT. For soybean 2098 kg ha -1 with TS, 1812 kg ha -1 with CS, 1846 kg ha -1 with DS, 1798 kg ha -1 with ST and 1941 kg ha -1 with NT. The highest yields were obtained with NT for wheat and maize. WUE was strongly correlated with yield, and had the highest values far wheat and maize with NT. In the case of soybean, we consider that a significant yield increase can be obtained with an efficient weed control and soil protection with adequate amounts of residues from the previous crop.

964. Assessing non-chemical weeding strategies through mechanistic modelling of blackgrass (Alopecurus myosuroides Huds.) dynamics

• Authors:
  • Munier-Jolain, N. M.
  • Kurstjens, D. A. G.
  • Colbach, N.
  • Dalbies, A.
  • Dore, T.
• Source: European Journal of Agronomy
• Volume: 32
• Issue: 3
• Year: 2010
• Summary: Because of environmental and health safety issues. it is necessary to develop strategies that do not rely on herbicides to manage weeds. Introducing temporary grassland into annual crop rotations and mechanical weeding are the two main features that are frequently used in integrated and organic cropping systems for this purpose. To evaluate the contribution of these two factors in interaction with other cropping system components and environmental conditions, the present study updated an existing biophysical model (i.e. ALOMYSYS) that quantifies the effects of cropping system oil weed dynamics. Based oil previous experiments, new sub-models were built to describe the effects on plant survival and growth reduction of mechanical weeding resulting from weed seedling uprooting and covering by soil, and those of grassland mowing resulting from tiller destruction. Additional modifications described the effect of the multiyear crop canopy of grassland on weed survival, growth, development and seed return to the soil. The improved model was used to evaluate the weed dynamics over 27 years in the conventional herbicide-based cropping system most frequently observed in farm Surveys (i.e. oilseed rape/winter wheat/winter barley rotation with Superficial tillage) and then to test prospective non-chemical scenarios. Preliminary simulations tested a large range of mechanical weeding and mowing strategies, varying operation frequencies, dates and, in the case of mechanical weeding, characteristics (i.e. tool, working depth, tractor speed). For mechanical weeding soon after sowing, harrowing was better than hoeing for controlling weed seed production. The later the operation, the more efficient the hoeing and the less efficient the harrowing. Tractor speed had little influence. Increasing tilling depth increased plant mortality but increased weed seed production because of additional seed germination triggering by the weeding tool. Decreasing the interrow width for hoeing was nefarious for weed control. The best combinations were triple hoeing in oilseed tape and sextuple harrowing in cereals. The best mowing strategy was mowing thrice, every 4-6 weeks, starting in mid-May. The best individual options were combined, simulated over 27 years and compared to the herbicide-based reference system. If herbicide applications were replaced solely by mechanical weeding, blackgrass infestation Could not be satisfactorily controlled. If a three-year lucerne was introduced into the rotation, weed infestations were divided by ten. Replacing chisel by mouldboard ploughing before winter wheat reduced weed infestations at short, medium and long term to a level comparable to the herbicide-based reference system. (C) 2009 Elsevier B.V. All rights reserved.

965. Influence of Cropping Systems on Soil Aggregate and Weed Seedbank Dynamics During the Organic Transition Period

• Authors:
  • Robertson, G. P.
  • Thelen, K. D.
  • Corbin, A. T.
  • Leep, R. H.
• Source: Agronomy Journal
• Volume: 102
• Issue: 6
• Year: 2010
• Summary: Agronomic management during the 3-yr transition period to organic certification influences soil quality and the weed seedbank. We studied two cropping systems during the transition period and the first certified organic season. A 4-yr rotation of corn, soybean, wheat/alfalfa, corn (C-S-W/A-C) [Zea mays L., Glycine max (L.) Merr., Triticum aestivum L., Medicago sativa L.], produced under a more complex management that included manure and cover crop residue, was compared to a perennial based corn, alfalfa, alfalfa, corn (C-A-A-C) rotation. We compared soil aggregate size distribution and bulk density after Year 1 and on completion of the transition period. Weed seedbank populations were quantified through two seasons in the greenhouse. Weed surface density and aboveground weed biomass were quantified in the field. Over the course of the study, the percentage of large soil macroaggregates (> 2000 mu m size class) had 2.7 and 3.4-fold increase for the C-A-A-C and C-S-W/A-C treatments, respectively. The C-S-W/A-C system generated a 4.5-fold increase in aggregates of this class when wheat that was interseeded with alfalfa was harvested as forage. Bulk density decreased 14 and 6% for the C-S-W/A-C and the C-A-A-C systems, respectively. There was a 60 to nearly 300% increase in total weed seeds germinated in the greenhouse for the C-S-W/A-C system. This same system had a 60 to more than 500% decreased weed seedbank density in the field. We conclude from this study that either strategy can improve soil quality while the weed seedbank was better managed in the more complicated C-S-W/A-C system.

966. The evolution of some components of ecosystems productivity from Vinga plain in conservative tillage.

• Authors:
  • Țărau, D.
  • Borza, I.
  • Dicu, D.
• Source: Research Journal of Agricultural Science
• Volume: 42
• Issue: 3
• Year: 2010
• Summary: Studies were conducted on a cambic cernosiom, with a medium content of clay, dominant in the Prodagro West Arad agro-centre and representative for a large surface in the Banat-Crisana Plain, on the Arad cadasiral territory, Romania. The experimental factors considered include: soil work system; foliar phyto-sanitary treatment; classical system; and no-till system. From the geomorphological point of view, the perimeter on which the experiments are located belongs to the large physical-geographic unity called the Vinga High Plain. Relief present itself as a succession of high plain, almost even, with altitudes between 95-200 m, separated by wide valleys, rather deep, collected quite in exclusivity by Berecsau river (and less by Mires river). The zone between the rivers are well individuated in 5 steps layed in fan shape: Seceani (180 m), Alios (160 m), Vinga (150 m), Calacea (130 m), Satchinez (100 m) realized by Mires river at different geological moments an partly tectonically influenced. Hydrographically, the perimeter where the experiment is placed belongs to the hydrographic basin of Mires river which flows at approximately 2-3 km north from this. The pedophreatic levels are at 5.1-10 m depth (they do not interfere in the pedogenesis processes) in flat areas and between 1.5-3.0 m depth in the valleys. For wheat, the production was between 3613-4817 kg/ha, the highest production of 4817 kg/ha, being registered in the no-till system, treated and the lowest of 3613 kg/ha in the no-till system . For maize the obtained production had values of 3658-5680 kg/ha, the highest production of 5680 kg/ha, being registered in classic system treated and the lowest of 3658 kg/ha in no-till system untreated.

967. Negative effects of no-till on soil macrofauna and litter decomposition in Argentina as compared with natural grasslands

• Authors:
  • Rosa Becker, A.
  • Camilo Bedano, J.
  • Dominguez, A.
• Source: Soil & Tillage Research
• Volume: 110
• Issue: 1
• Year: 2010
• Summary: No-till (NT) has been recognized as a management system of low environmental impact when applied in combination with crop residue mulch and rotations involving cover crops. It has been suggested, however, that, if these conditions are not met, NT may result in physical, chemical and biological soil degradation. This study evaluates the effect of NT on the litter decomposition process and on soil macrofauna communities and how changes in soil physical, chemical, and physicochemical properties affect litter decomposition and soil macrofauna. We hypothesised (1) that macrofaunal abundance, richness and diversity would be lower in NT soils than in natural grasslands; (2) that this would be a consequence of unfavourable physical and chemical soil conditions and high inputs of agrochemicals; and (3) that these changes in macrofauna would influence soil functioning, reducing litter decomposition rate. The study was conducted during winter and spring 2007 on Typic Haplustolls from southern Cordoba, Argentina (32 degrees 41' and 32 degrees 50'S; 63 degrees 58' and 63 degrees 44'W). Macrofauna was sampled twice in NT and in natural grasslands (NA) - as a reference situation - by extracting five soil monoliths of 25 cm x 25 cm x 30 cm at each plot. Soil properties were measured using standard methods. The decomposition rate was determined by the litterbag method, using a 2 mm and a 10 mm size meshes to evaluate litter decomposition mediated by macrofauna. NT greatly reduced richness (from 33 species in NA to 12 species in NT) and abundance (from 1870 ind/m(2) in NA to 475 ind/m(2) in NT) of macroinvertebrates, confirming our first hypothesis. Changes in macrofauna community under NT were mainly explained by high compaction and low organic matter content, confirming our second hypothesis. The reduction in earthworm abundance may also be explained by the influence of the intense use of toxic agrochemicals. No-till increased surface horizon bulk density (from 1.22 to 1.33 g/cm(3)) and decreased organic matter content (from 3.51% to 2.58%) and pH (from 6.74 to 6.01) compared with NA. The litter decomposition rate was lower in NT, confirming our third hypothesis, and it was correlated with low earthworms abundance and activity. We conclude that in our study area the capacity of soils under NT to maintain ecosystem functions would be at risk. (C) 2010 Elsevier B.V. All rights reserved.

968. Crop rotation and irrigation influence on protein and gluten content of the wheat grain's in the Crișurilor Plain conditions.

• Authors:
  • Sabău, N. C.
  • Samuel, A.
  • Brejea, R.
  • Domuța, C.
  • Borza, I.
  • Bara, C.
  • Bara, L.
  • Vușcan, A.
  • Ciobanu, G.
  • Gîtea, M.
  • Moza, A.
  • Jurca, A.
  • Șandor, M.
  • Domuța, C.
• Source: Research Journal of Agricultural Science
• Volume: 42
• Issue: 1
• Year: 2010
• Summary: The paper is based on the research carried out during 2007-2009 in the long term trial placed in 1990 on the preluvosoil from Agricultural Research and Development Station Oradea. The preluvosoil from the research field is characterized by the presence of the horizons Bt 1 (34-54 cm depth) and Bt 2 (54-78 cm depth); the colloid clay eluviation determined to appear the El horizon with 31.6% colloid clay. On 0-20 cm depth, the soil has a big percentage of macroaggregates (Phi >0.25 mm), 47.5% bulk density is of 1.41 g/cm 3 and total porosity is median one, hydraulic conductivity is of 21.0 mm/h. The values of the pH indicates a low acid soil, humus, total nitrogen, phosphorus and potassium content are low. The source of irrigation water was a drill of 15 m depth. The chemical parameters of the irrigation water were the following: fixed mineral residue 0.5 g/l; SAR index 0.52; CSR index=-1.7%; N. Florea class=II; there are not some problems regarding the use of irrigation use. There are two factors of the experiment: crop rotation (wheat-monocrop, maize-wheat; maize-soybean-wheat) and water regime (unirrigated; irrigated). Optimum water provisionment was assured in the irrigated variant maintaining the soil water reserve between easily available water content on 0-50 cm depth. The biggest protein and gluten content were determined in the wheat grains from maize-soybean-wheat crop rotation both in unirrigated and irrigated variant and the smallest values were registered in the wheat monocrop. In the irrigated variant the smaller values protein, wet and dry gluten were registered but the differences are unsignificant. The research results emphasized the importance of the crop rotation to obtain an wheat yield with good panification index. The research results are part in the project: PN-II-ID-PCE-2008 2; 690/2009 "The study of influences of some technological elements upon the wheat yield quality in the conditions of the North-Western part of Romania".

969. Tillage and residue removal effects on soil carbon and nitrogen storage in the North China Plain.

• Authors:
  • Hu, C. S.
  • Ren, T. S.
  • Du, Z. L.
• Source: Soil Science Society of America Journal
• Volume: 74
• Issue: 1
• Year: 2010
• Summary: Little information is available about their influences of conservation tillage on the distribution and storage of soil organic C (SOC) and total N in soil profiles in the North China Plain. We investigated the changes in SOC and total N as related to the shift from conventional to conservation tillage using a long-term field experiment with a winter wheat ( Triticum aestivum L.)-corn ( Zea mays L.) double cropping system. The experiment included four tillage treatments for winter wheat: moldboard plow without corn residue return (MP-R), moldboard plow with corn residue return (MP+R), rotary tillage (RT), and no-till (NT). Compared with the MP-R treatment, returning crop residue to the soil (MP+R, RT, and NT) increased SOC and total N in the 0- to 30-cm soil layer, but no distinct changes in SOC and total N concentration were observed among the four treatments at soil depths >30 cm. Compared with the MP+R treatment, the RT and NT treatments increased SOC and total N concentration significantly in the 0- to 10-cm layer but decreased SOC and total N concentration in the 10- to 20-cm layers. As a consequence, soil profile SOC and total N storage did not vary among the MP+R, RT, and NT treatments. Thus under the experimental conditions, conservation tillage (RT and NT) increased SOC and total N contents in the upper soil layers, but did not increase SOC and total N storage over conventional tillage (MP+R) in the soil profile.

970. Investigating efficacy of Pantera (quizalofop-P-tefuril 4% EC) in canola fields in Fars province.

• Authors:
  • Shimi, P.
  • Fereidoonpoor, M.
  • Jamali, M.
• Source: Proceedings of 3rd Iranian Weed Science Congress, Volume 2: Key papers, weed management and herbicides, Babolsar, Iran, 17-18 February 2010
• Year: 2010
• Summary: In order to compare efficacy of Pantera (quizalofop-P-tefuryl 4%EC) with other graminicides in canola fields of Fars province, an experiment was carried out in randomized complete block design with 4 replication and 11 treatments in Darab research station in 2008-2009. Treatments included Pantera at 1, 1.5 and 2 lha -1, Galant super (haloxyfop-R-methyl aster) at 0.75 lha -1, Focus (cycloxydim) at 2 lha -1, Treflan, (trifluralin 48% EC) at 2 lha -1, Butisan star (metazachlor 33.33%+quinmerac 8.8%) at 2.5 lha -1, Treflan at 2 lha -1+Pantera at 1.5 lha -1, Treflan at 2 lha -1+Galant super at 0.75 lha -1, Treflan at 2 lha -1+Focus 2 lha -1 and full season weed control as check. Results showed that 2 lha -1 Pantera in compare with Treflan+other graminicides as super gallant, focus and Pantera and full season weed control treatment had no significant difference and increased canola yield by 39.5-41.7%. Also, 2 lha -1 Pantera controlled wheat, barley, wild oat and ryegrass. In 100, 100, 90.97 and 92.92 percent respectively and 75.4 percent in decreasing of dry weight of grasses.