391. The European carbon balance. Part 1: fossil fuel emissions

• Authors:
  • Schulze, E. D.
  • Houwelling, S.
  • Rivier, L.
  • Friedrich, R.
  • Scholz, Y.
  • Pregger, T.
  • Levin, I.
  • Piao, S. L.
  • Peylin, P.
  • Marland, G.
  • Paris, J. D.
  • Ciais, P.
• Source: Global Change Biology
• Volume: 16
• Issue: 5
• Year: 2010
• Summary: We analyzed the magnitude, the trends and the uncertainties of fossil-fuel CO2 emissions in the European Union 25 member states (hereafter EU-25), based on emission inventories from energy-use statistics. The stability of emissions during the past decade at EU-25 scale masks decreasing trends in some regions, offset by increasing trends elsewhere. In the recent 4 years, the new Eastern EU-25 member states have experienced an increase in emissions, reversing after a decade-long decreasing trend. Mediterranean and Nordic countries have also experienced a strong acceleration in emissions. In Germany, France and United Kingdom, the stability of emissions is due to the decrease in the industry sector, offset by an increase in the transportation sector. When four different inventories models are compared, we show that the between-models uncertainty is as large as 19% of the mean for EU-25, and even bigger for individual countries. Accurate accounting for fossil CO2 emissions depends on a clear understanding of system boundaries, i.e. emitting activities included in the accounting. We found that the largest source of errors between inventories is the use of distinct systems boundaries (e.g. counting or not bunker fuels, cement manufacturing, non-energy products). Once these inconsistencies are corrected, the between-models uncertainty can be reduced down to 7% at EU-25 scale. The uncertainty of emissions at smaller spatial scales than the country scale was analyzed by comparing two emission maps based upon distinct economic and demographic activities. A number of spatial and temporal biases have been found among the two maps, indicating a significant increase in uncertainties when increasing the resolution at scales finer than ~200 km. At 100 km resolution, for example, the uncertainty of regional emissions is estimated to be 60 g C m-2 yr-1, up to 50% of the mean. The uncertainty on regional fossil-fuel CO2 fluxes to the atmosphere could be reduced by making accurate 14C measurements in atmospheric CO2, and by combining them with transport models.

392. Unweathered wood biochar impact on nitrous oxide emissions from a bovine-urine-amended pasture soil

• Authors:
  • Sherlock, R. R.
  • Wells, N. S.
  • O'Callaghan, M.
  • Condron, L. M.
  • Ray, J. L.
  • Bertram, J. E.
  • Clough, T. J.
• Source: Soil Science Society of America Journal
• Volume: 74
• Issue: 3
• Year: 2010
• Summary: Low-temperature pyrolysis of biomass produces a product known as biochar. The incorporation of this material into the soil has been advocated as a C sequestration method. Biochar also has the potential to influence the soil N cycle by altering nitrification rates and by adsorbing NH or NH3. Biochar can be incorporated into the soil during renovation of intensively managed pasture soils. These managed pastures are a significant source of N2O, a greenhouse gas, produced in ruminant urine patches. We hypothesized that biochar effects on the N cycle could reduce the soil inorganic-N pool available for N2O-producing mechanisms. A laboratory study was performed to examine the effect of biochar incorporation into soil (20 Mg ha-1) on N2O-N and NH3-N fluxes, and inorganic-N transformations, following the application of bovine urine (760 kg N ha-1). Treatments included controls (soil only and soil plus biochar), and two urine treatments (soil plus urine and soil plus biochar plus urine). Fluxes of N2O from the biochar plus urine treatment were generally higher than from urine alone during the first 30 d, but after 50 d there was no significant difference (P = 0.11) in terms of cumulative N2O-N emitted as a percentage of the urine N applied during the 53-d period; however, NH3-N fluxes were enhanced by approximately 3% of the N applied in the biochar plus urine treatment compared with the urine-only treatment after 17 d. Soil inorganic-N pools differed between treatments, with higher NH concentrations in the presence of biochar, indicative of lower rates of nitrification. The inorganic-N pool available for N2O-producing mechanisms was not reduced, however, by adding biochar.

393. Potato based intercropping with sorghum in the hot to warm moist valleys of North Shewa, Ethiopia.

• Authors:
  • Asnakech, T.
  • Adamu, M.
• Source: World Journal of Agricultural Sciences
• Volume: 6
• Issue: 5
• Year: 2010
• Summary: It is becoming a necessity to intensify crop production in the face of the ever shrinking per capita agricultural land Experiences elsewhere suggest that intercropping potato with sorghum could be a feasible alternative so as to intensify production and give cash and food source alternatives for subsistence farmers. Three intercrop proportions (intercropping full density of potato with 75, 50 and 25% of sole crop density of sorghum) were compared with sole crops of potato and sorghum in a RCB of four replications for two years on sites representing sandy clay loam and clay black soil so as to determine compatible proportions of sorghum for intercropping with full density of potato. Marketable tuber yield of potato on sandy clay loam soil was not significantly affected by intercropping but it was significantly (P

394. Multivariate evaluation by microbiological indicators of winter-summer crop rotation and no-tillage system in Oxisol (Brazil).

• Authors:
  • Nahas, E.
  • Cora, J.
  • Borges, C.
• Source: Proceedings of the 19th World Congress of Soil Science: Soil solutions for a changing world, Brisbane, Australia, 1-6 August 2010. Symposium 2.2.1 Biogeochemical interfaces in soils
• Year: 2010
• Summary: Crop rotations have agronomic advantage. Type of crop rotations in combination with no-tillage system has not been evaluated systematically in Brazil. The objective of this work was to evaluate the effect of the crop rotation on the soil microbiological properties (MP) and the effect of winter crops on summer crops in no-tillage systems in a tropical region. This ecosystem management has been carried out annually since 2002. The summer crops are continuous soybean, continuous corn and soybean/corn rotation (SM). The winter crops are: corn, sunflower, radish, millet, pigeon pea, sorghum and sunn hemp. Samples were collected in April 2008 at 0-0,15 m depth after summer crops were harvested. Microbial respiratory activity, the activity of the enzymes dehydrogenase, urease and phosphatase, the biomass C, N and P, qMIC, organic matter and organic carbon contents were determined. Data was analyzed by principal components analysis (PCA). Soybean/corn sequence influenced the MP more than continuous corn and continuous soybean. For soybean/corn sequence soil, the main variables selected by PCA were biomass C, N and P, respiratory and phosphatase activities, and qMIC. Pigeon pea, sorghum and sunn hemp strongly affected the soil properties when compared with the other winter crops.

395. Soil physical attributes induced by crop sequence under no-tillage system in tropical region with warm and dry winter.

• Authors:
  • Martins, M.
  • Marcelo, A.
  • Fernandes, C.
  • Seben, G.
  • Cora, J.
• Source: Proceedings of the 19th World Congress of Soil Science: Soil solutions for a changing world, Brisbane, Australia, 1-6 August 2010. Symposium 3.2.1 Highland agriculture and conservation of soil and water
• Year: 2010
• Summary: The no-tillage system is utilized in approximately 100 million hectares in the world. However, this system still needs to be better adapted to tropical regions, with warm and dry winters. The adaptation of no-tillage system in tropical regions depends on the suitable choice of summer and winter crops which should contribute to improvement of soil properties and soil productive capacity. The aim of the present study was to determine the effect of crop sequences on soil physical attributes of a Rhodic Eutrudox under no-tillage system. The treatments consisted of the combination of tree summer crop sequences and seven winter crop sequences. The summer crop sequences were: maize monocrop ( Zea mays L.), soybean monocrop ( Glycine max (L.) Merrill), and soybean/maize rotation. The winter crops were: maize, sunflower ( Helianthus annuus L.), radish ( Raphanus sativus L.), pearl millet ( Pennisetum americanum (L.) Leeke), pigeon pea ( Cajanus cajan (L.) Millsp), grain sorghum ( Sorghum bicolor (L.) Moench) and sunn hemp ( Crotalaria juncea L.). The experiment began in September 2002. Lower bulk density and high soil tensile strength were found in the soybean/maize rotation after sorghum and sunn hemp. Sorghum and sunn hemp provided the highest waterstability of soil aggregates. Millet, sorghum, maize and sunn hemp provided the highest mean aggregate diameter. The water-stability of soil aggregates and mean aggregate diameter showed positive correlation with soil tensile strength. There were no differences among effects of the summer and winter crops on the soil organic matter. In general, better soil physical conditions were found in the soybean/maize crop rotation and after sunn hemp, sorghum and millet.

396. Spatial variability of the competitive effect of barley ( Hordeum vulgare L.) on Lolium rigidum L.

• Authors:
  • Fernandez-Quintanilla, C.
  • Izquierdo, J.
• Source: Agrociencia
• Volume: 44
• Issue: 1
• Year: 2010
• Summary: Lolium rigidum is a major grass weed of winter cereals in the Mediterranean area, in spite of the continuous use of herbicides in these crops. New management approaches focus on the reduction of the seed banks by enhancing crop competitiveness and, consequently, minimizing weed seed rain. However, the spatial heterogeneity that exists within fields results in differences in the growth and the competitiveness of crops and weeds. In order to determine if the competitive interactions between barley and L. rigidum are site-specific biomass and seed production of this weed, growing in monoculture (plots with L. rigidum) and in mixed culture (plots with L. rigidum+barley), were studied at three sites (in upland, mid-slope and lowland positions) within barley fields. In each site were determined weed populations, and in soil separates, nutrient content, organic matter, slope and orientation were determined for each site. Crop presence significantly reduced weed biomass between 5 and 79% and seeds per spike between 10 and 48%, depending on the site. The competitive effect of the crop was greater in the more fertile sites (with higher N, P and organic matter content). In these sites, differences in plant biomass accumulation between the weed in monoculture and the weed in mixed culture started to be significant after stem elongation. Regardless the reduction in the number of seeds per spike observed in the most fertile sites, seed rain (measured as seeds m -2) could still be very important if weed density of the site is high. The differences in the competitive interactions between barley and L. rigidum observed within the fields suggest that adequate crop husbandry practices addressed site-specifically to enhance crop competitiveness can play an important role as a mechanism to reduce L. rigidum populations over the long term.

397. Potato ( Solanum tuberosum) based intercropping systems for Southern hills.

• Authors:
  • Manorama, K.
  • Lal, S.
• Source: Indian Journal of Agronomy
• Volume: 55
• Issue: 3
• Year: 2010
• Summary: Field trials were conducted on sandy clay loam soils of the Nilgiris during summer seasons of 2003 to 2005 to study the intercropping possibilities of French beans ( Phaseolus vulgaris L), maize ( Zea mays L.) and wheat ( Triticum aestivum L) with potato ( Solanum tuberosum L.) in three population proportions (75:25, 75:50 and 50:50) under rainfed conditions. The results indicated that potato+French bean at 75:50 population recorded significantly higher potato equivalent yield, (PEY) (27.1 t/ha), land equivalent ratio (LER) (1.28) and net returns (Rs 69,090) over sole potato. Intercropping of potato with wheat and maize resulted in significant decrease in PEY over sole potato. Potato is more competitive than other crops as evident from Relative Crowding Coefficient (RCC) values. However, at 50:50 ratios, French bean and maize are more competitive. Potato+maize (75:50 and 50:50) was found soil exhaustive while potato+French bean is soil restorative system.

398. Effect of Intercropping Period Management on Runoff and Erosion in a Maize Cropping System

• Authors:
  • Bidders, C. L.
  • Laloy, E.
• Source: Journal of Environmental Quality
• Volume: 39
• Issue: 3
• Year: 2010
• Summary: The management of winter cover crops is likely to influence their performance in reducing runoff and erosion during the intercropping period that precedes spring crops but also during the subsequent spring crop This study investigated the impact of two dates of destruction and burial of a rye (Secale cereale L.) and ryegrass (Lolium multifloruni Lint) cover crop on runoff and erosion, focusing on a continuous silage maize (Zea mays L) cropping system Thirty erosion plots with various intercrop management options were monitored for 3 yr at two sues. During the intercropping period. cover crops reduced runoff and erosion by more than 94% compared with muffled, post-maize harvest plots Rough tillage after maize harvest proved equally effective as a late sown cover crop There was no effect of cover crop destruction and burial dates on runoff and erosion during the intercropping period. probably because rough tillage for cover crop burial compensates for the lack of soil cover During two of the monitored maize seasons. it was observed that plots that had been covered during the previous intercropping period lost 40 to 90% less soil compared with maize plots that had been left bare during the intercropping period The burial of an aboveground cover crop biomass in excess of 1 5 t ha (1) was a necessary, yet not always sufficient. condition to induce a residual effect. Because of the possible beneficial residual effect of cover crop burial on erosion reduction, the sowing of a cover crop should be preferred over rough tillage after maize harvest

399. Weed seed predation increases with vegetation cover in perennial forage crops

• Authors:
  • Petit, S.
  • Waldhardt, R.
  • Munier-Jolain, N.
  • Le Lagadec, L.
  • Meiss, H.
• Source: Agriculture, Ecosystems & Environment
• Volume: 138
• Issue: 1-2
• Year: 2010
• Summary: Vegetation cover may affect weed seed predation by modifying the habitat quality for predatory organisms. Post-dispersal weed seed predation was measured by placing 'seed cards' in two perennial crops (alfalfa, cocksfoot) with and without crop cutting and in plots with bare soil. Each treatment was repeated four times in a randomized complete block design. Vegetation cover was measured by canopy light interception. Predation trials lasted two weeks and were repeated three times. Seed predation rates varied among three weed species (highest for Viola arvensis, intermediate for Alopecurus myosuroides, lowest for Sinapis arvensis). Vertebrate exclusion cages (12 mm x 12 mm openings) strongly reduced seed predation rates. Positive relationships were observed between vegetation cover and seed predation rates by both vertebrates and invertebrates for all weed species and trials, except when overall predation rates were very low. Predation rates were highest in uncut alfalfa, lowest on bare soil, but 16-64% of this variation could equally be explained by vegetation cover. The factorial design indicated that cutting had a stronger impact than crop species (legume or grass). Results suggest that weed seed predation may be enhanced by maintaining a high and temporally extended vegetation cover. (C) 2010 Elsevier B.V. All rights reserved.

400. Estimating disease losses to the Australian barley industry

• Authors:
  • Brennan, J. P.
  • Murray, G. M.
• Source: Australasian Plant Pathology
• Volume: 39
• Issue: 1
• Year: 2010
• Summary: The incidence, severity and yield loss caused by 40 pathogens associated with 41 diseases of barley were assessed from a survey of 15 barley pathologists covering the winter cereal growing areas of Australia. The survey provided data on the frequency of years that each pathogen developed to its maximum extent, the proportion of the crop then affected in each growing area, and the yield loss that resulted in the affected crops with and without current control measures. These data were combined with crop production and grain quality data to estimate the value of the losses aggregated to the Northern, Southern and Western production regions. Pathogens were estimated to cause a current average loss of $252 x 10(6)/year or 19.6% of the average annual value of the barley crop in the decade 1998-99 to 2007-08. Nationally, the three most important pathogens are Pyrenophora teres f. maculata, Blumeria graminis f. sp. hordei and Heterodera avenae with current average annual losses of $43 x 10(6), $39 x 10(6) and $26 x 10(6), respectively. If current controls were not used, losses would be far higher with potential average annual losses from the three most important pathogens, P. teres f. maculata, H. avenae and P. teres f. teres, being $192 x 10(6), $153 x 10(6) and $117 x 10(6), respectively. The average value of control practices exceeded $50 x 10(6)/year for nine pathogens. Cultural methods (rotation, field preparation) were the only controls used for 14 pathogens and contributed more than 50% of the control for a further 13 pathogens. Breeding and the use of resistant cultivars contributed more than 50% of control for five pathogens and pesticides for four pathogens. The relative importance of pathogens varied between regions and zones.