- Authors:
- Kumar, P.
- Yadav, S. K.
- Kumar, M.
- Rinwa, R . S.
- Source: Haryana Journal of Horticultural Sciences
- Volume: 35
- Issue: 3/4
- Year: 2006
- Summary: An experiment was conducted during 2003-04 and 2004-05 to study the nitrogen, phosphorus and potassium uptake by different cropping systems in semiarid tract of Haryana, India. The experiment comprised 7 cropping systems, viz., pearl millet-wheat, pearl millet-mustard, soyabean-wheat-cowpea, sorghum-wheat, pearl millet-potato-green gram, pearl millet-field pea-maize, and cotton-wheat. The uptake of nitrogen, phosphorus and potassium by the crops varied among different cropping systems. The nutrient uptake was higher in high yielding cropping systems. The nutrients uptake was highest in pearl millet-potato-green gram cropping system.
- Authors:
- Wojciak, H.
- Adamiak, J.
- Rychcik, B.
- Source: Plant, Soil and Environment
- Volume: 52
- Issue: Special Issue
- Year: 2006
- Summary: A field experiment was conducted during 1992-2004 on Luvisols (formed from silty light loam) at the Experimental Station at Bacyny to investigate the response of the most important plants cultivated in Poland to monocultural cultivation. Twelve plant species were cultivated in crop rotations: (A) potato-oats-flax-winter rye-faba bean-winter triticale; (B) sugarbeet-maize-spring barley-pea-winter rape-winter wheat, and (C) each of the species in monocultures. The organic matter content in the soil plough layer (0-250 mm) in 1992, 1998 and 2004 is presented. Fractionation of humus was carried out with the Duchaufour and Jacquin method. Under the conditions of the crop rotations, organic matter content slightly increased; similar tendencies were observed in most monoculture fields. The lowest content of organic C was recorded under the conditions of continuous cultivation of pea, maize and faba bean. Humins and humus compounds (extraction II and III) had a dominant share among the determined fractions. Humic acids prevailed over fulvic acids in the crop rotation cultivations and in the most monoculture fields. However, the prevalence of fulvic acids was found under the conditions of continuous cultivation of sugarbeet, potato and winter rye.
- Authors:
- Source: Review of agricultural experiments 2006. Trials and research in the agronomy sector.
Oversigt over Landsfors<o>gene 2006. Fors<o>g og unders<o>gelser i de land<o>konomiske foreninger.
- Year: 2006
- Summary: The organization and aims of the 'Landsforsgene', the collective name for the body that coordinates agricultural experiments in Denmark, are described. The growing season 2005-2006 in Denmark was characterized by long periods of severe drought in summer that resulted in lower crop yields, although the economic effect was mitigated to some extent by higher prices. Separate sections of the review deal with winter barley, winter rye, triticale, winter wheat, spring barley, oats, spring wheat, various seed crops, field seeds, winter rape, manures and calcium treatments, growing techniques, organic farming, potatoes, sugar beet, grass and green fodder crops, maize, plant breeding, general information on experimental design and aims, and a list of authors.
- Authors:
- Massheder, J.
- Smith, P.
- Wright, J.
- Smith, K. A.
- Smith, J.
- Flynn, H. C.
- Source: Global Change Biology
- Volume: 11
- Issue: 9
- Year: 2005
- Summary: The current Intergovernmental Panel on Climate Change (IPCC) default methodology (tier 1) for calculating nitrous oxide (N2O) emissions from nitrogen applied to agricultural soils takes no account of either crop type or climatic conditions. As a result, the methodology omits factors that are crucial in determining current emissions, and has no mechanism to assess the potential impact of future climate and land-use change. Scotland is used as a case study to illustrate the development of a new methodology, which retains the simple structure of the IPCC tier 1 methodology, but incorporates crop- and climate-dependent emission factors (EFs). It also includes a factor to account for the effect of soil compaction because of trampling by grazing animals. These factors are based on recent field studies in Scotland and elsewhere in the UK. Under current conditions, the new methodology produces significantly higher estimates of annual N2O emissions than the IPCC default methodology, almost entirely because of the increased contribution of grazed pasture. Total emissions from applied fertilizer and N deposited by grazing animals are estimated at 10 662 tN2O-Nyr-1 using the newly derived EFs, as opposed to 6 796 tN2O-Nyr-1 using the IPCC default EFs. On a spatial basis, emission levels are closer to those calculated using field observations and detailed soil modelling than to estimates made using the IPCC default methodology. This can be illustrated by parts of the western Ayrshire basin, which have previously been calculated to emit 8-9 kgN2O-Nha-1yr-1 and are estimated here as 6.25-8.75 kgN2O-Nha-1yr-1, while the IPCC default methodology gives a maximum emission level of only 3.75 kgN2O-Nha-1 yr-1 for the whole area. The new methodology is also applied in conjunction with scenarios for future climate- and land-use patterns, to assess how these emissions may change in the future. The results suggest that by 2080, Scottish N2O emissions may increase by up to 14%, depending on the climate scenario, if fertilizer and land management practices remain unchanged. Reductions in agricultural land use, however, have the potential to mitigate these increases and, depending on the replacement land use, may even reduce emissions to below current levels.
- Authors:
- Cardon, G.
- Qian, Y.
- Dillon, M.
- Sparks, R.
- Barbarick, K.
- Delgado, J. A.
- Al-Sheikh, A.
- Source: Soil & Tillage Research
- Volume: 81
- Issue: 2
- Year: 2005
- Summary: The potential for wind erosion in South Central Colorado is greatest in the spring, especially after harvesting of crops such as potato (Solanum tuberosum L.) that leave small amounts of crop residue in the surface after harvest. Therefore it is important to implement best management practices that reduce potential wind erosion and that we understand how cropping systems are impacting soil erosion, carbon dynamics, and properties of rangeland sandy soils. We evaluate the effects of cropping systems on soil physical and chemical properties of rangeland sandy soils. The cropping system included a small grain-potato rotation. An uncultivated rangeland site and three fields that two decades ago were converted from rangeland into cultivated center-pivot-irrigation-sprinkler fields were also sampled. Plant and soil samples were collected in the rangeland area and the three adjacent cultivated sites. The soils at these sites were classified as a Gunbarrel loamy sand (Mixed, frigid Typic Psammaquent). We found that for the rangeland site, soil where brush species were growing exhibited C sequestration and increases in soil organic matter (SOM) while the bare soil areas of the rangeland are losing significant amounts of fine particles, nutrients and soil organic carbon (SOM-C) mainly due to wind erosion. When we compared the cultivated sites to the uncultivated rangeland, we found that the SOM-C and soil organic matter nitrogen (SOM-N) increased with increases in crop residue returned into the soils. Our results showed that even with potato crops, which are high intensity cultivated cropping systems, we can maintain the SOM-C with a rotation of two small grain crops (all residue incorporated) and one potato crop, or potentially increase the average SOM-C with a rotation of four small grain crops (all residue incorporated) and one potato crop. Erosion losses of fine silt and clay particles were reduced with the inclusion of small grains. Small grains have the potential to contribute to the conservation of SOM and/or sequester SOM-C and SOM-N for these rangeland systems that have very low C content and that are also losing C from their bare soils areas (40%). Cultivation of these rangelands using rotations with at least two small grain crops can reduce erosion and maintain SOM-C and increasing the number of small grain crops grown successfully in rotation above two will potentially contribute to C and N sequestration as SOM and to the sequestration of macro- and micro-nutrients.
- Authors:
- Voelker, U.
- Schmerler, J.
- Elhert, D.
- Source: Precision Agriculture
- Volume: 5
- Issue: 5
- Year: 2004
- Summary: Site-specific nitrogen fertilisation is important in precision agriculture. Based on positive results from a mechanical sensor (pendulum-meter) for the indirect measurement of existing plant mass in cereals, late nitrogen fertilisation in a farm scale strip trial was tested in the growing seasons of the year 2000 in one field and 2001 in two fields. The pendulum-meter was mounted at the front of a tractor. For site-specific fertilising, a tractor-mounted spreader which included an on-board computer was modified. The fertiliser rate was varied according to plant growth. In parts of the plots with low plant mass, the application rate was reduced and in parts with high mass increased. The result of site-specific fertilising was that, for the three fields calcium-ammonium-nitrate (CAN) could be saved in the range of 10-12% without reducing yields. The grain quality was not significantly influenced by low or high fertiliser rates.
- Authors:
- Riley, H.
- Løes, A. K.
- Brandsæter, L. O.
- Source: European weed research society. Proceedings of the 6th EWRS workshop on physical and cultural weed control, Lillehammer, Norway, 8-10 March, 2004
- Year: 2004
- Summary: Due to official regulations, Norwegian agriculture is divided into cereal cropping areas with very little animal husbandry, and areas with high livestock density in the coastal and mountain regions. Stockless organic farming requires a good management of green manure crops. This paper presents crop rotations designed for organic farming with low livestock density, combining weed control and nutrient supply. Rotation 1 consists of green manure, followed by barley with subcropped legume, oats and peas, green manure or winter rye, rye, ryegrass-clover, and late planted rapeseed. Rotation 1 is designed for a full-time farmer with good access to cultivated land, where 66% of the land is used for cereals and rapeseed, and 34% for green manure. Rotation 2 consists of cereal or lettuce, followed by 4-5 rotations of ley, then potatoes, green manure, cabbage with early mulch, and carrots with late mulch. Rotation 2 is designed for a part-time farmer with less farmland who wants to keep the land in shape and produce some cash crops, but cannot manage to cultivate all the farmland intensively. Forty-four percent of the land is then used for vegetables and herbs, and 56% to produce mulch or green manure crops. Green manure and mulch leys must be cut regularly to control perennial weeds.
- Authors:
- Tiefenthaler, A. E.
- Goldman, I. L.
- Tracy, W. F.
- Schaber, M. A.
- Source: Plant Breeding Reviews: Long-term Selection: Crops, Animals, and Bacteria
- Volume: 24
- Issue: 2
- Year: 2004
- Summary: This review covers some long-term trends of the Illinois Long-term Selection Experiment and offers some perspectives on the impact of long-term selection on productivity of crops (lucerne, oats, rye, barley, winter wheat, spring wheat, soyabeans, groundnuts, sweetcorn, sweet potato, cotton, green peas, sorghum, maize, rice and potato) in the USA. Discussions on the crop productivity, variability of crop productivity and causes of increased productivity, are provided.
- Authors:
- Source: Zashchita i Karantin Rastenii
- Issue: 12
- Year: 2004
- Summary: Wild oat (Avena fatua) is widely spread in cereals, particularly wheat, barley and oat, in many regions of Russia, causing up to 40% losses of crops, and a decrease of quality of seed material, and food and feed grains. Investigations carried out in the Orlov region, European Russia, revealed significant infestations of agricultural crops, particularly winter and spring wheat, and pea, with wild oat. Data are tabulated on herbicides effective against Poaceae weeds including A. fatua in sugarbeet, sunflower, soyabean, rape, potato and vegetable crops. Strategies for prevention and control of A. fatua are discussed. Data are also tabulated on herbicides showing activity against Poaceae and dicotyledonous weeds, as well as A. sativa in maize, sugarbeet, sunflower, soyabean, rape, potato and vegetable crops.