Effect of Brassica break crops on the growth and yield of wheat

1994 ◽  
Vol 45 (3) ◽  
pp. 529 ◽  
Author(s):  
JA Kirkegaard ◽  
PA Gardner ◽  
JF Angus ◽  
E Koetz
Keyword(s):  
Methyl Bromide ◽  
Vegetative Growth ◽  
Field Experiments ◽  
N Uptake ◽  
Indian Mustard ◽  
Gaeumannomyces Graminis ◽  
Growth And Yield ◽  
Average Increase ◽  
Mineral N ◽  
Brassica Crops

The effect of the Brassica crops, canola and Indian mustard, on the growth and yield of subsequent wheat crops was investigated in field experiments at four sites in southern New South Wales. In all experiments, shoot growth, root growth, disease incidence and water and nitrogen use of wheat following the Brassica crops were compared with wheat following wheat. Linseed and field peas were included as break crops at some sites for comparison. At one site, methyl bromide fumigation was used to investigate break crop effects in the absence of soil-borne pathogens. Growth improvements following break crops were evident at an early stage (4 leaf stage), but were not related to levels of soil mineral N or the incidence of plants affected by Gaeumannomyces graminis var. tritici (take-all) or Rhizoctonia solani. At two of the four sites, early vegetative growth was greater following Indian mustard than following canola. Treatment with methyl bromide led to increased vegetative growth of wheat following all crops, but the ranking of the break crop effect was maintained, with wheat growth after Indian mustard>canola>wheat. The average increase in shoot biomass at anthesis following the break crops was 29%, varying from 12 to 46% according to site and break crop species. The effect of break crops on grain yield was influenced by water availability after anthesis. At one site, where 89 mm of rain fell after anthesis, the early improvements in growth persisted until maturity, and yield was significantly improved following the break crops. At the other three sites, less than 20 mm of rain fell after anthesis, and the greater biomass of wheat following break crops resulted in rapid depletion of soil water. The increased water deficit during grain filling reduced grain size, and no yield benefit was observed. As a result of increased pre-anthesis growth, wheat following break crops accumulated more N at anthesis in above-ground biomass at all sites. This N was redistributed into the grain after anthesis resulting in an average increase of 1.5% in grain protein in wheat following break crops. At one site, the increased N uptake in the crop was associated with less mineral N remaining in the profile at harvest. The results indicate the potential for break crops to improve the yield and protein levels of subsequent wheat crops, although the magnitude of these effects is dependent on seasonal conditions. The nature of the early growth improvements remains uncertain. However, the results from two of the sites support a previous report of the superior break-crop effect of Indian mustard.

scholarly journals Residual effect of clover-rich leys on soil nitrogen and successive grain crops

2008 ◽  
Vol 17 (1) ◽  
pp. 73 ◽  
Author(s):  
A. NYKÄNEN ◽  
A. GRANSTEDT ◽  
L. JAUHIAINEN
Keyword(s):  
Field Experiments ◽  
Clayey Soil ◽  
N Uptake ◽  
Residual Effect ◽  
Red Clover ◽  
N Leaching ◽  
N Fixation ◽  
Mineral N ◽  
Total N ◽  
Biological N Fixation

Legume-based leys form the basis for crop rotations in organic farming as they fix nitrogen (N) from the atmosphere for the succeeding crops. The age, yield, C:N, biological N fixation (BNF) and total N of red clover-grass leys were studied for their influence on yields, N uptake and N use efficiency (NUE) of the two sequential cereal crops planted after the leys. Mineral N in deeper soil (30-90 cm) was measured to determine N leaching risk. Altogether, four field experiments were carried out in 1994-1998 at two sites. The age of the ley had no significant effect on the yields and N uptake of the two subsequent cereals. Surprisingly, the residual effect of the leys was negligible, at 0–20 kg N ha-1yr-1. On the other hand, the yield and C:N of previous red clover-grass leys, as well as BNF-N and total-N incorporated into the soil influenced subsequent cereals. NUEs of cereals after ley incorporation were rather high, varying from 30% to 80%. This might indicate that other factors, such as competition from weeds, prevented maximal growth of cereals. The mineral N content deeper in the soil was mostly below 10 kg ha-1 in the sandy soil of Juva, but was 5-25 kg ha-1 in clayey soil of Mietoinen.;

Timing of 15N fertiliser application, partitioning to reproductive and vegetative tissue, and nutrient removal by field-grown low-chill peaches in the subtropics

1999 ◽  
Vol 50 (2) ◽  
pp. 211 ◽  
Author(s):  
D. O. Huett ◽  
G. R. Stewart
Keyword(s):  
Nutrient Removal ◽  
Vegetative Growth ◽  
N Uptake ◽  
Fruit Yield ◽  
Growth And Yield ◽  
Winter Period ◽  
N Recovery ◽  
N Application ◽  
Vegetative Tissues ◽  
Reproductive Tissues

The effect of timing of nitrogen (N) application as 15N-enriched ammonium sulfate (50 kg N/ha) on the growth response and N uptake by vegetative and reproductive tissues was investigated in the low-chill peach cv. Flordagem growing on a krasnozem soil at Alstonville. Nitrogen was applied in late August, late September, late October, mid February, and early May. Tree parts were sampled for 15N at 4 and 8 weeks after application and after fruit harvest in December the following season. After fruit yield was measured, trees were excavated and divided into parts for dry weight and nutrient concentration determinations, and fertiliser N recovery and to estimate tree nutrient removal. Nitrogen enrichment was detected in all plant parts within 4 weeks of N application, irrespective of timing, and was greatest in rapidly growing tissues such as laterals, leaves, and fruit. The most rapid (P < 0.05) 15N enrichment in vegetative tissues resulted from September, October, and February N applications and for fruit from a September application. The level of enrichment 4 weeks after fertiliser N application was similar for vegetative and reproductive tissues. The timing of N application in the first season had no effect on fruit yield and vegetative growth the following season. At tree removal, the recovery of fertiliser N in most tree parts increased (P < 0.05) as fertiliser N application was delayed from October to May the previous season. Maximum contribution of absorbed N to whole tree N was 10–11% for laterals, leaf, and fruit. Data from this study indicate that vegetative and reproductive growth have similar demand for absorbed N, and that uptake of fertiliser N is most rapid when an application precedes a period of rapid growth. Over 2 seasons, recovery of applied fertiliser N was 14.9–18.0% in the tree, confirming that stored N and the soil N pool are the dominant sources of tree N. The recovery of fertiliser N from the May application was 18% even though uptake in all tree parts including roots at 4 weeks after application was very low, indicating that tree fertiliser N uptake occurred when growth resumed after the dormant winter period. The low proportion and recovery of fertiliser N in the tree confirm the lack of immediate influence of applied N to vegetative growth and yield. Annual crop nutrient removal is a sound basis for fertiliser recommendations, and for the Flordagem orchard (1000 trees/ha), it consisted of fruit plus 70% of laterals (removed at pruning) plus 20% of leaf. Removal in vegetative tissues was relatively low at (kg/ha) 14 N, 1 P, 12 K, 13 Ca, and 2 Mg. The addition of fruit at a yield of 25 t/ha increased total nutrient removal to (kg/ha) 46 N, 5 P, 54 K, 14 Ca, and 5 Mg.

Prior crop and residue incorporation time affect the response of paddy rice to fertiliser nitrogen

1999 ◽  
Vol 50 (6) ◽  
pp. 937 ◽  
Author(s):  
S. E. Ockerby ◽  
A. L. Garside ◽  
P. D. Holden ◽  
S. W. Adkins
Keyword(s):  
Vegetative Growth ◽  
Rice Yield ◽  
Grain Filling ◽  
Dry Season ◽  
Rice Crop ◽  
Growth And Yield ◽  
Wet Season ◽  
Mineral N ◽  
Rice Growth ◽  
Legume Crops

Crop residues are an important source of nitrogen (N) for rice (Oryza sativa L.). The objective of this research was to determine how the supply of mineral N from different prior crops or fallow might affect the growth and yield of rice. The study also tested whether N use by rice might be improved by timing the application of inorganic fertiliser N to supplement the N mineralised after prior crops. Experiments consisted of fallow, or cereal or legume crops in the dry-season followed by wet-season rice; and fallow, or cereal or legume crops in the wet- season followed by dry-season rice. Urea at one-third of the rate required for optimum rice yield was applied at 3 times during the rice crop: sowing, permanent flood, and/or panicle initiation. The prior fallow and crop treatments significantly influenced the growth and yield of rice crops. After a fallow, the pattern of soil N mineralisation promoted vegetative growth but was limiting during grain-filling. In contrast, after a cereal crop, rice vegetative growth was limited but grain-filling was promoted. Legume prior crops promoted both vegetative and grain growth. The benefits derived from growing the cereal or legume crops before rice, in terms of replacing fertiliser N, were dependent on the time at which fertiliser N was applied to the rice crop. In particular, legume crops frequently nullified the rice growth responses to fertiliser N. The results demonstrated that fallow and prior crops can alter the amount and timing of mineral N supply to a rice crop. Farmers should consider including a legume crop in rotation with rice because legumes supply N, which increases rice yield and reduces the requirement for fertiliser N. Cereal crops also contribute N, although farmers who use a cereal rotation should monitor the soil and crop N status during early rice growth, and supply extra fertiliser N to alleviate N deficiency.

Five years of straw incorporation and its effect on growth, yield and nitrogen nutrition of sugarbeet (Beta vulgaris)

1995 ◽  
Vol 125 (1) ◽  
pp. 61-68 ◽  
Author(s):  
M. F. Allison ◽  
H. M. Hetschkun
Keyword(s):  
Field Experiments ◽  
Nitrogen Nutrition ◽  
N Uptake ◽  
Growth Yield ◽  
Soil Mineral N ◽  
Soil Mineral ◽  
Mineral N ◽  
Fertilizer Use ◽  
Experimental Station ◽  
Straw Incorporation

SUMMARYIn 1990–92, field experiments were performed at Broom's Barn Experimental Station to study the effect of 5 years' repeated straw incorporation on sugarbeet. Straw incorporation had no effect on plant population density. Processing quality was reduced by incorporated straw but N had a much larger effect. The effect of incorporated straw on the mineral N content of the soils and N uptake by beet was inconsistent, and this may be related to the amount of soil mineral N present when the straw was incorporated. The efficiency of fertilizer use was unaffected by straw incorporation. On Broom's Barn soils when straw was incorporated, the optimal economic N dressing was c. 120 kg N/ha, and in unincorporated plots it was c. 100 kg N/ha. At the optimal economic N rate, incorporated straw increased beet yields.

Integrated rice straw–urea management for transplanted rice

1996 ◽  
Vol 127 (1) ◽  
pp. 49-55 ◽  
Author(s):  
A. V. Bulbule ◽  
S. C. Talashilkar ◽  
N. K. Savant
Keyword(s):  
Rice Straw ◽  
Field Experiments ◽  
Management Practice ◽  
Southwest Monsoon ◽  
Growth And Yield ◽  
Tropical Region ◽  
Average Increase ◽  
Tropical Zone ◽  
Deep Placement ◽  
Transplanted Rice

SUMMARYFour field experiments were conducted over the 1992 and 1993 seasons (southwest monsoon seasons, June–October) in the warm subhumid tropical region on the west coast of the Maharashtra State, India. The objective was to investigate the effect of recycling limited amounts of rice straw (RS) (as a source of K and Si) integrated with the use of prilled urea (PU) and urea briquettes (UB) at 60 kg N/ha on the growth and yield of rainfed transplanted rice (Oryza sativa L.). The management practice, consisting of basal incorporation of RS (2 t/ha) integrated with deep placement of UB (one 2·1-g UB/4 hills) immediately after transplanting using a modified 20 × 20 cm spacing, produced a significantly higher grain yield (average increase of 1·3 t/ha) and straw yield (average increase of 1·1 t/ha) than did the RS practice integrated with two equal split applications of PU at the same N rate and hill spacing. The additional yields were attributed to the increase of total and productive tillers/m2 and panicle weight. The results indicate the potential of the integrated RS–UB management for increasing yields of rainfed transplanted rice in the warm subhumid tropical zone.

Effect of Supplementary Saline Irrigation and Applied Nitrogen on the Performance of Dryland Seeded Indian Mustard (Brassica juncea)

1995 ◽  
Vol 31 (4) ◽  
pp. 423-428 ◽  
Author(s):  
Bhu Dayal ◽  
P. S. Minhas ◽  
C. P. S. Chauhan ◽  
R. K. Gupta
Keyword(s):  
Field Experiments ◽  
Saline Water ◽  
Indian Mustard ◽  
Growth And Yield ◽  
Saline Irrigation ◽  
Nitrogen Use ◽  
Fertilizer Nitrogen ◽  
Nitrogen Levels ◽  
Nitrogen Rates ◽  
Seasonal Water Use

SUMMARYField experiments were conducted for two years to evaluate the effects of combinations of saline irrigation (ECw 14.0 ds m-1) and nitrogen levels on the yield, seasonal water use and nitrogen use efficiencies of mustard. These showed that the use of saline water can boost the growth and yield of dryland mustard and that, within certain limits, a non-saline water supply can be substituted by applying nitrogen and saline water. It is suggested that fertilizer nitrogen rates should be adjusted in relation to the supply of water and its predicted salinity.Irrigación salina y los efectos del nitrógeno en la mostaza sembrada en las tierras de secano

scholarly journals Waste composts as nitrogen fertilizers for forage leys

2008 ◽  
Vol 18 (1) ◽  
pp. 57 ◽  
Author(s):  
T. TONTTI ◽  
A. NYKÄNEN ◽  
M. KUISMA
Keyword(s):  
Field Experiments ◽  
N Uptake ◽  
Mineral Fertilizer ◽  
Nitrogen Fertilizers ◽  
N Recovery ◽  
N Fixation ◽  
Mineral N ◽  
Total N ◽  
N Utilization ◽  
Plant Yields

Two field experiments, conventional grass ley and organic grass-clover ley, were established with barley as a nurse crop in spring 2000 and given either low or high fertilization with mineral fertilizer (Mineral) or composts. The compost types were municipal biowaste (Biowaste), biowaste + sewage sludge (BioSludge) and cattle manure (Manure). Plant yields and nitrogen (N) uptakes were measured for three years and efficiency of N utilization was estimated. In single application of compost, the total N was mainly in organic form and less than 10% was in inorganic form. Along with increasing amount of inorganic N applied in compost, the yield, N uptake and N recovery increased during the application year. The highest compost N recovery in the application year was 12%, found with Biowaste. In the following years the highest N recovery was found where the lowest total N had been applied. Clover performance was improved in the organic grass-clover ley established with BioSludge fertilization, producing total ley yield comparable with Manure compost. High total N application in composts caused high N surplus and low N use efficiency over three years. Generally, moderate compost fertilization is suitable for ley crops when supplemented with mineral N fertilizer or clover N fixation.;

scholarly journals Nitrogen recovery and dry matter production of silage maize (Zea mays L.) as affected by subsurface band application of mineral nitrogen fertilizer

1998 ◽  
Vol 46 (2) ◽  
pp. 139-155 ◽  
Author(s):  
W. Van Dijk ◽  
G. Brouwer
Keyword(s):  
Dry Matter ◽  
Field Experiments ◽  
N Uptake ◽  
N Fertilizer ◽  
N Recovery ◽  
Mineral N ◽  
Positive Effects ◽  
Silage Maize ◽  
Matter Production ◽  
Negative Effect

In 1991-94 the effects of subsurface band application of mineral N fertilizer on the N recovery and dry matter (DM) yield of silage maize were studied in nine field experiments on sandy and clay soils in the Netherlands. In the early crop stages and especially in the clay soil experiments, banded N had a significant negative effect on the N uptake and DM yield compared to broadcast N, possibly due to salt damage. At final harvest, however, banding significantly increased the N uptake and DM yield in most of the experiments. The apparent N recovery increased by circa 20-25% (absolute). The positive effects indicated that band application improved the efficiency of the N fertilizer. It could be calculated that banding allowed a reduction in the N rate of 20-30% without significant effects on the N uptake and DM yield of the silage maize. Benefits of banding were positively (P

Effect of Turnip Soil Amendment and Yellow Nutsedge (Cyperus esculentus) Tuber Densities on Interference in Polyethylene-Mulched Tomato

2012 ◽  
Vol 26 (2) ◽  
pp. 364-370 ◽  
Author(s):  
Sanjeev K. Bangarwa ◽  
Jason K. Norsworthy ◽  
Edward E. Gbur
Keyword(s):  
Methyl Bromide ◽  
Soil Amendment ◽  
Field Experiments ◽  
Dry Weight ◽  
Growth And Yield ◽  
Vegetable Crops ◽  
Marketable Yield ◽  
Tomato Production ◽  
Yellow Nutsedge ◽  
Shoot Dry Weight

Yellow nutsedge is a problematic weed in polyethylene-mulched tomato production. Soil fumigation with methyl bromide is the most effective method of controlling nutsedges, but because of ozone depletion, the phase-out of methyl bromide has complicated nutsedge control in polyethylene-mulched tomato and other vegetable crops. Plants belonging to the Brassicaceae family produce glucosinolates, which upon tissue decomposition generate biocidal isothiocyanates and therefore can be used as a biological alternative for yellow nutsedge control. Field experiments were conducted in 2007 and 2009 to study the influence of soil amendment with ‘Seventop’ turnip cover crop on the interference of yellow nutsedge planted at 0, 50, and 100 tubers m−2in raised-bed polyethylene-mulched tomato production. There was no advantage of soil amendment with Seventop on reducing yellow nutsedge interference in polyethylene-mulched tomato. Regardless of soil amendment, increasing initial tuber density from 50 to 100 tubers m−2increased yellow nutsedge shoot density, shoot dry weight, and tuber production at least 1.7, 1.6, and 1.6 times, respectively. As a result, tomato canopy width, shoot dry weight, and marketable yield decreased with increasing initial tuber densities. However, increased tuber density had minimal impact on tomato height. Relative to weed-free plots, interference of yellow nutsedge at 50 and 100 tubers m−2reduced marketable yield of tomato up to 32 and 49%, respectively. Shading of the middle and lower portion of tomato plants by yellow nutsedge shoots could be the major factor for reducing tomato growth and yield in weedy plots. It is concluded that soil amendment with Seventop turnip is not a viable option for reducing yellow nutsedge interference at 50 and 100 tuber m−2in polyethylene-mulched tomato.

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