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Influence of previous cropping practices on the response of spring wheat to applied N (1998)

Bélanger, G. ; Richards, J. E. ; Milburn, P. ; [et al.]

Canadian Science Publishing

In: Canadian Journal of Soil Science. 1998; 78(2): 267-273. Published 1998 May 01. doi: 10.4141/s97-048.

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Publication Date: 1998-05-01

Description: Nitrate (NO3) leaches from the rooting zone into ground waters during late fall and early spring in Atlantic Canada, particularly from soils cropped to potatoes, both in the year of potatoes and in the following year in the rotation. Therefore, it is imperative to maximize N fertilizer efficiencies in order to minimize environmental degradation. Six field trials were conducted in the upper St-John River Valley of New Brunswick to determine the effect of two previous crops, oats and potatoes, on the amount of residual NO3 in the spring following their harvest, and to determine if spring soil NO3 could be used as a single criterion to predict fertilizer N requirements of wheat. At all six field trials, spring soil NO3-N (0–0.45 m) was greater with potatoes as the previous crop (average of 86 kg NO3-N ha−1) than with oats (average of 56 kg NO3-N ha−1). As a result, the economically optimum fertilizer rate (Nop) for spring wheat was lower on soil previously cropped to potatoes (108 kg N ha–1) than oats (135 kg N ha–1). Nop, however, was poorly correlated with the amount of spring soil NO3-N. We conclude that conventional spring soil tests based on NO3-N are inappropriate to predict fertilizer N requirements of wheat in Atlantic Canada. Fertilizer N recommendations in Atlantic Canada, however, may be improved by taking previous crop into consideration. Key words: Wheat, potatoes, oats, nitrogen, previous crops

Print ISSN: 0008-4271

Electronic ISSN: 1918-1841

Topics: Geosciences , Agriculture, Forestry, Horticulture, Fishery, Domestic Science, Nutrition

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Predicting nitrogen fertilizer requirements of potatoes in Atlantic Canada with soil nitrate determinations (2001)

Bélanger, G. ; Walsh, J. R. ; Richards, J. E. ; [et al.]

Canadian Science Publishing

In: Canadian Journal of Soil Science. 2001; 81(5): 535-544. Published 2001 Nov 01. doi: 10.4141/s00-050.

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Publication Date: 2001-11-01

Description: Nitrogen greatly affects potato ( Solanum tuberosum L.) yield, but excess N can result in environmental degradation. In this study soil nitrate (NO3-N) content was determined pre-plant to predict fertilizer N requirements of potatoes in Atlantic Canada and in mid-season to adjust N fertilization during the growing season. Soil NO3-N contents were measured to a 0.30-m depth in spring prior to planting at four on-farm sites in each of 3 yr (1995 to 1997) in the upper St. John River Valley of New Brunswick, Canada. Mid-season soil NO3-N contents at a 0–0.30 m depth were also determined (32–47 days after planting) at two sites in three N treatments in 1995 (0, 50, and 250 kg N ha-1) and in four N treatments in 1996 and 1997 (0, 50, 100, and 250 kg N ha-1). The yield response of potatoes to six rates of N fertilization (0–250 kg N ha-1) with and without supplemental irrigation was used to determine the economically optimum N application (Nop). The pre-plant spring soil NO3-N test alone could not adequately predict the N requirements of potatoes in Atlantic Canada; the Nop and relative yield were poorly correlated (0.07 〈 R2〈 0.52) with spring soil NO3-N content. The mid-season soil NO3-N test, however, could be used to determine the need for supplemental N fertilizer; NO3-N content correlated well (0.44 〈 R2〈 0.68) with the relative yield for total and marketable yield. We suggest a critical mid-season value of 80 mg NO3-N kg-1 soil for marketable yield, above which additional N application might not be necessary. Key Words: N fertilizer, nitrate, Nop, relative yield, Solanum tuberosum, critical value

Print ISSN: 0008-4271

Electronic ISSN: 1918-1841

Topics: Geosciences , Agriculture, Forestry, Horticulture, Fishery, Domestic Science, Nutrition

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Long-term fertilization effects on soil carbon under permanent swards (1999)

Bélanger, G. ; Richards, J. E. ; Angers, D. A.

Canadian Science Publishing

In: Canadian Journal of Soil Science. 1999; 79(1): 99-102. Published 1999 Feb 01. doi: 10.4141/s98-038.

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Publication Date: 1999-02-01

Description: In a long-term study with four rates each of fertilizer N, P, and K in factorial combination on timothy (Phleum pratense L.), soil C concentration in the 0- to 15-cm layer of an Orthic Dystric Brunisol in New Brunswick ranged from 25 to 37 g C kg−1 after 26 yr, and from 26 to 44 g C kg−1 after 35 yr. Soil C concentration was not related to the wide range of aboveground net productivity resulting from contrasted long-term fertilization treatments. Soil C concentration, however, was negatively correlated to soil pH. Key words:Phleum pratense L., timothy, carbon, fertilization

Print ISSN: 0008-4271

Electronic ISSN: 1918-1841

Topics: Geosciences , Agriculture, Forestry, Horticulture, Fishery, Domestic Science, Nutrition

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Soil and alfalfa response after amelioration of subsoil acidity in a fine sandy loam Podzol in Prince Edward Island (2000)

Carter, M. R. ; Richards, J. E.

Canadian Science Publishing

In: Canadian Journal of Soil Science. 2000; 80(4): 607-615. Published 2000 Nov 01. doi: 10.4141/s00-005.

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Publication Date: 2000-11-01

Description: Subsoils in Prince Edward Island have poor chemical and often physical quality for root growth that may present a barrier to development of alfalfa (Medicago sativa L.). This study was conducted to characterise the response or benefit, on soil properties and alfalfa growth, of chemical amelioration and loosening of the subsoil. In 1987, the following three treatments were imposed on an acidic, fine sandy loam, Humo-Ferric Podzol: control (no subsoiling or lime), subsoiling alone, and subsoiling plus lime (5 Mg ha−1 dry CaCO3) mixed into the subsoil. The subsoiler was a Wye Double-Digger, a combined plough and rotary cultivator that facilitated the mixing of lime into the soil over the 230–480 mm depth. Management of the 0–200 mm soil depth was the same for all treatments. Growth of alfalfa and change in soil properties were monitored over time. In 2 of 4 yr (1991–1994), alfalfa yield was significantly (P

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Nitrogen availability and nitrate leaching from organo-mineral fertilizers (1993)

Richards, J. E. ; Daigle, J.-Y. ; LeBlanc, P. ; [et al.]

Canadian Science Publishing

In: Canadian Journal of Soil Science. 1993; 73(2): 197-208. Published 1993 May 01. doi: 10.4141/cjss93-022.

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Publication Date: 1993-05-01

Description: Greenhouse, field and laboratory studies were conducted to determine if N availability to corn (Zea mays L.) and NO3 leaching were affected by encapsulating conventional granular fertilizer within peat pellets (organo-mineral fertilizers or OMF). In the greenhouse, total N uptake by three 6-wk crops of corn from soil fertilized with NH4NO3 was 9.1% higher than the mean from soils fertilized with OMF made with urea (OMF-urea) or with NH4NO3 (OMF-AN). Total N uptake was 5.1% higher from soils fertilized with OMF-AN than OMF-urea. Differences in total N uptake among the fertilizers were constant across crops. In two field trials, total N uptake was slightly higher (4%) from soil fertilized with commercial NH4NO3 than with OMF-AN. In a laboratory experiment, NO3 from commercial NH4NO3 fertilizer leached more readily from soil than NO3 from OMF-AN. Approximately 95% of the NO3 from commercial NH4NO3 fertilizer leached from 3-cm soil cores in the first 50 mL of leachate whereas only 26% of the NO3 contained in OMF-AN leached. In another trial, NO3 from commercial NH4NO3 fertilizer leached more deeply than NO3 from OMF-AN after application of 2.5 cm irrigation water to soil in 63-cm leaching columns. Virtually no NO3 was retained within the OMF-AN pellet after leaching, suggesting that the retention of NO3 by OMF-AN used in our work is of limited duration. The OMF is an effective source of N to crops and is less prone to NO3 leaching losses than commercial NH4NO3 fertilizer when rain occurs soon after application. More work is required to determine the effect of pellet size and composition on NO3 retention, NO3 leaching losses and crop availability of N. Key words: Nitrate leaching, corn, organo-mineral fertilizers

Print ISSN: 0008-4271

Electronic ISSN: 1918-1841

Topics: Geosciences , Agriculture, Forestry, Horticulture, Fishery, Domestic Science, Nutrition

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