Long‐term yield response of corn, wheat, and double‐crop soybean to tillage and N placement

Assessment of the long-term impact of fertilizers and other management factors on crop production and environmental sustainability of cropping systems in the semi-arid Canadian prairies is needed. This paper discusses the long-term influence of N and P fertilizers on crop production, N uptake and water use of hard red spring wheat (Triticum aestivum L.), and the effect of the preceding crop type [flax (Linum usitatissimum L.) and fall rye (Secale cereale L.)] on wheat grown on a medium-textured, Orthic Brown Chernozem at Swift Current, Saskatchewan. We analysed 36 yr of results (1967–2002) from eight crop rotation-fertility treatments: viz., fallow-wheat receiving N and P (F-W, N + P), three F-W-W treatments fertilized with (i) N + P, (ii) P only, and (iii) N only; two other 3-yr mixed rotations with N + P (i) F-flax-W (F-Flx-W) and (ii) F-fall rye-W (F-Rye-W); and two continuous wheat rotations (Cont W), one receiving N + P and the other only P. Growing season weather conditions during the 36-yr period were near the long-term mean, but the first 22 yr were generally drier than normal while the last 14 yr (1989–2002) had average to above-average growing conditions. This was partly responsible for grain and N yield being greater in the latter period than in the first 22 yr. The 36-yr average response of wheat grown on fallow to P fertilizer was 339 kg ha-1, while the response to N fertilizer over this period was only 123 kg ha-1. The 36-yr average response of wheat grown on stubble to N was 344 kg ha-1 for F-W-(W) and 393 kg ha-1 for Cont W. Neither flax nor fall rye influenced the yield response of the following wheat crops. Annualized grain production for F-W (N + P), F-W-W (+ N) and F-W-W (+ P) rotations were similar (1130 kg ha-1 yr-1); this was about 15% lower than for F-W-W (N + P), 40% lower than for Cont W (N + P), and 5% lower than for Cont W (+ P). Annualized aboveground N yield for Cont W (N + P) was 57% higher than for Cont W (+ P). Regressions were developed relating straw to grain yields for wheat, flax and fall rye. The amount of NO3-N left in the soil was directly related to amount of N applied and inversely to N removed in the crop. Thus, F-(W)-W (+ N) left about 28% more NO3-N in the rooting zone than F-(W)-W (N + P), while F-W-(W) (N + P) left 20% more than F-W-(W) (+ P), and Cont W (N + P) left 39% more than Cont W (+ P). F-Rye-W (N + P) left much less NO3-N in the soil than any other fallow-containing system and similar amounts to Cont W (N + P). Key words: Yields, grain protein, N and P fertilizer, straw/grain regressions, water use, soil nitrate

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Soybean Yield Response to Phosphorus Fertilization in an Oxisol under Long-Term No-Till Management

Soil Science Society of America Journal ◽

10.2136/sssaj2018.07.0251 ◽

2019 ◽

Vol 83 (1) ◽

pp. 173-180 ◽

Cited By ~ 10

Author(s):

Joao Arthur Antonangelo ◽

Ruan Francisco Firmano ◽

Luís Reynaldo Ferracciú Alleoni ◽

Adilson Oliveira ◽

Hailin Zhang

Keyword(s):

Yield Response ◽

Phosphorus Fertilization ◽

Soybean Yield ◽

No Till

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Irrigation of field peas (Pisum sativum): response to timing at different crop growth stages

The Journal of Agricultural Science ◽

10.1017/s0021859699006516 ◽

1999 ◽

Vol 132 (4) ◽

pp. 417-424 ◽

Cited By ~ 1

Author(s):

C. M. KNOTT

Keyword(s):

Pisum Sativum ◽

Vegetative Growth ◽

Growth Stage ◽

Crop Growth ◽

Yield Response ◽

Growth Stages ◽

Field Peas ◽

Crop Growth Stages ◽

Different Growth Stages

The response of two cultivars of dry harvest field peas (Pisum sativum), Solara and Bohatyr, to irrigation at different growth stages was studied on light soils overlying sand in Nottinghamshire, England in 1990, when the spring was particularly dry, in 1991 which had a dry spring and summer and in contrast, 1992, when rainfall was greater compared with the long-term (40 year) mean.Solara, short haulmed and semi-leafless was more sensitive to drought than the tall conventional-leaved cultivar Bohatyr and gave a greater yield response to irrigation, particularly at the vegetative growth stage in the first two dry years 1990 and 1991, of 108% and 55% respectively, compared with unirrigated plots. Bohatyr was less sensitive to the timing of single applications.In all years, peas irrigated throughout on several occasions produced the highest yields, but this was the least efficient use of water.

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Light Yield Response of Neutron Scintillation Screens to Sudden Flux Changes

Journal of Imaging ◽

10.3390/jimaging6120134 ◽

2020 ◽

Vol 6 (12) ◽

pp. 134

Author(s):

Tobias Neuwirth ◽

Bernhard Walfort ◽

Simon Sebold ◽

Michael Schulz

Keyword(s):

Neutron Flux ◽

Light Yield ◽

Neutron Imaging ◽

Frame Rate ◽

Yield Response ◽

High Frame Rate ◽

Long Term Stability ◽

High Light Yield ◽

Different Temperatures

We performed a study of the initial and long term light yield of different scintillation screen mixtures for neutron imaging during constant neutron irradiation. We evaluated the light yield during different neutron flux levels as well as at different temperatures. As high frame rate imaging is a topic of interest in the neutron imaging community, the decay characteristics of scintillation screens are of interest as well. Hence, we also present and discuss the decay behavior of the different scintillation screen mixtures on a time scale of seconds. We have found that the decay time of ZnS:Cu/6LiF excited with a high neutron flux is potentially much longer than typically stated. While most of the tested scintillation screens do not provide a significant improvement over currently used scintillation screen materials, Zn(Cd)S:Ag/6LiF seems to be a good candidate for high frame rate imaging due to its high light yield, long-term stability as well as fast decay compared to the other evaluated scintillation screens.

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Fertiliser N and P applications on two Vertosols in north-eastern Australia. 1. Comparative grain yield responses for two different cultivation ages

Australian Journal of Agricultural Research ◽

10.1071/ar07169 ◽

2008 ◽

Vol 59 (3) ◽

pp. 247 ◽

Cited By ~ 7

Author(s):

David W. Lester ◽

Colin J. Birch ◽

Chris W. Dowling

Keyword(s):

Grain Yield ◽

Yield Response ◽

Average Yield ◽

Crop Species ◽

Winter Cereal ◽

North West ◽

The North ◽

Winter Cereals ◽

Eastern Australia

Nitrogen (N) and phosphorus (P) are the 2 most limiting nutrients for grain production within the northern grains region of Australia. The response to fertiliser N and P inputs is influenced partly by the age of cultivation for cropping, following a land use change from native pasture. There are few studies that have assessed the effects of both N and P fertiliser inputs on grain yield and soil fertility in the long term on soils with contrasting ages of cultivation with fertility levels that are running down v. those already at the new equilibrium. Two long-term N × P experiments were established in the northern grains region: one in 1985 on an old (>40 years) cultivation soil on the Darling Downs, Qld; the second in 1996 on relatively new (10 years) cultivation on the north-west plains of NSW. Both experiments consisted of fertiliser N rates from nil to 120 kg N/ha.crop in factorial combination with fertiliser P from nil to 20 kg P/ha.crop. Opportunity cropping is practiced at both sites, with winter and summer cereals and legumes sown. On the old cultivation soil, fertiliser N responses were large and consistent for short-fallow crops, while long fallowing reduced the size and frequency of N response. Short-fallow sorghum in particular has responded up to the highest rate of fertiliser N (120 kg N/ha.crop). Average yield increase with fertiliser N compared with nil for 5 short-fallow sorghum crops was 1440, 2650, and 3010 kg/ha for the 40, 80, and 120 kg N/ha, respectively. Average agronomic efficiency of N for these crops was 36, 33, and 25 kg grain/kg fertiliser N applied. This contrasts with relatively new cultivation soil, where fertiliser N response was generally limited to the first 30 kg N/ha applied during periods of high cropping intensity. Response to P input was consistent for crop species, VAM sensitivity, and starting soil test P level. At both the old and new cultivation sites, generally all winter cereals responded to a 10 kg P/ha application, and more than half of long-fallow sorghum crops from both sites had increased grain yield with P application. At the old cultivation site, average yield gain for 10 kg P/ha.crop treatment was 480 kg/ha for all winter cereal sowings, and 180 kg/ha for long-fallow sorghum. Short-fallow sorghum did not show yield response to P treatment.

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Short- and Long-Term Effects of Lime and Gypsum Applications on Acid Soils in a Water-Limited Environment: 1. Grain Yield Response and Nutrient Concentration

Agronomy ◽

10.3390/agronomy10081213 ◽

2020 ◽

Vol 10 (8) ◽

pp. 1213 ◽

Cited By ~ 1

Author(s):

Geoffrey C. Anderson ◽

Shahab Pathan ◽

James Easton ◽

David J. M. Hall ◽

Rajesh Sharma

Keyword(s):

Grain Yield ◽

Soil Layer ◽

Acid Soils ◽

Triticum Aestivum L ◽

Nutrient Concentrations ◽

Yield Response ◽

Long Term Effects ◽

Grain Yields ◽

Growing Seasons

Surface (0–10 cm) and subsoil (soil layers below 10 cm) acidity and resulting aluminum (Al) toxicity reduce crop grain yields. In South Western Australia (SWA), these constraints affect 14.2 million hectares or 53% of the agricultural area. Both lime (L, CaCO3) and gypsum (G, CaSO4) application can decrease the toxic effect of Al, leading to an increase in crop grain yields. Within the region, it is unclear if G alone or the combined use of L and G has a role in alleviating soil acidity in SWA, due to low sulfate S (SO4–S) sorption properties of the soil. We present results from three experiments located in the eastern wheatbelt of SWA, which examined the short-term (ST, 2 growing seasons), medium-term (MT, 3 growing seasons), and long-term (LT, 7 growing seasons over 10 years) effects of L and G on grain yield and plant nutrient concentrations. Despite the rapid leaching of SO4–S and no self-liming impact, it was profitable to apply G, due to the significant ST grain yield responses. The grain yield response to G developed even following relatively dry years, but declined over time due to SO4–S leaching. At the LT experimental site had received no previous L application, whereas, at the ST and MT sites, L had been applied by the grower over the previous 5–10 years. For the LT site, the most profitable treatment for wheat (Triticum aestivum L.) grain yield, was the combined application of 4 t L ha−1 with 2 t G ha−1. At this site, the 0–10 cm soil pHCaCl2 was 4.6, and AlCaCl2 was greater than 2.5 mg kg−1 in the 10–30 cm soil layer. In contrast, at the ST and MT sites, the pHCaCl2 of 0–10 cm soil layer was ≥5.5; it was only profitable to apply G to the MT site where the soil compaction constraint had been removed by deep ripping. The use of L increases soil pHCaCl2, resulting in the improved availability of anions, phosphorus (P) in the LT and molybdenum (Mo) at all sampling times, but reduced availability of cations zinc (Zn) in the LT and manganese (Mn) at all sampling. The application of G reduced Mo concentrations, due to the high SO4–S content of the soil.

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Modelling crop yield response to precipitation redistribution on slopes

Biologia ◽

10.2478/s11756-009-0103-x ◽

2009 ◽

Vol 64 (3) ◽

Cited By ~ 4

Author(s):

Triin Saue ◽

Jüri Kadaja

Keyword(s):

Crop Yield ◽

Water Distribution ◽

Meteorological Data ◽

Daily Rainfall ◽

Summer Precipitation ◽

Potato Yield ◽

Yield Response ◽

Major Influence ◽

Excess Water

AbstractIn undulating or sloping land, water distribution in soil has a major influence on crop yield through stresses on vegetation. It is difficult to predict the impacts, however, so a crop model is required to simulate topography-related horizontal redistribution of summer precipitation and its effect on yield. This study uses a potato model (POMOD), operating with the concept of meteorologically possible yield (MPY). It was supplemented to assess precipitation redistribution by runoff on a sloping surface. Slope incline, soil moisture and rainfall intensity were environmental parameters, with rainfall intensities replaced empirically with more convenient daily rainfall sums. Differences in the water balance, as compared to a non-sloping level surface, were computed for three different parts of a notional slope 3°. Modelled differences from long-term meteorological data allowed computation of comparative long-term series of MPY in two climatologically different localities in Estonia. These were the generally moister Tallinn and the frequently dry Kuressaare regions. The locations responded differently, but there was a significant influence in both of slope on potato yield. In the frequently dry Kuressaare, yield was limited by water deficiency, as was characterized by the change in MPY through slope. However, the moister Tallinn had the worst growing conditions at the foothill due to excess water. Tallinn had the greatest topography-related differences, leading to the conclusion that excess water causes more loss in potato yield than drought in Estonia. Events of extreme rainfall drive these losses.

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Pasture yield responses to irrigation in Canterbury

Proceedings of the New Zealand Grassland Association ◽

10.33584/jnzg.1994.56.2125 ◽

1994 ◽

pp. 165-168 ◽

Cited By ~ 4

Author(s):

S.D. Mcbride

Keyword(s):

Soil Moisture ◽

Drop Out ◽

Yield Response ◽

Research Station ◽

Response Curves ◽

Response Data ◽

Term Trial ◽

Water Restrictions ◽

Yield Responses

Major findings from 13 pasture irrigation experiments conducted in Canterbury are discussed. Yields and response curves on 8 of the experimental sites were very similar to those of the long-term trial (34 years) site at the Winchmore Research Station. Irrigating when soil moisture dried to 50% asm (available soil moisture), increased annual pasture DM yields by an average of 5.2 t/ha DM (80% increase over the non-irrigated yield). Response per irrigation and yield variation between years decreased as the number of irrigations increased. During water restrictions, irrigators often choose to either keep watering their whole farm with a longer irrigation return period, or drop out paddocks and fully irrigate the remainder. The irrigation response data are used to discuss these and other possible strategies. Keywords: irrigation, pasture yields, response curves, water restrictions

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Relations between yield of wheat, soil factors, and rainfall

Australian Journal of Agricultural Research ◽

10.1071/ar9610397 ◽

1961 ◽

Vol 12 (3) ◽

pp. 397 ◽

Cited By ~ 12

Author(s):

RJ Millington

Keyword(s):

Grain Yield ◽

Apparent Density ◽

Seedling Establishment ◽

Seasonal Changes ◽

South Australia ◽

Yield Response ◽

Plant Responses ◽

Physical Conditions ◽

Nitrogenous Fertilizer

Data have been collected from wheat plots in long-term rotation experiments on a red-brown earth at Adelaide, South Australia. Measurements were made of the apparent density and total nitrogen status of' the surface soil and of seedling establishment. Variation in grain yield, as well as grain yield response to applied nitrogenous fertilizer, was assessed in relation to these factors both within and between seasons. In particular, soil and plant responses to the amount of rainfall occurring just after sowing hare been examined. It has been shown that there are marked seasonal changes in apparent density associated \ d h the mount of rainfall occurring in the month following sowing. These seasonal changes in apparent density are accompanied by a reduction in seedling establishment and a depression of crop grain yield in years of high post-seeding rainfall. The results suggest that a large part of the reduction in yield in excessively wet seasons on unstable soil.; like the red-brown earth may be ascribed to poor physical conditions of the soil, and not predominantly to the leaching of nitrate.

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