Residual effects of phosphorus fertiliser in a stylo-native grass pasture on a duplex red earth soil in the semi-arid tropics of North Queensland

1994 ◽  
Vol 34 (2) ◽  
pp. 173
Author(s):  
KA Shaw ◽  
MA Gilbert ◽  
JD Armour ◽  
MJ Dwyer
Keyword(s):  
Soil Analysis ◽  
Residual Effects ◽  
Native Grass ◽  
Soil P ◽  
Initial Application ◽  
Red Earth ◽  
P Application ◽  
Stylosanthes Scabra ◽  
Phosphorus Application ◽  
Establishment Phase

A field experiment was established to define the phosphorus (P) requirement for establishment and maintenance of a mixed legume pasture (Stylosanthes scabra cv. Seca, S. hamata cv. Verano, S. guianensis cv. Graham, Macroptilium atropurpureum cv. Siratro) introduced into a native grass pasture on an infertile duplex red earth. Rates of 0, 5, 10, 20, and 40 kg P/ha were applied to separate plots in year 1 (1982), 2, and 3. In year 5 (1986 growing season), half of each plot that had received 20 and 40 kg P/ha in year 3 was refertilised at the original rate to ensure that maximum yields were defined. Bicarbonate- or acid-extractable soil P concentrations of 8 mg/kg were sufficient for 80% maximum legume yield. The residual value of applied P in the surface soil, as measured by soil analysis, decreased exponentially, but an initial application of 40 kg P/ha was still sufficient to produce near-maximum legume yield after 5 years. Phosphorus application increased the dry matter yield of legume. During the establishment phase (years 1 and 2 after planting) yields reached maximum at 10 and 20 kg P/ha, respectively, but increased linearly in subsequent years. When the original rates were reapplied in year 5, peak yield occurred at 20 + 20 kg P/ha, and there was no difference between this yield and that from plots receiving 40 kg P/ha in year 1. Native grass yields increased with P application only in years 4 and 5 of the experiment. Stylos demonstrated good tolerance to low P supply. In year 1, 80% of the total legume yield consisted of Graham stylo and Siratro, whereas in subsequent years, Seca and Verano made up 70 and 20%, respectively, of the total, irrespective of treatment. Yield of legume at nil P, relative to maximum, increased from 5% in year 1 to 42% in year 5.

Response of irrigated soybeans (Glycine max) to phosphorus on an alkaline cracking clay in semi-arid tropical Australia

1986 ◽  
Vol 26 (1) ◽  
pp. 115 ◽  
Author(s):  
AL Garside ◽  
MC Fulton
Keyword(s):  
Glycine Max ◽  
Grain Yield ◽  
Relative Yield ◽  
Grain Protein Content ◽  
Residual Effects ◽  
Seasonal Effects ◽  
Soil P ◽  
P Fertilizer ◽  
Nitrogen Concentrations ◽  
P Application

The primary and residual effects of phosphorus (P) fertilizer on soybeans (Glycine max cv. Buchanan) were studied at one site for three seasons on Cununurra clay in the Ord Irrigation Area. Grain yield increased (P< 0.01) with both primary and residual P in all seasons. When grain yields over the 3 years were standardized to eliminate seasonal effects, relative grain yield (RGY) was positively related to each of bicarbonate-extractable soil P (EP), applied fertilizer P (FP) and fertilizer P applied to the previous crop (PFP). Seventy-three per cent of the variation in relative yield within years could be explained by the equation: RGY = 45.44 + 0.64FP + l.84EP + 0.197PFP R 2 = 0 . 7 3 , P < 0.01 Increasing P status was associated with increased plant height, dry matter production and weight of 100 seeds and increased the number of main-stem nodes, nodules, pods per plant and days to maturity, but had no effect on number of seeds per pod and number of days until commencement and completion of flowering. Concentrations of P in the whole tops and uppermost leaf increased with increasing rate of P application. However, there was a significant P x growth stage interaction on nitrogen concentrations in whole tops and upper-most leaf, these being lower in the high-P plots early in the season. Grain protein content increased with increasing P status while oil content was reduced. The results show that rates of P application higher than those being currently used are required to maximize soybean yield on Cununurra clay.

Effects of long-term fertilizer phosphorus application on soil and crop phosphorus and cadmium contents

1998 ◽  
Vol 131 (2) ◽  
pp. 187-195 ◽  
Author(s):  
I. R. RICHARDS ◽  
C. J. CLAYTON ◽  
A. J. K. REEVE
Keyword(s):  
Application Rate ◽  
Trial Period ◽  
Soil Layers ◽  
Soil P ◽  
South West ◽  
P Balance ◽  
P Application ◽  
Phosphorus Application ◽  
South West England

The effects of four rates of fertilizer phosphorus (P) application (0, 9·8, 19·6 and 39·2 kg P/ha per year) on soil and crop P and cadmium (Cd) contents were measured in a field trial begun in 1968 and cropped each year with barley in south west England. In 1996, available and total soil P and Cd were measured in seven soil layers (0–20, 20–25, 25–30, 30–35, 35–40, 40–45 and 45–50 cm). Offtake of P in the crop was measured, or could be estimated, throughout the trial period. There was a linear relationship between P balance (total applied − total offtake) and P application rate with a balance of zero at a rate equivalent to 17 kg P/ha per year. The rate of P required for the economically optimum grain output was equivalent to 30 kg P/ha per year. No evidence was found for available P enrichment of soil layers below 25 cm. There was no evidence of Cd enrichment of either soil or crop after 29 years of P applications.

Effect of rates and methods of phosphorus application on herb and oil yields and nutrient concentrations in Japanese mint (Mentha arvensis L.)

1987 ◽  
Vol 108 (3) ◽  
pp. 691-693 ◽  
Author(s):  
S. K. Kothari ◽  
Virendra Singh ◽  
Kamla Singh
Keyword(s):  
Soil Surface ◽  
Nutrient Concentrations ◽  
P Availability ◽  
Mentha Arvensis ◽  
Soil P ◽  
Japanese Mint ◽  
Use Efficiency ◽  
P Application ◽  
Phosphorus Application ◽  
Placement Depth

Japanese mint (Mentha arvensis L.), one of the important essential-oil-bearing crops of India, is a potential source of natural menthol which is widely used in various pharmaceutical and cosmetic preparations. Generally under intensive cultivation, the application (broadcast with incorporation) of phosphorus leads to enhanced herb and oil yields of different mint species (Rao, Rao & Singh, 1983; Singh et al. 1983; Vadivel & Sampath, 1981), but the knowledge that P-adsorption to soil surface reduces plant availability suggests that a P application method limiting soil-P contact may improve P availability and use efficiency (Phillips & Webb, 1971). Therefore, the placement depth and method may be an important factor in the proper use of applied phosphorus. Since uptake of P is reduced in dry soils (Reichman & Grunes, 1966; Simpson, 1960), P placed deeper in the soil would remain more available because of increased soil moisture. Another factor involved is the positional availability of the P source (Cooke, 1954). If placed too close to the surface, the roots may not come in contact with the fertilizer or too few would contact the band to maximize uptake.

Effect of Different Phosphorus Fertilization Treatments on the Phosphorus Transference in an Aquatic Brown Paddy Soil

2010 ◽  
Vol 113-116 ◽  
pp. 155-160
Author(s):  
Quan Lai Zhou ◽  
Mu Qiu Zhao ◽  
Cai Yan Lu ◽  
Yi Shi ◽  
Xin Chen
Keyword(s):  
Paddy Soil ◽  
Threshold Value ◽  
Application Rate ◽  
Phosphorus Fertilization ◽  
Soil P ◽  
Olsen P ◽  
Fertilizer Application Rate ◽  
P Fertilizer ◽  
P Application ◽  
Phosphorus Application

This study investigated the effects of different rates of phosphorus application on vertical transference of P. An aquatic brown paddy soil was filled in organic glass columns using for the leaching experiments. The results indicated that significant vertical transference was found using change of Olsen-P and CaCl2-P. The transference distance was no more than 10cm when P application rate between 200 and 800 kg P ha-1, and was more than 10cm as P application rate above 800 kg P ha-1. We obtained the threshold value of Olsen-P was 53.7 mg kg-1 by split-line model, and calculated that the threshold value of P fertilizer application rate was 382.1 kg P ha-1 by relationship of soil Olsen-P concentration and P application rate. The soil P transference increased, if P application rate was above 382.1 kg P ha-1. It would be helpful for controlling the P fertilizer amount by field to decrease P loss.

scholarly journals High Soil Phosphorus Application Significantly Increased Grain Yield, Phosphorus Content but Not Zinc Content of Cowpea Grains

Agronomy ◽  
2021 ◽  
Vol 11 (4) ◽  
pp. 802
Author(s):  
Saba B. Mohammed ◽  
Daniel K. Dzidzienyo ◽  
Adama Yahaya ◽  
Muhammad L. Umar ◽  
Muhammad F. Ishiyaku ◽  
...  
Keyword(s):  
Grain Yield ◽  
Soil Phosphorus ◽  
P Deficiency ◽  
Soil P ◽  
High Soil ◽  
Wide Range ◽  
Zn Content ◽  
P Application ◽  
Phosphorus Application ◽  
The Impact

To ameliorate the impact of soil phosphorus (P) deficiency on cowpea, the use of P-based fertilizers is recommended. Plant zinc (Zn) is an essential nutrient required by plants in a wide range of processes, such as growth hormone production and metabolism. However, a negative association between plant Zn content and high P application has been reported in some crops. There are few reports about soil P application and plant Zn content relationship on cowpea. Thus, this study investigated the response of cowpeas to three P rates in the screenhouse (0, 1.5, and 30 mg P/kg) and field (0, 10, and 60 kg P2O5/ha) and their effects on plant P and Zn content, biomass, and grain yield. In the screenhouse, shoot and root dry weights, and shoot P and Zn content were measured. Shoot dry weight, grain yield, grain P, and Zn contents were determined from field plants. Higher rates of P led to increased shoot biomass and grain yield of the field experiment but were not associated with a significant change in shoot or grain Zn content. There was not a significant correlation between grain yield and Zn content in high soil P (p < 0.05). The effect of higher P application on reduced plant Zn contents may be genotype-dependent and could be circumvented if genotypes with high Zn content under high soil P are identified.

scholarly journals High soil phosphorus application significantly increased grain yield, phosphorus content but not zinc content of cowpea grains

2021 ◽  
Author(s):  
Saba Baba Mohammed ◽  
Daniel K. Dzidzienyo ◽  
Adama Yahaya ◽  
Muhammad L. Umar ◽  
Muhammad F. Ishiyaku ◽  
...  
Keyword(s):  
Grain Yield ◽  
Total Variance ◽  
Shoot Biomass ◽  
Growth Media ◽  
Soil P ◽  
High Soil ◽  
Zn Content ◽  
P Application ◽  
Phosphorus Application ◽  
The Impact

Abstract Background and aims Phosphorus (P) is limiting in many soils of cowpea producing areas. To ameliorate the impact of soil P deficiency, the use of P-based fertilizers is highly recommended. However, a negative association between zinc (Zn) content and high P application has been reported in some crops. There are few reports about P-Zn interaction on cowpea. Thus, in this study, the response of cowpea to the varying amounts of P and their effect on plant P and Zn content, and yield were investigated.Methods Thirty genotypes were grown at three P rates in screenhouse and field environments. In the screenhouse, shoot biomass, P and Zn content were measured at 55 days after sowing. In the field, grain yield, P, and Zn content were determined in the harvested tissues when plants reached full maturity.Results Higher rates of P in the growth media led to significantly increased shoot biomass, and grain yield but were not associated with a significant change in shoot or grain Zn content. There was not a significant correlation between grain yield and Zn content in high soil P (p < 0.05). The site regression analysis revealed that the first two principal components explained 69.76%, and 22.30% of total variance for grain yield, and 69.01% & 24.66% of total variance for Zn content.Conclusions The effect of higher P application on reduced shoot and grain Zn content may be genotype-dependent and could be circumvented if genotypes with high Zn content under higher P supply are identified and cultivated.

scholarly journals Comparison of Extractants for Calibrating Phosphorus Application Rates in a Calcareous Soil

HortScience ◽  
2019 ◽  
Vol 54 (8) ◽  
pp. 1391-1396
Author(s):  
Qiang Zhu ◽  
Yuncong C. Li ◽  
Rao S. Mylavarapu ◽  
Kelly Morgan ◽  
Mingjian Geng
Keyword(s):  
Change Point ◽  
Calcareous Soil ◽  
Calcareous Soils ◽  
Relative Yield ◽  
P Availability ◽  
Soil P ◽  
Low Level ◽  
Application Rates ◽  
P Application ◽  
Phosphorus Application

Preplant soil testing is essential for optimizing phosphorus (P) fertilization and minimizing the potential for soil P losses. Currently, there is no effective soil P extractant for calcareous soils in Florida. This study was conducted to compare Mehlich-3, ammonium bicarbonate–diethylenetriaminepentaacetic acid (AB-DTPA), and Olsen for evaluating P availability, estimating soil-test P (STP) critical levels, and calibrating P application rates for fresh-market tomato (Solanum lycopersicum L.) production in a calcareous soil. Tomatoes were grown during Winter 2014 and 2015 with P application rates of 0, 29, 49, 78, 98, and 118 kg·ha‒1 P. Water-extractable P (water-P) and dissolved reactive P (DRP) in leachate were used to determine the STP change point of leaching potential. Results showed the greatest correlation occurred between Mehlich-3 and Olsen of the three STP extractants. For Mehlich-3-P, the medium STP level (producing 75% to 90% relative yield) was predicted from 76 to 89 mg·kg‒1 and the change point was predicted at 88 or 104 mg·kg‒1 by split-line models. The P requirement was calculated from 52 to 112 kg·ha‒1 when Mehlich-3-P was rated as low level (producing 50% to 75% relative yield), which was from 42 to 76 mg·kg‒1. The multiple regression models using AB-DTPA-P and Olsen-P could not predict either the medium STP level or the practical P application rates for the low level. Consequently, based on 2 years of data, Mehlich-3 was the most effective extractant for estimating soil P availability and calibrating P rates in calcareous soils with an extremely high calcium carbonate (CaCO3) content.

Effect of phosphorus application on seasonal changes in nitrogen and phosphorus concentrations of four perennial Stylosanthes accessions

1986 ◽  
Vol 26 (1) ◽  
pp. 49 ◽  
Author(s):  
ME Probert ◽  
J Williams
Keyword(s):  
Growing Season ◽  
Nutrient Concentrations ◽  
Nitrogen And Phosphorus ◽  
Heteropogon Contortus ◽  
Red Earth ◽  
P Application ◽  
Phosphorus Application ◽  
Intensive Sampling ◽  
Plant Shoots ◽  
Semi Arid

Four perennial Stylosanthes accessions (S. hamata cv. Verano, S. scabra cv. Seca, cv. Fitzroy and CPI558 18) were grown for 4 years on a red earth soil in the semi-arid tropics with fertilizer phosphorus applications of 0 to 40 kglha. The concentrations of nitrogen (N) and phosphorus (P) in plant shoots were measured at monthly intervals from January to July in one season, with less intensive sampling in the other years. Some measurements were also made of N and P concentrations in litter. Phosphorus concentrations in shoot, leaf, stem and litter increased with increasing rate of application of P, but N concentrations in plant tissue were virtually independent of the rate of P application. The concentrations of both N and P in the shoots of all accessions declined during the growing season. Differences in nutrient concentrations between Verano and the S. scabra accessions were relatively small. Even without application of P, these legumes always had substantially higher concentrations of N and P than the native grass Heteropogon contortus, and could be expected to provide an improved diet for grazing animals.

scholarly journals INFLUENCE OF NITROGEN APPLICATION TIME AND PHOSPHORUS RATE ON PECAN

HortScience ◽  
1991 ◽  
Vol 26 (5) ◽  
pp. 496g-496
Author(s):  
Michael W. Smith
Keyword(s):  
Total Yield ◽  
Application Time ◽  
N Application ◽  
Soil P ◽  
P Concentration ◽  
Leaf N Concentration ◽  
P Application ◽  
Phosphorus Application ◽  
Leaf P ◽  
Plot Design

Thirty-five-year-old `Hayes' and `Patrick' trees (22 trees/ha) were fertilized with 112 kg N/ha (NH4NO3) either the second week of March or the first week of Oct each year. Phosphorus was applied (broadcast) during March 1986 and again during May 1989 at 0 or 244 kg P/ha. Treatments were arranged in a split-split-plot design with four single-tree replications. Leaf N concentration and the number of shoots/1-year-old shoot were not affected by N application time, and the effect on shoot length was inconsistent. Total yield and annual yield three of five years were greatest from `Hayes' when N was applied during Oct rather than March. Yield of `Patrick' was unaffected by time of N application. Phosphorus application increased soil P up to 20 cm deep, and leaf P concentration was increased three of five years in `Hayes' and two of five years in `Patrick'. Shoot growth, number of new shoots, nut size, kernel percentage, and yield were generally not affected by P application.

An experiment begun in 1958 measuring effects of N, P and K fertilizers on yield and N, P and K contents of grass:2. Residual effects on arable crops, 1968–76

1980 ◽  
Vol 95 (3) ◽  
pp. 583-595 ◽  
Author(s):  
A. Penny ◽  
F. V. Widdowson
Keyword(s):  
Winter Wheat ◽  
Spring Wheat ◽  
Spring Barley ◽  
Residual Effects ◽  
Wheat Grain ◽  
K Uptake ◽  
Arable Crops ◽  
Soil P ◽  
K Fertilizer ◽  
K Depletion

SUMMARYAn experiment at Rothamsted during 1958–67 measured effects on yield, on K uptake and on soil K of applying all combinations of 38, 75 and 113 kg N and 0, 31 and 62 kg K/ha per cut to grass leys, which were cut and removed. Soil K was depleted most where most N and least K were given. Annual applications of 0, 33 and 66 kg P/ha were also tested; soil P was not depleted. The grass was then ploughed.In 1968, residual effects were measured by spring wheat. In 1969 and in 1970 104 kg/ha of fresh K was applied on half of each plot; potatoes (1969) and spring wheat (1970) valued residual and fresh effects of K.In 1971 potatoes tested 0, 104 and 208 kg/ha of fresh K, cumulatively with the three amounts given to the grass and also extra K (104 kg/ha) on half-plots, cumulatively with that given in 1969 and 1970. In 1972 winter wheat, and in 1974 and 1975 spring barley, measured residues of all treatments previously applied (the site was fallowed in 1973).Finally, in 1976, potatoes tested 0, 156 and 312 kg/ha of fresh K on whole plots, cumulatively with the previous dressings of K, and also 156 kg/ha of extra K on half-plots, again cumulatively. All these test crops were given basal N.Yields and K contents of wheat at ear emergence and yields of wheat grain were largest after grass given 38 kg N and 62 kg K/ha per cut, because here soil K depletion was least. Wheat grain yields benefited consistently from fresh K. K content of the wheat at ear emergence was a good indicator of the need for K, but K content of grain was not, because it was unaltered by K fertilizer. Barley was a poor test crop for K, because yields of grain were little affected by previous treatments.Percentage K in potato leaves (in July in 1969 and 1971, in August in 1976) and yield of tubers were well correlated. Largest yields in 1969, 1971 and 1976 came where the leaves contained 3·43, 3·76 and 2·82% K, respectively, i.e. from soil containing most exchangeable K, plus most fresh K. There was no indication that maximum yields had been obtained, so the largest amounts (kg/ha) of fresh K tested (104 in 1969, 312 in 1971 and 468 in 1976) were insufficient to counteract depletion of soil K by the grass. Because the grass did not deplete soil P, the test crops benefited only little from either residual or fresh P.

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