Phosphorus Extraction with Soil Test Methods Affected by Soil P Sorption Capacity

In a laboratory incubation study, two soils were treated with distilled water, and flooded for a period of 0 (contr-ol), 1, 2, 3, 4, 8 weeks. P adsorption desorption characteristics of two soils were measured at the end of the incubation period. P a-dsorption increased with increasing levels of added P in two soi-ls. P adsorption of Paddy soil was comparatively lower than that of upland red soil. P adsorption data was found to fit Langmuir isotherms for two soils. Soil P adsorption maxima obtained from Langmuir isotherm varied from 1190 to 672 mg/kg for upland r-ed soil, and varied from 708 to 530 mg/kg for paddy soil. Floodi-ng decreased P adsorption capacity of upland red soil,increased soluble P (in 0.01M CaCl2) and equilibrium P concentration. For paddy soil, there was a large increase in the P sorption capacity after one week flooding, and then P sorption capacity decreased. The more adsorption maxima is, and the more desorption maxi-ma (Dm) is. Desorption rate constant (Kd) and bonding energy (b) varied inconsistently in two soils.

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Phosphorous Fertilizer Recommendations Considering Single-point P Sorption Capacity and Soil P Test Extraction Efficiency

Communications in Soil Science and Plant Analysis ◽

10.1080/00103624.2021.1993881 ◽

2021 ◽

pp. 1-14

Author(s):

VG White ◽

AG Hardie ◽

PJ Raath

Keyword(s):

Sorption Capacity ◽

Extraction Efficiency ◽

Single Point ◽

Soil P ◽

P Sorption ◽

P Sorption Capacity ◽

Soil P Test ◽

Fertilizer Recommendations ◽

Phosphorous Fertilizer

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Growth chamber study of phosphorus applied as drilled granules or as seed coatings to wheat sown in soils differing in P-sorption capacity

Fertilizer Research ◽

10.1007/bf01052397 ◽

1991 ◽

Vol 29 (3) ◽

pp. 281-287 ◽

Cited By ~ 15

Author(s):

J. M. Scott ◽

C. B. Hill ◽

R. S. Jessop

Keyword(s):

Sorption Capacity ◽

Growth Chamber ◽

P Sorption ◽

P Sorption Capacity ◽

Chamber Study

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Phosphorus sorption and chemical characteristics of lightweight aggregates (LWA)-potential filter media in treatment wetlands

Water Science & Technology ◽

10.2166/wst.1997.0175 ◽

1997 ◽

Vol 35 (5) ◽

pp. 103-108 ◽

Cited By ~ 38

Author(s):

T. Zhu ◽

P. D. Jenssen ◽

T. Mæhlum ◽

T. Krogstad

Keyword(s):

Sorption Capacity ◽

Metal Content ◽

Exchange Capacity ◽

Chemical Characteristics ◽

Phosphorus Sorption ◽

Filter Media ◽

Total Metal Content ◽

P Sorption ◽

P Sorption Capacity ◽

Total Metal

Five light-weight aggregates (LWAs), suitable for filter media in subsurface flow constructed wetlands, were tested for potential removal of phosphorus (P). P-sorption variation is dependent on the chemical characteristics of the LWA. All LWAs exhibited high pH and high total metal content; however, P-sorption capacity varied by two orders of magnitude. Of the LWAs' chemical characteristics (total metal content, cation exchange capacity, and oxalate soluble Fe and Al), total metal content has the closest relationship with the P-sorption capacity. Among the four major metal ions (Mg, Ca, Fe and Al), Ca has the strongest correlation with the P-sorption capacity.

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Phosphorus auditing cannot account for all of the phosphorus applied to different pasture soils

Soil Research ◽

10.1071/sr03025 ◽

2004 ◽

Vol 42 (1) ◽

pp. 89 ◽

Cited By ~ 10

Author(s):

L. L. Burkitt ◽

C. J. P. Gourley ◽

P. W. G. Sale

Keyword(s):

Soil Properties ◽

Sorption Capacity ◽

Vertical Movement ◽

Single Application ◽

Macropore Flow ◽

P Sorption ◽

P Sorption Capacity ◽

Sampling Zone ◽

P Movement ◽

Total P

Five field sites established in the high rainfall zone of southern Victoria were used to examine the downwards vertical movement of phosphorus (P) fertiliser on soils which ranged in P sorption capacity. Fertiliser was applied either as a single application of 280 kg P/ha at the beginning of the experiment (April 1998), or as 35�kg�P/ha reapplied every 6 months (totalling 210 kg P/ha by the end of the third year). Soil cores were sampled in June 2001 to a depth of 40 cm, and soil at depths of 0–5, 5–10, 10–20, 20–30, and 30–40 cm was analysed for a range of soil properties and total P concentration.Total P concentration changed very little down the profile, indicating that there was minimal vertical movement of P fertiliser below the 10 cm layer of 5 pasture soils following the single application of 280 kg P/ha or 35 kg P/ha reapplied every 6 months. Soils with low to moderate surface P sorption capacity showed a trend for higher total P concentrations at depth. However, quantitative relationships between vertical P movement and soil properties at depth were poor. A P audit resulted in variable recovery of the applied P (45–128%) in the surface 40 cm at each of the 5 sites. Consistently low P recoveries were achieved at one site, where the surface soil had a high P sorption capacity. Some applied P may have bypassed the high P sorbing surface layers at this site through macropore flow and moved beyond the 40 cm sampling zone, or have been lost to surface runoff. These results question the usefulness of P audit or mass-balance methods for accounting for P movement in a pasture-based system, as spatial heterogeneity of soil properties, both horizontally and vertically, was high in the current study.

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Evaluation of P sorption capacity and P extractants for assessing P requirements of maize in Western Nigeria savannah soils.

Communications in Soil Science and Plant Analysis ◽

10.1080/00103628209367269 ◽

1982 ◽

Vol 13 (4) ◽

pp. 295-307 ◽

Cited By ~ 1

Author(s):

O.J. Ayodele ◽

A. Agboola ◽

R.A. Sobulo

Keyword(s):

Sorption Capacity ◽

P Sorption ◽

P Sorption Capacity

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A comparison of soil test calibrations for the estimation of phosphorus fertilizer requirements of wheat

Australian Journal of Experimental Agriculture ◽

10.1071/ea9700774 ◽

1970 ◽

Vol 10 (47) ◽

pp. 774 ◽

Cited By ~ 4

Author(s):

JD Colwell

Keyword(s):

Sodium Bicarbonate ◽

Sorption Capacity ◽

New South ◽

New South Wales ◽

Soil Test ◽

Phosphorus Fertilizer ◽

P Sorption Capacity ◽

South Wales ◽

Ammonium Lactate ◽

Calibration Equations

The value of a range of soil analyses as tests for the phosphorus fertilizer requirements of wheat is assessed, for northern New South Wales. The best individual analyses were the standard soil tests, P extracted by ammonium lactate (Egner), 0.5M sodium bicarbonate (Colwell), 0.01N sulphuric acid (Kerr and Von Stieglitz), and Truog's reagent, and the best calibration equation was obtained using both the ammonium lactate and sodium bicarbonate tests. Sorbed phosphate equilibrating with the phosphorus in these extract solutions, estimated by isotopic dilution, made only small contributions to test calibration equations, in the presence of other simpler P analyses. The likely effects of variation in P sorption capacity were represented by analyses for iron and aluminium soluble in Tamm's acid oxalate reagent, but these analyses added little to the calibration equations, suggesting that P sorption capacity is not an important variable affecting wheat production in northern New South Wales. Analyses of variance on the yield data demonstrate the importance of experimental error in field experiments as a factor limiting the precision of soil test calibrations.

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Solubility and retention of phosphate in soils of the northwestern Canadian prairie

Canadian Journal of Soil Science ◽

10.4141/cjss91-044 ◽

1991 ◽

Vol 71 (4) ◽

pp. 453-463 ◽

Cited By ~ 9

Author(s):

Y. K. Soon

Keyword(s):

Organic Matter ◽

Sorption Capacity ◽

Agricultural Soils ◽

Clay Content ◽

Phosphorus Concentration ◽

Canadian Prairie ◽

P Sorption ◽

P Sorption Capacity ◽

P Concentration ◽

Order Of Magnitude

Phosphate solubility and sorption characteristics of 39 agricultural soils in the northwestern Canadian Prairie were studied to gain insights into the retention of fertilizer P added to soil. The soils were mostly acidic with base saturation of 59–95%. The solubility of P as determined by the equilibrium P concentration and phosphoric acid potential was low and appeared to be controlled by sorption of phosphate by soil components. The mean equilibrium solution P concentration was 0.03 mg L−1. Phosphorus concentration in saturation extracts was about one order of magnitude higher, but would have included organic and colloidal P since P analysis in these extracts was done by ICP. Sorption capacity of P as determined by Langmuir isotherm was greater for the Dark Gray and Black soils and gleysols, i.e., soils with higher amounts of organic matter, than the Gray Luvisolic and Solodic soils by about 30%. Partial correlation showed that clay content, Al-organic matter complexes (AlOM) and amorphous iron oxide (FeOX) were significantly correlated with P sorption capacity. When both topsoils and subsoils were considered, clay content was the most important soil property influencing P sorption capacity, followed by AlOM and FeOX (standard partial regression coefficients, b′, of 0.47, 0.39 and 0.38, respectively). When only topsoils were considered, AlOM and FeOX became more important than clay content in influencing P sorption (b′ = 0.47, 0.47, and 0.33, respectively). Native P, estimated by oxalate and anion-resin extractions, was associated with the hydrous iron oxides only, although soil pH also affected the resin-extractable P fraction. Key words: P retention, solubility, Luvisols, solodic soils

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Effect of soil temperature and moisture on soil test P with different extractants

Canadian Journal of Soil Science ◽

10.4141/cjss2010-051 ◽

2012 ◽

Vol 92 (3) ◽

pp. 537-542 ◽

Cited By ~ 1

Author(s):

Chunyu Song ◽

Xingyi Zhang ◽

Xiaobing Liu ◽

Yuan Chen

Keyword(s):

Soil Moisture ◽

Soil Temperature ◽

Test Methods ◽

Soil Test ◽

Soil P ◽

Soil P Test ◽

Soil Test P ◽

Fertilization Level ◽

Bray 1 ◽

Soil Temperature And Moisture

Song, C., Zhang, X., Liu, X. and Chen, Y. 2012. Effect of soil temperature and moisture on soil test P with different extractants. Can. J. Soil Sci. 92: 537–542. Temperature and moisture are important factors affecting adsorption, transformation and the availability of soil phosphorus (P) to plants. The different temperatures and moisture contents at which soil is sampled might affect the results of soil test P (STP). In order to evaluate the effect of the temperature and moisture, as well as the fertilization level, on the results of soil test P, an incubation study involving three soil temperatures (5, 10, and 20°C), and three soil moisture contents (50, 70, 90% of field water-holding capacity) was conducted with Chinese Mollisols collected from four fertilization treatments in a long-term experiment in northeast China. Four soil P test methods, Mehlich 3, Morgan, Olsen and Bray 1 were used to determine STP after a 42-d incubation. The effect of temperature and moisture on STP varied among soil P tests. Averaged across the four fertilization treatments, the temperature had significant impact on STP, while the responses varied among soil P test methods. Mehlich 3, Morgan and Bray 1 STP decreased and Olsen STP increased with increase in temperature. Effect of soil moisture was only significant for Mehlich 3 P and Olsen P. Soil temperature had greater impact on STP than soil moisture content. The responses of the Olsen method to temperature differed from the other three methods tested. The interaction between soil temperature and soil moisture on soil test P was only significant for Mehlich 3 P. Fertilization level does not affect the STP in as a clear pattern as the temperature and moisture varied for all four methods. Consistent soil sampling conditions, especially the soil temperature, appear to be the first step to achieve a reliable STP for any soil P test.

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Anoxic conditions maintained high phosphorus sorption in humid tropical forest soils

10.5194/bg-2019-62 ◽

2019 ◽

Author(s):

Yang Lin ◽

Avner Gross ◽

Christine S. O'Connell ◽

Whendee L. Silver

Keyword(s):

Tropical Forest ◽

Tropical Forests ◽

Sorption Capacity ◽

Forest Soils ◽

Soil Minerals ◽

Anoxic Conditions ◽

Soil P ◽

P Sorption ◽

Reducing Conditions ◽

Humid Tropical Forest

Abstract. The strong phosphorus (P) sorption capacity of iron (Fe) and aluminum (Al) minerals in highly weathered, acidic soils of humid tropical forests is generally assumed to be an important driver of P limitation to plants and microbial activity in these ecosystems. Humid tropical forest soils often experience fluctuating redox conditions that reduce Fe and raise pH. It is commonly thought that Fe reduction generally decreases the capacity and strength of P sorption. Here we examined the effects of 14-day oxic and anoxic incubations on soil P sorption dynamics in humid tropical forest soils from Puerto Rico. Contrary to the conventional belief, soil P sorption capacity did not decrease under anoxic conditions, suggesting that soil minerals remain strong P sinks even under reducing conditions. Sorption of P occurred very rapidly in these soils, with at least 60 % of the added P disappearing from the solution within six hours. Estimated P sorption capacities were one order of magnitude higher than the soil total P contents. However, the strength of P sorption under reducing conditions was weaker, as indicated by the increased solubility of sorbed P in NaHCO3 solution. Our results show that highly weathered soil minerals can retain P even under anoxic conditions, where it might otherwise be susceptible to leaching. Anoxic events can also potentially increase P bioavailability by decreasing the strength, rather than the capacity, of P sorption. These results improve our understanding of the redox effects on biogeochemical cycling in tropical forests.

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