Phosphorus Availability in a Calcareous Soil After High Loading Rates of Animal Manure

Meek, B. D.; Graham, L. E.; Donovan, T. J.; Mayberry, K

doi:10.2136/sssaj1979.03615995004300040024x

Cited by 48 publications

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“…McCoy et al [8] found that biosolids (treated City wastes) P was four to seven times less available than triple super phosphate P. In contrast, other studies have suggested that P in organic amendments may be equally or more available than fertilizer P [9,10]. Therefore, this study was conducted to investigate the effects of cow manure, city wastes, chicken manure and TSP on the growth of corn and phytoavailability of phosphorus in soils.…”

Section: Introductionmentioning

confidence: 96%

Effect of Organic and Inorganic Amendments on the Phytoavailability of Phosphorus to Corn (<i>Zea mays</i>)

Uddin¹,

Kashem²,

Osman³

2012

OJSS

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A pot experiment was conducted to investigate the effect of cow manure, city waste, chicken manure and TSP on the growth of corn (Zea mays) and phytoavailability of phosphorous (P) in soil. An air dried sandy loam soil was mixed with different amendments at rates equivalent to 0, 200, 400 and 800 mg·P·kg -1 soil based on total P. The plant height and leaf number increased in the plants grown in amended pots compared to control pot. The dry weight of shoots and roots in the control pot were 14.3 and 2.8 g, respectively. The shoot dry weights of corn increased from 43.8 to 76.6 g with the cow manure, 27.8 to 38.7 g with the city waste, 48.4 to 68.2 g with the chicken manure and 30.2 to 32.2 g with the TSP amendments when the P addition rates increased from 200 to 800 mg·P·kg -1 soil. Similar effects of these amendments and their rates were also found in the case of roots dry weights production. Phosphorus concentration in the plant parts increased with the P application from different amendments but the increase was higher with the TSP fertilizer and lower with the city waste amendments. Olsen P (measured after the plant harvest) increased with P application rates. The extractability of Olsen P from different amendments increased in this order: city waste < chicken manure < cow manure < TSP. Olsen P was strongly related with both shoot and root P concentration of corn (r = 0.910, p = 0.000), indicate suitability of Olsen P to predict plant available P. These results imply that cow manure and chicken manure could be recommended to use in the agricultural field for producing optimum yield.

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Section: Introductionmentioning

confidence: 96%

Effect of Organic and Inorganic Amendments on the Phytoavailability of Phosphorus to Corn (<i>Zea mays</i>)

Uddin¹,

Kashem²,

Osman³

2012

OJSS

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“…McCoy et al (1986) reported that biosolids P was four to seven times less available to plants compared to triple super phosphate. On the other hand, Tunney and Pommel (1987) reported that P in pig slurry was at least 90% as effective as fertilizer P because pig slurry contains 70 to 90% inorganic P. Other studies have suggested that manure P may be equally or more available than fertilizer P (Gale et al 2000;Meek et al 1979). A measure of the forms of P in soil amended with biosolids and manures, and how these forms change with time, can provide important information on how these amendments affect soil test P and plant available P.…”

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Phosphorus fractions in soil amended with organic and inorganic phosphorus sources

Kashem¹,

Akinremi²,

Racz³

2004

Can. J. Soil. Sci.

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. 2004. Phosphorus fractions in soil amended with organic and inorganic phosphorus sources. Can. J. Soil Sci. 84: 83-90. Information on the P fractions in soils treated with different organic amendments is needed to better manage land application of organic amendments to agricultural soils. This study investigated the forms and distribution of P after 1, 4 and 16 wk in a Lakeland silty clay loam soil using a sequential fractionation procedure. Phosphorus was added at rates of 0, 123, 307 and 614 mg P kg -1 in the form of biosolids, hog manure, cattle manure and fertilizer P. The largest difference among the amendments was in the water-extractable P fraction, which was significantly lower in soil amended with biosolids. Regression analysis showed that the slope of P increment in the H 2 O fraction as a function of P application rate was four times lower for biosolids (0.06) than for hog manure (0.24) and seven times lower than for fertilizer (0.42) amended soils. In the biosolids-amended soil, there was a net increase of H 2 O-P, NaOH-Pi and HCl-P fractions at the expense of organic P (NaOH-Po) and residual P fractions after 16 wk of incubation, signifying net P mineralization. In hog manure amended soil, H 2 O-P decreased by 128 mg kg -1 with a corresponding increase in the NaHCO 3 -P, possibly due to P sorption during the 16 wk of incubation. The results for cattle manure indicated net immobilization of P as the H 2 O-P and NaHCO 3 -P declined while the inorganic P (NaOHPi), HCl-P and residual P increased with incubation time. The transformation of P in fertilizer-amended soil was similar to that of hog manure amended soil. The amount of labile P (defined as H 2 O-P plus NaHCO 3 -P) in amended soils followed the order of fertilizer P > hog manure > cattle manure > biosolids. La principale distinction entre ces amendements se rapporte à la fraction de P extractible dans l'eau, qui est nettement plus faible dans les sols bonifiés avec les solides biologiques. Selon l'analyse de régression, la hausse de la concentration de P dans la fraction aqueuse en fonction du taux d'application de P a une pente quatre fois plus faible dans les sols amendés avec des solides biologiques (0,06) que dans ceux fertilisés avec du purin (0,24) et sept fois plus faible que dans ceux bonifiés avec de l'engrais (0,42). Après 16 semaines d'incubation, on remarque une nette hausse des fractions P-H 2 O, Pi-NaOH et P-HCl au détriment du P organique (Po-NaOH) et du P résiduel dans les sols amendés avec les solides biologiques, signe qu'il y a une forte minéralisation du P. Dans le sol amendé avec du purin, la fraction aqueuse diminue de 128 mg de P par kilo tandis que la fraction P-NaHCO 3 connaît une hausse correspondante, sans doute à cause de l'adsorption du P pendant les 16 semaines d'incubation. Les résultats obtenus avec le fumier de bovin indiquent une nette immobilisation du P, car on assiste à une diminution des fractions P-H 2 O et P-NaHCO 3 alors que le P inorganique (Pi-NaOH), le P-HCl et le P résidu-el s'accroissent avec la du...

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“…Consequently, different measurement procedures and limits are required to define solubility, mobility, and plant availability of P (Olsen et al, 1954). Inorganic P fixation in calcareous soils is relatively rapid whereas the rate and extent of fixation may be much slower or less extensive when P is added with organic matter or in an organic form (Meek et al, 1979).…”

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confidence: 99%

“…Utah calcareous soils that had received turkey and beef manures for two to four decades showed increased bicarbonate extractable ortho-and total-P (STP and STPt) concentrations to a depth of 2.1 m in most cases (James et al, 1996). A calcareous California soil that received 1336 kg P ha" with applied feedlot manure still contained 53 mg STP kg' in the surface 0.30 m after 6 yr (Meek et al, 1979). Higher manure rates increased surface soil STP concentrations to 237 mg kg-1 .…”

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Organic Phosphorus Source Effects on Calcareous Soil Phosphorus and Organic Carbon

2000

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The loading, solubility, mobility, and plant availability of P is a growing environmental concern to regulators and planners of nutrient management plans, confined animal feeding operations, and wastewater land application permit sites. Insufficient information is available on how P reacts from different organic sources when applied to calcareous soils. A field study was conducted to determine the interactions among P application rate, source, extractability, and soil organic carbon (OC) concentration. A Portneuf silt loam (Coarse-silty, mixed, superactive, mesic Durinodic Xeric Haplocalcids) topsoil and freshly exposed subsoil were fertilized with monocalcium phosphate (MCP), cheese whey, and dairy manure. Organic matter added with the whey did not influence soil OC concentrations whereas organic matter added with the manure doubled the subsoil OC and increased the topsoil OC concentrations. Bicarbonate and saturation paste extractable ortho-and organic-P concentrations were linearly related to soil OC concentrations but were not related to the amount of ortho-or organic-P added. All forms of P increased more per unit of added P in the order manure > whey > MCP and were correlated with the soil OC concentrations. These results suggest organic waste applications should be managed from :oil P test data rather than on P application rates.

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Phosphorus Availability in a Calcareous Soil After High Loading Rates of Animal Manure

Cited by 48 publications

References 0 publications

Effect of Organic and Inorganic Amendments on the Phytoavailability of Phosphorus to Corn (<i>Zea mays</i>)

Effect of Organic and Inorganic Amendments on the Phytoavailability of Phosphorus to Corn (<i>Zea mays</i>)

Phosphorus fractions in soil amended with organic and inorganic phosphorus sources

Organic Phosphorus Source Effects on Calcareous Soil Phosphorus and Organic Carbon

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Phosphorus Availability in a Calcareous Soil After High Loading Rates of Animal Manure

Cited by 48 publications

References 0 publications

Effect of Organic and Inorganic Amendments on the Phytoavailability of Phosphorus to Corn (&lt;i&gt;Zea mays&lt;/i&gt;)

Effect of Organic and Inorganic Amendments on the Phytoavailability of Phosphorus to Corn (&lt;i&gt;Zea mays&lt;/i&gt;)

Phosphorus fractions in soil amended with organic and inorganic phosphorus sources

Organic Phosphorus Source Effects on Calcareous Soil Phosphorus and Organic Carbon

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Product

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Effect of Organic and Inorganic Amendments on the Phytoavailability of Phosphorus to Corn (<i>Zea mays</i>)

Effect of Organic and Inorganic Amendments on the Phytoavailability of Phosphorus to Corn (<i>Zea mays</i>)