Evaluation of two rock phosphates and a calcined rock phosphate as maintenance fertilizers for crop ? pasture rotations in Western Australia

1991 ◽  
Vol 28 (1) ◽  
pp. 11-24 ◽  
Author(s):  
M. D. A. Bolland ◽  
R. J. Gilkes
Keyword(s):  
Western Australia ◽  
Rock Phosphate ◽  
Rock Phosphates

Residual value for wheat of phosphorus from calciphos, Duchess rock phosphate and triple superphosphate on a lateritic soil in south-western Australia

1985 ◽  
Vol 25 (1) ◽  
pp. 198 ◽  
Author(s):  
MDA Bolland
Keyword(s):  
Western Australia ◽  
Rock Phosphate ◽  
Phosphorus Content ◽  
Lateritic Soil ◽  
Triple Superphosphate ◽  
Phosphorus Fertilizer ◽  
Rock Phosphates ◽  
Christmas Island ◽  
Residual Values ◽  
North Western

The residual values of phosphorus from triple superphosphate and from three rock phosphates were compared in a 4-year field experiment with wheat, grown on a phosphorus deficient lateritic soil in south-western Australia. The three rock phosphate fertilizers were an apatitic rock phosphate originating from the Duchess deposit in north-western Queensland, and calcined (500�C) Christmas Island C-grade ore as a powder and as pellets. Five rates of each fertilizer were applied at the commencement of the experiment and their effectiveness was calculated from data on yield of dried plant tops, grain yield, and bicarbonate soluble phosphorus extracted from the soil. Triple superphosphate was the most effective phosphorus fertilizer initially, but its effectiveness decreased markedly with time. The effectiveness of the three rock phosphates was initially very low, and remained approximately constant for the duration of the experiment. The yield of dried plant tops depended upon their phosphorus content and this relationship was independent of the phosphorus fertilizer used.

Granular reactive apatite rock phosphate is not an effective phosphorus fertilizer in the short term on lateritic soils in south-western Australia.

1986 ◽  
Vol 26 (2) ◽  
pp. 217 ◽  
Author(s):  
MDA Bolland ◽  
AJ Weatherley ◽  
RJ Gilkes ◽  
JW Bowden
Keyword(s):  
Western Australia ◽  
Rock Phosphate ◽  
Field Experiments ◽  
Maximum Yield ◽  
Subterranean Clover ◽  
Phosphate Fertilizer ◽  
Carbonate Apatite ◽  
Rock Phosphates ◽  
Fertilizer Effectiveness ◽  
Eastern Australia

The effectiveness, as a phosphate fertilizer, of granular reactive rock phosphate (carbonate substituted apatite from North Carolina, U.S.A.), granular triple superphosphate and partly powdered Duchess non-reactive rock phosphate (low carbonate apatite from north-eastern Australia) was compared in three field experiments on different soil types in different climatic regions of south-western Australia. Calciphos (finely ground calcined crandallite rock phosphate from Christmas Island) was included in one experiment. The rock phosphates were incorporated into the soil and their effectiveness was compared with both topdressed and incorporated superphosphate. Different species were grown at each site (barley, triticale and subterranean clover). As determined on the basis of relative amounts of fertilizer required for constant yield, the effectiveness of all the rock phosphates relative to incorporated superphosphate was very low at each site throughout the growth of each species. Fertilizer effectiveness of rock phosphates was about one-fifth that of superphosphate for barley, and one-tenth for triticale and clover. The maximum yield obtained from rock phosphate was generally 88-100% that obtained from superphosphate. Incorporation did not greatly affect the effectiveness of superphosphate.

Residual effectiveness of superphosphate is greater than that of rock phosphate fertilisers for lateritic soils in south-western Australia

1988 ◽  
Vol 28 (1) ◽  
pp. 83 ◽  
Author(s):  
MDA Bolland ◽  
AJ Weatherley ◽  
RJ Gilkes
Keyword(s):  
Western Australia ◽  
Rock Phosphate ◽  
Phosphorus Content ◽  
Maximum Yield ◽  
Subterranean Clover ◽  
Triple Superphosphate ◽  
Rock Phosphates ◽  
Lateritic Soils ◽  
Climatic Regions ◽  
Christmas Island

The residual values of granular reactive rock phosphate (highly carbonate-substituted apatite from North Carolina, USA.), partially powdered low-reactive Queensland rock phosphate (low carbonate-substituted apatite from the Duchess deposit), and granular triple superphosphate were measured in 3 experiments on different lateritic soils in different climatic regions of south-western Australia (Gibson, South Bodallin, West Dale). Finely powdered calcined crandallite-millisite rock phosphate from Christmas Island (Calciphos) was included in one of the experiments. The fertilisers were applied once only in May 1984 and their residual value measured over 3 years (1984-1986) using yield and phosphorus content of the following species each year: experiment 1 (Gibson), barley in years 1 and 2 and oats in the third year; experiment 2 (South Bodallin), triticale in all 3 years; experiment 3 (West Dale), subterranean clover in years I and 2 followed by oats in year 3. Relative to triple superphosphate (TSP) applied each year, the effectiveness of superphosphate in year 1 (year of application) in the experiment at Gibson decreased by about 40% between years 1 and 2, and by a further 5% between years 2 and 3. The corresponding values for the experiment at South Bodallin were 75% and 5%, and at West Dale 50% and 25%. All rock phosphates were much less effective than TSP in year 1, being 5-30% as effective as TSP. Effectiveness of rock phosphates remained low over the 3 years, being 5-20% as effective as newly applied TSP. Although the effectiveness of TSP decreased, it continued to be 50% as effective as newly applied TSP after 3 years. Residual TSP and both freshly applied and residual rock phosphates did not support the same maximum yield as freshly applied TSP despite well defined yield plateaux being obtained in each case. At each harvest, the relationship between yield and phosphorus content of plants was similar for all fertilisers so that the smaller maximum DM and grain yield and reduced effectiveness of the rock phosphates were largely due to less phosphorus being taken up by plants.

scholarly journals Phosphorus availability of rock phosphates as compared with feed-grade phosphates for swine

2009 ◽  
Vol 38 (1) ◽  
pp. 90-98 ◽  
Author(s):  
Luiz Waldemar de Oliveira Souza ◽  
Anibal de Sant'Anna Moretti ◽  
Fernanda Marcussi Tucci ◽  
Nedilse Helena de Souza ◽  
Paulo Ademar Martins Leal ◽  
...  
Keyword(s):  
Rock Phosphate ◽  
Breaking Strength ◽  
Basal Diet ◽  
Relative Bioavailability ◽  
Phosphorus Addition ◽  
Rock Phosphates ◽  
Bone Parameters ◽  
Bone Ash ◽  
Calcium Phosphorus ◽  
Made In

One hundred ninety two swine were used in a trial to assess the relative bioavailability of phosphorus (RBP) in six phosphate sources. Phosphates were three feed grade phosphates (FP), two made in Brasil, and one USA made, and three rock phosphate samples (RP) originated from two mines sites in Brasil, and one mine site in Israel. Levels of calcium, phosphorus and fluorine in RP were 29, 12 and 1.7% (RP source 1), 33, 14 and 1.4% (RP source 2), and 30, 14 and 3.6% (RP source 3), respectively. Pigs were fed a corn-soybean meal basal diet (18% CP, 0.95% Lys, 0.75% Ca, 0.37% P) or the basal diet with 0.15% P from a standard purified grade calcium phosphate (SP), or with 0.15% P from experimental FP or RP. Each diet was fed to six pen replicates of four pigs per pen for 35 days (14.4 to 39.9 kg). Weight gain (WG), feed/gain (FG), plasma P (PP), bone ash (BA), and breaking strength of metacarpals and metatarsals (BS-MM) and femurs (BS-F) were improved by phosphorus addition. However, performance and bone parameters were depressed by RP, as compared to FP dietary supplementation. WG, BA, BS-MM and BS-F were regressed to P added, and slope-ratios were calculated to assess RBP in the FP and RP sources. The average bioavailability of P in the FP and RP sources, relative to SP, were 89 and 49% (WG), 112 and 49% (BA), 78 and 28% (BS-MM), and 101 and 52% (BS-F), respectively. Low animal performance and bone strength related to toxicity should be expected if rock phosphates are used to feed pigs.

scholarly journals Field experiments on phosphate fertilizers: A joint investigation

1956 ◽  
Vol 48 (1) ◽  
pp. 74-103 ◽  
Author(s):  
G. W. Cooke
Keyword(s):  
Rock Phosphate ◽  
Field Experiments ◽  
Acid Soils ◽  
Water Soluble ◽  
Dicalcium Phosphate ◽  
Low Grade ◽  
Basic Slag ◽  
Phosphate Fertilizers ◽  
Rock Phosphates ◽  
Joint Investigation

The results of over 400 field experiments testing different kinds of phosphate fertilizers are summarized and are discussed with special reference to the reactions of the soils used. The classifications were:‘very acid’ soils—pH below 5·5, ‘acid soils’— pH 5·6 to 6·5, neutral soils—pH over 6·5. All comparisons are made in terms of fertilizers supplying the same amounts of total phosphorus.In war-time experiments Gafsa and Morocco rock phosphates were about two-thirds as efficient as superphosphate for swedes and turnips grown on very acid soils. In 1951–3 experiments on very acid and acid soils Gafsa phosphate was practically equivalent to superphosphate for swedes, but for potatoes it was as effective as only one-third as much phosphorus supplied as superphosphate; on neutral soils Gafsa phosphate was useless. For establishing grassland on acid soils Gafsa and Morocco phosphate were equivalent to about onethird as much phosphorus supplied as high-soluble basic slag. Rock phosphates were somewhat more effective for promoting growth of established grassland but they remained inferior to high-soluble basic slags and to superphosphate. Curacao rock phosphate was roughly equivalent to Gafsa phosphate for swedes and grass. Florida pebble phosphate was much less effective and was judged unsuitable for direct application. Mixtures of rock phosphate with superphosphate were not more efficient than equivalent amounts of the separate components used correctly.Silicophosphate was practically as effective as superphosphate for swedes grown on very acid and acid soils; it was less efficient on neutral soils. For potatoes silicophosphate was nearly as effective as superphosphate on very acid soils; it was much less efficient on acid and neutral soils. Silicophosphate was roughly equivalent to high-soluble basic slag for grassland.Mixtures of superphosphate with lime, serpentine, and low-grade basic slag were prepared, most of the water-soluble phosphorus being converted to insoluble forms. In experiments on swedes and potatoes these basic superphosphates were not superior to untreated superphosphate. For establishing grassland on very acid soils, the mixtures were slightly superior to ordinary superphosphate.Dicalcium phosphate was practically equivalent to superphosphate for swedes on all groups of soils. For potatoes dicalcium phosphate was more efficient than superphosphate on very acid soils, on less acid and neutral soils it was inferior to superphosphate.

Rock phosphate: The source of mercury pollution in a marine ecosystem at Albany, Western Australia

1986 ◽  
Vol 18 (3) ◽  
pp. 185-202 ◽  
Author(s):  
Michael Jackson ◽  
Donald Hancock ◽  
Roger Schulz ◽  
Victor Talbot ◽  
David Williams
Keyword(s):  
Western Australia ◽  
Rock Phosphate ◽  
Marine Ecosystem ◽  
Mercury Pollution

scholarly journals Solubility of Rock Phosphate and its Effect to the Growth and Yield of Maize on Ultisols

2008 ◽  
Vol 13 (1) ◽  
pp. 11-22
Author(s):  
Antonius Kasno ◽  
Diah Setyorini ◽  
Sutisni Dwiningsih
Keyword(s):  
Rock Phosphate ◽  
Acid Soil ◽  
Block Design ◽  
Soil Samples ◽  
Growth And Yield ◽  
Content Increase ◽  
Rock Phosphates ◽  
Maize Growth ◽  
P Content ◽  
P Fertilizer

Phosphor is a macro nutrients and it becomes the main limiting factor for maize growth on Ultisols. Rock phosphate is one of P fertilizer sources contains high P and Ca content, slow release and soluble under acid condition, suitable for acid soil. The objective of this research is to study the solubility of rock phosphate and its influence to the growth and yield of maize on Ultisols.  This research was conducted in the research laboratory and the green house of Indonesia Soil Research Institute (ISRI). Ultisols soil samples were taken from oil palm plantation in North Sumatera. Christmas Island Rock Phosphate (CIRP) and Tunisia rock phosphate was used in this research. There are two activity conducted simultaneously, which is application of rock phosphate on Ultisols under plant indicator and without plant. The experimental design is randomized complete block design with 5 treatments and 3 replications. The pot experiment without plant was conducted using1 kg of soil sample mixed with rock phosphate treatment and placed into plastic plot.  During 3 months of incubation, soil water content was maintained under field capacity by aquadest.  The dosages of P fertilizer were 0, 157.6 and 315.2 kg P2O5 ha-1. Soil samples were taken on 1, 2, and 3 months after P fertilization for measuring pH, P content (by HCl 25 %, Bray 1 and Olsen extraction), P-inorganic fractionation (Al-P, Fe-P, Rs-P and Ca-P), exchangeable acidity (Al and H), Al and free of Fe oxide. The pot experiments with maize were conducted using 7.5 kg soil samples mixed with 2 different rock phosphates as a treatment. The dosages of rock phosphate were similar with experiment 1. Urea 300 kg and 150 kg KCl ha1 were applied as a basal fertilizer. Maize was planted two seed per pot and maintain until harvest time. The result of the research shows that soil P content increase with RP application, Tunisia rock phosphate give higher response than the CIRP. Direct application of rock phosphate with Fe and Al content did not increase significantly the Aldd, Al2O3 and Fe2O3 content on soil.  Application of CIRP and Tunisia rock phosphate increased maize growth and yield significantly.

Zinc deficiency in wheat and lupins in Western Australia is affected by the source of phosphate fertiliser

1992 ◽  
Vol 32 (4) ◽  
pp. 455 ◽  
Author(s):  
MM Riley ◽  
JW Gartrell ◽  
RF Brennan ◽  
J Hamblin ◽  
P Coates
Keyword(s):  
Western Australia ◽  
Zn Deficiency ◽  
Single Superphosphate ◽  
Rock Phosphates ◽  
Phosphate Fertiliser ◽  
Leaf Tissues ◽  
Natural Component ◽  
Residual Effectiveness ◽  
Term Field

A long-term field experiment is being conducted in the wheatbelt of Western Australia to determine the effects of source of phosphate fertiliser on the residual effectiveness of zinc (Zn) to wheat and to sweet, narrow-leafed lupins grown in rotation. The initial 2 years' results of that experiment reported here indicate that both wheat and lupins responded to the addition of Zn to the soil. The requirements of these crops for Zn, can be mostly met with the small amount of Zn that is a natural component in single superphosphate manufactured from rock phosphates, but not with diammonium phosphate (DAP). The internal requirements for Zn of the aboveground tissues of lupins appear greater than those of wheat. Depending on the stage of growth, critical concentrations of Zn in the youngest leaf tissues of wheat that were prognostic of Zn deficiency, were found to vary from about 7 to 16 �g/g, while those in lupins were found to vary from about 28 to 37 �g/g.

Calcined rock phosphate as fertilizer for pasture and cereal production in Western Australia

1969 ◽  
Vol 9 (36) ◽  
pp. 99 ◽  
Author(s):  
MG Mason ◽  
WJ Cox
Keyword(s):  
Low Temperature ◽  
Western Australia ◽  
Rock Phosphate ◽  
Sandy Loam ◽  
Annual Rainfall ◽  
Research Station ◽  
Christmas Island ◽  
Cereal Production ◽  
Australian Wheat ◽  
Western Australian

Calcined rock phosphate is prepared by low temperature (500�F) calcination of 'C' grade Christmas Island rock phosphate that is unsuitable for superphosphate production. It was compared with superphosphate and with mixtures of superphosphate and calcined rock phosphate for pasture and cereal production at two sites in the 12-18 in. annual rainfall zone of the Western Australian wheat belt. At equivalent levels of applied phosphorus, superphosphate was a better fertilizer than calcined rock phosphate over the two years of the trials. There was evidence that the phosphorus in superphosphate was less available when mixtures of superphosphate and calcined rock phosphate were applied, than when superphosphate was applied alone. A pasture response to sulphur occurred at Chapman Research Station on a red-brown sandy loam. There was no response to sulphur by cereals.

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