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Phosphorus Behavior in Soils

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Title: Phosphorus Behavior in Soils


1
Phosphorus Behavior in Soils
  • Plant and Soil Sciences Department
  • Oklahoma State University

G.V. Johnson
2
Understanding phosphorus behavior in soils
  • Start with stripped down, bare P.
  • P stands for Norwegian Goddess Phyllis.
  • Like elemental phosphorus, we remember the
    ancient story of Phyllis, and how violent she
    reacted when she swam to shore and, as she
    stepped onto the beach, found herself naked!
  • P

3
Understanding phosphorus behavior in soils
  • Phyllis (P) ran to the nearest beach-front store
    and quickly bought a two-piece bathing suit (O2)
    and matching beach sandals (O2).
  • She was much more comfortable.
  • P O2 O2 PO43-

4
Understanding phosphorus behavior in soils
  • But, Phyllis was chilled when it got cloudy and
    the wind blew, so she went back to the store and
    bought a beach wear cover (H)and matching
    shoes (2 H).
  • Now she was comfortable anywhere along the beach.
  • PO43- H 2 H H3PO4

5
Understanding phosphorus behavior in soils
  • Even a Norwegian Goddess cant spend all her time
    at the beach. Phyllis needed to move about the
    land.
  • She was conspicuous in her beach-wear. It rained
    a lot. People were always staring at her.
  • She went shopping again.
  • She bought a jump-suit (Al3) and got rid of the
    beach-wear.

H3PO4 Al3 AlPO4 3 H
  • Now she was comfortable anywhere on land along
    the beach

6
Understanding phosphorus behavior in soils
  • In time Phyllis became lonely, she missed her
    family, especially her twin sister Phylline.
  • Phylline lived in dry, southern California, but
    not too far from the beach.
  • She was quite stylish, but unstable, and wore OSU
    sweats (Ca2) and OU running shoes (H).

CaHPO4
7
Understanding phosphorus behavior in soils
  • Phyllis went to visit her sister Phylline.
  • At first they weren't comfortable together.
    Their styles clashed.

CaHPO4 AlPO4
8
Understanding phosphorus behavior in soils
  • With time the sisters learned to overcome their
    differences.
  • Phyllis finally found a sweat-suit like
    Phillines (Ca2), and a two-for-one sale for
    matching (OSU) shoes (Ca2)
  • The sisters became inseparable and went
    everywhere together.

CaHPO4 AlPO4 2 Ca2 ? Ca3(PO4)2
9
Understanding phosphorus behavior in soils
  • Review
  • In nature, P always exists in combination with
    oxygen (O) in the form of phosphates.
  • PO43-
  • Three separate sites for reaction with a single
    charge cation (H, K, NH4).

10
Understanding phosphorus behavior in soils
  • PO43- will react with
  • whatever cation is in greatest abundance and,
  • whatever cation is held with the strongest bond.
  • In nature, there is plenty of water around
  • H2O ?? H OH-
  • Concentration of H OH- 10-7

11
Understanding phosphorus behavior in soils
  • Review
  • When the charges on phosphate are all satisfied
    by H, in the laboratory, the compound phosphoric
    acid is formed.
  • H3PO4

12
Understanding phosphorus behavior in soils
  • The H leave (dissociate from) phosphoric acid in
    a stepwise manner when the acid is reacted with
    base, like sodium hydroxide (NaOH).
  • H3PO4 ?? H H2PO4-
  • H2PO4-?? H HPO42-
  • HPO42-?? H PO43-
  • One or more of the phosphate forms will be
    present in solution, depending upon the solution
    pH.

13
Understanding phosphorus behavior in soils
  • One or more of the phosphate forms will be
    present in solution, depending upon the solution
    pH.

14
Understanding phosphorus behavior in soils
  • In the normal pH range of soils the concentration
    of H in the soil solution is too weak to
    effectively compete for reaction with phosphate
    anions.
  • At pH 6, the H concentration is 1 x 10-6
    mole/liter.
  • 0.000001 g/liter.
  • 0.001 ppm.
  • 0.001 milliequivalent weights.
  • At pH 5 the H concentration is 10 times greater
    and at pH 7 it is 10 less than at pH 6.

15
Understanding phosphorus behavior in soils
  • Since the H concentration is so low in the
    normal pH range of soils, the concentration of
    H2PO4- and HPO42- might also be expected to be
    low.
  • If there is not enough H to react with PO43- in
    the soil, what else can PO43- react with?
  • Consider the lyotropic series and the
    relationship of soil pH and percent base
    saturation.

16
If there is not enough H to react with PO43- in
the soil, what else can PO43- react with?
  • The lyotropic series is the order of adsorption
    strength of cations adsorbed on soil colloids
  • Al3 H gt Ca2 Mg2 gt K NH4 gt Na
  • Soil pH and base saturation are directly
    related

17
If there is not enough H to react with PO43- in
the soil, what else can PO43- react with?
  • The lyotropic series also relates to acidic and
    basic cations
  • Al3 H gt Ca2 Mg2 gt K NH4 gt Na
  • Strongly acid?? Strongly alkaline

18
If there is not enough H to react with PO43- in
the soil, what else can PO43- react with?
  • Above soil pH 5.5 there is an abundance of
  • Ca2 Mg2 gt K NH4 gt Na
  • Below soil pH 5.5 there are increasing amounts of
    Al3 H.

19
Below soil pH 5.5 there are increasing amounts of
Al3 H.
  • Al3 H3PO4 ?? AlPO4
  • DAP Al3 (NH4)2HPO4 ? ? AlPO4 2 NH4
  • MAP Al3 NH4H2PO4 ? ? AlPO4 NH4
  • AlPO4 is very insoluble.
  • The reaction rate depends on the concentrations
    of Al3 and H3PO4 in the soil solution.
  • 27 lbs Al3 will react with about 71 lbs P2O5 to
    form AlPO4.

20
Below soil pH 5.5 there are increasing amounts of
Al3 H.
  • 27 lbs Al3 will react with about 71 lbs P2O5 to
    form AlPO4.
  • When P2O5 is banded with seed, the P2O5
    concentration is several times greater than the
    Al3 concentration in the band zone.
  • The concentrations of H2PO4- and HPO42- are very
    low in acid soils because of their reaction with
    Al3.

21
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22
Above soil pH 5.5 there is an abundance ofCa2
Mg2 gt K NH4 gt Na
  • Ca2 H3PO4 ?? Ca(H2PO4)2 (0-46-0)
  • DAP Ca2 (NH4)2HPO4 ?? CaHPO4 2 NH4
  • MAP Ca2 NH4H2PO4 ?? Ca(H2PO4)2 NH4
  • Ca(H2PO4)2 and CaHPO4 are highly water soluble.

23
Above soil pH 5.5 there is an abundance ofCa2
Mg2 gt K NH4 gt Na
  • Ca(H2PO4)2 and CaHPO4 are highly water soluble.
  • These phosphates revert to apatite
    (rock-phosphate).

Mineral Reversion time Chemical formula Ca/P Solubility g/100 mL
Monocalcium phosphate Ca(H2PO4)2 . H2O 0.5 1.8
Dicalcium phosphate 3 weeks CaHPO4 1.0 0.03
Octacalcium phosphate 2 to 5 mo. Ca4H(PO4)3 . 2.5 H2O 1.33
Tricalcium phosphate 8 to 10 mo. Ca3(PO4)2 1.5 0.002 (4 ppm)
Hydroxyapatite 1 to 2 yr. Ca5(PO4)3OH 1.66
24
Understanding phosphorus behavior in soils
Fertilizers
  • Phosphate fertilizers dissolve slowly, but react
    quickly in soils to form solid calcium and
    aluminum phosphates, which, in time become very
    insoluble.
  • DAP (solubility 23g/100mL)
  • 100 H2O 23 (NH4)2HPO4 ?(dissolves slowly) gt
    HPO42- 2 NH4
  • (solid) (solution)
  • Ca2 HPO42- lt (precipitates quickly)?CaHPO4
  • Equilibrium P concentration is 60 ppm
  • Equilibrium Ca2 concentration is 70 ppm.
  • Most soil Ca2 concentrations will be gt gt 400 ppm

25
Understanding phosphorus behavior in soils
Fertilizers
  • Phosphate fertilizers dissolve slowly, but react
    quickly in soils to form solid calcium and
    aluminum phosphates, which, in time become very
    insoluble.
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