Title: Phosphorus Behavior in Soils
1Phosphorus Behavior in Soils
- Plant and Soil Sciences Department
- Oklahoma State University
G.V. Johnson
2Understanding 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!
3Understanding 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.
4Understanding 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.
5Understanding 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 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
6Understanding 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
7Understanding phosphorus behavior in soils
- Phyllis went to visit her sister Phylline.
- At first they weren't comfortable together.
Their styles clashed.
CaHPO4 AlPO4
8Understanding 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
9Understanding phosphorus behavior in soils
- 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).
10Understanding 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
11Understanding phosphorus behavior in soils
- When the charges on phosphate are all satisfied
by H, in the laboratory, the compound phosphoric
acid is formed. - H3PO4
12Understanding 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.
13Understanding phosphorus behavior in soils
- One or more of the phosphate forms will be
present in solution, depending upon the solution
pH.
14Understanding 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.
15Understanding 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.
16If 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
17If 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
18If 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.
19Below 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.
20Below 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(No Transcript)
22Above 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.
23Above 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).
24Understanding 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
25Understanding 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.