CATION EXCHANGE CAPACITY and PLANT NUTRITION Cation Exchange Capacity (CEC) Clay Particles and Humus...

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CATION EXCHANGE CAPACITY

CATION EXCHANGE CAPACITY

and

PLANT NUTRITION

Cation Exchange Capacity (CEC)

Cation Exchange Capacity (CEC)

Clay Particles and Humus

- affect chemical properties of soil- complex structures with many negative

charge sites- negative charge sites attract positive ions

called cations

CECCECNegative charge sites are referred to as . . .

Cation exchange sites

+ attract cations from soil solution+

CECCEC

Force of attraction is called:

Adsorption

similar to force of a magnet holding iron filings

CATION ADSORPTIONCATION ADSORPTION

CECCEC

Cations can move on and off particles . . .

when one leaves, another replaces it

This process is called cation exchange, and cations involved are said to be exchangeable

http://www.une.edu.au/~agronomy/SSCATXCH.dcr

CECCEC

The number of sites that a colloid (small particle) of charged clay or humus (micelles) contains is measured by the:

Cation Exchange Capacity expressed in mEq/100g (older unit) or cmolc/kg

CECCECmay range from:

2.0 mEq/100g for sandto > 50 mEq/100g for some claysand

humus 100-300 mEq/100gunder certain soil conditions

CECCEC

How fertile can a soil be?

Does applying more fertilizer always provide more nutrients to plants?

How much of the CEC is actually filled with cations?

CECCEC

The proportion of the CEC occupied by basic (+) nutrients such as Ca, Mg, K, Na, is called:

Percent Base Saturation and is an indication of the potential CEC of a given soil

CECCEC

Estimations that > 99% of cations in soil solution are adsorbed . . .

does not mean that percent base saturation is 99%

CECCEC

Example:

A soil with CEC of 10 mEq/100g has 6 mEq/100g of bases (Ca, Mg, K, Na) occupying exchange sites

What is the percent base saturation of the soil?

CECCEC

6 mEq/100g bases10 mEq/100g sites

= 60 % base saturation

CECCEC

Cation Exchange is determined by:

1) strength of adsorption

2) law of mass

CECCEC

Strength of adsorption is as follows:

H+ and Al3+ > Ca2+ > Mg2+ > K+ > NH4+ > Na+

CECCEC

Law of Mass

the more of one ion available,

the greater the chance of adsorption

NUTRITIONNUTRITION

There are at least 17 elements recognized as essential nutrients for plants;

we will recognize 18 elements:

C, H, O, P, K, N, S, Ca, Fe, Mg,Mn, Mo, Cl, Cu, Zn, B, Co, Ni

NUTRITIONNUTRITION

Nutrients grouped into 2 categories according to the relative amount used by plants:

Macronutrients – major elements; large amounts

Micronutrients – minor elements; small amounts

Both are essential for optimal plant production

ROOT HAIR ABSORPTIONROOT HAIR ABSORPTION

NUTRIENTS REPLACE CATIONS

NUTRIENTS REPLACE CATIONS

NUTRITIONNUTRITION

Note:

C, H, O . . .

essential elements not considered innutritional studies;

Why?

NUTRITIONNUTRITION

> 95% of plant dry wt. from C, H, O;

(balance from macro, micro and other elements)

NUTRITIONNUTRITION

Except for C, H, O . . .

- Nitrogen (N) is present in greatest concentrations;

- Plants respond readily to Nitrogen (N)