Hanna Instruments HI 3896 User Manual

5

Porosity is important for the exchange of gases and liquids. Micro-porosity (porous < 2 -
10 µm) permits water to be retained while macro-porosity (porous > 10 µm) contrib-
utes to a fast circulation of air and water.
Plants therefore are in need of a correct relationship between micro and macro porosity.
Clay soils have a greater micro-porosity than sandy soils and hence hold more water and
remain wet for a longer period.
Because of the greater tenacity and adhesivity of clay soils, they are called heavy while
sandy soils are referred to as light.
Organic matter, caused by animal and vegetable residues, is another important constituent
of the solid part of the soil. Organic matter has a positive effect on the soil fertility by
adding nutrients, stabilizing the pH reaction and permitting a good retainment of water.
Organic matter is also important for the activity of microorganisms and, in general,
contributes towards prevention of soil erosion.
The colloidal portion, composed of micro-particles (1-100 µm), is important for holding
nutrients. Since most of these particles have a negative charge, the colloidal portion has a
particularly large capacity to retain cations (NH

4

+

, K

+

, Na

+

, Ca

++

, Mg

++

, etc.). The CEC

(Cation Exchange Capacity) is higher in soils rich with clay and organic matter than in
sandy soils.

The chemical composition of soil includes pH and chemical elements. Their analysis is
necessary for better management of fertilization, tillage and in order to choose the most
suitable plants for best results.
By using the HANNA Soiltest, it is possible to measure pH and the most important
elements for plant growth, that is, nitrogen (N), phosphorus (P) and potassium (K).

CHEMICAL
COMPOSITION

pH

pH is the measure of the hydrogen ion concentration [H

+

]. A soil can be acid, neutral or

alkaline, according to its pH value.
Fig. 3 shows the relationship between the scale of pH and kind of soil. The pH range from
5.5 to 7.5 include the most of plants; but some species prefer acid or alkaline soils.

Fig. 3. Types of soil
according to the pH value

Nevertheless, every plant need a particular range of pH, in which can better express its
potentiality of growth.
pH strongly influences the availability of nutrients and the presence of microorganisms
and plants in the soil.

12

Asparagus

very low

160

120

180

low

120

100

150

medium

100

70

130

medium-high

90

50

110

high

80

40

90

very high

70

20

80

Barley

very low

140

130

170

low

110

90

120

medium

90

70

80

medium-high

80

50

60

high

70

40

50

very high

60

30

40

Corn silage

very low

340

200

230

low

300

150

150

medium

280

120

120

medium-high

260

90

90

high

240

60

60

very high

220

40

46

Maize

very low

300

200

230

low

270

150

150

medium

240

120

120

medium-high

230

90

90

high

210

60

60

very high

200

40

40

Soybean

very low

0

150

220

low

0

130

170

medium

0

100

130

medium-high

0

80

100

high

0

60

80

very high

0

40

60

Sugar beet

very low

160

150

230

low

120

130

180

medium

100

100

150

medium-high

90

80

120

high

80

60

90

very high

70

40

60

Tomato

very low

150

250

250

low

130

180

200

medium

110

150

150

medium-high

90

120

120

high

80

90

90

very high

70

60

60

Wheat

very low

180

150

170

low

160

100

120

medium

150

80

80

medium-high

140

60

60

high

130

50

50

very high

120

40

40

Tab. 7.

CROP

SOIL CONTENT

ADVISED DOSES (kg/ha)

N

P

2

O

5

K

2

O