Watch Your Salt
4/14/2016 - By Harrell's
As most of you know, fertilizer is a salt. When an uncoated fertilizer is applied to soil, it almost immediately goes into solution. This solution then can be hazardous to your crop.
Why or how does it cause injury? When a solution of high salt content is separated by a semi-permeable membrane (root hair cell wall) water will move through the membrane from the low concentration to the higher concentration. We usually call this a fertilizer burn. It’s really a desiccation of the cell moisture since the cell wall ruptures, usually killing the affected area.
We normally minimize this by placing fertilizers some distance away from the root zone, especially with young or small seedlings. This gives the fertilizer time to dissolve or dilute to a lower concentration which the plant can handle. Conversely, when a plant transpires, the salt concentration in the plant increases and water is drawn into the plant. You can minimize the potential for fertilizer burn by:
- Your choice of raw materials
- Rate of application
- Placement of fertilizer
- Soil moisture
- Type or variety of crop grown
If you are growing crops under plastic, and especially if using seep irrigation, you need to be careful since repeated wet and dry cycles can cause an accumulation of salt in the root zone. Additionally, be careful when planting if you use a top mix since any deviation of the tractor drive path or bed can cause the seedling to be planted too close or even in the fertilizer band.
Below is a salt index for most fertilizer raw materials. The salt index is estimated by measuring the amount of electric current that a 0.1% solution will conduct. The higher the salt content, the more current the product will conduct.
Sodium Nitrate is used as the standard reference point with a value of 100 and other products are compared to this. This measurement method was developed in 1943 and there is some debate in regards to the accuracy. Another method is osmolality value. This method has shown to be more accurate but is not widely known or used. The best way to reduce your salt injury is to use POLYON® controlled release fertilizer!
| Material and Analysis | Salt Index | Partial Salt Index* |
|---|---|---|
| Nitrogen: | ||
| Anhydrous ammonia, 82% N | 47.1 | 0.572 |
| Ammonium nitrate, 34% N | 104.0 | 3.059 |
| Ammonium sulfate, 21% N, 24% S | 88.3 | 3.252 |
| Urea, 46% N | 74.4 | 1.618 |
| Urea-ammonium nitrate solution: 28% N (39% ammonium nitrate, 31% urea) 32% N (44% ammonium nitrate, 35% urea) |
63.0 71.1 |
2.250 2.221 |
| Calcium nitrate, 15.5% N | 65.0 | 4.194 |
| Sodium nitrate, 16.5% N | 100.0 | 6.080 |
| Phosphorus: | ||
| Ordinary superphosphate, 20% P205 | 7.8 | 0.390 |
| Triple superphosphate, 45% P205 | 10.1 | 0.224 |
| Monoammonium phosphate: 11% N, 52% P205 10% N, 50% P205 |
26.7 24.3 |
0.405 0.405 |
| Diammonium phosphate, 18% N, 46% P205 | 29.2 | 0.456 |
| Ammonium polyphosphate, 10% N, 34% P205 | 20.0 | 0.455 |
| Phosphoric acid, 54% P205 | 1.613** | |
| Phosphoric acid, 72% P205 | 1.754** | |
| Potassium: | ||
| Potassium chloride, 60% K20 | 116.2 | 1.936 |
| Potassium hydroxide, 83.6% K20 | 1.015 | |
| Potassium nitrate, 13% N, 44% K20 | 69.5 | 1.219 |
| Potassium sulfate, 50% K20, 18% S | 42.6 | 0.852 |
| Sulfate of potash-magnesia, 22% K20, 11% Mg, 22% S | 43.4 | 1.971 |
| Monopotassium phosphate, 52.2% P205, 34.6% K20 | 8.4 | 0.097 |
| Potassium thiosulfate, 25% K20, 17% S | 68.0 | 2.720 |
| Sulfur: | ||
| Ammonium thiosulfate, 12% N, 26% S | 90.4 | 7.533 |
| Ammonium polysulfide, 20% N, 40% S | 59.2 | 2.960 |
| Gypsum, 23% Ca, 17% S | 8.1 | 0.247 |
| Magnesium oxide, 60% Mg | 1.7 | 0.002 |
| Magnesium sulfate, 10% Mg, 14% S | 44.0 | 2.687 |
| Miscellaneous: | ||
| Calcium carbonate, lime, 35% Ca | 4.7 | 0.083 |
| Dolomite, 21.5% Ca, 11.5% Mg | 0.8 | 0.042 |
| Manure salts, 20% | 112.7 | 4.636 |
| Manure salts, 30% | 91.9 | 3.067 |
* The salt index of a mixed fertilizer containing N, P and K is the sum of the partial salt index per unit (20 lbs) of plant nutrient times the number of units due to each component in the formulation.
** Per 100 lbs of H3PO4
Watch Your Salt
Como mucho de ustedes sabe, el fertilizante es sal. Cuando un fertilizante sin capa es aplicado, casi inmediatamente entra a la solución. Esta solución entonces puede ser peligrosa a sus cultivos.
¿Porque o como causa daño? Cuando una solución de alto contenido de sal es separada por un semi permeable membrana (la pared de célula raíz de pelo) agua se mueve a través de la membrana de concentración baja a una alta concentración. Nosotros usualmente llamamos a esto quemadura de fertilizante. Esto en verdad es una desecación de la humedad de membrana ya que la pared fue rota, casi siempre matando el área afectada.
Nosotros normalmente minimizamos esto poniendo el fertilizante una distancia lejos de la zona de la raíz, especialmente con plantas pequeñas o semillero. Esto le da al fertilizante tiempo para disolverse o aguarse a una concentración baja lo cual la planta puede soportar. A la inversa, cuando las plantas transpiran, la concentración de sal en la planta se aumenta y agua es extraída a la planta. Usted puede minimizar el potencial de quemadura de fertilizante en:
- Si elección de materia prima
- Proporción de aplicación
- Donde es colocado el fertilizante
- Terreno húmedo
- El tipo o variedad de cultivo creciendo.
Si esta cultivado plantas bajo plástico, y especialmente si está usando irrigación, necesita tener cuidado ya que el repetición de ciclos de agua y seque pueden causar una acumulación de sal en la zona de raíz. Adicionalmente, tome precaución cuando siembre si usa una capa superior de suelo ya que cualquier desviación del tractor abrir camino o jardín puede causar que el semillero sea sembrado muy cerca o aún más en la banda de fertilizante.
Al seguir encontrara un índice de sal para la mayoría de fertilizante de materia prima. El índice de sal ha sido estimado por medida de cantidad de corriente de electricidad que a 0.1% solución conducirá. Entre mas alto el contenido de sal, más corriente el producto conducirá.
Sodio Nítrate es usado como patrón de punto de referencia con valor de 100 y otros productos son comparados en este. Este método de medidas fue desarrollado en 1943 y hay ciertos debates concernientes a la exactitud. Otro método es valor de osmolalidad. Este método ha mostrado ser más exacto pero no es reconocido o usado. La mejor forma de reducir los danos de sal es usar es usar el fertilizante de liberación controlada POLYON®.
|
Material y Analisis |
Salt |
Sal |
|
Nitrogeno: |
||
|
Anhydrous ammonia, 82% N |
47.1 |
0.572 |
|
Amonio nitrate, 34% N |
104.0 |
3.059 |
|
Amonio sulfate, 21% N, 24% S |
88.3 |
3.252 |
|
Urea, 46% N |
74.4 |
1.618 |
|
Urea-amónio nitrate solucion: |
|
|
|
Calcio nitrate, 15.5% N |
65.0 |
4.194 |
|
Sodio nitrate, 16.5% N |
100.0 |
6.080 |
|
Fosforus: |
||
|
Ordinario superfosfate, 20% P205 |
7.8 |
0.390 |
|
Triple superphosphate, 45% P205 |
10.1 |
0.224 |
|
Monoammonium phosphate: |
|
|
|
Diammonium fosfate, 18% N, 46% P205 |
29.2 |
0.456 |
|
Ammonium polifosfate, 10% N, 34% P205 |
20.0 |
0.455 |
|
Fosforic acid, 54% P205 |
|
1.613** |
|
fosforic acido, 72% P205 |
|
1.754** |
|
Potasio: |
||
|
Potasio cloride, 60% K20 |
116.2 |
1.936 |
|
Potasio hidroxide, 83.6% K20 |
|
1.015 |
|
Potasio nitrate, 13% N, 44% K20 |
69.5 |
1.219 |
|
Potasio sulfate, 50% K20, 18% S |
42.6 |
0.852 |
|
Sulfate of potasa-magnesia, 22% K20, 11% Mg, 22% S |
43.4 |
1.971 |
|
Monopotasio fosfate, 52.2% P205, 34.6% K20 |
8.4 |
0.097 |
|
Potasio tiosulfate, 25% K20, 17% S |
68.0 |
2.720 |
|
Sulfur: |
||
|
Amonia tiosulfate, 12% N, 26% S |
90.4 |
7.533 |
|
Amonia polisulfide, 20% N, 40% S |
59.2 |
2.960 |
|
Gipsum, 23% Ca, 17% S |
8.1 |
0.247 |
|
Magnesio oxide, 60% Mg |
1.7 |
0.002 |
|
Magnesio sulfate, 10% Mg, 14% S |
44.0 |
2.687 |
|
Miscelaneo: |
||
|
Calcio carbonato, cal, 35% Ca |
4.7 |
0.083 |
|
Dolomite, 21.5% Ca, 11.5% Mg |
0.8 |
0.042 |
|
Estiercol sal, 20% |
112.7 |
4.636 |
|
Estiercol sal, 30% |
91.9 |
3.067 |
*El índice de sal de fertilizante mixto conteniendo N, P y K es de la suma del índice parcial de sal por unidad (20 lb) de nutriente de planta por el número de unidad dado a el componente en la formulación.
** Por 100 lbs. of H3PO4
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In addition to being the nation’s largest distributor of branded fungicides, herbicides, and insecticides, Harrell’s produces custom-blended fertilizers, specialty liquids, and wetting agents. Additionally, Harrell’s is the exclusive US owner, formulator, and distributor of all POLYON® branded products.
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