Soil salinity can occur naturally or be caused by practices used on the farm – continuously irrigating with water that has a high salt concentration, for example. While some crops are tolerant to saline soils, high concentrations of some salts can be toxic to others. Salinity can also hinder a plant’s uptake of water and interfere with the absorption of nutrients. Read more for a closer look at the causes and consequences of salinity and sodicity, along with nutritional solutions to lower the impact on crops.

Soil salinity can occur naturally or be caused by human activity – continuously irrigating with water that has a high salt concentration, for example. While some crops are tolerant to saline soils, high concentrations of some salts can be toxic to others. Salinity can also affect a plant’s uptake of water and absorption of nutrients.

In this blog post, we will take a closer look at the causes and consequences of salinity and sodicity, and how producers can take a nutritional approach to lower the impact on their crops.

Calcium (Ca) is the backbone of every living organism, including plants. Although a plant’s needs for calcium can be as high as its needs for nitrogen and potassium, it is classified as a secondary nutrient. In this post, we examine the importance of calcium and the factors that can limit its availability to plants.

As we discussed in our previous blog post, plants require large amounts of macronutrients to grow and thrive. The secondary nutrients – calcium (Ca), magnesium (Mg) and sulfur (S) – are just as vital to plant growth and development, though they are required in lesser amounts than the macros.

Knowing what makes crops emerge, grow and flourish is one thing; finding the right balance is a whole other story! In this post, the first in our series on the relationship between nutrients, we take a look at what happens when an over-abundance of one element causes a deficiency of another.