Humans and animals need Ca to build strong bones. Plants also require plenty of Ca to develop strong cell walls and membranes. Animals fed a diet with low Ca develop weak bones and osteoporosis. Similarly, insufficient Ca in plants leads to a breakdown of cell walls and membranes, and to a variety of disease and post-harvest problems. In addition to plant nutrition benefits, sufficient Ca has a role in maintaining soil physical properties, alleviating subsoil acidity, and the reclamation of sodic soils.

There are soil conditions where Ca applications are very helpful. Sandy soils and crops irrigated with low Ca water may be particularly vulnerable to low Ca availability. Soils with low pH generally have low Ca availability. Unusually high exchangeable Mg may pose a problem for Ca uptake by roots.

Most agricultural soils contain considerable amounts of Ca. A good estimate is that each cmol of exchangeable Ca is equivalent to 400 lbs/A (in a depth of 6 2/3 in.). Many soils contain several tons of exchangeable Ca on cation exchange sites. Therefore, it may take large applications of Ca to make significant changes in soil chemistry.

Probably the best known symptom of Ca defi ciency is blossom-end rot of tomato fruit, but this problem is closely related to plant water stress and the difficulty in delivering Ca to the fruit. This illustrates one of the problems with Ca defi ciencies—is it a lack of Ca that is the problem or is it a problem with delivery of Ca within the plant?

In soil that seems to have adequate Ca, why do defi ciency symptoms sometime occur? The problems often appear when Ca does not adequately move to the plant organs where it is needed. Calcium moves primarily with the transpirational water moving up from the roots. Once in the plant, Ca is not readily mobile from one plant part to another. Plant organs that have low transpiration (e.g. fruits such as melons, apples, and tomatoes with a waxy skin, or the inner/sheltered parts of leafy plants such as lettuce) can develop low-Ca disorders. When these disorders develop, sometimes it is related to the soil Ca supply, but it is frequently related to water stress, cool temperature, and limited transpiration.

When low Ca is causing plant problems, start with getting the soil tested. Make sure there is adequate Ca present and low pH is not a problem. Large amendments with Ca inputs such as lime or gypsum may be recommended to address these conditions. When targeted inputs are needed during the growing season, several highly soluble Ca sources are available. They may be best applied to the active root zone to promote rapid uptake. Foliar sprays containing Ca can also be beneficial to address potential deficiencies, but only a limited amount of Ca can be assimilated this way.

Calcium is required by plants in relatively large amounts. Many forage crops, such as alfalfa, remove over 100 lbs Ca/A/yr in harvested hay. When plant deficiencies occur, it is necessary to examine the cause of the problem in order to know the best response. There are many excellent sources of Ca available, but their appropriate use depends on your individual situation.