Sodium ions (Na+) are highly soluble ions that can coordinate (stick to) 6 water molecules per sodium atom based solely on Van der Waals forces. So sodium greatly affects the osmotic balance of water and ion exchange near the root system. Sodium also destabilizes clay aggregates and causes them to breakdown leaving a sandier structure to the soil.
Calcium ions don’t last long in soil before they ionically bond to carbonates forming insoluble calcite. Plants use a great deal of calcium (and magnesium) in their biochemistry and so they are a micronutrient of great value to plants. Calcium absorption also affects iron absorption in both good and bad ways. Calcium and its related compounds also affect soil pH and pH buffering capacity. Most plants thrive in soils with a pH between 6.5-7.5 and calcium can help to buffer the effects of rainfall. So calcium is actually a critical component of soil ecology. Too much is obviously not good, but it takes quite a lot of soil calcium to be detrimental.
The biggest plant offenders in municipal water is the presence of chlorine & chloramine as well as high carbonate alkalinity. Chlorine and chloramine will sanitize beneficial soil bacteria and microbes while carbonate alkalinity raises pH and locks up micronutrients like iron and phosphorous. For my sensitive plants, I keep 5 gallon buckets full of days old tap water to let the chlorine and chloramine offgas and, for pH sensitive plants, it’s not unheard of for growers to add sulfuric acid to stored water to get rid of the excess alkalinity (sulfates are not harmful to soil bacteria or plants).
