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The excellent benefits of seaweed on all sports surfaces

Seaweed is classed as a soil conditioner in the gardening world, but its benefits are so extensive that it really should be given top billing when discussing the care of soil and growing of plants, as it contains over sixty minerals and trace elements, along with bio stimulants.

 

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In Ireland, many links golf courses used to take seaweed from the adjacent beaches and cover greens with it during severe winters, which both protected the grass from the cold and provided a range of nutrients as it weathered down. When the weather improved the seaweed was removed and composted with sand to provide a very high quality topdressing material. Now, play continues all year round on most courses, so this practice is not feasible but, if there is seaweed available, then it is most certainly well worth harvesting and composting to provide your own supply of high quality topdressing material.

 

Seaweed contains a wide range of nutrients and trace elements which combine in such a unique manner that, when seaweed is added to heavy clay soils, it breaks down the heavy soil into a friable crumb structure, thereby providing a vastly improved growing medium. This, of course, does not happen overnight, but is one of the greatest benefits of long term applications on these types of soils.

Liquid seaweed is the best option, as it is an excellent foliar feed and can be combined with other nutrients as and when require.

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Why use Seaweed as a fertilizer?

Soil is a vital importance as a worldwide resource as well as the fact that we treat it so poorly. I will explain why we should consider using seaweed-based fertilizers.

An ideal soil has approximately 50% of its volume filled with solids and the other 50% with water and air.  Ninety percent of the solids should be minerals, basically eroded rocks, and 10% should be organic matter such as decaying leaves. The spaces between the solids accommodate water and allow air to reach plant roots, a vital step in plant growth. Healthy soil is the most biologically productive environment on Earth. A single gram of soil can contain up to a billion organisms, representing over a thousand species.

Soil contains approximately 70 different minerals. Thirteen of these are known to be essential for plant growth: nitrogen, phosphorous, potassium, sulfur, calcium, magnesium, iron, boron, manganese, copper, zinc, molybdenum, and chlorine. The other 50 or so, including things like cobalt, iodine and selenium, often referred to as micronutrients, are likely to be important to plant growth even if the mechanisms are not fully understood. For plants to be able to utilize these minerals efficiently, the soil environment must have proper moisture, pH, and organic content. In particular, when soils become deficient in organic matter, the ability of plants to absorb minerals from the soil drops precipitously.

In a similar fashion to plants, humans need a wide array of minerals in our diet to maintain our health. With the exception of taking vitamin supplements, a practice which is less effective than you might think, we get the vast majority of our minerals from the soil, either by eating plants that have extracted them from the soil for us, or by eating animals that have eaten plants. Seafood provides another important source of minerals

As farmers harvest plants, minerals which had formerly been in the soil are removed. Unless these minerals are replaced, the field will quickly lose productivity. Replenishment of minerals can be accomplished by the application of fertilizer.

Generally speaking, the industrial agriculture systems used worldwide are not particularly effective at replacing soil minerals. Most fertilizers applied on large agricultural operations include only nitrogen, phosphorous, potassium and, at best, a small handful of other minerals. To make matters worse, over-tilling and insufficient application of compost result in a reduction of the soil’s organic content. Therefore, the absorption of even the small subset of minerals applied to the fields is inefficient. To overcome this inefficiency, farmers increase the amount of fertilizer that they apply, which then results in the run-off of excess nitrogen and phosphorous into the surrounding watershed, which creates a number of additional problems.

The United States Department of Agriculture has been tracking the impact of the depletion of our soils since the 1950s. Every year, they analyze the vitamin and mineral contents of approximately forty common foods, including carrots, apples, wheat, and chicken. As the decades have passed, the vitamin and mineral content of these foods has dropped in the range of 10-30%. This slow erosion of food quality in the U.S. is a key, but little discussed, underlying cause of many of our public health challenges.

So what can we do to reverse this trend? We can improve our soil management practices and we can use fertilizers which contain a broader array of minerals by looking to the oceans.

Since the oceans of the world are downstream from everywhere, they are not depleted of minerals. The cobalt, iron, and selenium content of the oceans are roughly the same as they were when our ancestors first crawled up on the sand. Therefore, plants which live in the ocean can, and do, absorb up to 50 to 60 different minerals, including the full array of micronutrients. This characteristic is key to the attractiveness of seaweed both as a fertilizer and a health food. Japan utilizes seaweed extensively in both of these capacities.

Given our long coastline with its variety of inlets and bays, Ireland has the potential to develop a successful seaweed farming industry. To me, there is a certain beauty in the idea. Minerals from our fields find their way from the soil, to our food, to us, and then to the ocean (I’ll let you puzzle out the mechanisms and pathways on your own). Then the seaweed can collect these minerals for us so that we can harvest them and bring those minerals back to our fields.

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