Dear PGM Capital, Blog readers,
In this weekend blog article we want to discuss with you about phosphorus and its key role in most life processes.
Phosphorus is a nonmetallic chemical element with symbol P and atomic number 15. There are several forms of phosphorous, called white, red and black phosphorus, although their colours are more likely to be slightly different.
- White phosphorus is the one manufactured industrial; it glows in the dark, is spontaneously flammable when exposed to air and is deadly poison.
- Red phosphorus can vary in colour from orange to purple, due to slight variations in its chemical structure.
- Black phosphorous, is made under high pressure, looks like graphite and, like graphite, has the ability to conduct electricity.
Phosphorus is essential for plant growth. It stimulates growth of young plants, giving them a good and vigorous start. Phosphorus management and nutrition has both economic and environmental implications, it is a required element for all things that live, have lived or will live. Without Phosphorus plants will not grow, animals, including humans, can not survive, and the world as we know it will cease to exist. As a mineral, phosphorus is what living organisms use to convert food into energy. In humans and other animals, phosphorus is literally what holds our DNA together. In plants, Phosphorus is what allows plants to make cell walls, and to reproduce.
PHOSPHORUS CHEMISTRY IN SOILS:
Phosphorus exists in soils in organic and inorganic forms. Organic forms of P are found in humus and other organic material. Phosphorus in organic materials is released by a mineralization process involving soil organisms. The activity of these microbes is highly influenced by soil moisture and temperature. The process is most rapid in warm, well-drained soils.
The dominant application of phosphorus is in fertilisers, which provide phosphate as required for all life and is often a limiting nutrient for crops. Phosphorus, being an essential plant nutrient, finds its major use as a constituent of fertilizers for agriculture and farm production in the form of concentrated phosphoric acids, which can consist of 70% to 75% P2O5. Global demand for fertilisers led to large increase in phosphate (PO43–) production in the second half of the 20th century. Due to the essential nature of phosphorus to living organisms, the low solubility of natural phosphorus-containing compounds, and the slow natural cycle of phosphorus, the agricultural industry relies on fertilisers that contain phosphate. A major form of these fertilisers is superphosphate of lime, a mixture of two salts, calcium dihydrogen phosphate Ca(H2PO4)2 and calcium sulfate dihydrate CaSO4·2H2O, produced by the reaction of sulfuric acid and water with calcium phosphate.
Below image shows the Phosphorus Cycle from Soil to Crop and visa versa.
Phosphorus movement of agricultural land to surface waters can accelerate eutrophication. This is the process in bodies of water of stimulating algal growth which ultimately die and decay in the water, and deplete available oxygen. The reduced oxygen levels ultimately result in reduced higher-order aquatic plant and animal populations. Animal manures and bedding materials contain significant amounts of phosphorus in organic forms.
PHOSPHORUS ESSENTIAL TO BONE HEALTH:
Calcium and Phosphorus are essential to human life. In vivo, the ionic forms of calcium and phosphorus combine to form calcium phosphate.
There are several stages of human life when the calcium and phosphorus requirements are most critical. First, in utero, followed by childhood anabolism, and later during puberty when there is a strong requirement for growth hormone. Bone mineralization
only slows after the epiphyseal plate has closed.
Below Image shows the cycle of Phosphorus in the human body
PGM CAPITAL COMMENTS:
Phosphorus is a limited natural resource that is non-renewable. Phosphorus, unlike nitrogen and carbon, does not have an atmospheric source. It does not rain to earth in precipitation. It is a land based element that is found when mountains have been uplifted and then are eroded. The phosphorus cycle is from the land to living organisms and back to the land. The thing to remember is that there is only a finite amount of phosphorus. As the human population expands, there is less phosphorus available for things like crops. Like Oil, Phosphorus is reported to have peaked in 1988, according to an article posted by Professor Chris Rhodes called “Peak Minerals.” On the other hand data from the Global Phosphorus Research Initiative (GPRI) indicates peak production of Phosphorus to happen in 2033 as can be seen from below chart.
According to Petter Jensen, professor at the University of Biotechnology and Environment in Oslo, phosphorus will soon be a rare and valuable resource.
Based on the above mentioned information, we expect that the price of phosphorus should increase dramatically because of current usage and economic practices that are tied directly to other natural resource peak events. Peak oil, peak coal, and even peak water are all putting pressure on alternative energy sources such as bio-fuels. That is the link to phosphorus. Phosphorus is needed to grow plants, to make fertilizers, and increase crop productions.
Bio-fuels expand to include not only grains, but also corn stalks, wheat chaff, and other items, which means that all of the phosphorous that was recycled in plant waste is now consumed in the bio-fuel process and lost to the system. This also means that peak phosphorus is going to reach a critical limit faster. That means that natural resources needed to grow food are going to become exhausted more quickly.
Due to the above, it does not matter if Phosphorus peaked in 1988 or if it will peak in 2033. The fact remains that as one of the critical natural resources supply is not going to live up to demand. Therein lies the opportunity not only for peak phosphorus, but also in all of the factors that lead up to it. Knowing where to invest as times change is a critical component for controlling income in the future.
Below chart shows the correlation between the global population and phosphate production.
The above means that food, will become very expensive in the future, which might lead to wars and social unrest.
Our research team has discovered several ETFs that invest in fertizers, Phosphorus producing companies and companies in the food value chain.
Before following any investment advice, please consider your investment horizon, financial position and risk tolerances and keep in mind that commodity prices as well as stocks of their miners may be very volatile and that sharp corrections may happen in the short term.
Until Next Time
Eric Panneflek