Hemp is the common name for plants of the entire genus Cannabis. This term is often used to refer only to Cannabis strains cultivated for industrial (non-drug) use.
Industrial hemp has many uses, including paper, textiles, biodegradable plastics, construction, health food, and fuel. It is one of the fastest growing biomasses known and one of the earliest domesticated plants known. It also runs parallel with the “Green Future” objectives that are becoming increasingly popular. Hemp requires little to no pesticides, no herbicides, controls erosion of the topsoil, and produces oxygen. Furthermore, hemp can be used to replace many potentially harmful products, such as tree paper (the processing of which uses chlorine bleach, which results in the waste product polychlorinated dibensodioxins, popularly known as dioxins, which are carcinogenic, and contribute to deforestation, cosmetics, and plastics, most of which are petroleum-based and do not decompose easily. The strongest chemical needed to whiten the already light hemp paper is non-toxic hydrogen peroxide.
Cannabis sativa L. subspecies sativa var. sativa is the variety grown for industrial use in Europe, Canada, and elsewhere, while C. sativa subspeciesindica generally has poor fiber quality and is primarily used for production of recreational and medicinal drugs. The major difference between the two types of plants is the appearance and the amount of THC secreted in a resinous mixture by epidermal hairs called glandular trichomes. Strains of Cannabis approved for industrial hemp production produce only minute amounts of this psychoactive drug, not enough for any physical or psychological effects. Typically, Hemp contains below 0.3% THC, while Cannabis grown for marijuana can contain anywhere from 6 or 7 % to 20% or even more.
Industrial Hemp is produced in many countries around the world. Major producers include Canada, France, and China. While more hemp is exported to the United States than to any other country, the United States Government does not consistently distinguish between marijuana and the non-psychoactive Cannabis used for industrial and commercial purposes.
The main difference is in its use. Hemp and Marijuana both come from the same plant – Cannabis Sativa L. The term ‘Hemp’ commonly refers to the industrial or commercial use of the cannabis stalk and seed for textiles, foods, papers, body care products, detergents, plastics and building materials. The term ‘marijuana’ refers to the medicinal, recreational or spiritual use involving the smoking of cannabis flowers. Industrial hemp contains only about 0.3% – 1.5% THC (Tetrahydrocannabinoids, the intoxicating ingredients that make you high) while marijuana contains about 5% – 10% or more THC. Hemp fibre is the longest, strongest and most durable of all natural fibres. Hemp cultivation requires no chemicals, pesticides or herbicides. Grown in rotation with other crops such as corn and legumes, hemp farming is completely sustainable. Hemp produces four times as much fibre per acre as pine trees. Hemp tree-free paper can be recycled up to seven times, compared with three times for pine-pulp based papers. Hemp is easy to grow, and actually conditions soil where it grows. The seed and seed-oil are high in protein, essential fatty and amino acids, and vitamins. Hemp would be an ideal source of biomass for fuel, and hemp Ethanol burns very cleanly.
Hemp and humanity have been linked for over 10,000 years. Hemp was our first agricultural crop, and remained the planet’s largest crop and most important industry until late last century. Most of the non-Western world never stopped growing hemp, and today hemp for commercial use is grown mostly by China, Hungary, England, Canada, Australia, France, Italy, Spain, Holland, Germany, Poland, Romania, Russia, Ukraine, India and throughout Asia.
Industrial hemp is a variety of cannabis sativa that has a long history of use in the United States. However, since the 1950s it has been lumped into the same category of marijuana, and thus the extremely versatile crop was doomed in the United States. Industrial hemp is technically from the same species of plant that psychoactive marijuana comes from. However, it is from a different variety, or subspecies that contains many important differences.
Industrial hemp has low THC levels compared to marijuana specifically cultivated for personal psychoactive use. Whereas marijuana that can be smoked usually contains between five and ten percent THC, industrial hemp contains about one-tenth of that. In order to get a psychoactive effect, one would need to smoke ten or twelve hemp cigarettes over a very short period of time. The reason for the low THC content in hemp is that most THC is formed in resin glands on the buds and flowers of the female cannabis plant. Industrial hemp is not cultivated to produce buds, and therefore lacks the primary component that forms the marijuana high. Furthermore, industrial hemp has higher concentrations of a chemical called Cannabidiol (CBD) that has a negative effect on THC and lessens its psychoactive effects when smoked in conjunction.
Compared to cannabis sativa indica, cannabis sativa sativa (industrial hemp variety) has a much stronger fiber. This fiber can be used in anything from rope and blankets to paper. Marijuana fiber has a low tensile strength and will break or shred easily, making it a poor fibrous plant when compared to industrial hemp. Industrial hemp also grows differently than THC-containing cannabis. Hemp is typically grown up, not out, because the focus is not on producing buds but on producing length of stalk. In this way, hemp is a very similar crop to bamboo. The stalk contains the fiber and hard, woody core material that can be used for a variety of purposes, even carpentry. Generally, THC-producing marijuana plants are grown to an average of five feet in height. Industrial hemp on the other hand is grown to a height of ten to fifteen feet before harvest. Also, it is fairly difficult to grow concealed marijuana within industrial hemp crops as the DEA
alleges. Since industrial hemp is grown so close together and is generally a very narrow, vertical growth crop, any THC-producing marijuana would stick out like a sore thumb. Its wide growth would require a large amount of space to itself in order to get adequate sunlight from beyond the tops of the competing industrial hemp plants.
The two also differ in the areas that they can be effectively grown. THC-producing Marijuana must be grown in generally warm and humid environments in order to produce the desired quantity and quality of THC-containing buds. However, since industrial hemp does not contain these buds, and the hardy parts of the plant are the more desired, it can be grown in a wider range of areas. Generally, industrial hemp grows best on fields that provide high yields for corn crops, which includes most of the Southwest, Southeast, and Northeast United States. Furthermore, since industrial hemp can use male plants as well as female plants (since the object is not THC production), higher crop yields can result.
Hemp also has little potential to produce high-content THC when pollinated. As long as industrial hemp plants are pollinated by members of their own crop, then the genetics will remain similar with low levels of THC. One would have to place several marijuana plants in close vicinity in over several generations order to alter the genetics substantially of the offspring. Since there are so many differences between industrial hemp and high-THC marijuana, it seems to make sense that it would be a fostered, rather than demonized crop. Although technically hemp is not illegal to grow, it requires obtaining a special permit from the DEA. These permits are rarely given out and require that the crop be surrounded by security measures such as fences, razor wire, security guards, or dogs. For a crop that has little-to-no potential to get people high, the current attitude is both irresponsible and draconian.
Industrial hemp could transform the economy of the United States in a positive and beneficial way, and therefore should be exploited to its full potential.