Homemade Organic Fertilizer Recipe

Fertilizers Home Made Formulas

In this information you will find recipes and techniques that work to: Protect your house and lawn with special indoor and outdoor Shock Treatments: Ants, Snails, Slugs, Roaches, Fleas, Earwigs, Cockroaches, Silverfish, Beetles, Termites and Webworms. Say good-bye to those annoying yellow spots. Learn the secret to keep your grass greener in water restricted areas and in hot weather. Treat your lawn with a deworming concoction. (learn how and why you must do it once a year) Use effective Natural Insecticides (it's now time to learn what they are and how to use them. in the years to come, only natural insecticides will be permitted by cities!) Avoid serious plant, pet and child health problems caused by toxic commercial products. Protect yourself and your family against the nile virus in 1 minute. Kill ants and destroy the entire colony in 3 days or less. Kill harmful insects while fertilizing your soils.

Fertilizers Home Made Formulas Overview


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Nanotechnology and Our Energy Challenge

The third one on the list is food, which is going to be an increasing problem on our planet. We need agriculture and we need water. So if you solve the water problem, you've gone a long way to solving the food problem. In addition to food and water, you need fertilizers. You need energy for that. We need to have a structure where we harvest food and move it around. We need energy for that also. If you've got energy, you can hack this problem. If you don't have cheap, fast energy, I don't see how you can solve the problem.

Lesson one substantial equivalence

Novel foods do not have a history of safe human consumption and are produced by techniques that have not been used previously. Before reaching the marketplace, all novel plants and plant products are assessed for environmental, animal and human health safety. Health Canada considers how novel foods compare to traditional counterparts, examines nutritional characteristics, checks for the presence of toxins or anti-nutrients, and looks for potential allergens.2 The CFIA's role is to assess potential environmental risks associated with introducing novel crops and to oversee confined trials, unconfined release and variety registration. The CFIA is also involved in regulating products of biotechnology for animal feeds, fertilizers and veterinary biologics.

Environmental Monitoring

Discrete monitoring of both target species and general hazardous compounds would be sufficient. The possible analytes include biological oxygen demand (BOD) which provides a good indication of pollution, atmospheric acidity, and river water pH, detergent, herbicides, and fertilizers (organophosphates, nitrates, etc.). The survey of market potential has identified the increasing significance of this area and this is now substantiated by a strong interest from industry.

Growth on Earth does face limits since Earth has limited room whether for farming or anything else

Not fundamentally he was wrong chiefly about timing and details. Growth on Earth does face limits, since Earth has limited room, whether for farming or anything else. Malthus failed to predict when limits would pinch us chiefly because he failed to anticipate breakthroughs in farm equipment, crop genetics, and fertilizers.

Mixture and Derived From Rules

The EPA included several exemptions from the definitions of both solid waste and hazardous waste These exclusions include, among others, household waste, certain fertilizers made from hazardous wastes, and other materials listed in 40 C . F. R . 261 .4(a), as well as certain agricultural wastes returned to the soil as fertilizer. As

Listeria Monocytogenes in Food

Listeria monocytogenes is found in soil and water. Vegetables can become contaminated from the soil or from manure used as fertilizer. The bacterium has been found in a variety of raw foods, such as uncooked meats and vegetables, as well as in processed foods that became contaminated even after processing, such as soft cheeses and cold cuts.

Chemical Properties

Salt-like carbides are obtained with the electropositive metals from main groups 1 to 3, and with certain lanthanides and actinides. The characteristic feature of this type is the presence of carbon anions. There are methanides (containing C4-), acetylenides ( C2-) and allenides ( Cj-). Methanides have been described for aluminum and beryllium they yield methane upon hydrolysis. The acetylenides, that produce ethine when reacted with water, hold isolated C C 2--ions in their lattice. Elements from the first main group and subgroup form structures with a composition of M - (C2) , whereas it is MC . with those from the second main group and subgroup. With trivalent metals a stoichiometry of M. (C2)3 is obtained (M Al, La, Ce, Pr, Tb). The most important of acetylenides is calcium carbide. It is produced on a million-tons-scale to generate acetylene for welding or, by reacting it with atmospheric nitrogen, to give calcium cyanamide (CaCN2), which is a valuable raw material for the...

Future Prospects

Farmers have long appreciated the advantages of science and technology the convergence of nanotechnology, biotechnology, and information technology could significantly improve their effectiveness. For example, nanoscale genetics may help preserve and control food production. Inexpensive nano-enabled biosensors could monitor the health and nutrition of cattle, transmitting the data into the farmer's personal computer that advises him about the care needed by the animals. In the same way, sensors distributed across farmland could advise the farmer about need for water and fertilizer, thus avoiding wastage and achieving the most profitable acreage crop yield (National Research Council 1997). Bio-nano convergence can provide new ways of actually applying the treatment to the crops, increasing the efficiency of fertilizers and pesticides.

Concluding Remarks

Basic research of the structure and properties of the nanocapsules and related issues (like nanotubes 1036-1046 ) underlies future technologies, from nanoscale machines, nanotribological systems, cellular injections, and nanocatal-ysis, to miniaturization of electronic circuitry and novel information storage and retrieval systems. Furthermore, the nanoencapsulation process has been successfully applied to many industries as follows as controlled-release systems of drugs and bioactive agents in pharmaceuticals as creams, lotions, and fragrance in cosmetics microgranules with protective colloids, fertilizers, insecticides, herbicides, microporous capsule walls for controlled release in agriculture envelope manufacture using microencapsulated glues in adhesives pigment presscakes, metal phosphate complex microcapsules, encapsulated aluminum flake pigments in pigments encapsulation of heterogeneous catalysts, spherical alumina-containing particles, dual-walled hard microcapsules,...

The EPA White Paper

Be subject to FIFRA's review and registration requirements 24 .* The EPA also observes that nanotechnologies may produce m ore-targeted fertilizers and pesticides that result in less agricultural and lawn garden runoff of nitrogen, phosphorous, and toxic substances is potentially an important emerging application of nanotechnol o g ies that can contribute to sustainability 24


Eutrophication describes the spread of chemical nutrients into water bodies. The anthropological contributions of nitrogen compounds (e.g. nitrates) from excessive applications of fertilizers as well as phosphorus compounds (e.g. phosphates) from detergents or agricultural runoff lead to overfertilization of waters. In addition to these two groups of compounds, the COD (chemical oxygen demand) is enlisted as a measure for calculating organic pollutants. A consequence of the excessive nutrient enrichment is the appearance of vast algae growths. Dying algae decompose under a high degree of oxygen consumption and therefore lead to a shortage of oxygen in the water body. Decomposition and decay processes are the result and produce toxic substance such as hydrogen sulfide, which in turn leads to fish die-off. This means that the increased nutrients in our waters will do long-lasting and in part irreparable damage to a fragile ecological structure.