We are a manufacturer and supply insect-based organic fertilizer to the agricultural sector. Our proprietary technology uses high-tech technology that combines black soldier flies and compost to upcycle nutrients from vegetable and grain by-products, providing a solution for a sustainable agricultural world.
Composting is an aerobic method (meaning that it requires the presence of air) of decomposing organic solid wastes
It can therefore be used to recycle organic material. The process involves decomposition of organic material into a humans-like material, known as compost, which is a good fertilizer for plants. Composting requires the following three components: human management, aerobic conditions, and development of internal biological heat.
Composting organisms require four equally important ingredients to work effectively:
- Carbon — for energy; the microbial oxidation of carbon produces the heat, if included at suggested levels. High carbon materials tend to be brown and dry.
- Nitrogen — to grow and reproduce more organisms to oxidize the carbon. High nitrogen materials tend to be green (or colorful, such as fruits and vegetables) and wet.
- Oxygen — for oxidizing the carbon, the decomposition process.
- Water — in the right amounts to maintain activity without causing anaerobic conditions.
Black Soldier Fly Frass
Black Soldier Fly Frass is the left-over product from growing black soldier fly larvae (BSFL), including larvae waste, exoskeleton sheds and remaining feed ingredients.
This all-natural fertilizer contains a nutrient-dense blend of N-P-K and minerals.
BSFL frass can be used as a soil conditioner for plants.
Sphagnum is a genus of approximately 380 genera of moss, commonly known as “peat moss”, but moss is different because of its high acidic pH level. The accumulation of sphagnum can store water. Both living and dead plants can retain large amounts of water inside their cells. Plants retain 16 to 26 times their dry weight of water, depending on the species. Empty cells help retain water in a more dry state.
Activated carbon, also called activated carbon, is one of the most non-toxic adsorbents we have at our disposal. This has many advantages, but it is not widely used in gardening. Activated carbon removes impurities from the soil, repels insects and prevents mold and odors.
What Is Compost?
That is mixture that consists largely of decayed organic matter and is used for fertilizing and conditioning land. Compost consists largely of decayed carbon-based matter like fruits, vegetables, manure, grasses, dead leaves, and woody debris.
To become compost, these materials must go through an appropriate phase of decay. In well-aged compost, the various fungal and microbial agents contained therein are given time to work their decompositional magic, breaking down (chemically) organic compounds down to their most essential nutrients.
How Compost Makes Nutrients Available to Plants
Finished compost contains nitrogen, a vital nutrient for both plants and animals that can be found in proteins, enzymes, DNA, and many other types of cellular or living structures. During the process of decomposition, bacteria and fungi break down nitrogen-based compounds to Generate ammonium. Microbes present in the soil take the ammonium and turn it into nitrite, which then goes through yet another phase of metamorphosis to be turned to nitrate. In the final phase of composting, nitrates turn to usable nitrogen, signaling that the compost is ready for use.
Poorly managed or under-aged compost does not make it through these four phases, instead producing an excess of ammonium without enough microbes to continue the process of nitrification. The accumulation of unconverted ammonium can mean imbalanced, non-useful compost that often features a foul odor.
Compost’s Soil-Enhancing Effects
When properly managed, well-made compost can add both structural and biological diversity to the soil. If the worms, mites, insects, and microbes have done their job, healthy compost should be crumbly and full of lots of tiny pockets. These empty spaces can hold an abundance of water, making well-made compost especially optimal for retaining moisture. This quality also helps to make soil stick together, making it more resistant to erosion. Properly aerated compost also plays host to a rich array of microfauna to add to the biological diversity of your soil.
Different species of bacteria and fungi have different niches-some perform the first steps of decomposition, others work to transform nutrients into forms usable by plants, while others may prey on microbes, helping keep their population in check. Diversity is the name of the game when it comes to compost, so the more diverse your compost is, the better your results will be. Compost is a whole lot more than “plant food”; compost works to make the soil itself healthier and more productive.
Compost vs. Fertilizer
If compost provides nutrients to soil and plants, what makes it different from fertilizer? Both compost and fertilizer make nutrients available to plants, but they do os in different ways. Fertilizer is just straight-up nutrients, and doesn’t come with the same Fertilizer is also often more potent than compost, providing a flood of nutrients to soil and plants rather than a slow, steady trickle.
On a bag of fertilizer, you will typically see three numbers referring to the amounts of nitrogen, phosphorus, and potassium within the formula. Unlike compost, fertilizer is precisely regulated, and exact nutrient concentrations matter a whole lot more. can be used less liberally than compost, and nutrient levels must be considered before applying it to soil or plants.