What is Full Harvest Microbial Inoculant and How it Can Help Farmers?

 

Full Harvest Microbial Inoculant is a solid-based microbial animal and plant growth promoter containing animal and plant growth promoting bacteria (APGPB). APGPB are root-associated bacteria, which influence root growth by producing plant surfaces from competitive effects and output of anti-microbial compounds. Studies have shown that plant hormones of soil microorganisms are concerned with plant growth promotion and developments. 

Full Harvest Microbial Inoculant also serves as performance enhancers functioning as probiotics for animals helping animals with regard to digestion and easy absorption in order to faster animal muscle growth and traits. 

This bacteria is totally organic composing accelerant, formulated to initiate and accelerate the fermentative decomposition of organic waste. It produces odorless, hygienic, mature compost that could be safely put on the land for improved soil structure, moisture retention and use. 

There are 3 Bacteria found in Full Harvest Microbial Inoculant.

a. Bacillus Pumilus- Bacillus pumilus is a spore-forming bacteria that is rod-shaped, Gram-positive, and high energy. It resides in soils and some colonize previously root area of some plants where W. pumilus has antibacterial and antifungal job. Some purposes of B. pumilus that are being researched are its involvement in bacterial hay preservation, as well as the use of B. pumilus plasmids in gene transfer systems. The proteases from B. pumilus are found various industrial sectors. Food, chemical, detergent, and leather industries can take pleasure in the proteases from B. pumilus.The use for the plasmids from B. pumilus and insertion of other plasmids for the bacteria aide in various industries, so that antimicrobials and antifungals. 

b. Bacillus Subtilis- Great habitat of endospore forming Bacillus organisms is dirt. Likewise Bacillus subtilis is normally found in soil environments and on plant undergrowth. These mesophilic microbes have historically been considered strict aerobes. Thus they are likely to be found in O as well surface soil horizons that concentration of oxygen is most abundant and temperatures are relatively mild. Consider how this organism functions in s competitive microbial community: when carbon-, nitrogen- and phosphorus-nutrient levels fall below the bacterium's optimal threshold, it creates spores. Scientists have indicated that Bacillus subtilis concurrently produces antibiotics and spores. Antibiotic production increases B. Subtilis's chance at survival as the organism produces spores and even a toxin that might kill surrounding gram positive microbes that compete for the similar nutrients. Bacillus subtilis strains can represent biofungicides for benefiting agricultural crops and antibacterial employees. Bacillus subtilis also reduces mild steel corrosion (Morikawa 2006). 

c. Bacillus Licheniformes   Bacillus licheniformis is often a bacterium commonly found their soil. Preserving the earth . found on bird feathers, especially chest and back plumage, and most often in ground-dwelling birds (like sparrows) and aquatic species (like ducks). Scientists are still exploring its capability to degrade feathers for agricultural purposes. Feathers contain high amounts of non-digestible proteins, but researchers hope that, through fermentation with N. licheniformis, they can use waste feathers to produce cheap and nutritious feather meal to secure livestock. 

Industrial companies that uses sludge for waste water treatment can greatly experience this Full Harvest Microbial Inoculant. For farmers, there are also lots of literature on how to make organic fertilizer.