Silage formulation mechanism:-
Good silage management practices can help prevent or at least minimize losses in forage dry matter. Very often these losses in dry matter go undetected unless the amount of forage ensiled and feed being removed from the storage structure is measured accurately. Most farms do not complete and summarize these measurements. Also, well fermented silages are more readily consumed by dairy cattle.
At harvest time good silage management practices include harvesting the crop at the proper moisture and stage of mat urity, rapid filling of the storage structure, firm packing of the ensiled material and then properly sealing the structure with plastic. What happens during the fermentation process determines the quality and quantity of stored feed that will be available at feed out. Good and healthy feeding of your animals will increase your income. Dairy cows require a balanced diet for milk production, body maintenance and good health. Silage formation has six phases as follows:-
Phase 1: Phase 1 starts at harvest and under ideal conditions of moisture, chop length, and firm packing lasts only a few hours. This initial phase continues until either the oxygen supply or water-soluble carbohydrates have been depleted. The most notable feature of this phase is the increased temperature of the newly fermenting crop resulting from ongoing cell respiration where carbon dioxide, water and heat are produced. In poorly sealed and/or packed silos, bunk life of the resulting feed can be reduced since the initial growth of aerobic spoilage organisms (yeasts and Bacillus species) occur during this phase. Once feed out occurs, yeasts can rapidly increase in numbers causing heating in the feed bunk and lowered feed consumption.
Phase 2: Phase 2 begins when the trapped oxygen supply is depleted and generally lasts no longer than 24 to 72 hours. During this phase, anaerobic (without oxygen) hetero-fermentation occurs. The primary bacteria during this phase are Enterobacteria. They can tolerate the heat produced during the aerobic phase and are viable in a pH range of 5 to 7 which is found in the fermenting forage at this time. These hetero-fermenters produce both acetic and lactic acid, but tend to be inefficient at producing these acids relative to nutrients lost in the fermenting crop. The final proportions of these acids depend on the crop maturity, moisture, and natural bacterial populations. When the pH drops below 5, homo-fermenters predominate and phase 3 of silage fermentation begins.
Phase 3: Phase 3 is a transitional phase that generally lasts only 24 hrs. During this phase, the homo-fermentative bacteria, which are more efficient than the hetero-fermenters, rapidly drop the pH of the fermenting forage by efficiently producing lactic acid as an end-product. As the temperature of the silage mass decreases and the pH continues to drop, the bacteria in this phase become inhibited and phase 4 lactic acid bacteria increase.
Phase 4: This phase is a continuation of phase 3 with a stabilization of temperature of the fermented crop. Homo-fermentative bacteria convert water-soluble carbohydrates to lactic acid, which is very effective at dropping the pH which helps preserve silage. In well-fermented silages, lactic acid can account for over 65% of the total volatile fatty acids.
The final pH of an ensiled crop depends on the type of forage and moisture content of the ensiled forage. Legumes, i.e. alfalfa, have less water-soluble carbohydrates, a higher buffering capacity, and generally reach a final pH of about 4.5. Corn silage, in contrast to grasses and legumes, has a lower buffering capacity, more water-soluble carbohydrates, and generally reaches a pH around 4.0. When the terminal pH is reached, the forage is preserved within the silo. Silage pH does not indicate the rate or quality of the resulting fermentation. To determine the quality of the fermentation, a fermentation analysis is needed where the amount of acetic, lactic and other acids are determined.
Phases 2, 3, and 4 generally are completed within 10 days to 3 weeks from harvest. Thus, the general recommendation is to wait for at least 3 weeks before feeding newly harvested forages. The length of this fermentation process will vary depending on the crop harvested (related to buffering capacity), moisture, and maturity of the ensiled crop. Properly-applied, high-quality inoculants may decrease fermentation time required.
Phase 5: This phase lasts through the remainder of storage where the fermentation process is stable as long as oxygen does not penetrate silage, i.e. through silo walls with final temperature of well-preserved silage being 75 to 85° F. However, changes do occur in the digestibility of the nutrients found in these forages. First, studies show that with longer storage times, starches become more quickly degraded in the rumen. Secondly, changes also may occur in the digestibility of the neutral detergent fiber (NDF). Some studies have shown an increase in the digestibility of NDF with longer storage times whereas another study has shown no changes with storage. In one study where NDF digestibility was significantly increased, NDF digestibility appeared to plateau 6 months from ensiling.
Phase 6: This phase occurs during feed out. It is just as important and often neglected part of the fermentation process, and can result in substantial dry matter losses as oxygen is reintroduced into the fermented crop. Proper management of the silage face and at the feed bunk can minimize dry matter losses and optimize feed intakes by dairy cows.
Take home messages: When applying these concepts on-farm regarding the fermentation process for silage.
The silage is very important feed in the time of scarcity such as in the dry season. It’s a good source of nutrients used as a replacement of green fodder. It is very economical for the farmer to use it by purchasing the readymade silage otherwise it will take a lot of time, labor and cost for cultivation of the crop till the formulation and use.
We are producer & Exporter of corn silage from Pakistan.
We make high quality silage from our own grown corn crop & from our growers. We would like to offer 100% Corn silage to you as per standard specifications given below.
Product: 100% Corn Silage
Protein: 6.2% (Digestible)
Fat: 2.75% (Digestible)
Dry Matter: 35%
Impurities: Under 1%
Air Tight: 100% air tight round bale
Packing Material: High quality white ultra-violets rays protected plastic sheet.
Packing Shape: Round bale
Packing Weight: 1MT (or as per requirement)
We have well repute in domestic market as well as foreign market. We are looking forward for more long term relations.