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Guidelines for forage maize production and ensiling
1. Guidelines for Forage Maize Production
and Ensiling
Kenya Market-led Dairy Programme
(KMDP)
pro-photo
10 a. Covering
the unker / it
11. Management &
Feeding-out Of Silage
5. Crop Protection
6. Harvesting
2. Land
Cultivation
3. Seed
Selection
12. Evaluation
1. Preparation
4. Planting
7. Chopping & Kernel
Crushing
10 b. Baling
This guideline can be downloaded from www.cowsoko.com/kmdp
9. Compaction 8. Transportation
2. A. Planning
1 . P R E P A R A T I O N
H O W W H YW H A T
a. Why maize silage See steps 1-11 below Maize silage provides low cost metabolizable energy (ME) for dairy cows and is a key
ingredient in the cow’s daily feed ration. If prepared in enough quantity, it also helps the
farmer to counter seasonality in milk production. Whether maize silage is cost effective
depends on quality, cost of production (and price in the market if bought externally),
vis-a-vis other available feed and forages in the market.
See steps 1-11
below
To make better use of the (genetic) potential of the dairy cow and enhance milk
production. To reduce the cost per unit of ME fed to the cows and per liter of milk
produced. To make feed management more flexible.
See steps 1-11
below
To seek to maximize efficiency and quality in each step of the silage making process
(from seed to feed). Consider costs of hiring specialized contractors versus buying and
operating own farm machinery. Is it more lucrative to outsource?
b. Target high
quality forages
c. Minimize cost of
production
d. Feed planning Use of a feed
planning tool
To balance feed requirements based on number of cows and expected milk production
with acreage under forage production and/or purchased forages.
B. Silage Making
2 . L A N D C U L T I V A T I O N
W H A T W H Y
a. Field selection To make field characteristics: a) soil type, b) soil fertility, c)
accessibility, d) suitability for mechanization.
b. Ploughing Completely turns the soil, breaks hard pan, increases soil
aeration, reduces soil erosion, levels the field.
c. Seed bed
preparation
H O W
Select suitable fields for forage
production
Plough with a mould board plough or a
fixed chisel tine cultivator with leveling
harrow attached. Avoid disc ploughs!!
Cultivate to a fine tilth and level by cross
cultivating.
To encourage uniform growth of plants, maximum exposure to
the sun, increase germination rates and easy machine
operations, etc.
D. Evaluation
To determine whether all operations were done at the right time,
speed and compaction. What could have been done better, how can
it be improved?
When the total stock of maize silage and other feeds is known a
feeding plan for the dairy herd can be made for the coming year.
To have insight in the quality and nutritive value of the silage, and
the effect of good/bad silage practices. To determine which other
feeds are required to balance the ration for the different cow groups.
To monitor if the production of the cows is in line with the analyzed
quality of the silage.
To explain and avoid in future the cause of the losses, and/or to ask
your nutritionist for advice on how to reduce losses.
To ask yourself how the feed-out losses can be reduced.
f. Feeding space Provide enough feeding space at the feeding
rack in the cow barn. A minimum of 65 cm per
cow is recommended to ensure a high feed
intake.
g. Avoid losses during
feeding
Cows should not trample or foul the silage.
Feed regularly and not in excess, only what
animals can eat between two successive
feedings. Keep feed-out areas, feed troughs
and feed alleys clean to prevent
contamination of fresh batches.
1 2 . W H O L E S I L A G E M A K I N G P R O C E S S
W H A T H O W W H Y
a. Field operations Record keeping of all field activities
(plot number, date, activity, cost,
result).
b. Inventory of all pits/
clamps /bales
Record keeping of all field activities
(plot number, date, activity, cost,
result). Calculate total tonnage of
silage stored.
c. Sample each silage
pit for analyses of
nutritive value
Use feed analysis to monitor silage
quality and for ration calculation/
formulation.
d. Storage losses Monitor/observe losses in the storage
area pit/clamp/bale.
e. Feed-out losses Estimate feed-out losses.
Assess possibilities to reduce cost per kg of silage. To calculate the
costs per kg silage DM for comparison between silages with a
different DM content.
To improve the results for all actors involved in the silage making
and feeding process.
f. Silage cost per kg
intake
Monitor/re-calculate silage costs.
g. Evaluate the silage
making process with the
contractor
Make calculations, pictures and
exchange experiences.
A loose cover will not avoid air coming in, but it may protect
against rain. However during warm days the cover in front
creates a micro-climate suitable for multiplication of moulds and
bacteria in the silage.
To avoid competition at the feeding trough or feeding barrier, to
give each animal the opportunity to eat the same diet and to
ensure enough space for all animals to eat at the same time.
High feed quality will reduce wastage. Good feeding facility will
reduce losses (waste, left overs).
e. No cover on open
silage face
Do not cover the open pit or clamp with
polythene but keep the face open.
3. 3 . S E E D S E L E C T I O N
W H A T
a. Seed variety
b. Seed size
4 . P L A N T I N G
W H A T H O W
a. State of implement Check the settings of the planter. Fertilizer
placement should be 5 cms beside and below the
seed. There should be no blockage.
b. Seed rates Determine the correct seed rate to get the
desired plant population.
c. Fertilization Analyze the soil: supplement the required
amounts of nutrients at planting and top
dressing as per the soil analysis.
W H Y
To prevent scorching of the seeds, to ensure seeds are able
to drop through the perforated plate, to ensure the correct
seed rate is obtained.
To avoid plant competition and to ensure maximum yield
per acre or hectare.
To ensure that the amount of fertilizer supplied meets the
deficit and to avoid waste of fertilizer and money in case of
oversupply.
5 . C R O P P R O T E C T I O N
W H A T H O W
a. Weed control Use appropriate herbicide in the recommended
concentration, apply correctly and under the right
conditions.
b. Pest control Use appropriate pesticide in the recommended
concentration. Apply correctly and under the right
conditions.
W H Y
To maximum yields, to avoid silage contamination by weeds,
and to make harvesting of the crop by machine easier.
To avoid losses through pest attacks. To maximize
production per acre.
Ideally within 12 hours from the start of making the pit/clamp.
The airtight plastic prevents oxygen from entering the pit.
The one sheet plastic is best because there are no uncovered edges
that can allow penetration of air into the silo.
The economic value of well-preserved silage is high, and it can be
cost-effective to invest in a heavy-duty outer sheet.
Soil or sand bags keep the polythene sheet tighter to the silage and
continue exerting pressure on the silage pit. Tires are not preferred
as they do not keep out the heat and sometimes wires stick out of
old tires that can damage the polyethylene sheet.
If cows are moved or grazed and there is access to the silage
pit/clamp, they can walk on the silage bunker and the hooves can
make holes in the plastic. Fencing keeps the livestock away.
Inspect the silage pit/clamp/bales at least once a week. This to
ensure equal and sufficient soil cover (it may have washed off with
heavy rain) and to repair holes in the polythene made by rodents,
birds or wildlife.
1 0 . C O V E R I N G
W H A T H O W W H Y
a. Sealing Seal silage pits or clamps immediately when that
particular pit has been filled.
b. Choice of
plastic
The polythene should be preferably one
continuous sheet, without any holes, of good
gauge (>500) specially produced for silage
making. Many farmers use a second, heavier
gauge sheet to protect the vulnerable polythylene
sheet.
c. Covering Dig a trench around the pit, place plastic, tighten
the plastic with soil around the pit, and gently
place soil up to 15 cm (6 inches) thick on the top
and sides of the pit. Do not puncture the
polythene; repair holes before covering with soil.
d. Fencing Fence-off the area to keep away animals from
walking on the pit.
e. Inspection Weekly walk around the silage pit/clamp/bales.
W H A T W H Y
To prevent heating, moulding and rotting at the face of the silo.
If silage removal takes great effort, staff will attempt to remove
less than necessary. Make sure to remove corners every day and
keep the face of the silage clamp straight and tight.
a. Feeding speed
b. Ease of removing
c. Removal of silage
d. Cleanliness
around
H O W
The feeding speed should be 1.5 - 2 meters
per week based on the feed planning tool.
Make sure the silage can be removed easily
and is accessible.
C. Feeding
1 1 . M A N A G E M E N T & F E E D I N G - O U T O F S I L A G E
Remove all loose materials from the open
side (face) of the pit and feed immediately.
Clean the open silage face from all rotten
and loose materials daily
Loose materials in front or on the bottom of the silage pit or
clamp cause moulds and rotting bacteria to grow. From here
moulding and rotting will spread to the good parts of the clamp.
This removes moulding and rotting materials hence preventing
contamination of good feed.
H O W
Select forage maize variety or hybrid suitable
for forage production i.e. with low NDF, cob
stem ratio of 50:50 (on DM basis), high in
starch and gradually maturing.
The size of the seed should suit the planter to
be used.
W H Y
Good variety means good quality feeds (high energy/kg dry
matter and high digestibility/kg organic matter), optimum crop
yields and suitable varieties that mature gradually. Because
there are no forage maize varieties available in Kenya, (only for
grain), we have to look for those available varieties with
characteristics that come closest to forage maize (see "How"
This will ensure that the machine drops the correct number of
seeds, resulting in the desired plant population per acre or
hectare.
4. 6 . H A R V E S T I N G
W H A T
a. Stage of
harvesting
b. Machine to be
used (kernel
crushers) and
servicing
c. Additives
d. Location of
silage clamp/pit
e. Weather
H O W
Aim at a DM level of the whole crop
of 30-35% and a starch level of at
least 30%. The most accurate
method of deciding when to harvest
is to determine the dry matter on
samples of the whole maize plant.
DM can be determined with a probe,
by NIRS or in an oven.
The kernel should be at dough ripe
stage
The machine should have a kernel
crusher. The machine needs proper
preventive maintenance and
servicing during harvesting (e.g.
calibration and sharpening of
knives).
Adding inoculants based on lactic
acid bacteria.
Determine how far the clamp/pit is
from the barn, how well-drained
the location is, how safe from any
other traffic and from birds, rodents
and wild animals.
Check the weather if appropriate
for machines to enter the field and
right for harvesting.
7 . C H O P P I N G A N D K E R N E L C R U S H I N G
W H A T H O W
a. Chopping length The machine used should be able to
chop the crop into pieces of 8-12 mm.
The machine used should be able to
crush the grains into at least 3 parts
each.
W H Y
This will reduce losses, enables easier compaction, increases voluntary
feed intake per cow and avoids selective feeding.
This will ensure that the starch in the grains is faster available for bacteria
that produce acids, thus preserving the silage. Moreover, crushed kernels
will be better digested by the cows and whole grains will not be seen in
the dung.
8 . T R A N S P O R T A T I O N
W H A T H O W
The distance should be as
short as possible.
a. Distance of
field to pit
b. Truck or tractor Should be selected
depending on distance,
access and state of roads.
The field and farm should
be accessible to the forage
harvester but also to trailers
and trucks when loaded.
W H Y
Unless more trucks or trailers are used, the shorter the distance, the faster the filling
of the pit and the better the quality of the silage. A pit or clamp should always be
filled, compacted and closed within 12 hours.
The machine used should transport fast and efficiently to shorten time between
chopping, compaction and covering. Plan in such a way that the trench can be
closed within 12 hours after filling starts.
The farm should have good accesses roads and the maize fields should all be
accessible to the machines. Obviously, large (e.g. 6 rows) self-propelled maize
choppers need more space than smaller harvesters.
The fields should be level and free from stones, tree stumps and other obstacles
that can cause damage to the harvesters and the loaders.
9 . C O M P A C T I O N
W H A T W H Y
a. Machine/
equipment
This is to remove as much oxygen as possible from the pit to
create the necessary (anaerobic) conditions for conserving the
chopped maize. Good compaction is necessary to prevent the
silage from heating during the ensiling process and feeding
out.
b. Pit dimensions The dimensions should tally with the number of cows to
ensure good feeding speed of 1.5 to 2 meters a week and
hence to minimize losses by heating and moulds.
c. Shaping of the pit The sides should be slightly less than 45 degrees to minimize
the surface area exposed to air/oxygen and to ensure firm
edges.
d. Layering and
spreading
H O W
The silage should be compacted using the
heaviest machines available: a tractor or a
shovel.
The dimensions should be designed to give
appropriate feeding speed of 1.5 to 2 meters
per week. Narrow and long is better than short
and wide. Ensure sufficient height of the trench.
The sides should be as upright as possible.
Avoid flat “chapati shaped” edges.
Spread and compact each layer the moment it
is tipped, i.e. keep a shovel or tractor on the pit
during the ensiling process.
Each layer should be compacted to obtain properly and
homogeneously compacted silage. Continuous compaction
will eliminate air more effectively.
b. Kernel crushing
c. Accessibility and
field conditions
W H Y
If machines with a well-functioning kernel crusher are available it is advised
to ensile at a high DM content of 32-35% to maximize starch and ME levels.
The energy in maize silage mainly comes from the starch in the cob and the
energy level of the total crop increases as the plant matures. This happens
in spite of an increase in the NDF content of the stem and a consequently
lower energy content of the stem. Longer stubble length improves
digestibility and energy content as the stubble is high in NDF.
To ensure maximum amount of energy which mainly comes from the
starch in the cob.
The kernel crusher allows for harvesting at a higher DM and starch content
(dough ripe stage) and silage with higher energy content per kg DM. Chaff
cutters usually do not have a kernel crusher which forces the user to
harvest at milk ripe stage. At this stage the total crop has not reached its
maximum energy (i.e. starch) content, as sugars in the kernels have not yet
converted into starch, the DM of the silage is too low, and nutrients will be
lost through effluent wastage.
Even if good silage preservation is expected certain inoculants can improve
silage quality reduce losses and raises animal production. Additives will
never compensate poor crop production or silage management!
The clamp/pit should be on a dry well-drained area to avoid dampness,
rain water stagnation and animals from entering the pit. When the crop has
been harvested too early, there should be space for the effluent to drain-
off.
Monitor weather pattern and forecast so as to bring machines at best field
conditions. This will avoid machines to get stuck and delays in the process,
and contamination of silage with mud. It maintains silage quality.