Download - 1 tillage amp_land_preparation
TILLAGE & LAND
PREPARATION
En Mohd Fauzie Jusoh
Lecturer
Agriculture Technology Programme
Faculty of Agro-Based Industry
Universiti Malaysia Kelantan (Jeli Campus)
Locked Bag No.100, 17600 Jeli, Kelantan.
014-2903025/[email protected]/
INTRODUCTION
Farm mechanization involves the use of equipment
mounted to the tractor to accomplish tasks previously
done by man or animals.
Plowing equipment attached to tractors and used
for land preparation.
Proper soil preparation is required for the growth of
seeds.
INTRODUCTION
Task can be done including :
Land clearing
Tillage and seedbed preparation
Fertilizer application
Broadcasting or drilling of seeds
Transplanting
Pest and disease control
Weed control
Harvesting
In-field transport of the harvested crop
INTRODUCTION
Advantage of using tillage equipment :
Various types of farm work can be done
Better quality of job can be obtained
Various type of farm soil can be cultivated
Working time can be reduced
Working schedule at farm can be arranged and smoothly
done
TILLAGE
Defined as mechanical modification of soil structure
resulting in a soil tilth that is suitable for seed
germination and plant growth.
Objective :
Provide a suitable environment for seed germination
Root growth, soil aeration, soil compaction
Weed control / Destroy Weed
Control Insect & Pest
Bury Stubbles (remain of previous harvest)
Moisture control
Soil erosion control
SEEDBED
place where seeds germinate & nourish young
plants
must be firm to allow seed to come in contact with
soil particles to absorb moisture
must be pourous to allow air to move, root
development, water movement
water will not easily penetrate hard soil to get to
roots
SEEDBED CHARACTERISTICS
if soil is too loose, rain will wash away young plants
some soils have excess water
oxygen is needed by roots
plant residue on surface insulates, warms up
slower, also provides buffer against wind
CULTIVATION
Defined as an operation that requires some kind of
tool that will stir surface of the soil to a shallow depth
in such a manner that young weeds will be destroyed
and crop growth is promoted.
Usually begins soon after the emergence of young
seedlings as weeds generally emerge about the same
time as the crop
TILLAGE CLASSIFICATION
Primary Tillage
Tillage applied to break
the compaction soil into soil
clods.
Secondary Tillage
Tillage applied to reduce the size of
soil aggregates and to level
the soil surface after done with
primary tillage
PRIMARY TILLAGE
More aggressive, deeper operation and usually leaves
the surface rough
Function :
Loosen the soil structure
Bury the plant waste
Erosion control
Preparation for secondary tillage
Weed control
Kill pests
PRIMARY TILLAGE
Example of primary implements :
Moldboard Disc plough Rotary Tiller
Chisel plough Subsoiler or cultivator
SECONDARY TILLAGE
Works the soil to shallow depth
Function :
Break the soil clods
Shatters the soil clods
Level the soil surface
Harrow the soil and plant waste (stubbles)
Firm the soil
Kill weeds and helps conserve moisture
CLASSIFICATION OF TILLAGE IMPLEMENTS
Mounted implements
Attached to the tractor by 3 point hitch linkages
Implements can be raised or lowered by the
hydraulic system
Example : A mounted 3 disc plough
CLASSIFICATION OF TILLAGE IMPLEMENTS
Semi-mounted implements
Attached to the tractor 2 point or 3 point linkage
and these implements are normally provided
with wheels to help in better performance of the
machine
Example : A seed drill – implement can be raised
or lowered
CLASSIFICATION OF TILLAGE IMPLEMENTS
Trailed implements
Attached to the tractor’s drawbar and this cannot
be raised or lowered
Implement trailed the tractor as it moves
Implement are heavy and usually provided with
wheels for easy hitching to the back of tractor
and better stability
Example : Trailed moldboard plough and trailer
PLOW
One of the oldest agriculture equipment and is
generally considered to be the most important
tillage tool
It is used to cut, turn up and break up soil while
turning over weeds
MOLDBOARD PLOW
Mostly used for primary tillage in seedbed
preparation
One way plow
Design to turn the furrow slices only to the right
MOLDBOARD PLOW
All furrows can be turned toward the same side
of the field by using right hand bottoms for one
direction of travel and the left hand bottom on
the return
Used for plowing irrigated lands since it
eliminated back furrows and dead furrows and
leaves the field nearly level
DISC PLOW
Disc plow was brought out in an effort to reduce
friction by making a rolling bottom instead of a
bottom that would slide along the furrow
Consists of a series of individually mounted,
inclined disc blades on a frame supported by
wheels
DISC PLOW
Used when moldboard plow does not work
satisfactorily :
Hard disc soils
Stony fields
Soils containing heavy roots
Loose, push type soils and abrasive soil
Built with heavy frame and wheels; in a hard dry soil, a
disc plow can be forced into ground by its weight
ROTOVATOR
A semi mounted implement that rests on its own
land skids when at work
PTO drives a horizontal rotor in the same
direction as the drive wheels
Knives mounted to flanges spaced regularly
along the rotor will cut away soil slices which are
then thrown backward and upward against a
rear hood
The impact will cause the soil slices to
disintegrate into fine aggregates
ROTOVATOR
The rotovator does not require the tractor to pull
it forward when it is at work
The action of the rotovator is very severe and it
should not be used indiscriminately especially in
sand soil – it may lead to the loss of soil structure
DISC HARROW
Function :
Controlling weeds, cutting up and mixing stubble
or heavy crops with soil
For primary tillage in orchards and vineyards as
well as in open fields
Lighter units used in seedbed preparation
subsequent to plowing
DISC HARROW
Single Acting Disc Harrow
Has two opposed gangs of disc blades, both
throwing dirt outward from the center of tilled
strip
DISC HARROW
Tandem Disk Harrow
Has two additional gangs that throw the dirt
back toward the center as second operation, thus
tilling the soil twice and leaving the field more
level
DISC HARROW
Offset Disc Harrow
Has one right hand gang (i.e: a gang that moves
the soil to the right) and one left hang gang,
operating in tandem
CULTIVATOR
There are many different combinations of frames
and tines (shovels)
The common types are the standard rigid
cultivators (with or without spring), light or
heavy spring teeth and heavy coil spring
Cultivator with tooth equipment is used for weed
controls, seedbed preparation and other
secondary tillage operations
CULTIVATOR
Spike Tooth Harrow
Used for finishing the seedbed by smoothing it
and breaking surface clods, particularly in
mellow, friable soil
Effective in killing small weeds
Covering broadcasted seeds
Breaking crusts that have formed over newly
planted crops
CULTIVATOR
Spring Tooth Harrow
Has long curved teeth made from spring steel 6 -
8 mm thick and usually 19 – 25 mm wide
Used in rough or stony ground
Useful for loosening and bringing roots of certain
obnoxious grasses and weeds to surface
For bringing clods to surface for pulverization
CULTIVATOR
Ridgers
Comes under field cultivators
Use to make seedbeds, ridges and furrows for
planting a crop
Double moldboard ridger or double disc ridger
may be used to form ridges or seedbed
It should be driven at higher speed so that the
soil can be thrown put enough to form the ridge
The ridging bodies can be adjusted to achieve
different spacing and bed width
RIDGERS
Ridgers may also be mounted to a rotovator so
that ridging occurs immediately after rotovation
Combining operations will save time, labour
wages and fuel consumption
CONSERVATION TILLAGE
The conventional tillage system is generallydiscredited for increasing erosion risk,accelerating organic matter decomposition, anddeteriorating soil structure. Therefore,conventional tillage is now giving place to newerconcepts of conservation tillage in some regions ofthe world.
conservation tillage as any tillage and plantingsystem in which at least 30 per cent of the soilsurface is covered by residue after planting inorder to reduce soil erosion by water. Cropresidues left on the soil surface reduce soilerosion and conserve soil moisture.