1. When designing an olive grove, the harvest method should be defined first as it is a major expense. This will influence choices around spacing, training, and equipment.
2. The size of the grove determines the appropriate harvesting equipment. Larger groves can afford more efficient machines.
3. Training systems must be compatible with harvesting equipment for high efficiency. Comb harvesters require accessible olives on long branches while trunk shakers need short, upright branches.
Season Extension Options - Making the Right Choice for Your Farm, Gardening Guidebook for Maine ~ Maine Rural Partners
`
For more information, Please see websites below:
`
Organic Edible Schoolyards & Gardening with Children =
http://scribd.com/doc/239851214 ~
`
Double Food Production from your School Garden with Organic Tech =
http://scribd.com/doc/239851079 ~
`
Free School Gardening Art Posters =
http://scribd.com/doc/239851159 ~
`
Increase Food Production with Companion Planting in your School Garden =
http://scribd.com/doc/239851159 ~
`
Healthy Foods Dramatically Improves Student Academic Success =
http://scribd.com/doc/239851348 ~
`
City Chickens for your Organic School Garden =
http://scribd.com/doc/239850440 ~
`
Huerto Ecológico, Tecnologías Sostenibles, Agricultura Organica
http://scribd.com/doc/239850233
`
Simple Square Foot Gardening for Schools - Teacher Guide =
http://scribd.com/doc/239851110
It was a Group-Presentation on "Tree Plantation on Rooftop" in North South University, Bangladesh. Prepared by MD. Arif Hossain, Shoaib Siddique Bappy and Arif Faisal Emon
EVERYTHING UNDER PLANNING AND SEETING UP OF AN ORCHARD. A COMPLETE GUIDE FOR HORTICULTURE STUDENTS. VARIOUS PLANTING SYSTEMS, THEIR ADVANTAGES AND DISADVANTAGES.
Season Extension Options - Making the Right Choice for Your Farm, Gardening Guidebook for Maine ~ Maine Rural Partners
`
For more information, Please see websites below:
`
Organic Edible Schoolyards & Gardening with Children =
http://scribd.com/doc/239851214 ~
`
Double Food Production from your School Garden with Organic Tech =
http://scribd.com/doc/239851079 ~
`
Free School Gardening Art Posters =
http://scribd.com/doc/239851159 ~
`
Increase Food Production with Companion Planting in your School Garden =
http://scribd.com/doc/239851159 ~
`
Healthy Foods Dramatically Improves Student Academic Success =
http://scribd.com/doc/239851348 ~
`
City Chickens for your Organic School Garden =
http://scribd.com/doc/239850440 ~
`
Huerto Ecológico, Tecnologías Sostenibles, Agricultura Organica
http://scribd.com/doc/239850233
`
Simple Square Foot Gardening for Schools - Teacher Guide =
http://scribd.com/doc/239851110
It was a Group-Presentation on "Tree Plantation on Rooftop" in North South University, Bangladesh. Prepared by MD. Arif Hossain, Shoaib Siddique Bappy and Arif Faisal Emon
EVERYTHING UNDER PLANNING AND SEETING UP OF AN ORCHARD. A COMPLETE GUIDE FOR HORTICULTURE STUDENTS. VARIOUS PLANTING SYSTEMS, THEIR ADVANTAGES AND DISADVANTAGES.
Advancing knowledge in litchi tree architecture, growth physiology, possibility of using
growth retardants has enabled farmers to adopt closer planting and maintaining
reachable canopy. This system is popularly known as the High Density Planting (HDP).
It enables profitable cropping, high regular yields and improved farm management practices,
leading to higher productivity. Today new orchards of litchis are being attempted to plant in
this system with a view to produce higher fruit yield and increased profitably. Use of growth
retardants which restricts tree growth and encourages early flower induction, have also been
found helpful for these high-density planting systems.
High density planting technique is a modern method of litchi cultivation involving
planting of litchi trees densely, allowing small or dwarf trees with modified canopy for better
light interception and distribution and ease of mechanised field operations. Control of pests
and diseases, weeds and pruning of tree canopy can be carried out by machine. Irrigation and
fertigation are automatically controlled. Such system produces precocious cropping, high and
regular yields of good quality fruits and low labour requirement to meet ever rising production
costs. Merit of HDP over Normal Planting
Increasing pressure on land owing to diversion of orchard lands to various other obvious
reasons as well as rising energy and land-costs, together with mounting demand for fruits have
made it imperative to achieve higher productivity of litchi from limited space. One should be
very conscious in case of high density litchi because closer spacing may bring negative impact
in growers’ fields if the complete package of high density has not been properly understood
and followed.
The normal planting distance in litchi has been 9-10 m. Such orchard takes 10-15 years
to provide economic returns depending upon the cultivar, and cultural practices. Due to poor
early returns and clash between the cultural requirements of the intercrop with main crop, litchi
orcharding so far is done by large farmers who can afford tall treesComponents of High Density Planting
There are four major components of high density planting system. These are:
1. Planting Density: Even though a small canopy with a high number of well-illuminated
leaves is efficient in photosynthesis but it is very poor in light interception, which leads
to low potential yield per hectare. Light interception could be improved by increasing
tree density. An optimum tree density is the level of density which is required to facilitate
optimum light distribution and interception leading to high photosynthesis. As a result,
yield per hectare is maximized. An optimum light interception is a factor of plant form,
planting density, tree arrangement and leaf response to light for photosynthesis. Optimum
light interception can be defined as a level of light intercepted by an orchard system
above or below which, the economic yield will be reduced.
HDP in Fruit Crops (Sanjay Cherty).pptxsanjaychetry2
Accommodation of the maximum possible number of the plants per unit area to get the maximum possible profit per unit of the tree volume without impairing the soil fertility status is called the high-density planting. HDP orchards were first planted in Europe at the end of the 19th century and since then there is a decline in traditional orchards with low densities. The underlying principle of a HDP is to make the best use of vertical and horizontal space per unit time and to harness maximum possible return per unit of inputs which means “planting of more number of plants than optimum through manipulation of tree size”. UHDP or Meadow Orchard System is a new concept of planting which has been developed in guava for the first time in India at CISH, Lucknow. The Meadow Orchard is a modern method of various fruit cultivation using small or dwarf tree with modified canopy. Fertilizer dose, spacing, growth regulation by the training and pruning, use of the mechanical devices etc. may also be tried either singly or coupled with other crop management practices for a successful adoption of this concept. It also promotes rate of photosynthesis that leads to high yield per unit area.
Planting densities:
Low HDP <250 trees/ha
Moderate HDP 250 to 500 trees/ha
High HDP 500 to 1250 trees/ha
Ultra HDP >1250 trees/ha
Super HDP 20,000 trees/ha
Meadow Orchard >70,000 trees/ha
Advantages:
Efficient utilization of inputs (seeds, plants, manures, fertilizers, chemicals, pesticides, machineries, tools, labours etc.) and resources (soil, water, solar radiation etc.).
Higher yield
Higher economic return
Easy canopy management
Convenient farm mechanization
Easy harvest
Improved quality of harvest
Disadvantages:
Higher establishment cost
Professional and scientific approach
Less life spans
Labor intensive
Maintenance of plant architecture becomes a tedious job
Key aspects of High-Density Planting:
Use of dwarfing rootstock and scion cultivars
Clonal rootstock
Training system
Pruning of plants
Use of Growth retardants
Light interception
Planting density
Canopy management
Dwarfing Rootstock
Apple M27, M9, M26, M4, M7, MM106
Mango Vellaikolumbun, Olour
Guava Pusa srijan, P. friedrichsthalianum, P. pumilum
Ber Z. nummularia
Citrus Alemow, Trifoliate orange, Flying dragon
Pear Oregon 211, Oregon 249, Quince C
Plum St. Julien, Pixy
Dwarfing Scion
Apple Red Spur, Starkrimson, Gold Spur, Well, Spur, Oregon Spur, Silver Spur, Red Chief, Mango Amrapalli
Papaya Pusa Nanha
Peach Red Heaven
Sapota PKM 1 and PKM 1
Training and Pruning:
Training and pruning are important orchard operations. It is part and parcel of high-density planting without which HDP cannot be successfully followed. Both the processes form an indispensable operation having direct bearing on growth and vigour of plants besides on yield and quality of fruits. A properly trained and pruned plants sustain heavy crop load and produce bounteous harvest of quality.
Maximizing Crop Yields with Modern Agriculture Sprayer Machines.pdfMitra Sprayers
Mitra Agro Equipments is one of the best agriculture sprayer machine Manufacturer in India, which is used for all types of crops in horticulture farming, such as Grapes, Pomegranates, Oranges, Mangoes, Guava, and Custard Apples
Canopy management and high density plantations systems in apple for higher profitability. Different systems are described to elucidate their potential and feasibility under different conditions. Comparative economic analysis of canopy management systems is given for their motivative adoption. Role of rootstock and varieties for obtaining higher and quality returns under different canopy management systems is described.
Guava is an important fruit crop in tropical and subtropical regions of the country due to the hardy nature of its tree and prolific bearing even in marginal lands.
The Meadow Orchard is a modern method of fruit cultivation.
Recently, there is a trend to plant fruit trees at closer spacing leading to high density or meadow orchard. Higher and quality production is achieved from densely planted orchards through judicious canopy management and adoption of suitable tree training systems.
1. Designing the Olive Grove
Who rules on Spacing, Training and Harvesting?
Conventional statements:
1. At planting we fix the lay-out, after a couple of year it’s time to decide the training
shape, at the first yield we will deal with how to harvest.
2. The training system to adopt depends on the olive variety.
3. For this variety in this environment, the most effective spacing for an olive grove is
….. tree per hectare.
No management option is a standing alone alternative. Overlooking the connections of spacing,
training and harvesting has negative economic consequences. In this writing I consider how
each decision is linked from the previous one.
Input 1: Defining the Harvest Technology.
Although, quite often the choice of the harvest system is faced only when the grove actually
turns into production, it is wise to define it from the very beginning.
In fact, being the harvest one of major expenses, it’s worth considering it as the key element for
limiting production costs.
harvest and transport
soil tillage and weeds
control
irrigation
fertilisation
processing
spray
pruning
Incidence on the total cost of the different practices in the management of an intensive olive grove.
Any figure involves high level of approximation since factors change in different areas,
management system, yield, years.
The grove size is crucial for defining the most appropriate harvesting equipment. The number of
plants or the expected quantity of olive to harvest must cope with the equipment (i.e. its costs
and harvesting efficiency). Therefore large grove owners will conveniently afford efficient and
more expensive equipments that in smaller grove would result oversized.
2. Harvesting systems can be categorized on the base of their technological level and operating
efficiency:
Combing devices.
Equipment efficiency is
expressed as kg/hr.
Harvest efficiency increases with
-high yields per tree,
-appropriately pruned canopies,
- short trees.
Equipment efficiency is
expressed as kg/hr.
Harvest efficiency increases with
-high yields per tree, -
appropriately pruned canopies,
-short trees.
Some skill is to be acquired.
Equipment efficiency is
expressed as trees/hr.
Harvest efficiency increases with
high yields per tree,
appropriately pruned canopies
and high trees.
The machine operator is highly
skilled.
The efficiency of workers at the
nets becomes crucial.
Equipment efficiency is
expressed as km/hr.
Harvest efficiency increases with
high yields per tree and
appropriately pruned canopies.
The machine operator is highly
skilled; the pruning team is
crucial in order to avoid damages
to the canopy.
These machines operate only on
plane.
3. From the manual devices to the straddle harvester harvesting efficiency increases (and so costs
do). The larger is the orchard, the more it will be worth paying for a more efficient machine.
In order to identify the most efficient and effectively affordable harvesting device, is is
important to calculate the machine breakeven in surface units.
Whether the equipment is also used by others (neighbours) or for other crops (trunk shakers also
harvest almonds, cherries, etc.), calculation of the breakeven point must take account of these
additional uses.
At the breakeven surface, the total costs (labour, fuel, spare parts, etc. and equipment
depreciation) is equal to the value of harvested (operating income is zero).
Depreciation + operating costs = value of harvested olives
hectars
€
Operation Exp.
Depreciation
In small groves, the machineries will not be repaid (at least not in reasonable depreciation time),
while it will occur in larger groves.
As for the value of harvested olives, it is important to consider the final product price. This is
directly available if olives are sold as raw material, while whether bottled oil is traded, the oil
price should be subtracted of labelling, bottling, stocking, pressing and marketing costs in order
to obtain the harvested olive value.
4. hectars
€
Total expences
Value of
harvested
Breakeven point
hectars
€
Total expences
Value of
harvested
Breakeven point
The training system
Since every machine has different tree shape requirements, harvesting efficiency strongly
depends on whether trees are pruned i
accordingly.
There are many olive training systems (and probably as many interpretation of them as pruners).
Each was designed after specific needs and there is not a best of all. Once the most suitable
harvesting equipment is defined, only few shapes and training systems will allow lead to high
efficiencies.
Machines with combing heads requires fruits easily reachable in the canopy, possibly on long
and leaning shoots. Canopies from different trees should develop a green wall, not too low on
the ground nor over the height reached by the device.
Hooked devices best perform onto small horizontal branches about 2 m. high, bearing short
fruiting shoots.
Vibration induced by trunk shakers transfers upward to the highest shoots but very poorly
horizontal. So these harvesters better perform with short horizontal branches and high trees. In
order to minimise losses (un-fallen olives), the training systems will bear branches pointing
upward: cone vase, single leader shape or similar free forms. At the base, canopy must not get
too much wide or the vibrations will not shake the olives lively enough to detach them..
Input 2: Referring to a Tree Model.
There are endless environment and technical factors affecting tree development: olive cultivar,
soil quality, climate, availability of irrigation, field exposure, soil, etc.. Each of them interacts
with all others. Reading them separately would be a mistake.
When possible, instead of an analytical analysis of environment indicators, it is worth observing
other olive trees living in the nearby and how the environment as a whole affects their growth.
Such observation is very useful and could provide a starting point setting the expected canopy
size.
The reference tree should be:
possibly of the same variety or of a variety similar for vigour to the one(s) to plant,
adult tree and regularly producing,
5. in good health,
un-pruned for the at least 12 months.
The width, the height and the volume of the canopy are the most significant parameters. It might
be useful to correct them whether the model trees and the plants to be planted differ for vigour.
From a Model to Actual Lay-out
Once fixed the training system and forecasted the sizes of the tree it is possible to calculate the
covering surface per single tree.
Then, two main assumptions rule on:
1. At full growth 40-50 % of the surface must remain un-covered. This is to permit the
penetration of full light all over the canopy. For trees growing wider than higher, 40% of
the surface should remain un-covered; if higher than wider, 50% is more convenient. In
dry farming, 50% is the best ratio regardless the shape.
We get then the total surface needed per single plant.
2. An easy access and manoeuvring for machineries is crucial; all operating machines and
tools must be considered.
As for the distance between trees along the row, it is convenient to use the closest distance
suitable for trees => square root of total surface needed per single plant;
As for the distance between rows, it is to be set according to the needs of access, backing and
manoeuvring of tractors and other equipment and can be wider than the previous one.
Therefore, by recurring to the size of the plantation and a tree as a model, it is possible to define
the most suitable:
harvesting equipment,
tree training system and pruning technique,
plantation layout.
Training
System
Spacing
(mechanical)
Pruning
Grove
Width
Harvest
Equipment
Tree
Size
Machinery
needs
6. Further comments:
Some cultivars develop differently from others (vigour of the variety) and may
require some further adjustments in spacing calculations.
Often it is recommended to orientate the rows along the North-South axis so as
canopies get the most efficient light exposure. Although the North-South axis rule
has relevance in large groves where slopes and contours are not relevant. In small
and medium size fields, the actual row orientation is normally set as to create the
longest rows.
In dry farming, roots compete for water and need wider volumes of soil. On the other
side, it would also be a mistake to adopt closer spacing in irrigated groves since
irrigated trees develop bigger. Better to adopt standard spacing even where irrigation
is provided.
Quality tip:
In most areas, the harvest season useful for the production of top quality oil lasts no more than
40 -50 days. Should quality be a major goal, the equipment efficiency must permit to accomplish
most of the harvest within this period.
Organic tip:
There is a number of crops that can grow among the rows of the young olive trees: asparagus,
artichokes, many other vegetables.
The olive trees will benefit of the fertilisation and the watering to the seasonal crop and the
grower will keep the land productive.
Avoid tomato, eggplant, pepper and any other Solanacea; they infect the soil with the fungal
parasite Verticillium, dangerous to olive trees.
What if the spacing is too wide? What if it’s too narrow?
Within some limits, ordinary pruning is a system for compensating some mistakes occurred at
planting. The plants themselves, by growing towards the light, will assume an adapted shape.
In case of a too wide spacing, the plants have full light and grow wealthy. Everything looks fine
but the full productive potential of the environment is not achieved or is achieved only after
many years (with huge trees).
Planting new trees between the rows could lead to other problems: plants growing too close and
little space for operating machineries. Further, young plants grow slowly behind the shadow of
big trees.
New plantation can be considered in combination with a change of training system of present
trees can be considered but this means new harvesting systems or a loss in harvest efficiency.
If plants are placed too close, the consequences are obvious: the lower part of the canopy have
few, weak yellowish leaves, and all the new sprouts are growing on the upper part of the canopy.
Lower leaves can also be covered by a dark sticky powder. Fruit setting is concentrated on the
higher canopy levels. The grass on the ground does not grow and some moss might appear.
Trees look healthier and greener, at the boundaries.
7. 1. At planting the grove planner must have already decided the training shape and how to
harvest; the lay out and the spacing are consequences.
2. In spite of some olive variety suiting certain shapes better than others, all training shape
are possible for any cv.. Economics and cost accounting are the starting points when
deciding the training shape to adopt.
3. Cultivar and environment are not the only factors to consider for an appropriate lay out.
It is important to take into account decisions related to production costs as tree training
and harvesting equipment.
i
Although other factors (the length of the olive peduncles, the olive weight and size, the resistance to snap, the
length of the bearing shoot, the internodes length and others), are pointed as crucial, according to my experience,
for cultivars bearing fruit not too small, a correct tree structuring is by far the main factor to consider.
In order to continuously improve this document, I would very much appreciate any quotation, correction or
comment.
For direct contact: filocam@gmail.com
For planned activities: http://www.slideshare.net/filocam/activities-in-42932956