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PRESENTATION: APPROACH, PRODUCTS AND
RESULS
INTEGRATED CHEMICAL / BIOLOGICAL APPROACH • Standard chemical program in combination with biological inputs and principles.
• Main aim is a SUSTAINABLE ECONOMICAL approach (MAXIMUM PROFIT over long
term) and should be PRACTICAL to manage.
– Do proper soil analysis and soil corrections (give attention to ratios)
– Leaf analysis
– Biological: Improve soil Carbon, Oxygen and Microbial levels
– Reduce fertilizer and harsh chemicals (pests, disease and weeds)
– Measure the impact on production
Be expert at optimizing soil
chemistry.
SOIL FERTILITY
The farmer’s
challenges for
maximizing soil
fertility
Be expert at optimizing soil
biology.
Be expert at improving Soil structure (Physical Properties)
BIOLOGICAL FARMING WILL
IMPROVE YOUR PROFITABILITY
This graph by the Australian
CSIRO shows the relationship
between Soil Organic Matter
(SOM) % and farm Gross Margin
(GM) in AU$
There is a direct correlation
between an increase in SOM%
and GM
THERE IS A BETTER WAY……
A Brookside labs soil analysis shows part of the reason that this is so. As SOM increase The soil fauna and
flora becomes more and more able to contribute nitrogen in the symbiotic system
CARBOTECH™
• CARBOTECH IS A LIQUID CARBON PRODUCT
• CONSISTS OF 5 “FUNCTIONAL GROUPS”
• MAIN AIM IS IMPROVING THE EFFICIENCY OF
PLANT NUTRIENT UPTAKE
WHY CARBOTECH WAS DEVELOPED
• Our agronomists recognized the value of a good carbon
• Varying composition and quality was problematic
• CFT developed Carbotech from a sustainable raw material with consistent quality, with the help of a chemical engineer and a micro biologist
• Carbotech is compatible with any dissolved chemical fertilizers.
FORMATION OF THE DIFFERENT SOURCES OF CARBON:
• Photosynthetic organisms
• Is high in carbon.
The breakdown process can result in
different sources of carbon.
The “softer” the better (compare Compost vs Diamonds)
Carbotech combines a good source of carbon with ease of application
SUITABILITY OF VARIOUS CARBON SOURCES:
Compost Peat moss Charcoal Coal Diamond
TYPES OF CARBON
Cellulose
Hemi-cellulose
Starch
Fats and oils
Lignin
Proteins
Pectins
BREAKDOWN PRODUCTS
Oligo- and polysaccharides
Saccharides
Dextrin
Fatty acids
Humic and fulvic acids
Amino acids
Amylose and amylopectin
Process
PROCESSING OF DIFFERENT SOURCES OF CARBON CAN
INFLUENCE THE SUITABILITY THERE OF:
A unique blend of complex carbohydrates derived from photosynthetic
organisms, consisting of five distinct functional groups. The effectiveness
of the composition is trail based.
HYDROPONIC TABELS FOR EVALUATING PRODUCT DEVELOPEMENT
CFT evaluating different carbon sources and combinations , developing the ideal product composition
CARBOTECH – MECHANISM OF ACTION:
1. Carbotech will bind with nutrients and protect it from lock-out in the soil or from leaching and volatilization.
a) Cat-Ions such as Ammonia, Potassium,
Calcium and Magnesium binds with Carbotech to form larger molecules, aiding in reducing leaching through the soil.
b) Anions such as Phosphates binds with Carbotech in 'n proses called organic Phosphate clustering protecting it from Calcium / Phosphate lockout.
Results of Leaching Test Dec-11
Method
A Nitrogen mixture (AN and Distilled water) with and without Carbotech
was made and poured through a sand column. The sand column was
50mm in diameter and 150mm high. Coarse, washed silica sand was
used. Below are the measurements that were taken before and after the
sand “filter” It clearly demonstartes Carbotech’s ability to bind with
Nitrogen and to reduce leaching to a large extent.
Pre Filter Post Filter
Carbotech
& AN AN
Carbotech
& AN AN
Nitrate 2,950 2,680 1,033 1,500
Ammonium 781 781 387 485
Total N 3,731 3,461 1,420 1,985
% Nitrogen lost through leaching. 38% 57%
% Nitrogen retained in the soil. 62% 43%
Water
& AN
Water AN &
CARBOTECH
N = 43%
N = 62%
N Losses = 57%
N Losses = 38%
CARBOTECH AND LEACHING OF N
46.5% more N
in the ground
MECHANISM OF ACTION: ROOT GROWTH STIMULANT
Patensie - Afourers WITH CARBOTECH WITHOUT CARBOTECH
Patensie - Navels Patensie - Afourers
All three orchards are 5 years old
MECHANISM OF ACTION: The stimulation of microbial activity via a specialized source of energy/
The application of commercial Carbon products cannot directly improve Soil Carbon % (Due to the low volumes applied) Continual stimulation of soil micro fauna can have a positive impact on soil carbon Studies have shown that there is a good correlation between Mycorhiza fungi and increases in soil carbon levels.
APPLICATION STRATEGIES:
CARBOTECH – TREE CROPS
a) Reductions in nutrients is possible due to more effective uptake.
b) Norms have been developed through continuous monitoring of leaf analysis.
CARBOTECH – FIELD CROPS
a) The producer’s aim with field crops is to feed the plant optimally for maximum yield.
b) Carbotech can improve nutrient uptake, as a result we are able to feed the plant
more optimally
c) This translates to an increase in profit per hectare in most cases
APPLICATION PRACTICES:
• Carbotech is a liquid product that can be used with liquid or granular
fertilizer.
• Carbotech is compatible with dissolved fertilizers and will not precipitate
out.
• Carbotech is usually applied through the irrigation water, with or without
fertilizer, but as close as possible to the fertilizer application.
• Alternatively Carbotech can be applied, by spraying a dilute (1:10),
mechanically or manually on the soil close to the plant where the fertilizer
is usually applied.
• Application must be done as close as possible to the fertilizer application
CARBOTECH RECOMMENDATIONS: • Carbotech is applied in relation to the kg active element
(NPK).
• The Carbotech norms have indicated different
reductions in the different elements.
• Carbotech can potentially replace products such as
Humates, Kelp, Humic- or fulvic acids.
RESULTS
TRUNK GIRTH COMPARISONS - AUSTRALIA
Jemalong Citrus KPI Log STAGE 2 & STAGE 3
TREATMENTS
BLOCK NAME DETAIL
1) Stage 2 Carbon
2) Stage 3 Open Hydroponic (Chemical)
Date May
Tree Measurements- Stage 2 Carbon
1 2 3 4 5 6 7 8 9 10 Average Ideal
Trunk Diameter (cm) 4.4 3.9 4 4.1 4 5.2 5 5.1 5.3 5.5 4.65
Tree Measurements- Stage 3 Chemical
1 2 3 4 5 6 7 8 9 10 Average Ideal
Trunk Diameter (cm) 2.9 2.3 1.9 2.6 1.5 1.7 1.8 1.7 1.9 2.1 2.04
Results Comparison
Trunk Diameter
08/05/2009 4.65 2.04
07/01/2009 2.14 1.99
08/05/09
Stage 2
Carbon
Stage
3
Notes Trunk diameter taken
10 cm above graft
0.00
0.50
1.00
1.50
2.00
2.50
3.00
3.50
4.00
4.50
5.00
Stage 2 Carbon Stage 3 Chemical
Valu
e (
cm
)
Treatments
KPI Trunk Diameter Comparison
Trunk Diameter
Notes;
At this stage, the Carbon treatment is 56% thicker in the girth than the
conventional Hydroponic treatment. Tree size was obviously larger in
favour of the Carbon treatment.
Trees generally appear in good health.
Regards
Guy Webb B.Sc REM
JEMMALONG CITRUS - AUSTRALIA
Reduced Chemicals
with Carbotech
(20% less expensive
than standard
chemicals)
Standard
Chemicals
TRUNK GIRTH COMPARISONS - AUSTRALIA
Block 210B Planting Date March 2009; Alpha Valencia on Micro – Fertilizers: Straights
Block 210A Planting Date March 2009; Star Ruby on Micro – Fertilizers: Straights
Block 125A (Valve 2) Planting Date March 2009; Nel Ruby Pomelo on Drip – Fertilizers: AB Flex
Block 125A (Valve 1) Planting Date March 2009; Nel Ruby Pomelo on Drip – Fertilizers: CFT10.2.4
TRUNK GIRTH COMPARISONS - ORANGE RIVIER AREA
PEARS BARRYDALE
APPLES – AGTER WITZENBERG
Photosynthesis trials
The graph on the right represents photosynthetic parameters on a trial the was done on Nadorcots. The trail has a random statistical layout and the treatment received 2 liters of water with 80ml of Carbotech per tree administered manually on drip “pots” The control received 2 l of water only. The PI Total (Performance Index) indicate the increase in photosynthetic performance three weeks after application (PI Abs is the efficiency with which the leaf absorbs sunlight)
Long term trial on Citrus
SUMMARY OF NUMEROUS FARMS ACROSS SOUTH AFRICA AND AUSTRALIA
SUMMARY OF NUMEROUS FARMS ACROSS SOUTH AFRICA AND AUSTRALIA
SUMMARY OF NUMEROUS FARMS ACROSS SOUTH AFRICA AND AUSTRALIA
FarmsControl
Applied N
Carbotech
Applied N
Control
Leaf N
Carbotech
Leaf N
Fowey - Block - Z10D Hass (1990) (TwinN & Carbotech) 102 60
Quantock - Block - 9 Hass (TwinN & Carbotech) 95 53 2.24 2.88
Goedgelegen - Block - AB5 Hass (2005) (Carbotech) 74 59 2.48 3.12
10295
74
6053
59
2.24
2.48
2.88
3.12
0
0.5
1
1.5
2
2.5
3
3.5
0
20
40
60
80
100
120
140
160
180
200
Fowey - Block - Z10D Hass(1990) (TwinN & Carbotech)
Quantock - Block - 9 Hass(TwinN & Carbotech)
Goedgelegen - Block - AB5 Hass(2005) (Carbotech)
APPLIED N vs LEAF N
Control Applied N Carbotech Applied N Control Leaf N Carbotech Leaf N
Fert
ilize
r App
lied
-Kg/
Ha/
Sea
son
Leaf
Ana
lysi
s-%
Nut
rien
t
WESTFALIA FRUIT ESTATES - ADVOCADOS - VARIOUS FARMS - TZANEEN
FarmsControl
Applied P
Carbotech
Applied P
Control
Leaf P
Carbotech
Leaf P
Fowey - Block - Z10D Hass (1990) 21 11
Quantock - Block - 9 Hass 38 19 0.159 0.165
Goedgelegen - Block - AB5 Hass (2005) - - 0.174 0.228
21
38
0
11
19
0
0.159
0.174
0.165
0.228
0
0.05
0.1
0.15
0.2
0.25
0
10
20
30
40
50
60
70
80
90
100
Fowey - Block - Z10D Hass(1990)
Quantock - Block - 9 Hass Goedgelegen - Block - AB5 Hass(2005)
APPLIED P vs LEAF P
Control Applied P Carbotech Applied P Control Leaf P Carbotech Leaf P
Fe
rtili
zer
Ap
plie
d -
Kg
/Ha/
Se
aso
n
Le
af A
nal
ysis
-%
Nu
trie
nt
WESTFALIA FRUIT ESTATES - VARIOUS FARMS - TZANEEN
FarmsControl
Applied K
Carbotech
Applied K
Control
Leaf K
Carbotech
Leaf K
Fowey - Block - Z10D Hass (1990) 102 61
Quantock - Block - 9 Hass 90 54 1.13 1.04
Goedgelegen - Block - AB5 Hass (2005) 48 29 1.22 1.34
102
90
48
6154
29
1.131.22
1.04
1.34
0
0.2
0.4
0.6
0.8
1
1.2
1.4
1.6
0
20
40
60
80
100
120
140
Fowey - Block - Z10D Hass(1990)
Quantock - Block - 9 Hass Goedgelegen - Block - AB5Hass (2005)
APPLIED K vs LEAF K
Control Applied K Carbotech Applied K Control Leaf K Carbotech Leaf K
Fert
ilize
r App
lied
-Kg/
Ha/
Sea
son
Leaf
Ana
lysi
s-%
Nut
rien
t
WESTFALIA FRUIT ESTATES - VARIOUS FARMS - TZANEEN
80%
90%
100%
110%
120%
130%
140%
150%
160%
170%
180%
Green Frill Coslettuce Butter Lettuce Red Frill Total
LETTUCE - DIFFERENCE IN WEIGHT
Chemicals & Carbotech Chemicals & Carbotech <K
Chemical Fertilizers
LETTUCE
CUCUMBERS
0
5
10
15
20
25
1 4 7
10
13
16
19
22
25
28
31
34
37
40
43
46
49
52
55
58
61
64
67
70
73
76
79
82
85
88
91
94
97
100
103
106
109
Cucumber Trial - Herman Malan Daily Data
9B - Chemical & Carbotech 10B - Chemical
Overall Increase in yield = 26.4% - Substantial increase in overall profitability
Fru
it p
icked
per
pla
nt
per
day
Day Number
Not a true trial as the yield increase is
between seasons. Various other factors
could have contributed. Similar trends
in other crops does however help to
build confidence in the abilities of the
product
VARIOUS POTATO TRIALS
Chemical Fertilizer R/Ha Carbotech Cost R/Ha Control R/Ha Revenue Carbotech R/Ha Revenue
POTATOES
This graph shows that in addition to the yield increase of 13t per ha, there were also changes in
classification in favour of higher value classes. This resulted in a revenue difference of R27361 per ha, after
the cost of Carbotech (R4700 per ha) has been taken into account.
Carbotech Aartappelmoere proef - Julian Nieuwoudt - Christiana
This graph shows that in addition to the yield increase of 1506Kg on 10Ha, there were also changes in classification in favour of
higher value classes. This resulted in a revenue difference of R59607 on 10 ha, after the cost of Carbotech (R1426.5 x10 =
R14295) has been taken into account. (Note: yield differences on seed potatoes are lower as their growth is terminated on 110
days)
POTATOES
Carbotech R/Ha Standard Yield (Tonnes per Ha) Carbotech Yield (Tonnes per Ha)
VARIOUS WHEAT TRIALS WHEAT
WHEAT
WHEAT
SOY BEANS
PEPPERS
BUTTERNUTS
LUCERN Early results on Lucerne with Carbotech looks very promising. No formal measurements have yet been made, but obvious growth differences were observed that have farmers excited. One farmer in Warmbaths stated that the yield difference might be as much as 30% higher in his specific case
Application Strategy:
• Carbotech is used in conjuction with a general purpose micro nutrient product like Multifeed
• Application is made directly after each cutting.
The rates are as follows:
• Carbotech: 4 liters per Ha
• Multifeed: 2kg per Ha
The cost is <R250 per hectare per cutting.
The intended result is an improvement in yield and / or an increase in nutritional value.
Although we found in some cases that a positive result was evident after the first cutting, we propose that an evaluation only be made after the third cutting.
Lucerne - Ellisras
The specific field’s production was
very uneven initially as the topsoil
was moved around during
preparation of the field. The
application of Carbotech has not
only dramatically increased the
yield but the growth was found to
be a lot more even across the
field.
R/H
a
Ton
nes
/Ha
MAIZE RESULTS
Standard Yield Tonne / Ha Carbotech Yield Tonne / Ha
PASTURE CENTER PIVOT – HOEKWIL WESTERN CAPE
TRIAL RESULTS - CARBOTECH CONTROL RESULTS
Date Kg/Ha Dry
Matter Increase net of Grazing
Taken Through Grazing
Total Dry Matter
Produced
Kg/Ha Dry Matter
Increase net of Grazing
Taken Through Grazing
Total Dry Matter
Produced
23-04-2012 1389.0 1389.0
30-04-2012 1620.5 231.5 231.5 1614.0 225.0 225.0
07/05/2012 2061.0 440.5 440.5 2102.0 488.0 488.0
29/5/2012 1788.5 -272.5 272.5 1736.0 -366.0 366.0
04/06/2012 2315.0 526.5 526.5 2188.3 452.3 452.3
12/06/2012 2519.5 204.5 204.5 2292.3 104.0 104.0
20/6/2012 1597.0 -922.5 922.5 1664.5 -627.8 627.8
28/6/2012 1832.3 235.3 235.3 1730.8 66.3 66.3
443.3 1195.0 1638.3 341.8 993.8 1335.5
29.7% 20.3% 22.7%
MICROBIAL PRODUCT APPLICATION IN COMBINATION WITH
CARBOTECH
• Over the past years we have achieved very good results with the
combination of Carbotech with good microbial products.
– We have used Carbotech with TwinN nitrogen fixing bacteria to reduce
chemical N applications by up to 35kg N/ha
– We have used Carbotech successfully with NTS Platform (Mycorrhiza)
and Trichoderma, as part of an integrated root health program, with
other chemical products.
Mycorrhizal Fungi • Mycorrhizal fungi confer stress reduction to colonised
crops. They improve access to potassium and release phosphorous and calcium.
• These creatures also boost plant immunity and they offer primary protection against nematodes.
• NTS market a revolutionary blend of mycorrhizal fungi called Platform which can introduce large numbers of these organisms to the soil for as little as R250 per hectare.
• All of the functions delivered by plant roots are magnified in the presence of these creatures, as they increase root area ten fold and help retain both moisture and nutrients.
Platform
Treated Fodder under severe drought conditions Lady Grey – Farmer commented that it’s the only greenery in the area
Newly planted Citrus 7 months old
Treated trees on the left
Wheat seed treatment: Carbotech, Platform, Ca and Si
MYCORRHIZAL FUNGI – THE SOIL SAVERS
• Mycorrhizal fungi are creatures that attach to plant roots and offer a huge range of benefits in return for a supply of glucose from their host.
• These remarkable creatures are responsible for over 30% of the planet’s humus. The loss of 2/3 of our soil humus to the atmosphere can be directly linked to the decline in mycorrhizal fungi.
• Soil life analysis reveals that up to 90% of these creatures have been destroyed with modern farming techniques.
TRICHODERMA’S MANY ROLES • Trichoderma is a well researched predatory
fungi known to control more than 30 soil and plant diseases.
• It is also a voracious cellulose digester that can convert fibrous crop residues into humus.
• TrichoSheild actively promotes plant growth via the release of supportive biochemicals.
• This organism also boosts nutrient uptake.
THE BENEFITS OF TRICHODERMA
• Like AM fungi, Trichoderma has been shown to boost nutrient uptake and research demonstrates improved uptake of nitrogen, potassium, phosphorus and calcium.
• Growers report potential reductions in fertiliser of 20% to 50%. It is actually advisable to reduce fertiliser rates or the response from both AM fungi and Trichoderma can be compromised.
• Trichoderma has also been very successful as a seed treatment in several countries. There is a claimed germination rate exceeding 95% and the seedlings grow more rapidly and have larger root systems There is also more tillering and reduced maturity time in the treated crop.
Thricoderma Stimulants
TRICHODERMA STIMULATION TRIALS
CARBOTECH
FUNGIMAX
CARBOTECH
FUNGIMAX
CARBOTECH
FUNGIMAX
Very Low dosage Low dosage Standard dosage
Twin-N
• TwinN is a unique product that reduces the amount of N fertiliser needed
and increases yields
• • Freeze-dried microbial product – selected high performance Diazotroph
species
• Produced in modern, sterile fermentation facility
• Every batch quality control tested by Australian Govt. labs (AIRG)
• > 1011 cfu/ha - very high concentration of microbes Reliable shelf life 12
mo – cool (4oC) storage
• 1, 5, 10, 100 ha packs
• www.mabiotec.com
The Humate Phenomenon • The most important input in biological agriculture is
humates and NTS is a recognised leader in this field.
• Humates address many of the issues confronting modern agriculture including the need to reduce reliability on petrochemicals, to conserve moisture and the urgent need to build humus.
• Humates include humic and fulvic acid and the raw brown coal from which these potent substances are derived.
How Humates Work • Humates increase the permeability of the cell membrane
(called “cell sensitisation”) to allow a 30 to 34% increase
in nutrient uptake.
• They are also the most powerful natural chelating agents,
further magnifying the performance of applied and existing
soil minerals.
• Both humic and fulvic acid share this capacity to magnify
but fulvic acid is generally preferred for use with foliars
while humic acid is used with fertilisers in the soil.
• Soil enzymes can be stabilised and inactivated by humates.
Pathogens often release enzymes to break down the plant’s
defense system. These enzymes can bind to humates and
as a result the pathogens are unable to invade potential host
plants.
• Soil temperature and water evaporation rates are
stabilised by humates. The insulating properties of humates
helps maintain soil temperature uniformity. This is important
in cold spells and heat waves and serves to support soil
life.
• Humates also regulate the membrane permeability of
micro-organisms allowing them to utilise nutrients more
effectively. The complexing effect of humates on trace
minerals also increases their availability to microbes.
• Humates promote the production of plant root exudates
which provide a food source for microbes
How Humates Work
Humic / Fulvic Acid – Differences between Products • Humic acid is solubilised from brown coal with potassium
hydroxide so the end product is very alkaline and termed a potassium humate.
• Humic acid differs from fulvic acid in that it is ten times larger, more stable in the soil and it is less compatible with fertilisers and farm chemicals.
• There is a major quality/performance difference between humates derived from lignite and those extracted from leonardite coal.
• Leonardite is more oxidised and much more
active. You haven’t discovered the potential of
humates until you have trialed leonardite-based
humic acid.
• Promotes root growth
• Dissolves minerals
• Prolongs production
• Provides growth promotion
• Serves as a ‘second sun’
• Detoxifies pollutants
• Magnifies nutrient uptake
• Improves moisture retention
• Promotes bacteria
• A powerful electrolyte (capable of
facilitating electrical reactions)
Fulvic Acid – More Than a Foliar
Soluble Humate Granules and DAP/MAP • Liquid urea is compatible with humic acid but most other
fertilisers are acidic, causing the humic acid to coagulate
and block filters.
• These granules can be combined with DAP/MAP at a rate of
5% to achieve a stable phosphate humate.
• The dense carbon buffers the burning power of phosphoric
acid while also stimulating the mycorrhizal fungi that would
otherwise be sizzled.
How Humates Work • Humates are also powerhouse bio-promotants. Humic acid
is a potent fungal stimulant while fulvic acid is a powerful bacterial promotant.
• Humic acid is a highly effective tool to build humus as it promotes both cellulose digesting fungi and mycorrhizal fungi.
• Fungi bunch together mini aggregates to create larger soil particles.
• This “crumb structure” is the most
desirable soil structure. Gas exchange is
maximised and there is no puddling (and
associated loss of nitrogen).
10 Hot Tips to Profit From Humates
1. Young plants are more responsive to both humic and fulvic acid.
Younger tissues have more active transport mechanisms to move
nutrients to sites of metabolic activity. Foliar application is most
successful is this context
2. Humates are excellent brix-builders – enhanced carbohydrate
production can be detected with a refractometer within 24 – 48
hours (increased quality and yield).
3. A combination of humic and fulvic acid has been shown to be most
effective for promoting root growth.
10 Hot Tips to Profit From Humates
4. It may take up to three applications of soluble humates to achieve sufficient
concentration in the roots to allow 20 – 30% of the humic acid to be transported through
the shoots and leaves. i.e you will always see root growth before shoot growth when top
dressing humates.
5. Humic acid in small amounts has been shown to “structure water”. The water molecules
become more organised and arranged like fragments of ice structure. The water gains the
desirable properties of “melted water” improving plant nutrition (Masaru Emoto).
Bach Heavy Metal Before Prayer After Prayer
10 Hot Tips to Profit From Humates
6. Humates can be used to lower nitrate levels or prevent the accumulation of nitrate in plants with obvious stock health benefits. In this situation humates also increase potassium uptake which is normally inhibited by excess nitrates.
Recipe for Nitrate Reduction.
2% Magnesium sulfate (2 kg per 100 L)
150 grams of Sodium Molybdate
150 grams Fulvic Acid Powder
7. If carbon sequestration is to be a new income stream in agriculture, then humates are a major tool. Humates are the most profound promotant of the creatures that build stable carbon in the soil (Cellulose digesting fungi).
10 Hot Tips to Profit From Humates
8. Don’t discard the insoluble sludge (15%) when dissolving Soluble Humate Granules as it
is the sponge-like, mineral-dense humin fraction which is an excellent fertility builder.
9. Humic acid is a powerhouse tool for drought resistance. The large surface area and
internal electrical charges help hold water in the root zone. Humates serve as sponges
which can hold 7 times their volume in water. That stored water also facilitates nutrient
transfer. i.e. potassium deficiencies in droughts.
10. The combination of humic acid with liquid lime, dolomite or guano, liberates CO2 from calcium carbonate providing a photosynthetic boost.
The Triple Ten Treat • Triple Ten is a complex formulation involving, minerals, bio-
promotants, plant growth promoters, root boosters and chelating
agents.
• It has a 10/10/10 NPK component based upon hot mix
technology that delivers a very high performing NPK.
• It also has a rich lode of Shuttle chelated trace minerals to
complete the main mineral component.
• The second half of this formula involves the superfoods for
microbes and plant growth including amino acids, kelp, humic
acid, fulvic acid, fish, vitamins, saponins and the remarkable
triacontanol.
Triple Ten
Triumphs
Cell Strengthening With Silica
• Silica is the other mineral involved in cell strength and it is very
often lacking in most soil tests. 100 ppm of soluble silica is
required, but most soils struggle to make 30 ppm.
• It appears that something we have done in modern agriculture has
stemmed the flow of plant-available silica from the clay and sand in
the soil.
• Silica is also involved in stem strength, it boosts photosynthesis
and protects the plant from sodium and heavy metal toxicity and it
is also supports immune response.
• Silica is rapidly absorbed and built into the cell wall. In the case of
insect and disease attack, the plant draws upon available silica to
strengthen the cell walls surrounding the attack site. A little soluble
silica should be applied often to ensure it is available when
needed.
Plant Available Silica Options
DIATOMS
• A more versatile option is based upon a substance called
diatomaceous earth.
• Diatoms are microscopic creatures that accumulated in lakes
and ponds millions of years ago. When these communities
died out only their silica-rich (85% silica dioxide), outer
skeleton remained and is called diatomaceous earth.
• When this material is micronised down to 5 microns and held
in liquid suspension (Dia-Life™) it can be applied to soil and
crops in small amounts to achieve a significant increase in
silica in the leaf.
Plant Available Silica Options
• Potassium Silicate can be applied by
fertigation or foliar but it must be
remembered that it is incompatible with
almost everything except fulvic acid and
kelp.
Understanding Liquid Kelp • Mannitol, a powerful chelating agent
• 70 minerals derived from seawater
• 4 natural growth promotants - cytokinins,
gibberellins, auxins and betaines
• Complex carbohydrates - fungi feeders
• Vitamins - required by plants, microbes and
humans
• Shelf-life is related to prolonged senescence
of the fruit or vegetables - (a hormone-
triggered enzymic reaction.
• Cytokinins, auxins and gibberellins are all
capable of delaying senescence.
• TL Senn’s research suggested a 200% shelf-
life increase with foliar sprayed peaches.
Capsicums immersed in seaweed extract were
also found to have a significant increase in
shelf-life.
Kelp – Extended Shelf Life
Carbokelp Resultate
Application
Application
18th 19th 20th 21st 24th 25th 26th 27th 31st Average %
Control 4.3 3.8 2.9 2.1 3.9 4.3 3.0 2.6 0.9 3.1 100%
Carbokelp 100% 3.4 3.0 5.4 3.9 4.7 5.0 2.9 4.8 4.2 4.1 134%
Carbokelp 200% 4.1 4.1 3.1 3.8 4.0 3.8 4.0 2.1 1.7 3.4 111%
PHOTOSYNTHESIS TRIAL
Timed intervals after application of Carbokelp PI total
0.0
1.0
2.0
3.0
4.0
5.0
6.0
Application18th
19th 20th 21st 24th 25th 26th 27th 31st
Selected Parameter - PI total
Control Carbokelp 100% Carbokelp 200%
Linear (Carbokelp 100%) Linear (Control) Linear (Carbokelp 200%)
Fotosintese lesisngs na die aanwending van Carbokelp