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| SECOND GENERATION FERTILIZER |
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| Protect the Environment by not using soil applied granular fertilizers |
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| OIL PALM Advantage of using GROW MORE crystalize fertilizer Incredible savings compare to soil applied granular fertilizer. Environmental friendly compare to soil applied which contaminate soil and water. No wastage compare to soil applied type which evaporates and rain wash off. Increase yields with favorable results. Prolong plant lifetime productivity due to sufficient control nutrients intake. Reduce male flower blooming which is costly to productivity. Easy transportation , storage and handling. Reports on trial plots after 2 years on changing from normal granular soil applied fertilizer to GROW MORE crystalize fertilizer. In average, an acre of oil palm produce 0.7 to 1 Ton of oil palm fruits per month, costing between RM400.00 (USD105.00) to RM800.00 (USD210.00) per acre, but we have records of plantation averaging only 0.5 Ton per acre per month, this is due to factor we mention before. After changing to GROW MORE Injection system, we not only reduced our cost of fertilizer from an average of RM400.00 (USD105.00) per month to RM200.00 (USD52.00) per month but increase our yields to an average of 1.1 Ton from 0.9 Ton. At the moment , more then 20 plantations are using our GROW MORE crystalize fertilizer since we introduce to the market 6 months ago, from nursery to plantations and all are giving thumbs up to us, we believe that in due time, all plantations will follow with this system. Factors Affecting Growth In general, roots will grow down to the water table but not penetrate into it, roots can grow 62 Ft (19 meters) horizontally and feeder roots usually concentrate in the first 3 Ft (meter) of soil. Despite this extensive root system fruit yield and oil production have remained static and in many plantations have declined. Factors affecting plant growth and yield are complicated and are influenced by climate, soil type,moisture,diseases,pest, mineral nutrition, and genetic control. Because oil palm trees grow in tropical environments in soils subjected to leaching due to high rain fall. Our focus is on the lack of adequate mineral availability from tropical soils. There exists an abundance of literature demonstrating that small amounts of properly applied mineral nutrients exert a secondary often unpredictable influence on growth and yield, and in particular the chemical composition of the xylem and phloem. Mineral Element Transport - Xylem and Phloem Long distant transport of water and minerals nutrients take place in the vascular system of the xylem and phloem from the roots to the shoots and developing fruits. High purity GROW MORE fertilizers take advantage of the oil palms non-living (xylem) and the living (phloem), conducting vessels to transfer important minerals nutrients to leaves, stems and developing fruits. The process quite simply involves the injection of highly purified mineral elements and low molecular weight organic compounds into the vascular bundles in the tree trunk. Precise and properly timed basal trunk injection stimulate metabolism producing noticeable darker foliage and marked increase in yield. Xylem transport is driven by the gradient in water potential (root pressure) and the pressure between roots and shoots is quite steep, particularly during the day when the stomata are open, therefore xylem flow from roots to the shoots is unindirectional , except under certain conditions, when transfer of solutes are meditated by a transfer cell. Phloem transport takes place in the living sieve tube cells and is bi-directional. The direction of transport is determined by the nutritional requirement of the various plant organs or tissues and occurs from source to sink. Solutes are unloaded at the sink, such as fruits, roots, shoots, and the flower buds. Mineral Composition - Xylem and Phloem The composition of the xylem and phloem are quite different and sap along the transport pathway can also be changed by the release or secretions of solutes from the surrounding cells, or from injection of high purity GROW MORE products. Phloem is important in the cycling of mineral nutrients and this is precisely why injection and foliar applications exert an influence on the growth and yield. Xylem sap concentration and composition depends on the amount of water in the sap and the transportation rate. Composition also changes during the plant's life cycle (ontogenesis) and during the wet and dry season. Certain minerals are transported rapidly, such as calcium and potassium, and polyvalent heavy metals exist in organic form complex with organic acids or amino acids. Solids in solution average about .09%. Also present in the xylem are photo hormones (cytokinins), that act as signals of growth (cell extension or elongation) and inhibitors for growth (ABA). During the dry season, both the ionic composition and pH of sap increase as well as the concentration of ABA,which signals slowing of leaf growth, and presumably reduced yields. Phloem sap contains a high concentration of solids, about 15 to 25%, and consists of sucrose, amino acids, vitamins, hormones, proteins and ATP. These compounds in the leaves and loaded into the phloem for destination to growth sinks such as fruit, roots, flower buds and shoots. Phloem basically recycles or reloads leaves derived of nutrients by photosynthesis. During long distance transport mineral elements (organic solutes) are transferred between xylem and phloem by extensive exchange, a process (loading and unloading ) controlled by very specific cells, (transfer cells) Despite this interchange and internal cycling, mineral nutrients (i.e. phosphorous) supplied to only part of the plants' root system (lateral or seminal roots) are transported preferentially to those part of the shoots that have direct vascular connection, with that particular root zone. The proper distribution of fertilizer is especially important for the mineral nutrients of oil palm trees, when fertilizer is broadcastered in localized areas of the root system, adequate nutrients do not reach all growing parts for the plant. This explains yield variation year to year, wet season / dry season. Nutrient Cycling and Re- distribution The release or secretion of the mineral nutrients from the xylem parenchyma (stem tissue in general) is of major importance for the maintenance of a continuos nutrient supply to the growing parts of the plant (shoots and fruit).In periods of ample nutrient supply to the roots, minerals are absorbed from xylem sap, whereas in periods of insufficient root supply minerals are released into xylem sap. This mechanism can be observed in many oil palm plantations during the wet and dry season, when yields are higher during (ample nutrient supply) wet period and low during the (insufficient root supply ) dry period. Properly timed precision injection application of high purity GROW MORE nutrients can correct easily plant nutrient demands during these periods of insufficient root supply. Most solutes and water are transported in the xylem to the leaves, to sites of rapid evaporation (sites of transportation). The concentration and composition of mineral nutrients can accumulate and become excessive at the terminal sites of transportation, and if these accumulations are not loaded into the problem, necrosis on the tips or margins of the leaves may occur. If these symptoms are observe be aware that this condition may be due to over-application of fertilizer. Leaves rapidly re-translocate (redistribution) nutrients from xylem tophloem, this cycle is part of a feed back regulation mechanism, that also controls uptake by the roots. For example : nitrogen is reduced in the leaves and cycled into the phloem to roots to meet the roots demand of reduced nitrogen for root growth. During this cycling process a considerable amount of nutrients is redistributed throughout the plant. By injecting GROW MORE we take advantage of this natural cycling process. The effects of transportation rate on up-take and translocation of mineral nutrients depend on the plant's age, time of day, external concentration (soil / root availability) and type of mineral elements. GROW MORE And Yield Response In the vascular bundles, phloem and xylem separated by only a few cells and the regulation of long distance transport of solutes between the conducting system is very important to the nutrition of plants. To simplify, there are two periods of plant growth, especially when considering the year around growth and fruiting cycle of the oil palm. 1) Vegetative period - when nutrients are stored in the leaves and shoots. 2) Reproductive period - when nutrients needs are at their greatest. During the vegetative growth stage, when new leaves are produced and nutrients are being stored in these organs, nutrient supply to the roots can be either permanently insufficient due to low soil nutrient content or temporarily interrupted due to lack of soil moisture (dry season). Re-mobilization of nutrients from source is particularly important during reproduction when seeds, fruits, and storage organs formed. At the reproduction growth stage, root activity and nutrient uptake generally decrease mainly as a result of decreasing carbohydrate supply due to the root sink competition. Therefore the mineral nutrient composition of the vegetative parts (leaves) quite often declines sharply during the reproductive stage. The extent of remobilization and the effects on yield depend on various factors. 1) The specific requirements of seed and fruit for a given mineral nutrient. 2) Mineral nutrient status of the vegetative part (source). 3) Ratio between vegetative mass (source size) and size and weight of fruits (sink size). 4) Nutrient uptake rate by roots. Since the vegetative and reproductive cycle of oil palm is continuous. We stronger urge plantation agronomists to make monthly application of GROW MORE nutrients. Evapo / Transpiration The average oil palm has 40 leaves and up to 25 new leaves are produced per year .The average leaf area is 8 square meters . Low leaf yields (or leaf growth . or leaf surface area) result in low fruit production . Leaf duration and persistence of growth over time are the key to improved yields. To take full advantage of the natural mixing action of the oil palm' vascular system both , air temperatures (maximum day time temperature) and the evapo / transpiration rate must be considered when determining optimum timing for injection of GROW MORE nutrients. Evapo / transpiration refers to the opening and closing of the stomata located on the underside of the leaf surface (epidermis) . Stomata responds to both light and moisture stimulus. Stomata movement ( full or part closure of stomata) is related to evaporation , soil moisture ,light intensity, and temperature. Wet Season - Maximum stomata opening generally can be said to occur between 8:00 AM and 7:00 PM. This is the best time to of maximum transpiration (or maximum flow of xylem upward into the leaf canopy. This is also the optimum time to apply trunk injections of GROW MORE nutrients. Dry Season - More precise timing of the injection during the dry season may give better results. Stomata opening is induced to open in respond to light; however as the daytime temperature increases stomata will partially close. Low soil moisture content midway though the dry season results in reduced transpiration. The critical temperature, which triggers this respond is 30-35 degree C ( in low moisture soil),this midday (11:30 AM to 3:30 PM partial closure in respond to evaporation. Based on this information the optimum time of the day for injection to take advantage of maximum mixing and uptake is between 9:00 AM to 3:00 PM in the dry season, and between 7:00 AM to 6:00 PM in the wet season. As we all know,The first chemical revolution in agriculture started 100 years ago,when soil fertilization was discovered;the second chemical revolution - the idea of foliar and injector feeding as an effective and important tool in crop fertility - is going to be common in our generation. Leaf feeding or foliar fertilization with My fertilizers can increase yields of a healthy crop beyond the capabilities of conventional ,soil applied fertilizers.Used correctly My 100% Water soluble Fertilizers can provide an attractive economics return on investment over and above that obtained from soil applied fertilizers. My fertilizers are formulated to supply sufficient amounts of extra nutrients to increase yields by up to 30% - 40% and compare to soil applied fertilizers can be cut back by up to 200%.Consider the following: :100% soluble nutritional foliage spray or injector that can be applied to fruit and other crops nearing maturity,leaving no visible residue at harvest. :Safe and effective for many different species and sixes of plant grow together in green houses and nurseries to plantations. :Provides a source of immediately available plant nutrients.Particularly suitable for fast growing field,vegetable and nursery and oil palm plantation crops. :100% soluble and does not need agitation in tanks. :Formulated to be compatible with most common pesticides and fungicides. :Can be used as both a spreader and acidifier. :Uniform in analysis every drop contains the same analysis. :contains chelatin and sequestering agent to assure availability without precipitation of the major and micronutrients. :Contains no chlorides. Chelatin and Trace Elements My fertilizers contain a special multi-mix of micronutrients,manufactured from NA4EDTA.Our new formula has the broadest compatibility range of any micronutrient source.Since our exclusive formula is chemically stable,difference in pH,water hardness,or mixing tenperature have no effect on chelate activity,which mean the essential major and micronutrients are kept soluble and mobil for the greatest efficiency.Our formula provides the optimum level of micronutrients to satisfy the demands of most growing situations. Palm oil plantation compare chart: We have been using organic and granular fertilizer (Kenzo bag granular,Bunch ASH,CCM granular)on our plantation for over 10 years and we spend on everage about USD105.00 to USD 210.00 Per acre(RM4000.00 to RM800.00)over that period and acheive yields of everage about .8 to .9 ton per acre.Since changing to using My fertilizer in 1997 costing only everage of USD52.00 (RM200.00) per acre ,we not only save 200% on fertilizer cost but increase our yields to 1.1 ton everage.Just imagine,you not only save money but increase income from productions as well. Believe in Modernization and chemical revolution,you got nothing to lose but plenty to gain.Not much people believe me when we begin using this new fertilizer because they worry it migth kill their plantation or have side effect,but let me assure you that you that if they were to die they would have been dead by now because my fertilizer is the same thing they are using(Phosphate,potash,nitrate,nitrogen,potassium and Magnesium .MOP.UREA and all kinds of SHIT) ONLY we reprocess it chemically,using 20 % of its contain and making it 100% water soluble and guess what you don't have to use fertilizer after all,only add My fertilizer to water and you get history in the making,Only it save ,it prolongs plants life and you don't pollute. >Type 1 (colour Blue) 15 + 30 + 15 + TE Special for Greening of vegetable. To induce flowers,fruit sets and seed bud. To strenghten root development. >Packing - One pound per bag (454 grams) >40 spoon per bag (11.35 grams per spoon) = One spoon mix to 2 gallons water >8 spoon = covers one acre of vegetation depending on what type >Guarantee Analysis: N P K + TE >Total Nitrogen (N) 15% 5.90% Ammoniacal Nitrogen 4.40% Nitrate Nitrogen 4.70% Urea Nitrogen >Available Phosporic Acid (P 2 O 5) 30% >Soluble Potash (K 2 O) 15% >Magnesium (mg) 0.10% >Sulfur(S), combined 0.20% >Boron (B) 0.02% >Copper (Cu) 0.05% 0.05% cheleted copper >Iron (Fe) 0.10% 0.10 cheleted iron >Manganese (Mn) 0.05% 0.05% cheleted Manganese >Molybdenum (Mo) 0.0005% >Zinc (Zn) 0.05% 0.05% cheleted Zinc Type 2 (colour Red) 15 + 03 + 18 :2.2 mg + TE Special for correcting yellow leaves and frond Increase weigth and yields >Guarantee Analysis: N P K + TE >Total Nitrogen (N) 15% 5.10%% Ammoniacal Nitrogen 9.9% Nitrate Nitrogen 0.00% Urea Nitrogen >Available Phosporic Acid (P 2 O 5) 03% >Soluble Potash (K 2 O) 18% >Magnesium (mg) 2.20% >Sulfur(S), combined 2.50% >Boron (B) 0.02% >Copper (Cu) 0.05% 0.05% cheleted copper >Iron (Fe) 0.10% 0.10 cheleted iron >Manganese (Mn) 0.05% 0.05% cheleted Manganese >Molybdenum (Mo) 0.0005% >Zinc (Zn) 0.05% 0.05% cheleted Zinc Feel free to contact me for further discussion,Thank you. |
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