Category: Zeolite for Multipurpose Use

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Zeolite Fertilizer for Palm Oil Plantation

The most oil palm plantation area has experienced fertility degradation, both physical, chemical or biological fertility. The Journal of Palm Oil Research points out that degradation of land fertility in addition to the high productivity factor of palm oil is also caused by the loss of fertilizer nutrients because it is dissolved through water infiltration, weather changes, no soil maintenance, does not improve soil aeration and the soil no longer contains micro elements. From research in Malaysia through a feasibility study on oil palm plantations using a mixture of fertilizers and zeolites, the best comparison is NPK: Zeolite = 3: 2. The results of the study also concluded that zeolites can save fertilizer and can increase yields.

 

Zeolites have the ability to preserve fertilizer. This capability means that it will save fertilizer costs, but keep in mind that zeolite is a companion ingredient for Urea, SP-36 and KCI fertilizers, not a substitute for the fertilizer. Zeolite is also used to reduce the level of pollution of heavy metals such as Pb, Cd, Zn, Cu2 +, Mn2 +, Ni2 + in the environment. Modification of zeolite as an anion adsorbent such as NO3-, Cl-, and SO4- has been developed through the process of zeolite-H calcination at 5500C.

 

Chemically the main zeolite content is: Si02 = 62.75%; Al 203 = 12.71%; K20 = 1.28%; CaO = 3.39%; Na2O = 1.29%; MnO = 5.58%; Fe203 = 2.01%; MgO = 0.85%; Clinoptilotite = 30%; Mordernit = 49%. While the KPK value is between 80-120 me / 100 gr, the value is high for assessing soil fertility. The KPK value will determine the ability of the material to store fertilizer given before it is absorbed by plants. Other research conducted by Winana, ES et al, entitled Improvement of Planting Medium and Growth Through Zeolite Applications, Zeolites are known to improve soil fertility, among others through increasing cation exchange capacity.

 

The zeolite application research was carried out on oil palm nurseries to determine its effect on the planting medium and growth and nutrient uptake of oil palm seedlings has been carried out in the nursery area of the Aek Pancur experimental garden using a completely randomized design. The medium used is Typic Paleudults soil, Typic Udipsamments, and Typic Hapludults. The zeolite application treatment consisted of 4 dosage levels namely 0, 50, 100, and 150 g / polybag. The results showed that the administration of zeolites into the soil was generally able to increase nutrient content in the soil and the soil cation exchange capacity.

 

The application of zeolite as a soil amendment agent in oil palm nurseries does not show a significant effect on the growth and uptake of seed nutrients until the age of 11 months. However, in general applications of zeolite up to a dose of 100 g / polybag tend to increase seedling growth and nutrient uptake compared to treatments without the application of zeolite, whereas applications with dosages up to 150 g / polybag tend to decrease nutrient growth and uptake.

The discovery of zeolites in the world began with the discovery of Stilbit in 1756 by a scientist named A. F. Constedt. Constedt illustrates the specificity of this mineral when under heating looks like boiling because the molecules lose water very quickly. In accordance with its nature, this mineral is named zeolite which comes from the word ‘zein’ which means boiling and ‘lithos’ which means rock. In 1784, Barthelemy Faujas de Saint, a French geology professor, discovered a beautiful formulation of his research on zeolites published in his book “Mineralogie des Volcans”. 

Zeolites have been studied by mineral experts for more than 250 years. The following year is given the discovery of zeolite minerals. Since the early 1940s, Union Carbide scientists have begun their research to synthesize zeolites and they succeeded in synthesizing pure zeolites A and X in 1950, and after that many new zeolites were synthesized. Zeolite is a hydrated aluminosilicate compound that has a three-dimensional (3D) structure, microporous, and is a crystalline solid with the main content of silicon, aluminum, and oxygen and binds a certain number of water molecules in its pores.

Because of the unique nature of zeolites, zeolites are widely used for various applications in the industry including zeolites used in the petroleum industry as ‘cracking’, in the detergent industry as ion exchangers, hard water softeners and in the water purification industry, as well as various other applications.

Thank you for reading our article. Keep in touch with Nusagri to get more information about zeolite. Nusagri.co.id is the pioneer in exploitation and processing of zeolite minerals in Indonesia used in Agricultural and multi sectors. Nusagri exported tons of zeolite for many countries including India and Malaysia. Please check our website and social media for further information about zeolite.

 

 

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Nitrogen Efficiency on Mustard Green with Natural Zeolite

Mustard is a type of green plant that consumed as food. Mustard plants have short, slim stems. The main leaf vein is narrower than Chinese cabbage, but the leaves are more clay. In general, the growth pattern of the leaves is scattered so that it is difficult to form a crop.

Mustard has a taproot with many side roots, but shallow. The flowers are similar to Chinese cabbage, but the bunch is shorter. Flower bud size is smaller with a specific pale-yellow color. The size of the seeds is small and brownish black. The seeds are on both sides of the wall which are fatter in the bulkhead. Almost everyone likes to eat mustard greens because it tastes fresh (delicious) and contains lots of vitamin A, vitamin B, and a little vitamin C.

Mustard is easy to plant in the lowlands, as well as in the highlands. However, mustard greens are planted more in the lowlands, especially in the yard because the maintenance is easier. This type of mustard greens is best if planted in a rather dry place or tagged.

Mustard plants can be harvested after two months of age. Mustard is harvested by pulling or cutting the stem above the ground. There are also people harvesting the results by way of picking the leaves one by one. The last way to harvest is to make the plants last longer. Mustard plants that are well maintained and healthy can produce 10 -15 tons / ha.

Plant nutrient uptake is one of the important indicators in achieving the expected harvest quality. The amount of nutrients that can be absorbed by plants affects the production of the main plants in achieving the desired quality of plants. The more nutrients can be absorbed by plants, the plants will be able to grow and develop optimally in accordance with the growth phase. Zeolite mixed with urea fertilizer binds to the ammonium ion released by urea fertilizer at the time of decomposition. Zeolite cavities of 2-8 Angtrom size correspond to the size of the ammonium ion. Binding will be more effective if the amount of zeolite mixed into urea fertilizer is increasing, because of complex sorption and cavities that can capture more ammonium ions. Ammonium ions which are absorbed by zeolites are not immediately released into the soil solution as long as the amount of ammonium ions in the soil is still high. urea fertilizer combined with zeolite greatly affects the wet weight of the plant at the time of harvest. Based on research, plants that are only given urea fertilizer produce 20.76 grams of wet weight, while plants that are given urea and zeolite fertilizer with a composition of 50: 50 produce a wet weight of 80.46 grams.

High nutrient uptake of N is able to make plant productivity will be maximal because plant growth and development will be optimal. N content in plants in addition to having a role in plant growth also plays a role in the process of photosynthesis can run optimally and the formation of protein, fat and various other organic compounds, so that it can affect the quality and quantity of the final harvest.

Application of urea and zeolite can improve the chemical properties of soil at the pH and CATION EXCHANGE CAPACITY and be able to absorb the highest N nutrients so as to produce the highest production in the wet and dry weight of plants. The efficiency of N uptake for urea fertilizer alone is only around 13.46%, while plants that are given urea and zeolite fertilizers with a composition of 50: 50 have an efficiency of 60.06%.

The efficiency of N uptake is basically determined by several factors such as the type of fertilizer applied and the method of application at the time of fertilization. In this study, the type of fertilizer used is urea fertilizer. Urea fertilizer contains high amounts of N but has the disadvantage of being fast release that is unable to provide N nutrients sustainably, so that on one hand when plants need N nutrients, urea fertilizers are less able to provide N nutrients when plants need it.

The second disadvantage is that it is easy to experience leaching and volatilization if the application method given is incorrect so that the plant is less able to absorb optimally. Both of these weaknesses can reduce the efficiency of N uptake in plants and can reduce the production of mustard plants. Application of urea and zeolite by immersion in

Soil is able to produce the highest absorption efficiency of N plants. The high rate of exchange capacity in zeolites can play an effective role as an ion absorber and positive ion exchange needed by plants such as NH4 +. The high EXCHANGE CAPACITY of the CATION in zeolites makes the negative charge in the soil very high and makes the soil able to absorb and exchange alkaline cations in the soil (NH4 + from N fertilizer).

The production of mustard plants is determined by the wet weight of the plant. The higher the wet weight, the higher the resulting production. Mustard plants are harvested before entering the flowering phase (generative) and harvested on the stems and leaves of plants. This part of the plant that is harvested requires large amounts of nutrients. This nutrient N is able to influence growth and development in plants, especially in the roots, stems and leaves. The high demand for N nutrients for the production of mustard plants, N nutrients must be available in a longer time, so that when plants that need N nutrients the soil is able to supply nutrient needs and plants can absorb nutrients N.

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