Amino acid for plant : Suppose you are looking for perfect growth for your houseplant. In that case, you should consider amino acids as one of the essential nutrients that play an important role in the overall structure of your plant. Amino acid is the controlling and monitoring center of the plant. Amino acids impact all parts of the plant, from reinforcing plant cells to resistance to various diseases. The function of the amino acid is not limited to the plant and goes beyond it. It also can enrich the soil and roots. The amino acid can improve every plant’s function.
Do Plants Need Amino Acids?
Plants, like all living organisms, require amino acids for their growth and development. Amino acids are the building blocks of proteins, which are crucial components of plant cells. While plants can synthesize some amino acids through various biochemical pathways, there are certain essential amino acids that they cannot produce and must obtain from their environment, primarily through the soil.
These essential amino acids play pivotal roles in protein synthesis, enzyme function, and the overall metabolic processes that govern plant health. Adequate amino acid availability is essential for various physiological functions, including the formation of chlorophyll, the pigment responsible for photosynthesis. In summary, while plants can generate many amino acids internally, their overall well-being and growth are heavily reliant on a sufficient external supply of both essential and non-essential amino acids from the surrounding environment.
Houseplants tension
A common problem that houseplants might face is stress and tension. Experiencing stress has different types and can happen due to cold heat and watering. Note that you should use anti-stress fertilizers if your plant faces one. Although plant growth stimulants are considered a fertilizer in Industry classification, they are two different products scientifically.
Amino acids plant fertilizer
In general, amino acids plant fertilizer fertilizer contains substances that help provide the needed nutrition for the plant, like high-use elements, nitrogen, phosphorus, and potassium—also, some low-use elements, such as iron and zinc.
However, growth stimulants are substances or microorganisms that do not directly feed the plant; instead, they increase the absorption of nutrients and resistance against stress caused by environmental factors such as salinity stress, dehydration, heatstroke, and frostbite, insect and pest attacks, etc. The three main groups of substances known as growth stimulants are as follows:
- humic acid and fulvic acid
- Seaweed extract
- amino acids
amino acids are progenitor units for producing various proteins such as structural proteins, enzymes, etc. Along with the growth and reproduction of beneficial microorganisms, they produce enzymes that digest and decompose organic materials. The plant roots absorb these amino acids. The process of protein digestion can embark the enzymic hydrolysis. It preserves the biological structure by maintaining the usability of the amino acid molecule. Amino acids plant fertilizer is produced throughout the enzymic hydrolysis of protein feed of animals and plants. There are three ways to get amino acids:
- Acid hydrolysis
- Controlled acid hydrolysis
- Enzymic hydrolysis
Organisms can easily absorb by plants cell, and Synthetic amino acids are produced using alkaline and acidic hydrolysis processes, known as d-amino acids, and are biologically active. Nh2 groups are placed on the right side of the amino acid structure and are called type D. If it is placed on the left side of the structure, it is called type L. Type L amino acids are produced through hydrolysis. Only L-type amino acids are used in the biosynthesis of proteins. Protein production is a complex and endergonic reaction that leads to the production of Glutamate and Glutamine, the progenitor of other amino acids. When glutamate and glutamine or other amino acids are provided to the plant through spray fertilizing, none of the mentioned reactions won’t take place; therefore, the plant does not need to consume energy to provide the amino acid itself. The obtained energy will be used for the Reinforcement of the plant against environmental stress. And like this, the amino acid will reduce the stress in plants.
Seaweed and its impact on houseplant
Seaweed fertilizer (Ascophyllum) can increase plants’ resistance to cold, pest infestation, blight, heatstroke, frostbite, and other stresses and prevent damage. This fertilizer decomposes quickly after use and provides essential nutrients to the plant. Seaweed fertilizer is one of the best organic manures that you can use for different plants.
If you use this fertilizer correctly, it not only won’t harm plants and the environment but also has benefits. Seaweed extract has numerous benefits, and using them with bringing great results for you. This fertilizer increases germinating and blooming and improves the root. Using seaweed fertilizer makes the nutrients reach the plant better, and there will be no nutritional deficiency for them. Another merit of this fertilizer is Soil Improvement. With its natural structure, Seaweed fertilizer helps cure soil salinity quickly and has richer and more fertile soil. Using this fertilizer, you can also improve the soil’s ventilation and eliminate all its impurities. Of other benefits of natural seaweed fertilizer, it can be said that it increases the retention of more moisture in the soil.
Regular use of Seaweed fertilizer can increase plants’ resistance to dehydration and prevent the roots from drying out and dying. A crucial point about feeding your plant using seaweed fertilizer is that it should not be used in times of thirst. The perfect time to use it is a day after watering.
Alanine | Synthesis of chlorophyll, control opening and closing of stomata pollination, and Drought resistance |
Proline | pollen germination, anti-salinity stress, and drought and temperature resistance |
Glutamic acid | Seed germination, progenitor in the Synthesis of chlorophyll and the Synthesis of other amino acids |
Aspartic acid | seed germination and Metabolism of amino acids |
Tyrosine | pollination and environmental stress resistance |
Serine | pollination |
Glycine | progenitor in the formation of pyrrole groups and chlorophyll synthesis |
Leucine | salinity resistant Pollen germination |
Isoleucine | salinity resistant, pollen germination, and pollination |
Histidine | control opening and closing of stomata |
Methionine Ethylene | hormone progenitor, control opening and closing of stomata of leaves |
Cysteine | producing Nitrogenase enzyme which plays a role in biological nitrogen fixation of Azete |
Lysine | Lysine controls the opening and closing of stomata, pollen germination, and chlorophyll Synthesis. |
Arginine | salinity-resistant progenitor for the formation of polyamines |
Threonine | pollination environmental stress resistance |
Essential Amino Acids For Plants
Essential amino acids are vital components for the growth and development of plants, playing a pivotal role in various physiological processes. While plants can synthesize some amino acids internally, there are specific amino acids that they cannot produce and must obtain from their surrounding environment. These essential amino acids, including but not limited to lysine, threonine, valine, methionine, leucine, isoleucine, phenylalanine, and tryptophan, serve as the building blocks for proteins, enzymes, and other crucial molecular structures within plant cells.
The availability of these essential amino acids is integral for protein synthesis, which, in turn, influences functions such as nutrient uptake, stress response, and overall plant health. Ensuring an adequate supply of essential amino acids through the soil or other external sources is essential for fostering robust growth and optimizing the well-being of plants.
Amino Acid Benefits For Plants
- A significant increase in the resistance of plants against environmental stressors
- Increasing photosynthesis
- Improving plant growth
- Improving soil structure
- Adjusting soil pH
- Making leaves broader
- Strengthening the plant’s immune system
- Effecting stomata
- Increasing the quantity and quality of the product
- Inducting Pollination posses
- Increasing Fruit ripening speed
- Increasing the formation and development of plant organs
- Increasing the shelf life of products after harvest
- Increasing the greenness and Chlorophyll production
- Improving the absorption process of essential growth nutrients
- chelating properties of elements
- balancing soil microflora
Amino acid use in plants
When your plant is infected by diseases and under treatment, note that in addition to the treatment, paying attention to the side care of the plant is very effective in the treatment process. Sometimes the interference of treatment methods and care principles will cause damage to your plant. Knowing these things will help maintain the health and improvement of your plant.
When your plant is under treatment with fungicide, you should know that controlling the amino acid is very important. In addition to being anti-stress, amino acids can chelate the elements, increasing the leaves’ absorption of elements. So, when using fungicides, especially copper-based fungicides (such as Borodin and copper oxychloride) that are high in copper.
Always be careful amino acid uses in plants shouldn’t be in a close time interval and allow a proper time between the fungicide and the amino acid. Amino acid increases copper absorption, and since copper is a low-used element, a high amount of this element can poison the plant. Wait at least two weeks between the use of fungicide and amino acid.
How Do Plants Make Amino Acids
Plants create amino acids by synthesizing the carbon and oxygen in the air and the hydrogen in the water and soil. Carbon hydrates are formed using photosynthesis, combined with nitrogen that plants obtain from the soil, leading to amino Synthesis. The need for essential amounts of amino acids to increase crop yield and overall quality is well known. Using amino acids for spray fertilizing is based on its need by plants in general and especially in acute stages of growth.
Best time for using amino acid
When you change the soil, it gives a big shock to the plant, and usually, the roots of the plant are damaged, and the damaged parts on the roots will increase the risk of getting fungal diseases. When you water the plant immediately after changing the soil, the chance of getting the fungal disease will be high due to the damaged part. Therefore, try to postpone the watering for a few days so that the plant has time to repair the damaged parts to some extent.
Even in succulent plants, you can postpone the watering for 3 or 4 days. using any fungicide and pesticide causes a shock to the plant; therefore, the first watering with fungicide, in addition to the shock of changing the soil, will give the plant a double shock. It’s better to use amino acids with the first watering. The amino acid can reduce the shock, improve the plant’s defense system, and help the plant overcome the shock sooner.
After changing the soil, do not water the plant for a few days. Even in plants that have tuberous roots and rhizomes, such as Sansevieria and ZZ plants, and in succulent plants, you can postpone the watering for three or four days.
Use amino acid instead of fungicide with the first watering since amino acid is anti-stress.
Spray fungicide to the new soil 3 or 4 days before changing it, so it is disinfected and moist.
After planting, use fungicide just when it is needed.
Why amino acid plays a vital role in feeding the plant?
Amino acids are chelators of low-mobility elements and can be absorbed simultaneously. They also increase the foliar absorption capacity of elements. Therefore, using amino acids while spraying macro and microelements is recommended. Amino acids are the progenitor of some plant growth hormones, and these hormones directly affect the growth and cell division of plants.
How to use amino acid for a houseplant?
Amino acid should be purchased in powder form for indoor plants because liquid amino acids do not have a long shelf life and should be consumed immediately after opening the bottle. If not used after three months, it will lose its effectiveness.
houseplants: Once a month through spraying or use while watering
Outdoor and ornamental plants: Once a month through spraying or use while watering
At the rate of 2 grams per liter of water for all plants, it is better to spray it on the leaves for two months and use it while watering for one month so that both the soil and the plant are finally prepared.
Summary Of Amino Acid For Plant
In conclusion, the role of amino acids for plant growth is indispensable, influencing key aspects of cellular function, metabolism, and overall health. While plants possess the ability to synthesize some amino acids internally, the presence of essential amino acids in their environment is crucial for sustained growth and development.
These fundamental building blocks contribute to the formation of proteins, enzymes, and vital structures within plant cells, impacting processes such as photosynthesis, nutrient uptake, and stress response. A balanced and accessible supply of amino acids, whether through the soil or other external sources, is essential for optimizing plant health and ensuring robust growth. Understanding and addressing the amino acid requirements of plants underscore the significance of nutrient management in fostering thriving and resilient plant ecosystems.
FAQ
What are the best amino acids for plants?
The best amino acids for plants include a mix of essential and non-essential amino acids. Commonly beneficial ones for plant growth are glycine, proline, glutamic acid, and arginine. However, a well-balanced combination is crucial to support various physiological functions.
how to use fish amino acid for plants?
Fish amino acid (FAA) is a valuable organic fertilizer for plants. To use, dilute FAA with water (typically 1:500) and apply it to the soil or as a foliar spray. This provides plants with amino acids, proteins, and nutrients, promoting growth, enhancing nutrient absorption, and improving overall plant health.
how to make amino acid for plants?
Making amino acids for plants at home involves fermenting organic material. One method is to soak plant-based materials such as soybean meal or alfalfa meal in water, allow it to ferment for a period, and then strain the liquid. This fermented liquid can be diluted and used as an amino acid-rich fertilizer for plants.
nice tips