Internacional-Perú

Internacional-Perú

Internacional-Perú

ADLER AGRO introduit de nouveaux produits sur le marché péruvien en collaboration avec le distributeur dans la région « Agro Tec Peru S.A.C. »

Amino acids. A fundamental tool in agriculture

Amino acids. A fundamental tool in agriculture

Amino acids. A fundamental tool in agriculture

Overview of amino acids

The amino acid is an organic molecule composed of carbon, hydrogen, oxygen and nitrogen. When a series of amino acids are joined by peptide bonds, the proteins are formed. Proteins are important macromolecules involved in all aspects of growth and development of plants.

Plants synthesize amino acids from the N absorbed as nitrate or ammonium that is in the soil. Clearly, the process of absorbing nitrogen from the soil is an important loss of energy for the plant. Therefore, the main reason why it is so important to applicate these products in agriculture is the energy savings that they achieve. This energy will be used in other processes such as sprouting, flowering or fruit set and fruit fattening, so that will increase the quality and the production of the crop.

Types

There are 20 types of amino acids that form proteins. There are certain types that are better for specific functions. Thus, the amino acids responsible for chlorophyll synthesis are Alanine, Arginine and Glycine. For the development of the root or to delay the senescence there are the Arginine and the Methionine. If we want to achieve a chelating effect on the soil and a better development of shoots and leaves we will use the Glycine. For the resistance systems of the plant the best types are the lysine, the glutamic acid and the glycine. Finally, for the synthesis of gibberellins we will use leucine and proline.

Aminograms, what they are and how they are interpreted

An aminogram is a schematic representation of the amino acid composition of a peptide or protein (or in our case of a fertilizer). A aminogram can be qualitative (if only appears the different types of amino acids that contains the product) or quantitative (if also appears the amount of each amino acid).

Fertilizer companies use this diagram to give information about the amino acid content of the products. In addition, we bring also the amount of free amino acids in our products. This data provides very important information about the product quality. In the hydrolysis (process by amino acids are obtained, and that will be discussed later) peptide bonds of proteins are broken, generating fractions of amino acids. These portions can be very heterogeneous, but only amino acids that are free can be absorbed by the plant, so this is one of the factors for evaluating the quality of a product.

Sources and methods of extraction

The main sources of amino acids are from vegetables, animals or synthetics. Amino acids of animal origin are usually produced from collagen and hair. Those obtained by plants, are extracted from vegetable waste of soybean, cereals, etc. The aminograms presented by these types of products depend on the type of plant material used. Finally, it is possible to design a product with synthetic amino acids, that is, to buy specific amino acids in the chemical industry and make a product with the amount of each you want. This method is much more expensive, but the resulting products are of high quality and have a faster effect.

In agriculture they are mainly two types to obtain the amino acids. Acid hydrolysis and enzymatic hydrolysis (or enzymatic fermentation).

Acid hydrolysis is the most rudimentary method and cheap. It consists in a prolonged boiling of the protein with acid solutions. This method is quite aggressive, so the resulting amino acid have low quality, due to there is a high percentage not free amino acids, and some are partially destroyed during the process. However, the improvement in manufacturing and the new techniques have managed to increase the quality of these products.

The enzymatic fermentation process is similar to the previous one, but much less aggressive. It is not necessary to increase a lot the temperature and instead of an acid solution, a certain enzyme is used (usually of bacterial or fungal origin). The process is more expensive and complex, but the percentage of free amino acids is much higher, so most of the composition of these products is usable by the plant.

Conclusions

The use of amino acids in agriculture is a tool that can be very useful to improve the production and the quality of the crop to overcome moments of stress due to low temperatures, droughts, etc., but it is necessary to have a knowledge of this type of products to buy the correct item for your crop.

In ADLER AGRO there is a variety of products with amino acids. It will be pleasure to answer the questions that can arise about which of our products is the best one in each case.

Agricultura ¿robótica?

Agricultura ¿robótica?

Agricultura ¿robótica?

Empecemos definiendo lo que significa la palabra robot, que, en tantos casos, nos espanta y atrae al mismo tiempo. El término procede de la palabra checa robota, que significa ‘trabajo obligatorio’. No deja de ser un producto que tiene sus funciones definidas al 100% y que no puede cambiar por si solo el destino de su uso.

Desde las máquinas de los parkings, hasta las neveras que tenemos en casa, tenemos un amplísimo abanico de aparatos electrónicos que en muchos casos nos solucionan el día a día, pero que en tantos otros lo podemos ver como un ataque al trabajo manual de personas que podrían estar ocupando el puesto de la máquina.

El fin con este post no es crear polémica, si no hablar un poco de los avances en la agricultura, que pueden parecer fascinantes e innovadores. La primera revolución ya la vio este sector cuando gracias a animales, y al aprovechamiento elemental del agua y del viento, dejamos a un lado el trabajo más áspero. Posterior a esto llegaron las máquinas de vapor, motores, tractores… En definitiva, eran enseres, llamémoslos así, que aumentaban la producción y reducían la mano de obra, es decir, aumentaban el rendimiento general del cultivo.

Pues aquí llega la novedad, drones. Sí, drones que van a permitir pulverizar los herbicidas a más o menos 200 m2/h. De esto se está encargando la empresa de robótica DJI. Estos nuevos “agricultores del aire” serán autónomos y volverán a su base para cargarse tanto de material pulverizador como de batería, y así organizarse entre sus socios de escuadra, las zonas y los tiempos de trabajo.

Todo esto lo que a su vez va a aportar al agricultor es información en tiempo real de su cultivo, a nivel fotográfico y/o vídeo, del estado del material vegetal, del terreno o de los sistemas de riego. Por tanto, ahora la pregunta es, ¿estamos ante una nueva revolución industrial