1、The Effect of Foliar Fertilization on the Yield and Quality of Different Crops

A sufficient, well-balanced nutrition available during the whole vegetation period is an important condition for yield and quality of plant products. Soil fertilization is the basic condition for adequate mineral supply to the plants. However, in some cases in the...

2、Experiments, Uptake Mechanisms, and Functioning of Silicon Foliar Fertilization—A Review Focusing on Maize, Rice, and Wheat

In the present review, the effects of Si foliar fertilization, including nano-Si fertilizers, on the three most important crops on a global scale, that is, maize, rice, and wheat, are summarized.

3、Absorption of foliar

In the present study, we focus on the role of trichomes for the foliar-absorption of Zn. Trichomes are generally found on both the abaxial and adaxial surfaces of leaves, and can be found at high densities in many plant species.

4、Nanotechnology promotes the R&D of new

The new screening criteria of new-generation micronutrient foliar fertilizers have been put forward from the viewpoints of material engineers, and our recent research efforts using nanotechnology to design and develop new foliar fertilizers have been summarised.

Effects of foliar nickel (Ni) application on mineral nutrition status, urease activity and physiological quality of soybean seeds

Nickel is a cofactor of the enzyme urease and plays a critical role in the germination of seeds. This study aims to evaluate the effect of foliar Ni application on mineral nutrition status, urease activity and the physiological quality of soybean seeds.

Plant biostimulants: Definition, concept, main categories and regulation

Based on a literature review, plant biostimulants are defined. Biostimulants are defined by their agricultural/horticultural functions. Biostimulants enhance nutrition efficiency, abiotic stress tolerance, crop quality. There is a need for a legal and harmonised definition of biostimulants.

Foliar Nutrition: Current State of Knowledge and Opportunities

In many works, plant treatment of supplying mineral nutrients by spraying is described as “foliar fertilization,” “foliar nutrition,” “foliar feeding,” or “foliar application.” A correct usage of any of these terms depends on the type and number of applied compounds.

Effect of foliar application of NPK nanoparticle fertilization on yield and genotoxicity in wheat

In the present study, we examined the effects of a Hyper Feed Amino NPs (NPK NPs) fertilizer applied by foliar spraying on yield characteristics, mitotic indexes, and chromosomal aberrations in wheat during the green growth stage and after harvesting.

Effect of foliar application of urea on the growth and yield of tomato

Results showed that different yield components and yield of tomato were influenced by the foliar application of different concentrations of urea.

Effect of the nitrogen fertilizer type on the enzyme activity in the rhizosphere of calcic chernozem and soybean production

Three varieties (Aura, Magie, and Indra) of soybean (Glycine max [L.] Merr.) were grown in a small-plot experiment on a calcic chernozem with the application of two types of nitrogen fertilizers: ammonium nitrate (N an) or carbamide (N c).

Plant active enzyme foliar fertilizers are nutrients and growth promoters applied directly to plant leaves through spraying. These fertilizers typically contain multiple active enzyme components, which enhance the plant’s ability to absorb nutrients and promote its growth and development. Below are some common types of plant active enzyme foliar fertilizers:

1. Algae-Based Foliar Fertilizers: Derived from marine organisms such as seaweed and marine plants, these fertilizers are rich in active substances like algal polysaccharides, alginate, and fucosol. They improve the plant’s absorption of nitrogen, phosphorus, potassium, and other elements, boosting growth.

2. Microbial-Based Foliar Fertilizers: Produced from microbial fermentation products (e.g., yeast, bacteria), these fertilizers contain beneficial microorganisms that improve soil conditions, enhance nutrient uptake, and stimulate plant growth.

3. Enzyme-Based Foliar Fertilizers: These fertilizers use enzymes as their primary active ingredient. They contain various enzyme formulations that break down organic matter in the soil, enrich its fertility, and promote nutrient absorption.

4. Compound Enzyme-Based Foliar Fertilizers: Containing multiple enzyme components, these fertilizers provide a range of enzymes to improve the plant’s ability to absorb diverse nutrients, accelerating growth.

5. Bio-Enzyme-Based Foliar Fertilizers: Featuring bio-enzymes as the main active ingredient, these fertilizers degrade soil organic matter, enhance soil fertility, and facilitate nutrient uptake.

6. Plant Hormone-Based Foliar Fertilizers: These fertilizers include plant hormones that regulate growth and development, promoting healthy plant maturation.

7. Trace Element-Based Foliar Fertilizers: Designed to supplement essential trace elements (e.g., iron, zinc), these fertilizers ensure balanced nutrition and normal plant growth.

8. Amino Acid-Based Foliar Fertilizers: Containing amino acids, these fertilizers provide essential protein building blocks, supporting robust plant growth.

9. Vitamin-Based Foliar Fertilizers: These fertilizers supply vitamins (e.g., B vitamins, vitamin C) that aid metabolic processes and enhance growth.

10. Humic Acid-Based Foliar Fertilizers: Rich in humic acid, these fertilizers improve soil structure, increase fertility, and stimulate plant vitality.

there is a wide variety of plant active enzyme foliar fertilizers, each with unique functions and characteristics. When selecting and applying these fertilizers, it is crucial to consider the specific needs of the plants and soil conditions to achieve optimal results.