Nanotechnology in agriculture has become extremely widespread in the past decade and has led to the formation of a specialized field called farming nanotechnology. The reason behind it according to nanotechnology in agriculture 2019 is that using this type of technology has enabled farmers to become more productive and produce higher quality crops at more competitive prices.
How is nanotechnology used in agriculture?
Nanotechnology has become highly important in agricultural efficiency therefore different methods and procedures have been developed in order to introduce this type of technology in farming. More recently, new ideas have been projected to merge nanomaterials with living plants in the form of nanocapsules in agriculture to enhance their native function and also give them non native functions.
Also nanotechnology nowadays is playing a key role in plant nutrition and fertilization especially in delivering macronutrients such as Nitrogen, Phosphorus, Potassium, Sulfur, calcium and magnesium. Applying nanotechnology in such practice has led to a 30-50% increase in crop yields and has also been able to boost the quality of the products drastically. Nanotechnology can play an important part in the strengthening of sustainable agriculture having provided the feasibility of smart fertilizers that can act as a carrier and controller of macro and micro nutrients in all sorts of crops.
The model Nanomaterials for agricultural applications are supposed to have the following properties:
1. Providing actual concentration and controlled release of
fertilizers or pesticides in response to certain conditions
2. Improved targeted activity
3. Lower Eco harmful with safe and relaxed transport.
Applications of Nanotechnology in Agricultural and their Purposes
The study of nano science has contributed in various areas such as food safety, biosecurity, material science, food processing and food development all which are extremely crucial to the strength and stability of countries and world population. Also new discoveries and innovations in the field of nano particles have greatly helped farmers with controlling plant diseases and pest incidences. In addition to nano particles, nano formulations have provided new methods for improving and modifying existing crop management techniques.
One other way that nanotechnology has contributed to agriculture has been the detection and control of plant pathogens in the form of anti microbial and anti fungal agents. Control and eradication of bacterial, fungal and viral pathogens has led to a considerable increase in crop yields and also health and quality of the products released to the food market.
In brief, nanotechnology is considered a novel key to agricultural production and through implementing nutrient efficiency and plant protection. Also, nanotechnology may have real solutions for various agriculture problems like improved crop varieties, plant protection, detect diseases and monitor plant growth.
Nanotechnology offers generous visions for the development agricultural sector through advanced applications and the probability
of products and increases global crops production volume to feed
the world population in next decades. Promising results and applications are already being developed in the areas of nano nutrients,
implement crop productivity, protect plants (herbicides and pesticide), nano-packing and Nano sensors.
Most sold nanotech products for agricultural uses
Nanomaterials have many usages in all stages of agricultural
production, in different forms and various procedures such as:
1. Nano-fertilizer for balance crop nutrition
2. Crop improvement (Zinc Nano fertilizer used to enhance
crop production of Pennisetum americanum)
3. Plant protection ingredients (pesticides, fungicides, weedicides)
4. Weed management.
5. Nano pesticides
6. Nano sensors
7. Post-Harvest Technology
8. Bioprocessing (bio synthesized) nanoparticles for agricultural use
9. Bio sensors for Aqua culture
10. Nano biotechnology (Analysis of gene expression and Regulation)
11. Monitoring the identity and quality of agricultural produce
12. Precision agriculture: Precision agricultural techniques
might be used to promote increase crop yields but not damage soil and water, decrease nutrients loss due to leaching
and emissions, in addition to enhance nutrients long-term
incorporation by soil microorganism
13. Seed technology.
14. Water management
15. Plant growth regulators
16. Soil management
17. Agricultural engineering aspects
18. Food technology
There is apparently a bundle to realize about this. I suppose you made some nice points in features also.
There’s noticeably a bundle to find out about this. I assume you made sure nice points in features also….
Your comment submitted.