automatic feminized seeds

Can You Use Feminized Marijuana Seeds for a Mother Plant?

The cannabis plant always comes from either a seed or a clone. Thus, when we speak of cannabis breeding, we can always refer to the mother stock which is a very high-valued plan for all growers and gardeners. All mother plants can grow in a continuous vegetative phase as clones and they are repeatedly attached on it. The clones of automatic feminized seeds guarantee that plants shall grow in the garden with the same rate. Also, if you want to grow a quality product that can produce as the same might as the mother plant where they come from.

Now, let us take a look why are these mother plants so important in such a way that you can produce a quality mother stock. Choosing how to protect and preserve automatic feminized seeds is a big decision that can guarantee a big profit for your company.

The Importance of Automatic Feminized Seeds for a Mother Plant

The mother plant of cannabis can guarantee consistency which is the main key for growers to offer a product that all customers and client can demand from time to time or over and over again. When you grow from automatic feminized seeds. The growers can deal with far better variability when it comes to growth patterns, soil attributes, nutrient needs, and temperature conditions. Take note that some stable seeds can produce a much lesser type of wild automatic feminized seeds. You can have a whole lot of canopy that you can find with clones.

Another benefit of getting cannabis mother plants is that it will save all growers the time and money they have to invest in producing the yield they desire. Purchasing clones which are individually sold can get so pricy. So you really have to take your time to grow your very own crop and have it germinated handful with the same automatic feminized seeds as the mother plant. In return, quality mother plant can give you many quality clones despite the seasons.

Selecting the Best Mother Plant from Automatic Feminized Seeds

The clones are all genetically similar to the mother plants as we select a quality type of mother plant. This is very crucial for a successful and bountiful harvest. Also, the pack of seeds can grow in the same strain as with others since there exists many different phenotypes or various physical outlook. There are different phenotypes of various plants which makes the selection process of the mother plant much more difficult. Hereinafter, here are the steps in selecting the best method for the mother plant:

Seed germination

Observe the sex of the plants on their vegetative stage then take a few more clones from each of the female plants. Label them on which seed they are coming from.

Clones will now proceed in their flowering stage from which they will keep their original growth on their vegetative stage.

Keep the new plants bloom their flow and have them harvested on time.

Observe which of the original plants on what type of clone plant you prefer the most so it will now become the new mother plant on your next vegetative stage.

Cloning of the New Mother Plants through Genetic Engineering

According to @Killa.Krissy, one of the renowned Instagram influencers for cannabis plants, when debating the pros and cons of cloning mother plants through genetic engineering, people often start with discussing whether there is even a need for genetic engineering. Scientists generally agree that genetic engineering could be used to fix severe genetic disorders in plants by replacing defective genes with healthy ones. In fact, this is an important tool in clinical trials, allowing scientists to study the function of specific genes.

By harvesting drugs, vaccines, and other elements from organisms that produce them naturally, doctors can more quickly treat conditions or even prevent them from occurring. Crops developed through genetic engineering grow faster, produce an increased yield, have a higher nutritional value, and have a greater tolerance to environmental stress. They achieve this by introducing the desired DNA directly into the host organism or into a specific cell that they then fuse which with a host.

Produces Better Yield

Through genetic engineering, we can design automatic feminized seeds that are better able to resist pests and harsh weather. It may be difficult to grow certain crops in areas where there isn’t enough water, but a genetically engineered plant will grow faster and more abundantly if it’s been altered to need less water. Plants can be fine-tuned to grow in hot or cold conditions or with less water while producing more nutrients per plant and per acre planted. We can also change plants to provide other benefits besides nutrition.

Eliminates Plant Disease (automatic feminized seeds)

We could use genetic engineering to rid the world of many deadly diseases that have been resistant to eradication. Malaria kills millions worldwide each year because of the disease is spread by infected mosquitos. Scientists soon will be able to isolate specific genes in the West Nile mosquito to keep the pest from breeding, resulting in fewer mosquitos and a lower risk of humans contracting malaria. Or what about wiping mosquitos out altogether? How about a world with no more flies? How would these two outcomes rank when talking about the pros and cons of genetic engineering?

Extends the Plant Lifespan

The plant lifespan of any automatic feminized seeds continue to increase, and while cloned plants are living longer than ever, there is no reason to think we might not extend the lifespan of humans even further. Advances in the power of computing, medical technology, more attention to healthy lifestyles, and genetic engineering could all contribute to human beings living well past one hundred years old in the very near future.

Genetic engineering also has the potential reverse degenerative conditions of the mother plant at the cellular level of the automatic feminized seeds to improve not only the length of our lives but the quality of any plant. Imagine living free of illness and pain well past your one-hundredth birthday. By selectively editing out genes that cause disease, the quality of plant life for billions of people could be enhanced significantly.

Ethics and Economics

Is there a need for genetic engineering for automatic feminized seeds? It depends on who you ask as debates revolving around the ethics of genetically altering living things continue to this day. Most people don’t even think about the amount of genetically altered food they consume every day, and they don’t care. They only see redder tomatoes, plumper corn or notice the strawberry they’re eating tastes sweeter.

What Makes the New Mother Plants Green?

A special substance called chlorophyll makes the plants automatic feminized seeds appear green to our eyes. Most plants have this; even some that don’t seem to be green. That’s because chlorophyll is one of the most efficient energy producers in the world.

How Chlorophyll Works

Here are some notes to view at for how chlorophyll works on the mother plants.

Photons

The light from our sun, or even from a light bulb, comes in the form of photons. Photons contain energy, and when that energy is absorbed by a molecule of chlorophyll, it starts a chain reaction.

Chain Reactions

Imagine a line of dominoes you’ve carefully stood up on end. When you finally tip the first one over and enjoy that satisfying clack as each falling domino knocks over the one in front of it all the way down the line, you’re watching a chain reaction. When a photon enters a chlorophyll molecule, its energy acts as the first domino in the line: it shoves an electron within the chlorophyll molecule. That electron shoves the next one and the next one and so on down the line.

ATP

All that shoving and re-arranging eventually creates a new molecule that stores the energy from the photon in a new form called ATP. That ATP energy is then available to the plant to tap whenever it needs a jolt, sort of like a floral form of morning coffee.

The Coffee Machine

When you get energy from your morning coffee, you don’t (probably) just snack on coffee beans whole. There are some things you need to get that energy, like water, heat, and pressure. In a somewhat similar way, plants need two things to get their shot of ATP when they need it: carbon dioxide and water.

Water and Carbon Dioxide

Plants can get water from the ground with their root system. Some plants are good at getting water from deep in the ground. Others are good at surviving long droughts because they know how to manage sudden floods of water that would wash away other plants. Some plants need constant watering or need to live near a river or other water source. Some plants even live on top of the water.

Carbon dioxide comes from human beings and other animals. Plants could not live without us! We are the main source of carbon dioxide for them: carbon dioxide is a waste product of our physiological processes. In the same way, plants produce oxygen as a byproduct of their energy production. We are dependent on plants, and they are dependent on us.

Delicious Sugar

Plants use the ATP energy that their chlorophyll products, combined with carbon dioxide and water, to produce sugar. That sugar gives the plant energy. This whole process is called “photosynthesis,” which comes from Greek and literally means “light putting together.”

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