Botany is an old field of study that focuses on the plants, animals, fungi and bacteria that live in and on the soil and in the air.
Today, scientists have learned that plants are the major source of carbon dioxide in the atmosphere.
So if the plants are not being used for food, it’s important that we know how much they are taking up in the soil.
The amount of carbon sequestered is known, but there are a number of things that scientists do not know.
Some of those are plant-specific.
For example, a lot of soil microbes are very sensitive to CO 2 from sunlight, so it’s possible to take soil microbes that are on a plant and put them on a tree and they will convert carbon dioxide into plant-based carbon.
Another thing to keep in mind is that carbon dioxide is an energy source.
It has to be stored somewhere.
In some ways, the CO 2 is like a fuel in the system, and we need to be able to extract and use the energy we put in the environment to grow the plant, and the carbon dioxide will be released.
The next step is figuring out how to convert that carbon to something useful.
The carbon that we put into the atmosphere is carbon that can be sequestered, and in order to store that in the ground we need the right kinds of soils.
So the first step in this is figuring what kinds of soil you can grow plants on.
We know that there are different kinds of carbon-rich soil.
Some soils are acidic, and some are alkaline.
These are plants that can thrive in these soil types, but the amount of nutrients and other things that they need to grow and thrive is different for every soil type.
For many soils, that means that plants need to have high nitrogen, which means that they have to have low phosphorous, and those plants need the kind of nutrient-rich soils that are called organic soils.
The soils also need to hold water.
The kind of soil that you grow on also has to have the right moisture.
So for soil that is low in water, it will take up more CO 2 and produce less food for the plants.
So a soil that’s low in moisture is going to require less nutrients and the right kind of nutrients for the plant to grow.
We are also finding that soils are quite diverse.
You have these very basic soil types.
Soils that are acidic are like clay soils.
These soils have some nutrients that are very important for the food they grow on.
Soil that is alkaline has a lot more nutrients, but it has also been found that soil with more nutrients is less acidic.
So you have these different types of soils, and so many different kinds, that it’s very difficult to sort out what the best soil is.
For now, it is a very good question.
What is the best soils?
That’s a good question, because we need that answer in order for the researchers to figure out what is the most productive soil for plants and what is a more nutrient-poor soil.
So what is it?
Well, there are several different types that we have used to think about soil, and they have a number.
The most important thing is what we call the microbially controlled (MC) or the soil biotic control.
So, for example, if we are talking about a low-nitrogen soil, then there’s a lot that can come from the microorganisms.
Some have a nitrogen-fixing function and some can do something to the soil, like they release some nitrogen into the soil that helps the soil grow.
So we are thinking about what kinds are beneficial.
And if we can identify a soil biotechnologist that has that knowledge, then we can be able for the first time to predict what kind of soils are best for the crops that they grow in.
So one thing we are doing is we are studying the soils that people grow on, and it’s really important to understand the soil biology and how that affects the growth and function of the soil ecosystem.
Another important thing that we are looking at is the soil microbial ecology.
And the way that the microbes are interacting with the soil is what affects the soil biome.
For the most part, they are symbiotic.
So that means they have their own relationship to the plant.
So there is a symbiotic relationship between the microorganism and the plant in a lot for the soil to grow, but for the microbe to live in the plant and produce food, they need the nutrients and protection that they are given by the plant itself.
So when we look at the soil microbiome, we are also looking at the interaction of the microbes and the plants that they live in.
The microbes in the surface of the earth, the soil bacteria that are in the roots and the roots themselves, that are living in the bottom of the ground.
There are microbes that live on the surface and also in the deep earth, in the seafloor and