The Fascinating World of Belowground Communication

If you are a microbe in soil, how do you say something to your neighbors? Well, speaking English, French, or Italian would not do you any good underground. Instead, you would have to use molecules as words! Soil microbes like bacteria and fungi communicate with each other and with other organisms, such as animals or plants, by producing different kinds of molecules. Many organisms use these molecules as chemical words. These molecules can be volatile molecules, which means that they are like gases, just like the air. They can travel easily through small pockets of air in the soil and can also travel really far. It is like long-distance communication. Other molecules are soluble so they can dissolve in water, allowing the communication between organisms close to each other. The organisms that receive this communication can respond in different ways, such as by growing faster or producing other molecules in response. In this article, we will explore the exciting and mysterious world of belowground chemical communication and its role in the interactions occurring between microbes and plants.


LIFE IN THE SOIL
The soil is one of the most fascinating and complex ecosystems on ECOSYSTEM The set of di erent organisms (plants, animals, and microbes) that interact with the non-living matter in a specific area.
Earth. It is not only the outer surface of our planet where plants grow, but it is also a spectacular and hidden world where many kinds of organisms live. The soil is composed of irregular pieces of rocks, small air-pores, and organic matter (dead plants and animals). This environment is a wonderful place for microbes, insects, and plants to live. Can you believe that soil is so full of life? Depending on the soil characteristics (size of the rocks, types of food, amount of water, etc.), di erent organisms can live in it. These di erent organisms build a specific community, which is a unique set of di erent organisms living together.
Do you know what soil microbes are? They are very tiny organisms that live attached to soil particles or other living things. There are fungi that have a shape similar to very thin roots, so that they can touch and exchange information with their neighbors. There are also bacteria, which are organisms that consist of a single cell that you can usually see only by using a microscope. If these organisms live in the rhizosphere (the portion of soil surrounding the plant RHIZOSPHERE The portion of the soil surrounding the roots where plants and microbes talk to each other by using molecules. roots), they are called rhizosphere microbes. They can also live on the root surface or inside the roots [ ]. In the rhizosphere, you can find beneficial (good) microbes, which help plants to survive and grow, or harmful (bad) microbes, which attack plants and make them sick.

HOW DO SOIL MICROBES AND PLANTS COMMUNICATE?
What is particularly exciting is the ability of soil microbes to communicate amongst themselves as well as with other organisms, including plants and animals. The communication between microbes and plants has been studied by many scientists. This communication is based on the use of molecules as words, and it is called chemical communication. You can imagine a molecule as a group of many

CHEMICAL COMMUNICATION
The communication that occurs between two or more di erent organisms (plants, animals, and microbes) by using molecules.
little balls (that we call atoms), connected to each other. These atoms are important chemical pieces, like carbon (C), hydrogen (H), oxygen (O), and nitrogen (N), that join together (like a puzzle) to form molecules like water (H O) or carbon dioxide (CO ). The specific combination of atoms creates molecules that have di erent properties.
Soil microbes can produce many types of molecules, which can be divided into two main categories: soluble molecules and volatile SOLUBLE A substance that dissolve in water, like salt and sugar.

VOLATILE
A substance that tents easily to become gas and spread in the air, like the smell of a flower. molecules. Soluble molecules dissolve in water, like a sugar cube in tea, and they can be transported by water in the soil. They are used to talk with plants that grow close to the microbes. Volatile molecules, also kids.frontiersin.org October | Volume | Article |  over long distances ( Figure ). These volatile compounds are gases, which travel easily through the air-pores of the soil. Plant roots can smell these gases, like your nose can smell a flower or freshly baked bread [ ]. Chemical communication does not happen only in one direction (from the microbes to the plants), but in two directions-plants also produce molecules that can be understood by microbes.

WHAT ARE THE EFFECTS OF COMMUNICATION MOLECULES?
Here are some examples of what happens between microbes and plants when they start to talk to each other.

Plants and Microbes Help Each Other to Get Food
Many soil microbes can help plants grow, because the microbes make necessary nutrients more available for the plants. For example, a bacterium called Rhizobium can transform the nitrogen in the air (N ) into a di erent molecule: ammonia (NH ). This transformation is called nitrogen fixation and it happens in the soil. Nitrogen fixation is really important for plants because they need nitrogen to grow and they are only able to get NH from the soil. By transforming N into NH , Rhizobium helps plants to grow and makes them stronger! What is even more interesting is that Rhizobium can talk with a specific group of plants, including beans and peas. But how does this dialogue work? First, the plant releases molecules called isoflavones into the rhizosphere, which can attract Rhizobium. The bacteria "hear" the kids.frontiersin.org October | Volume | Article | plant "talking" and go toward it. On their journey toward the plant, the Rhizobium start to produce other molecules, known as nod-factors, which tell the plant to create a space in the roots, called root nodule, where the Rhizobium can live. In exchange for a place to live and food (sugar) from the plant, the Rhizobium gives the plant a lot of NH ( Figure ). As a result, plants that allow Rhizobium to live with them grow much more. For both the plant and the Rhizobium, living together is an advantage, because both organisms have more food to eat than when they live alone, and thus they can grow better [ ].

Microbes Can Help Protect Plants From Pathogens and Pests
Biotic factors are the living parts of an environment, such as plants,

BIOTIC FACTORS
The living components of an environment, like plants, animals, and microbes.
animals, and microbes ( Figure ). Biotic stress is stress felt by an organism, like a plant, that is damaged by biotic factors like bad microbes, called pathogens, or by bad insects, called pests. Good microbes can help plants to fight against pathogens and pests in two ways. First, the microbes can push the pathogen/pest away or kill it. For example, some good microbes produce VOCs that can stop a pathogen's growth or a pest's attack on the plant. The second way good microbes can help plants to fight pathogens is by telling the plant to prepare itself to fight by increasing its defenses. Probably also your mum, during the winter, tells you to eat oranges because they contain an important molecule, the vitamin C, which is able to increase your immune defenses protecting you from illnesses. The mechanism is the same for microbes and plants! For example, the molecules produced by the bacterium Pseudomonas fluorescens allow the plants to better resist the pathogen attack [ ].

Microbes Can Help Plants Survive in Di cult Areas
Abiotic factors are the non-living parts of an environment, which

ABIOTIC FACTORS
The non-living components of an environment, like rocks, sunlight, and water.

WHY IS IT IMPORTANT TO UNDERSTAND CHEMICAL COMMUNICATION?
Chemical communication between microbes and other organisms started evolving millions of years ago. Four hundred and fifty million years ago, plants moved from the sea and started to live on the land. Scientists believe that soil fungi first helped plants to make this move to land. The fungi helped the plants to use important nutrients so that the plants could survive [ ]. So, for millions of years, chemical communication among soil organisms has been important for plant well-being and growth. In this article, we explained how plant-microbe interactions can give a plant more food or help plants to fight against pathogens or to live in di cult areas. Unfortunately, these interactions are in danger! The high use of antibiotics, pesticides, and fertilizers in agriculture can change the soil and in doing so can also change the soil community, causing some soil organisms to die and others to grow. Changes in the microbial community can have terrible e ects on plants; for example, the microbes that grow might be pathogens!
The human population is still growing, and since people need food to survive, new methods of increasing plant growth and food production must be found [ ]. Microbes are increasingly used as natural helpers to improve plant growth and food production. The study of microbe-plant communication is necessary to understand which microbes can be used to help plants grow. We must pay close attention to choose the correct microbes! For example, you could think that the use of the fungus Fusarium culmorum would be a good idea, because it helps certain plants to grow in di cult areas that are rich in salt. However, Fusarium culmorum is a bad organism for maize-it is a pathogen! For these reasons, researchers want to understand as much as possible about chemical communication, to increase our knowledge about soil ecosystems, to understand how organisms interact in these ecosystems, and to help us use plant-microbe interactions to increase plant growth for food while protecting soil ecosystems. . doi: . /frym. .

CONFLICT OF INTEREST:
The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest.
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