MYSTERIES OF SMALL WORMS AND HOW THEIR ARCH ENEMIES SAVE OUR FOOD

To produce enough food, we must protect our crops from pests that attack plants. Some of these pests are mysterious small worms called nematodes, wandering through the soil. While most nematodes are beneﬁcial to plants, others can destroy whole crops. The most common weapons against destructive nematodes are also harmful to nature. We need more environmentally friendly tools to control these worms. Tiny spider-like creatures called mites are the nematodes’ arch enemies. Can mites be used to control nematode populations and protect crops? Scientists did experiments on tomato plants in a greenhouse. They added both harmful and helpful nematodes to check the effect of mites. The experiment showed that mites alone

includes chemicals like pesticides, biocontrol uses living organisms.

PESTICIDES
Chemicals used to kill, reduce, or control unwanted organisms.These chemicals can be harmful to the environment and can kill harmless or helpful organisms, too.
These organisms are like gardeners: they control the pests, and help us to have healthier plants [ ].
In this article, we will explore how tiny spider-like (arachnids) creatures ARACHNID A taxonomic group of animals that includes spiders, scorpions, ticks, and mites.They normally have eight legs and characteristic mouth parts: the chelicerae and the palps.
called predatory mites can be used to control a plant parasite.Mites live in the soil, in the ocean, in our beds, and even in the lungs of birds!All arachnids, including mites, have special mouth tools called chelicerae and palps, which are used to feed on other organisms [ ].
The plant parasite that scientists were trying to control in this study are nematodes.Nematodes are miniature worm-like organisms, and they are some of the most common animals on Earth.Not all nematodes harm plants-some can be quite helpful, too.Just like mites, nematodes live in a wide range of di erent environments.We find them in the soil, on mountains, and even in vinegar.

WHAT DO SOIL NEMATODES DO?
You may have heard about the important roles earthworms play in soil, but maybe you did not know that other types of worms can also be found in the soil, including nematodes.There are two main types of nematodes in soil: free-living nematodes that live freely

FREE-LIVING NEMATODES
Nematodes (worm-like creatures) that do not depend on other organisms to survive.Instead, they live freely in soil, water and even in decaying leaves or other natural places.
in the soil and other nematodes that live as parasite that damage plants.Some free-living nematodes munch on bacteria, others on fungi, and some even eat other nematodes!Free-living nematodes provide high-quality nutrients to the soil that help plants grow (Read more in this Young Minds article).Root-knot nematodes are a type of parasitic nematodes that attack plants through their roots (Read more in this Young Minds article).These nematodes have only a juvenile stage that is free in the soil and seeks out the roots of plants.When the nematodes find the plant, they dig into the roots and trick the plant into form large, knot-like structures on the roots, called galls, where the worms feed [ ]. Galls on the roots limit a plant's ability to take up nutrients, which damages plant health over time and can lead to crop failures, costing farmers enormous amounts of money.

HOW TO BOOST PREDATORY MITES IN THE SOIL TO REGULATE THE NUMBER OF ROOT-KNOT NEMATODE?
Nematodes are the most abundant prey for predatory mites that live in the soil, as they contain high-quality nutrients.Since root-knot nematodes spend most of their lives within roots, free-living Rueda-Ramírez and HU Scientific Writing Class Small Worms and Their Enemies nematodes are typically a more reliable food source for mites.How do predatory mites regulate the nematodes?By eating free-living GALL A swollen and distorted area on plant roots caused by root-knot nematodes.The nematode causes this growth by injecting special substances into the roots, making them to grow strangely.

PREY
An animal that is hunted or killed by another for food.
nematodes, predatory mites obtain the nutrients that keep them healthy enough to reproduce a lot, creating even more mites.More predatory mites eat more juveniles of the harmful nematodes before they enter to the roots.Thus, fewer root-knot nematodes would damage the plants and steal their nutrients (Figure ).To use predatory mites as biocontrol agents for root-knot nematodes, they will need plenty of food to keep their population stable.So how can predatory mites and free-living nematodes be used to protect tomato plants from root-knot nematodes damage (Figure )?

THE EXPERIMENTS
The scientists designed two experiments to evaluate the e ects of free-living nematodes and predatory mites on root-knot nematodes control and plant health, using tomato plants grown in pots in a greenhouse.To judge plant health, the scientists looked at the number of galls on the root, roost's area, and nutrients in the leaves.In the first experiment, they collected data after weeks, at the time of flowering.
Rueda-Ramírez and HU Scientific Writing Class Small Worms and Their Enemies In the second experiment, the scientists took data after weeks, when the tomatoes were ready to harvest.
For each experiment, the scientists used eight pots.Pot contained root-knot nematodes, free-living nematodes, and predatory mites.Pot contained only nematodes-root-knot nematodes and free-living nematodes.Pot contained mites with free-living nematodes; and pot contained mites with root-knot nematodes (Figure ).Pot had no organisms and was used as a control, to observe how the CONTROL A special sample that helps us check if our experiment is going well.They stay unchanged to compare and see how things di er when we test other samples.tomato plant grew without the influence of mites or nematodes.Pots -contained one species of organism each: root-knot nematodes, free-living nematodes, or mites.With these controls, they ensured that the influence of all animals alone and in combination could be observed.To verify the results, the experiment was repeated times.For all pots, the scientists counted the predatory mites and the number of galls and the area on the tomato plants' roots.After the second experiment, they measured the nutrients in the leaves at the time of the tomato harvest.This told them how much the galls were limiting the nutrient uptake of the plants.Moreover, to document feeding, the scientists froze the mites while they were eating and viewed them under a scanning electron microscope.

INTERACTIONS BETWEEN MITES AND NEMATODES
Nematodes and predatory mites live in the same environment and interact with each other in various ways that can be seen as beneficial or harmful, depending on your point of view.When predatory mites eat the root-knot nematodes, this is harmful to the Rueda-Ramírez and HU Scientific Writing Class Small Worms and Their Enemies root-knot nematodes but beneficial for the mites and plants.While conducting the experiments the scientists observed how mites eat both nematodes, using their special mouth tools.With the palps they hold and squeeze the nematode and with the chelicerae they perforate the prey and consume their insides (Figure B).The scientists saw that, after weeks, the highest number of predatory mites was found in the soil containing both nematode species.In the soil containing only free-living nematodes, the number of mites was also increased.But when only root-knot nematodes were present, the number of mites remained the same.This means that the predatory mites produced more o spring and increased their numbers when free-living nematodes were present.So, free-living nematodes were good food for the mites!This makes sense because when the predatory mites have a healthy diet, they are fitter and can reproduce more.More predatory mites mean more parasitic nematodes are eaten, leaving fewer root-knot nematodes to harm plant roots!
The results of the second experiment could not prove anything, because unfortunately the mites migrated to pots where the scientists did not place them.This probably happened because the growing mite population did not have enough food and space in their original location.So, another study is needed.

MITES, NEMATODES, AND PLANT HEALTH
The health of most plants in the study was negatively a ected by root-knot nematodes.The parasites constantly draw nutrients out of the plant, and roots infected with root-knot nematodes were smaller compared to healthy, non-infected roots.
Rueda-Ramírez and HU Scientific Writing Class Small Worms and Their Enemies When predatory mites were present in the soil, the plants' roots showed a higher surface area, meaning they were healthier.The scientists think the mites loosen up the soil as they move around, which provides more space in the soil for the roots to grown and take up nutrients.Roots of plants infected with root-knot nematodes were covered with many galls.The presence of predatory mites reduced the number galls, but the greatest reduction in galls was seen when mites and free-living nematodes were both present (Figure ).
Surprisingly, even when free-living nematodes and root-knot nematodes were present without mites, there were fewer galls than with root-knot nematodes alone, and those plants had more nutrients, especially in the leaves.Other scientists found that free-living nematodes help convert nitrogen in the soil into forms that plants can use for their nutrition.With more nutrients available, the plants can grow stronger and balance out for the nutrient loss caused by root-knot nematodes.

WHY ARE THE RESULTS IMPORTANT?
As you already know, root-knot nematodes can harm many plants.Plants infected with root-knot nematodes have root galls and contain fewer of the nutrients needed for growth.Besides tomatoes, root-knot nematodes can harm important crops like beans, bananas, and lettuce.Root-knot nematodes cause enormous harvest losses worldwide, causing farmers to lose lots of money.Controlling root-knot nematodes is important to protect our food supply and support e cient farming.
To reduce damage caused by root-knot nematodes, the typical solution is to use pesticides.While this solution can be e ective for controlling root-knot nematodes, it has negative e ects on the environment, polluting soil and water, and killing many harmless or even useful organisms.This is why it is important to control root-knot nematodes using biocontrol that does not harm other organisms in the environment.
In this study, scientists tested predatory mites as a biocontrol method for root-knot nematodes.Their results showed a new, natural way to fight root-knot nematodes.Adding free-living nematodes or predatory mites to a plant's soil reduced the damage by root-knot nematodes.Adding both organisms was even better!Adding both free-living nematodes and mites increased the number of predatory mites, which fed on both "good" and "bad" nematodes.The number of galls was reduced, and the amount of nutrients in the plants was improved.Overall, this treatment enhances the plants' fitness.This method shows the potential of conserving predatory mites and free-living nematodes as tools for biological control of plant-parasitic nematodes.
Rueda-Ramírez and HU Scientific Writing Class Small Worms and Their Enemies To keep our environment healthy and protect our food, it is necessary to do more research on biocontrol.This research showed that it is possible to use predatory mites as biocontrol for nematodes.Biodiversity, stabilizing environmental conditions and diverse food options are important for predators.Increasing the amount of food available for predators increases the number of predators and then more predators eat more prey-boosting biocontrol.In the future, scientists should try to figure out which soil conditions and climates help free-living nematodes and predatory mites to survive and reproduce.The more we can improve the living conditions of these organisms, the better able we will be to fight harmful nematodes and possibly control other soil pests.

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FigureThe scientists studied three types of organisms that a ect tomato plants.Free-living nematodes (FLNs) live outside the roots.Root-knot nematodes (RKNs) usually live inside the roots, but their juvenile (young) stages are found in the soil.Mites eat both the FLNs and the juvenile stage of RKNs.The aim of the experiment was to see how mites, RKNs, and FLNs interact to a ect the health of tomato plants (Image credit: Svenja Seifert). Figure

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Figure (A) The results of the first experiment showed that, at the flowering stage, the mites alone, and in combination with FLN, reduced the damage caused to the plants by the harmful nematodes.Surprisingly, FLN alone also reduced the damage in a similar way as when mites alone were added (Image credit: Svenja Seifert).(B) Scanning electron microscope image of a mite eating a nematode (Photo credit: Gary Bauchan and Eric Palevsky).