Have you ever seen a unique animal with a long body shape that looks transparent? Yes, worms! Worms are often found in wet areas and there is a lot of soil and plants. Would You Know How Much “Weight Of Average Worm” Learn more about it?
What is the main food of earthworms?
In addition to leaves, worms also like to eat the rotting roots of plants. In addition to leaves and roots, worms also like to eat small creatures. For example, nematodes, protozoa, rotifers, and bacteria present in the soil. Worms also like to eat mushrooms that are in the soil.
How big is the average worm?
Typical specimens of ordinary earthworms (Lumbricus Terrestris) have the following average sizes: Mass – 3.7 g. Length – 12 cm. Width – 0.64 cm.
Would You Know How Much “Weight Of Average Worm”
250 g is out of 1000 worms, so if you start a worm farm with 1000 worms you should be able to add about 125 g of leftover food per day, almost 1 kg per week.
How many pounds of worms?
Here’s what they calculated: About 1000 adult composting worms equate to a pound. About 4000 juvenile composting worms are equivalent to a pound. More than 100,000 composting worm hatchlings are needed for the equivalent of a pound.
How many worms are in the ground?
Over 1 million rats might be within an acre of dirt, and such worms may create 700 lbs of castings daily.
Besides, do you know the brain is divided into two sides, namely the left brain and the right brain? All these very significant and intricate organs have specific parts with their various functions on the human body. What Exactly Does The Left Side of Your Brain Control and Understanding The Effect of Brain Injury? Know the truth.
The difference between parasitic worms and earthworms?
Parasitic worms are worms that live as parasites in other organisms, either animals or plants.
They are worm-like organisms that live and feed on the body and receive food and protection while absorbing the nutrients of the body.
This absorption leads to weakness and disease. Diseases caused by parasitic worms are commonly referred to in general as defiance. Parasitic worms are generally members of Cestode, Nematodes, and Trematodes.
Earthworms are tube-shaped worms and are segmented in the phylum Annelida. They are commonly found living in soil, eating the living, and dead organic matter.
The digestive system runs through the length of his body. Earthworms respire through their skin. Earthworms have a dual transport system consisting of a seldom fluid that moves in a cellom containing liquid and a simple closed circulatory system.
It has a central and peripheral nervous system. The central nervous system consists of 2 ganglia Within the Mouth Area, one on either side, connected to the nerve cord running back along its length to motor neurons and sensory cells in each segment.
A large amount of chemoreceptors is concentrated near his mouth. The circular and longitudinal muscles at the periphery of each segment allow the worm to move. The same set of intestinal line muscles and their action moves digesting food towards the anus of the worm.
Do worms have eyes?
Not really. Rather, they’ve cells called receptors which could sense whether it is dark or light. This allows worms to know if they are underground or above ground.
How do worms breathe?
The worm breathes using the entire surface of its skin. This is because worms live in the ground. The wet surface of the skin absorbs oxygen.
How long do worms live?
Worms can live for 4 years. When the worm dies in the trash, its body will rot and be recycled by other worms, along with food waste.
How do worms eat?
They don’t have teeth. The lip-like extension above the mouth helps direct food into the mouth, where the muscle pharynx (throat) catches it, coats it with saliva, and pushes it into the esophagus into the plant, where it is stored before moving to the gizzard.
How many lives does a worm have?
They grow sex organs in the first two or three months of life and reach full size in about a year. They can live up to eight years, although one to two years is more likely.
Benefits of earthworms for the human body
The use of these invertebrate animals as a traditional treatment for various diseases has been used in China for a long time.
Research on the pharmaceutical effects of earthworms has begun along with the development of biochemical technologies.
Many bioactive molecules that can be considered as drugs have been detected in the body of such worms.
These molecules exhibit a variety of activities, such as the introduction of immunology, fibrinolytic, anticoagulative, anticancer, and antimicrobial, and thus earthworms can serve to treat various diseases.
It was one of the first organisms in evolution to have an introduction to immunology and memory. Earthworms, like other complex invertebrates, produce several types of leukocytes, as well as synthesize and secrete various immunoprotective molecules.
They have innate immunity, including some functions associated with adaptive immunity (rejection of allogenic tissue). Hemocytes are involved in innate immunity, playing a central role in the immune system of earthworms.
A potent and safe fibrinolytic enzyme, it has been purified and studied from several species of earthworms, including Lumbricus rubella and Eisenia fetida. Therapeutic and preventive effects of thrombosis-related diseases have been clinically confirmed.
The potential use of fibrinolytic enzymes in the prevention and treatment of serious heart and cerebrovascular diseases has attracted the attention of the medical and pharmacological fields.
The antitumor effect of earthworms has been studied in vitro and in vivo. It has been proven that EFE (a fibrinolytic enzyme of earthworms) isolated from E. fotida exhibits antitumor activity against human hepatoma cells.
Hepatocellular carcinoma (HCC) is the fifth most common cancer and the third leading cause of death by cancer worldwide. EFE induces apoptosis cells in these cells.
The results showed that EFE can be used in the treatment of hepatoma. Besides, a macromolecular mixture of homogenate E. foetida inhibits the growth of melanoma cells in vitro and in vivo.
Antipyretics and antioxidants
The antipyretic activity has also been detected in worm species Lumbricus and Perichaeta, as well as in the earthworm mineral lamp to Mauritius.
This activity is similar to what aspirin obtains. The mineral daro L. Mauritius also exhibited excellent antipyretic and antioxidant action in the treatment of peptic ulcers in rats.
The protection of the human body against free radicals is very important because it is connected with the advancement of defenses for many chronic diseases.
Non-enzymatic antioxidants, such as glutathione, vitamins C and E, Tocopherol, and Ceruloplasmin, protect cells from oxidative damage.
Over the past 700 million years of their existence, earthworms have evolved in environments full of microorganisms. Some of them threaten their existence. Therefore, they have developed an efficient mechanism against the attack of microorganisms. There are various Connections between earthworms and microbes, Specifically:
- Microbes are food for earthworms.
- Microbes are nutritional ingredients for growth and reproduction.
- Microbes are partly Gram-positive bacteria.
- Pathogens are digested by earthworms and thus facilitate the multiplication of microbes in the intestines.
- Microbes are distributed to new places in the soil.
The molecules that retain earthworms from microbes have been detected in the cello mic fluids of Lumbricus and Eisenia. Some reports also discuss anti-microbial agents derived from earthworm tissue.
Many scientists and medical groups have been looking for ways to improve wound care and help heal wounds. Wound healing on the skin is a complex process, characterized by epithelialization (the growth of young skin cells that close the wound) and the restoration of connective tissue.
Minerals obtained from worm species L. Mauritius can act as an anti-inflammatory, antioxidant, and hepatoprotective activity. Therefore, these worms can be considered in the treatment of wounds including various human diseases.