Tag: symbiotic

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Animals Growing Crops

Animals Growing Crops

We generally think of farming as a human enterprise, but there are cases in the natural world of animals growing crops. In most cases, the crop they are raising could not survive without the animal tending it. Some good examples are living things that eat fungi or algae. 

Researchers at Kyoto University in Japan studied red algae called Polysiphonia. These algae have a symbiotic relationship with a species of damselfish (Stegastes nigricans). Red algae look like a brown carpet, and the damselfish make sure that the carpet is not disturbed. If any other species of algae shows up among the red algae, the damselfish will nip it off and take it out of the fish’s territory. If the damselfish is removed from the area, the red algae can’t survive. So it appears that the damselfish are critical to the survival of the red algae and vice versa. 

There have been other studies of certain species of ants, termites, and ambrosia beetles that grow fungi for food. Some of these “farmers” even use bacteria to produce pesticides to protect their fungus crops. How do such symbiotic relationships happen? Evolutionists suggest that initially, the animal had a varied diet but becoming dependent on one thing offered such an advantage that the animal gave up any other foods. 

The difficulties with the evolutionary explanation are many and quite complex. The nutritional issues are a problem because a single source of nutrition must have a balanced collection of minerals. Going from a varied diet to a single food does not seem to be an evolutionary advantage. Defending the food source is also an issue. For example, when the researchers removed the damselfish, other fish and sea urchins had eaten all of the red algae within days. 

Another explanation is that symbiotic relationships are part of the design of every animal’s genome. The earliest fossil remains of many animals show that a symbiotic relationship was already in place. We suggest that animals growing crops is part of God’s design. He gave them the genetic messaging and instinctive drive necessary for them to survive. 

— John N. Clayton © 2021

Reference: Original article in Science News August 12, 2006, page 102. You can find many other references on the web. 

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Anemones and Clownfish Symbiosis

Anemones and Clownfish Symbiosis
Common Clownfish and Red Sea Anemone

There is an interesting relationship between anemones and clownfish. If you have had the joy of snorkeling in undeveloped areas, you may have had the unpleasant experience of bumping into one of some 800 species of anemones. Their tentacles contain toxin-filled capsules called nematocysts that fire stingers at anything that touches them. I can tell you from personal experience that it is extremely painful.

I finally learned to stay away from the anemones and just look at them. I saw that some fish died when they touched the tentacles. Interestingly, other fish, shrimp, and crabs lived among the tentacles and seemed unaffected by their stings. The very colorful clownfish lives right in the middle of the tentacles and appears to be immune to the anemone’s poison. Spider crabs and shrimp live at the base of the anemones. Crabs carry around baby anemones using them as defensive weapons. Even a baby anemone could deliver a nasty sting to my finger.

The clownfish seem to have the greatest skill for avoiding the anemone stings. When the clownfish is threatened, it will dive into the anemone tentacles for protection. The anemones eat algae remains that float in the water, and also small fish, sea urchins, shrimp, and some crabs. The clownfish benefit the anemones by removing parasites from them while the anemones provide the clownfish protection from predators.

So how do the clownfish avoid being stung by the anemones? They secrete a very thick mucus that does not trigger a response from the nematocysts. The clownfish can be all over the anemones and not get stung. Scientists are studying the mucus of the clownfish because it has potential uses for humans. The mucus is an anticoagulant and disrupts the gill function in sharks, making it an excellent shark repellent. Some researchers believe that the clownfish gets the mucus from the anemones, but other research studies show that the clownfish has a gene that produces the mucus. Research continues in the study of anemones and clownfish.

Science has a lot of data without a clear answer to how anemones and clownfish live in such a well-orchestrated symbiotic relationship. It would appear that the design of this symbiosis, like many others, is a product of God’s design and is not naturally acquired.

— John N. Clayton © 2020

Data from National Wildlife magazine April/May 2020 and their websites.