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The image shows the Venus Flytrap capturing prey through a sequence of steps for both small and large traps. In the small trap process: Step 1 shows prey at 3 trigger hairs, Step 2 illustrates the trap snapping shut, Step 3 displays digestion with enzyme release, Step 4 indicates nutrition absorbed, and the trap snaps open. In the large trap process: Step 4 shows prey at the center with 6 visible trigger hairs, Step 5 depicts the trap snapping shut around the captured prey, Step 6, without numerical data point change, finalizes digestion and reopens the trap.
Given the complexity of the image, the above description may not be entirely accurate.
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The diagram displays how different Venus Flytraps species enhance the efficiency of their digestive enzymes for handling small prey.
To begin, the smaller Venus Flytraps has fine trigger hairs located in the inner surface of the trap to detect whenever small preys – like flies or spiders – crawl on, which causes the plant to quickly snap itself shut, trapping the prey inside as it oozes out the digestive enzyme. Furthurmore, Once the tiny insect has been broken down by the enzymes, the nutrients gets absorbed.
On the other hand, when the same small prey lands on the larger Venus fly trap, it will close initially. However, it will soon reopen to let the insect escape. As a result, no digestion takes place as there will be insufficient amount of nutrients for the larger Venus Flytrap. The plant will not to waste its digestive enzymes on the insect since it is so small.
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