Chemosynthetic Food Web


The struggle for food is one of the most important and complex activities to occur in an ecosystem. To help simplify and understand the production and distribution of food within a community, scientists often construct a food web, a diagram that assigns species to generalized, interlinked feeding levels. Each layer of the web represents a particular role in the movement of organic energy through the community.

Despite their unusual nature, faunas based on chemosynthesis are tied together by food webs similar to those of better-known communities. The hydrothermal vent food web below has four layers:


You will reconstruct a hydrothermal vent fauna food web on the diagram below. Click on the name of each animal to bring up its photograph and description. Then drag the name to the appropriate web layer. Once you have filled in all the spots in the food web, click on the “Show Food Web” button to see how these animals interact.

Critical Thinking Question

Marine scientists were stunned to find complex ecosystems based on chemosynthesis flourishing around deep-sea hydrothermal vents. This discovery also caught the attention of space scientists, giving them renewed hope that they might find life elsewhere in the solar system. Explain why chemosynthesis may be more likely to support life on distant worlds than photosynthesis.

Possible Answer

Scientists seek to understand and explain how the natural world works. Many of the questions raised in this endeavor have no absolute answers.

Although photosynthesis is widespread on Earth, it has fairly stringent requirements. Levels of carbon dioxide, water, and sunlight must be just right, and the temperature can’t be too hot or too cold. Planets closer to the sun than Earth may be too hot, dry, or bright for photosynthesis, while those farther away appear to be too dark and cold. Chemosynthesis is more flexible than photosynthesis. On Earth alone it occurs under a wide temperature range and utilizes a number of different chemicals, and it is unaffected by light intensity. Because chemosynthetic organisms can function in such harsh and hostile habitats on Earth, it seems possible that chemosynthesis may also be occurring under the difficult conditions found on other worlds.