NEED HELP ASAP !!! Do you think the spotted salamander and Elysia chlorotica completely meet the autotroph definition? Explain your response.
Answers
The spotted salamander is not a new species for researchers, and it has long been known that animal embryos share a symbiotic relationship with photosynthetic algae. However, that relationship was always considered to be an outsider, from which algae and salamanders used to work differently towards the fair exchange of resources.
While studying a batch of salamander embryos, something different than the current theory - a bright green color was coming from inside his cells.
The color usually indicates the presence of chlorophyll, which is a light-absorbing green pigment that makes photosynthesis possible.
Elysia Chlorotica Chloroplasts of the algae are included in the cell through the process of phagocytosis in which the sea slug cells surround the algae cells and make the chloroplasts part of their cellular content. Incorporation of chloroplasts within the cells of Elysia chlorotica allows light to hold the energy directly from the slug, because most plants do it through the process of photosynthesis. E. Chlorotic, during the time period, where algae is not easily available in the form of food supplies, survives for months. It was once thought that the existence depends on the sugar produced by the photosynthesis performed by chloroplasts, and it has been found that chloroplasts can survive and work for nine or ten months.
Hence both the species meet the autotroph definition.
The spotted salamander and Elysia chlorotica completely does not meet the autotrophs definition.
Explanation:
It is because both are dependent on the algae which is present inside their bodies. Though they have green colored pigments called as chlorophyll yet they don’t possess the ability to prepare their own food. They help the algae which live inside their body and in turn the algae perform the food which is utilized by both types of organism.