Parasitic nutritive strategy involves deriving nutrition from other organisms without killing them. Examples include parasites such as the cuscuta (amar-bel), ticks, lice, leeches, and tapeworms, which feed off the host organism’s resources without necessarily causing immediate death.
What is parasitic nutritive strategy, and what are some examples of organisms that employ it?
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Parasitic nutritive strategy is a form of feeding in which an organism, called a parasite, obtains nutrients from a host organism, often at the host’s expense. Parasites can live on or inside their hosts and rely on them for resources necessary for their survival and reproduction. They typically have adaptations for attachment, evasion of host defenses, and efficient nutrient uptake.
Examples of organisms employing parasitic nutritive strategy include:
1. Tapeworms (e.g., Taenia saginata) living in the intestines of vertebrates.
2. Malaria parasites (e.g., Plasmodium falciparum) transmitted by mosquitoes, infecting the red blood cells of vertebrate hosts.
3. Fleas (e.g., Ctenocephalides felis) feeding on the blood of mammals.
4. Dodder (genus Cuscuta), a parasitic plant lacking chlorophyll, obtaining nutrients from other plants.
5. Human lice (e.g., Pediculus humanus capitis) infesting humans, feeding on blood.
These examples demonstrate the diverse ways parasites exploit hosts for nutrition, often causing harm or disease to the host in the process.
The parasitic nutritive strategy involves obtaining nutrients from a host organism, often to the detriment of the host’s health. Parasites rely on the host’s resources and typically have specialized adaptations for attachment, feeding, and reproduction. Examples include the Plasmodium species causing malaria, which invades and feeds on human red blood cells, and tapeworms, which absorb nutrients from the host’s digestive system. Plants can also exhibit parasitic behavior, such as dodder, a parasitic plant that extracts nutrients from its host plants. Parasitism is a diverse strategy found across various taxa, demonstrating the evolutionary adaptations for nutrient acquisition.