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23.3 Nutritional adaptations of plants (Page 3/3)

The dodder is a holoparasite that penetrates the host’s vascular tissue and diverts nutrients for its own growth. Note that the vines of the dodder, which has white flowers, are beige. The dodder has no chlorophyll and cannot produce its own food. (credit: "Lalithamba"/Flickr)

Saprophytes

A saprophyte is a plant that does not have chlorophyll and gets its food from dead matter, similar to bacteria and fungi (note that fungi are often called saprophytes, which is incorrect, because fungi are not plants). Plants like these use enzymes to convert organic food materials into simpler forms from which they can absorb nutrients ( [link] ). Most saprophytes do not directly digest dead matter: instead, they parasitize fungi that digest dead matter, or are mycorrhizal, ultimately obtaining photosynthate from a fungus that derived photosynthate from its host. Saprophytic plants are uncommon; only a few species are described.

Saprophytes, like this Spotted Coralroot ( Corallorhiza maculata) , obtain their food from the mycelium of soil fungi, and do not have chlorophyll. The Spotted Coralroot is found in montane forests in northern and western North America and Central America. This specimen was photographed in the Pecos Wilderness area in New Mexico. (credit: photo by D. A. Rintoul)

Epiphytes

An epiphyte is a plant that grows on other plants, but is not dependent upon the other plant for nutrition ( [link] ). Epiphytes have two types of roots: clinging aerial roots, which absorb nutrients from humus that accumulates in the crevices of trees; and aerial roots, which absorb moisture from the atmosphere.

These epiphyte plants grow in the main greenhouse of the Jardin des Plantes in Paris.

Insectivorous plants

An insectivorous plant has specialized leaves to attract and digest insects. You are probably familiar with the Venus flytrap, which has leaves that work as snap-traps . Other kinds of carnivorous plants, such as the sundews, are decorated with glands that secrete a sticky fluid which both attracts and then later digests insects that become ensnared in the sticky fluid. And still another group includes the pitcher plants, which typically catch and hold rainwater in a pitcher-shaped organ. The plant secretes nutrients as well as digestive enzymes into the trapped water. Insects are attracted to, and then fall into, the pool of fluid; they cannot easily escape due to the downward-facing hairs that line the inside of the "pitcher". One unique kind of pitcher plant is the California Pitcher Plant ( Darlingtonia californica , [link] ), found in bogs and seeps in the mountains of northern California and southern Oregon. The plant, also known as the Cobra Lily, is unique in that it does not trap rainwater in the pitcher, but rather pumps it up from the roots. A tiny entrance hole underneath the "head" of the cobra-shaped structure allows insects in, but they cannot get back out once they are trapped in the digestive fluid stored below. All carnivorous plants are found in nitrogen-poor soils, and obtain the bulk of this critical nutrient from the bodies of insects and other animals that they trap and digest.

A California Pitcher Plant has specialized leaves to trap insects. This specimen was photographed in the Trinity Alps Wilderness in northern California. (credit: photo by D. A. Rintoul)

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OpenStax, Principles of biology. OpenStax CNX. Aug 09, 2016 Download for free at http://legacy.cnx.org/content/col11569/1.25

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