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Root - Root structure | | Root - Root structure: Encyclopedia II - Root - Root structure | | At the tip of every growing root is a conical covering of tissue called the root cap. It usually is not visible to the naked eye. It consists of undifferentiated soft tissue (parenchyma) with unthickened walls covering the apical meristem. The root cap provides mechanical protection to the meristem cells as the root advances through the soil, its cells worn away but quickly replaced by new cells generated by cell division within the meristem. The root cap is also involved in the production of mucigel, a sticky mucilage t ...
See also:Root, Root - Root structure, Root - Root growth, Root - Types of roots, Root - Specialized roots, Root - Rooting depths, Root - External link | | | Root, Root - External link, Root - Root growth, Root - Root structure, Root - Rooting depths, Root - Specialized roots, Root - Types of roots, Rhizophilous - organisms which thrive in a proximity or in a symbiotic relationship with plant roots., Mycorrhiza - root symbiosis in which individual hyphae extending from the mycelium of a fungus colonize the roots of a host plant., fibrous root system, stolon | | |
| | | Root: Encyclopedia II - Root - Root structure
Root - Root structure
At the tip of every growing root is a conical covering of tissue called the root cap. It usually is not visible to the naked eye. It consists of undifferentiated soft tissue (parenchyma) with unthickened walls covering the apical meristem. The root cap provides mechanical protection to the meristem cells as the root advances through the soil, its cells worn away but quickly replaced by new cells generated by cell division within the meristem. The root cap is also involved in the production of mucigel, a sticky mucilage that coats the new formed cells. These cells contain statoliths, starch grains that move in response to gravity and thus control root orientation.
The outside surface of a root is the epidermis. Recently produced epidermal cells absorb water from the surrounding environment and produce outgrowths called root hairs that greatly increase the cell's absorptive surface. Root-hairs are very delicate and generally short-lived, remaining functional for only a few days. However, as the root grows, new epidermal cells emerge and these form new root hairs, replacing those that die. The process by which water is absorbed into the epidermal cells from the soil is known as osmosis. For this reason, water that is saline is more difficult for most plant species to absorb.
Beneath the epidermis is the cortex, which comprises the bulk of the root. Its main function is storage of starch. Intercellular spaces in the cortex aerate cells for respiration. An endodermis is a thin layer of small cells forming the innermost part of the cortex and surrounding the vascular tissues deeper in the root. The tightly packed cells of the endodermis contain a substance known as suberin and create an impermeable barrier of sorts. Water can only flow in one direction through the endodermis: in towards the center of the root, rather than outward from the stele to the cortex.
The vascular cylinder, or stele, consists of the cells inside the endodermis. The outer part, known as the pericycle, surrounds the actual vascular tissue. In monocotyledonous plants, the xylem and phloem cells are arranged in a circle around a pith or center, whereas in dicotyledons, the xylem cells form a central "hub" with lobes, and phloem cells fill in the spaces between the lobes.
Other related archivesaerial, Avicennia, Betulaceae, Casuarinaceae, Fabaceae, Moraceae, Mycorrhiza, Myricaceae, Plant anatomy, Plant morphology, Plant physiology, Rafflesia, air, apical meristem, beets, carrots, cork, cork cambium, cylinder, dicots, dicotyledons, endodermis, epidermis, epiphytic, fibrous root system, germination, gravitropism, iron, ivy, mangrove, mistletoe, monocots, monocotyledonous, nodes, nutrients, orchids, osmosis, periderm, phloem, phosphate, pith, plant, radicle, respiration, rhizome, root hairs, saline, soil, starch, stele, stem, stolon, strawberry, suberin, taproot, thigmotropism, tuber, vascular, vascular cambium, vascular plants, vascular tissues, water, white clover, woody plant, xylem
 Adapted from the Wikipedia article "Root structure", under the G.N U Free Docmentation License. Please also see http://en.wikipedia.org/wiki |
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