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 Micrograph shows collenchyma cells, which are irregularly shaped and 25 to 50 microns across. The collenchyma cells are adjacent to a layer of rectangular cells that form the epidermis.
Collenchyma cell walls are uneven in thickness, as seen in this light micrograph. They provide support to plant structures. (credit: modification of work by Carl Szczerski; scale-bar data from Matt Russell)

Sclerenchyma cells also provide support to the plant, but unlike collenchyma cells, many of them are dead at maturity. There are two types of sclerenchyma cells: fibers and sclereids. Both types have secondary cell walls that are thickened with deposits of lignin, an organic compound that is a key component of wood. Fibers are long, slender cells; sclereids are smaller-sized. Sclereids give pears their gritty texture. Humans use sclerenchyma fibers to make linen and rope ( [link] ).

Art connection

 Part A shows a cross section of a flax stem. The pith is white tissue in the center of the stem. Outside the pith is a layer of xylem. The inner xylem cells are large, while ones further out are smaller. The smaller xylem cells radiate out from the center, like spokes on a wheel. Outside the xylem is a ring of phloem cells. The phloem is surrounded by a layer of sclerenchyma cells, then a layer of cortex cells. Outside the cortex is the epidermis. Part B is a painting of women working with linen cloth. One is smoothing the cloth on a table, and the other women are sitting with linen on their laps. Part C is a photo of flax plants, which have long, wide leaves that taper toward narrow tips.
The central pith and outer cortex of the (a) flax stem are made up of parenchyma cells. Inside the cortex is a layer of sclerenchyma cells, which make up the fibers in flax rope and clothing. Humans have grown and harvested flax for thousands of years. In (b) this drawing, fourteenth-century women prepare linen. The (c) flax plant is grown and harvested for its fibers, which are used to weave linen, and for its seeds, which are the source of linseed oil. (credit a: modification of work by Emmanuel Boutet based on original work by Ryan R. MacKenzie; credit c: modification of work by Brian Dearth; scale-bar data from Matt Russell)

Which layers of the stem are made of parenchyma cells?

  1. cortex and pith
  2. phloem
  3. sclerenchyma
  4. xylem

Like the rest of the plant, the stem has three tissue systems: dermal, vascular, and ground tissue. Each is distinguished by characteristic cell types that perform specific tasks necessary for the plant’s growth and survival.

Dermal tissue

The dermal tissue of the stem consists primarily of epidermis    , a single layer of cells covering and protecting the underlying tissue. Woody plants have a tough, waterproof outer layer of cork cells commonly known as bark    , which further protects the plant from damage. Epidermal cells are the most numerous and least differentiated of the cells in the epidermis. The epidermis of a leaf also contains openings known as stomata, through which the exchange of gases takes place ( [link] ). Two cells, known as guard cells    , surround each leaf stoma, controlling its opening and closing and thus regulating the uptake of carbon dioxide and the release of oxygen and water vapor. Trichomes are hair-like structures on the epidermal surface. They help to reduce transpiration (the loss of water by aboveground plant parts), increase solar reflectance, and store compounds that defend the leaves against predation by herbivores.

 The electron micrograph in part A shows the lumpy, textured of a leaf epidermis. Individual cells look like pillows arranged side by side and fused together. In the center of the image is an oval pore about 10 microns across. Inside the pore, closed guard cells have the appearance of sealed lips. The two light micrographs in part B shows two kidney-shaped guard cells. In the left image, the stoma is open and round. In the right image, the stoma is closed and oval shaped. Part C is an illustration of the leaf epidermis with a oval stomatal pore in the center. Surrounding this pore are two kidney-shaped guard cells. Rectangular epidermal cells surround the guard cells.
Openings called stomata (singular: stoma) allow a plant to take up carbon dioxide and release oxygen and water vapor. The (a) colorized scanning-electron micrograph shows a closed stoma of a dicot. Each stoma is flanked by two guard cells that regulate its (b) opening and closing. The (c) guard cells sit within the layer of epidermal cells (credit a: modification of work by Louisa Howard, Rippel Electron Microscope Facility, Dartmouth College; credit b: modification of work by June Kwak, University of Maryland; scale-bar data from Matt Russell)

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Source:  OpenStax, Bio 351 university of texas. OpenStax CNX. Dec 31, 2015 Download for free at https://legacy.cnx.org/content/col11943/1.1
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