Stems
Conifer
"Cone Bearing" woody dicot. The wood in these is relatively soft because the xylem consists only of tracheids, with no vessels or fibers
Axillary Bud
A bud that develops in the axil of a leaf of a plant (synonymous with lateral bud).
Stele
A central cylinder in some stems, consisting of a solid core of conducting tissues. In this type of cylinder, phloem tissues surround xylem tissues. Not commonly found in modern plants.
Cladophyll
A flattened stem that looks like a leaf (Example: Prickly cactus, asparagus)
Ray
A radiate band of parenchyma cells extending from the vascular cambium through the secondary xylem extending into the secondary phloem of the stems of certain vascular plants, formed by the cambium and serving for the storage of food and the conduction of nutrients.
Tendril
A specialized stem, leaf or petiole with a threadlike shape that is used by climbing plants for support, attachment and cellular invasion by parasitic plants, generally by twining around suitable hosts
Bark
All of the tissues outside the cambium, including the phloem
Inner bark
Composed of Primary and secondary phloem
Outer bark
Composed of cork cambium and cork tissue
Pith
Composed of soft, spongy parenchyma cells, which store and transport nutrients throughout the plant. Located in the center of the stem.
Cork Tissue
Cut off water and food supplies to the epidermis, which is why the epidermis is just dead tissue on woody plants.
Tuber
Develop from Stolon
Annual Ring
Each of a number of concentric rings in the cross section of a tree trunk, representing a single year's growth
Primary Tissue
Epidermis, Primary Xylem, Primary Phloem, Pith, Cortex.
Lenticel
Functions as a pore on stems, providing a pathway for the direct exchange of gases between the internal tissues and atmosphere through the bark, which is otherwise impermeable to gases
Companion Cell
Have a nucleus, and help the sieve tube members of phloem (which have no nuclei) do their job.
Eustele
In modern plants, these consist of paired vascular bundles of xylem and phloem.
Phelloderm
In woody plants, this is another word for the CORK CELLS that are filled with SUBERIN - for permeability against water.
Pith
Inner layer made by ground meristem.
Bulb
Large buds that are surrounded by fleshy leaves. Small stem at lower end. These store food. (Example: Daffodils, tulips, onions)
Corm
Like a bulb, but with stem tissue instead of leaf tissue. Stores food. (Example: Crocus, Garlic)
Primary Phloem
Made by Procambium. Transports sugars and other substances produced by photosynthesis in the leaves downward through the plant and for storage.
Primary Xylem
Made by Procambium. Transports water upward through plant.
Sheath
Made up of sclerenchyma cells, surrounds the vascular bundle.
Monocot Stem
Most are herbaceous and don't grow very large. Have neither a vascular cambium or cork cambium.
Monocots
Most have no cortex and no pith layer
Vascular Bundle
Oriented so that the xylem is closer to the inside of the stem and the phloem closer to the outside.
Cortex
Outer layer made by ground meristem.
Sapwood
Outside of the heartwood, this continues developing. Develops at the same rate as heartwood.
Protoderm
Part of the apical meristem that develops into epiderm
Ground Meristem
Part of the apical meristem that produces pith and cortex.
Procambium
Part of the apical meristem, inside the protoderm. Produces primary xylem and primary phloem. Develops vascular cambium.
Secondary Tissue
Produced by the vascular cambium. Contribute to girth/width of the stems and trunks.
Vascular Cambium
Produces secondary xylem and phloem
Apical Meristem
Protected by bud scales. Area of primary growth. Primordial leaves inside.
Resin Canal
Scattered through xylem, The cells secrete resin
Summer Wood
Secondary xylem produced in greater volume/quantity of tracheids than vessels. Seen in annual ring of tree.
Spring Wood
Secondary xylem produced in large vessels. Seen in annual ring of tree.
Rhizome
Specialized horizontal stem, grows beneath surface of soil. Possess axillary buds (nodes) along stem. Leaves develop at bud. Will develop adventitious roots from bottom.
Stolon
Specialized horizontal stem, that run beneath surface of ground. Sometimes tips develop into TUBERS.
Runner
Specialized horizontal stem, that run on top of ground with long internodes. Grow fast, and develop adventitious roots. (Example: Bermuda Grass)
Node
The area where a leaf attaches to the stems
Heartwood
The dark center of the trunk. Purpose is to provide strength and support. Sometimes this rots away.
Internode
The region between successive nodes
Protoplasts
These parts of parenchyma cells grow through the pith and block unwanted substances from entering through ray cell.
Herbaceous Stems
This type of stem is composed mainly of primary tissues. Vascular bundle produces patches of primary xylem and primary phloem.
Cortex
Tissue of the ground meristem. Stores food and can manufacture food if there are chloroplasts present. This tissue is crushed and is crushed by other tissues.
Vascular Bundle
Usually has two large vessels and several smaller vessels.
Xylem
What "wood" is made of
Grasses and grains
have an intercalary meristem at the base of each node, contributing to length growth, like the apical meristem.
Vascular Cambium
lateral meristem that produces new xylem to the inside and phloem cells to the outside in the stem and roots
