Environment Planet Earth Tree Trunk Biology and Basic Wood Structure By Steve Nix Writer University of Georgia Steve Nix is a member of the Society of American Foresters and a former forest resources analyst for the state of Alabama. our editorial process Steve Nix Updated January 17, 2020 Santiago Urquijo/Moment/Getty Images Share Twitter Pinterest Email Planet Earth Outdoors Weather Conservation Wood is a highly ordered arrangement of living, dying and dead cells. These tree cells function much like a lamp wick where the tree is anchored. The roots are bathed in a nutrient-rich liquid which transports these nutrients plus moisture to the top where all is consumed. A tree (and the cells) supports an ever-flowing wet system that must be maintained at all times. If the process fails to provide water at any point the tree will eventually die due to the failure of both water and food requirements that are necessary for life. Here is a biology lesson on tree cells. 1 of 5 A Tree's Cambium (University of Florida/Landscaping) The cambium and its "zone" is a cell generator (reproductive tissue called growth meristem) that produces both the inner bark cells of the phloem and new living wood cells in the xylem. The phloem transports sugars from leaves to roots. The xylem is a transport tissue and both stores starch and conducts water and substances dissolved in water to leaves. 2 of 5 Phloem, A Tree's Inner Bark (University of Florida/Landscaping) Phloem, or inner bark, develops from the outside layer of the cambium and is the food track to the roots. Sugars are transported from leaves toward roots in the phloem. When the tree is healthy and growing and sugars are abundant, stored food in the form of starch can be converted back into sugars and moved to where it is needed in the tree. 3 of 5 Xylem, A Tree's Nutrient Transport System (University of Florida/Landscaping) Xylem is living "sapwood" and located inside the cambial zone. The outer portion of xylem is conducting and storing starch in the symplast plus conducts water and substances dissolved in water to the leaves. The inner portion of the xylem is non-conducting wood that stores starch and is sometimes called heartwood. The major structures for water transport in xylem are vessels in angiosperms (hardwoods) and tracheids in gymnosperms (conifers). 4 of 5 Symplast, A Tree's Storage Network (University of Florida/Landscaping) Symplast is the network of living cells and the connections between living cells. Starch is stored in the symplast. Axial parenchyma, ray parenchyma, sieve tubes, companion cells, cork cambium, the cambium, and plasmodesmata make up the symplast. 5 of 5 Vessels and Tracheids, A Tree's Conductors (University of Florida/Landscaping) Vessels (in hardwoods) and tracheids (in conifers) conduct water and substances dissolved in water. Vessels are vertically aligned tubes made up of dead cells that transport liquid. Vessels are found only in angiosperms. Tracheids are dead, single-celled "pipes" that act much like vessels but are only found in gymnosperms.