- Unifacial cambium
The unifacial cambium produces cells to the interior of its cylinder. These cells differentiate into
xylem tissue. Unlike the more common bifacialcambium found in laterwoody plants , the unifacial cambium does not producephloem to its exterior. Also in contrast to the bifacial cambium, the unifacial cambium is unable to expand its circumference with anticlinal cell division. Cell elongation provides a limited amount of expansion.Unifacial cambium plant morphology and life cycles
The unifacial cambium allowed plants to grow as tall as 50 metres. Lacking secondary phloem, unifacial cambium plants developed alternative strategies to long range nutrient transport. For example, the stems of lycophyte trees were covered in photosynthesizing leaf bases.
Due to the limited capacity for circumference growth, unifacial cambium plants had very little wood compared to modern woody plants. Xylem tissue in unifacial cambium plants was particularly structurally efficient. Additional structural support was provided in lycophytes by a special periderm tissue in the outer cortex.
Lycophyte trees exhibit determinate growth. These trees appear to have lived for most of their life cycle as a 'stump', establishing root networks underground, before shooting up rapidly, releasing spores, and dying shortly thereafter.
External links
* [http://www.google.com.au/url?sa=t&ct=res&cd=6&url=http%3A%2F%2Fpatroklos.earth.northwestern.edu%2F~richbarclay%2FPPC%2FDonoghue_2005_Paleobiology_KeyInnovMacroevol.pdf 'Key innovations, convergence, and success: macroevolutionary lessons from plant phylogeny', article by Michael J. Donahue from "Paleobiology" 31(2), 2005 (pdf)]
* [http://www.devoniantimes.org/who/pages/lycopsid.html Devonian Times: More About Lycopsids]
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