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Radboud universityFaculty of ScienceBiologyHOMEWEB MODULESElectron microscope in action > Leaf epidermis

Leaf epidermis

To the fesem simulator...
Click on the gray image here left to load the virtual FESEM or open a new window.
The FESEM simulator works with Java. If the required Java (TM) plug-in 1.3 is not installed yet on your computer, you will be automatically redirected to Sun Microsystems, Inc. Follow the (simple) step-by-step instructions to download the free plug-in. After completion of the installation procedure the virtual FESEM will be launched automatically.

 
Cell layers inside a leaf (here Coleus)
Material: a piece fresh leaf material was frozen with slush nitrogen at -95 °C. In order to explore the inner cell layers, this small piece of tissue was fractured using a special knife in the cryo-unit of the FESEM.

 
Epidermis layers
 
Palisade parenchyma
 
Sponge parenchyma

 

Get a large image of this fracture through a leaf © with labels or without labels (92 KB). Save a printable version of this page in Word or pdf format.
Applet powered by Zoomify ; Requires java software to function. Free to download from Sun Microsystems

 
Description: the upper surface (the adaxial side;1) and the lower side(the abaxialside; 2) of the leaf are delimited by a layer of epidermal cells (3; epi = upon, dermis = skin). The under epidermis is constituted by a joint layer of parenchyma cells that bear a thick cell wall but lack chloroplasts. In Coleus both epidermal layers carry hairs (4; trichomes); those at the abaxial side are clearly multicellular. Guard cells with stomata occur scattered in the under epidermis. The epidermis provides the leaf protection against dessication as well as physical and chemical impacts. There is a difference in anatomy between the layers below the epidermis up and down the leaf: the tissue against the under epidermis is contitued of roundish sponge parenchyma cells (5) that are separated by intercellular cavities (6). The upper epidermis is bordered by cylindrical cells, so-called palisade parenchyma cells (7). Sponge and palisade parenchyma cells together form the chlorenchym. Both cell types contain organelles involved in photosynthesis: the chloroplasts. (Detailed views of chloroplasts). The stomata, which are connected to the intercellular cavities, play a role in the exchange of gasses (carbon dioxide, oxygen and water as gas) between the chlorenchym inside the leaf and the atmosphere outside the plant. Further information on leaves can be found in a separate webseries.
 
Software development: Jeroen van Beurden
Web structure: Remco Aalbers
Text and images: Elisabeth Pierson and Huub Geurts
last modified: 17 Oct 2011