Abstract
AbstractThe structure and differentiation of the sieve element of lower vascular plants is reviewed using data obtained primarily from ultrastructural investigations conducted during the last ten years. During the last decade the phloem of representatives from every major group of the ferns and fern allies has been examined with the electron microscope and from these studies a rather clear picture has emerged of the structure of the sieve element protoplast in this diverse group of plants. Present data indicate that although the details of sieve‐element differentiation may differ, the protoplasts of the mature sieve elements in the various groups of lower vascular plants are remarkably similar in structure. Each consists of a plasmalemma, a parietal, anastomosing network of smooth ER, plastids, mitochondria and, with the exception of the lycopods, variable numbers of refractive spherules. The protoplasts of mature sieve elements are joined by plasmalemma‐lined connections, each arising from a single plasmodesma during the course of sieve element differentiation. The size of the connections in the mature elements range from plasmodesmata‐like structures to relatively wide sieve‐area pores, depending on the species. Moreover, the contents of the cytoplasmic connections vary somewhat according to the species. Whereas in the lycopods, the sieve‐area pores are virtually unoccluded by any cytoplasmic material, the cytoplasmic connections of all other lower vascular plants examined with the electron microscope contain variable amounts of membranous material, apparently tubular elements of ER. In Equi‐setum hyemale, Psilotum nudum and the eusporangiate and protoleptosporangiate ferns, the ER membranes are very numerous and virtually occlude the pores. Furthermore, the membranes apparently are not connected with the parietal ER in the lumen of the cell. The sieve‐area pores of the leptosporangiate ferns also contain ER membranes, however, they are not as abundant as the membranes of the eusporangiate and protoleptosporangiate ferns. In addition, in the leptosporangiate ferns the pore membranes apparently are united with the parietal ER in the lumen of the cell.
Subject
Plant Science,Ecology, Evolution, Behavior and Systematics
Cited by
3 articles.
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