Spermatophytata
From Palaeos
| EMBRYOPHYTA | |
| Taxonomy | Phylogeny |
Kingdom: Plantae
|
Chlorobionta |--Chlorophyta `--Charophyta `--Embryophyta |--Marchantiophyta |--Bryophyta |--Anthocerotophyta `--Tracheophyta |--Lycopodiopsida `--o--o--Equisetopsida | `--Pteridopsida `--Spermatophytata |
Introduction and Description
The clade that unites oaks and lycopsids is Euphyllophytina. The two complementary stem clades are Lycopsida and Spermatophytata = Quercus > Lepidodendron. A second way to look at Spermatophytata is as the stem group leading to angiosperms. It includes Trimerophyta and the progymnosperms, in fact everything up to and including the seed plants (Spermatophyta/Spermatopsida). However, we will only be concerned with the more basal forms for now. A third way of considering Spermatophytata is as the seed plants. However, this applies only to living forms. The basal Trimerophyta and their immediate descendants (assuming Trimerophyta is paraphyletic) lacked seeds, true leaves, or even, perhaps, roots. It is quite likely that virtually all the important land plant adaptations were independently developed in the moniliformopsid and spermatophytate lineages.
What seems to have set Spermatophytata apart quite early is not, in fact, the development of seeds, but the evolution of a full vascular cambium which permitted secondary growth. Early plants with apical growth were able to use that trait to grow taller and (a) get more sunlight (b) shade their competition and (c) have a better shot at spore dispersal. However, supporting a long stalk is much easier with a wider central column. Less derived groups either had no way to do this, or developed lateral lobes of the apical meristem. The latter worked, but required the tree to grow wide before it grew tall. The evolution of a complete vascular cambium permitted the tree to grow just wide enough to suit its height -- growing continuously wider as it grew tall.
The evolution of seeds followed this innovation. Seeds are embryonic sporophytes, held in a sort of metabolic stasis and provided with enough food to get started once their growth has been re-stared by exposure to suitable growing conditions. Well adapted seeds combined sexual reproduction with spore-like wide dispersal and so made the alternation of generations obsolete. However, early seeds, which might lack these refinements, probably evolved on tall trees which gave any sort of propagule a head start in dispersal.
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