Affiliation:
1. The School of Integrative Plant Science, Cornell University , Ithaca, NY 14853 , USA
2. Department of Earth Science and College of Creative Studies, University of California , Santa Barbara, CA 93106 , USA
Abstract
Abstract
A review of the fossil record coupled with insights gained from molecular and developmental biology reveal a series of body plan transformations that gave rise to the first land plants. Across diverse algal clades, including the green algae and their descendants, the plant body plan underwent a unicellular $\to $ colonial $\to $ simple multicellular → complex multicellular transformation series. The colonization of land involved increasing body size and associated cell specialization, including cells capable of hydraulic transport. The evolution of the life-cycle that characterizes all known land plant species involved a divergence in body plan phenotypes between the haploid and diploid generations, one adapted to facilitate sexual reproduction (a free-water dependent gametophyte) and another adapted to the dissemination of spores (a more water-independent sporophyte). The amplification of this phenotypic divergence, combined with indeterminate growth in body size, resulted in a desiccation-adapted branched sporophyte with a cuticularized epidermis, stomates, and vascular tissues. Throughout the evolution of the land plants, the body plans of the sporophyte generation involved “axiation,” i.e., the acquisition of a cylindrical geometry and subsequent organographic specializations.
Publisher
Oxford University Press (OUP)
Subject
Plant Science,Animal Science and Zoology