Berkeley INTEGBI 200A - Morphological data II -- ontogeny & structure of plants

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Integrative Biology 200A "PRINCIPLES OF PHYLOGENETICS" Spring 2006 University of California, Berkeley B.D. Mishler Feb. 9, 2006. Morphological data II -- ontogeny & structure of plants The last frontier in our understanding of biological forms is an understanding of their developmental origins. Much of the ultimate control of form resides in the genome, yet much also resides in the environment (at levels from the internal cellular environment to the external habitat). The highly interactive and complex nature of developmental processes make it impractical to deduce phenotype from genotype based on first principles. The phenotype is an emergent property and its origin can be studied most efficiently by backtracking from the phenotype itself to its structural, physiological, developmental and genetic causes. Development and morphology will remain a rich source of information for systematics and for evolutionary biology. Uses of ontogeny in systematics: 1) A source of new characters in juvenile phases 2) a source of clarifying homologies and defining character states in mature phases 3) a source for determining transformational homology among character states within a character (ordering) 4) a source for hypothesizing evolutionary directionality among character states within a character (polarization) Ontogeny and phylogeny. The relation between ontogeny and phylogeny has been of longstanding interest to biologists, and continues to be a timely topic. It is important of course to take a comparative approach to development, within a phylogenetic framework. Our aims are to reconstruct both the developmental pathway taken by a given species for a given structure, and the manner in which the developmental system evolved. Some terminology (see Humphries 1988 for details): Heterotopy -- evolutionary change in the position of development Heterochrony -- evolutionary change in the timing of development (see over) Peramorphosis (Hypermorphosis vs. Acceleration vs. Predisplacement) Paedomorphosis (Progenesis vs. Neoteny vs. Postdisplacement) A number of workers have evaluated and tested the proposition that character polarities can be reliably inferred through direct observations of developmental (ontogenetic) character transformation (Lundberg 1973; Mishler 1986, 1988; Mabee1989). The consensus of these authors is that while terminal addition (thus recapitulation) is often seen, other patterns are common as well, thus the "ontogeny criterion" for polarity determination is suspect. So even though there are some limitations for use in systematics, there are few sources of data more rewarding to an evolutionary biologist than the study of ontogeny. Differences of plant development, as compared to animals: Modular growth, at several hierarchical levels Growth from an apical meristem (or single apical cell) Cells don't move (rigid cell wall) Plants do not have a segregated germ lineAn example from mosses in the genus Tortula The morphology of the leaves of mosses changes as the plant ages in such a way that "juvenile" leaves near the base of a stem are radically different in structure from leaves near the tip of a mature stem, and these juvenile leaves resemble the mature leaves of more primitive species. This prolonged heteroblastic series of leaf-types that is produced as a moss stem matures apparently lends itself to heterochronic evolution, and has potential relevance to reproductive ecology (since asexual reproduction through fragmentation and regeneration is the primary means of dispersal in these


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Berkeley INTEGBI 200A - Morphological data II -- ontogeny & structure of plants

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