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Transcript
Chapter 29 Plant Diversity I: The Colonization of Land AP Biology Requirements for Successful Life on Land Supporting mechanism (vascular tissue, lignin) Absorptive structures (above & below ground) Conducting tissues (move fluids) Anti-desiccation (drying out) adaptations for body of plant (cuticle) & gametes (pollen & spores) Airborne gamete dispersal General Characteristics of Plants Includes mosses, ferns, conifers, flowering plants Multicellular, eukaryotic, photosynthetic autotroph Chlorophyll a, b, and carotenoids Cellulose Starch General Characteristics of Plants, cont. Alternation of generations (more next) Most have stomata for gas exchange (Liverworts the exception) Secrete cuticle to reduce desiccation Most have vascular tissue for bulk transport of water and materials Exchange of materials between adjacent cells through opening in cell walls (plasmodesmata) Most have seeds (embryo with food & protective covering) Alternation of Generations Gametes produced & protected within gametangia (nonreproductive cells to prevent desiccation & for protection) Fertilization of egg takes place here (Female = archegonium; Male = antheridium) Alternation of Generations, cont. Sporophyte & gametophyte are structurally (look & develop) different (heteromorphic) Both structures are multicellular (unlike animals) Sporophyte dominant in most species Meiosis in sporophyte produces haploid reproductive cells (spores) Spores can develop into a new organism without fusing with another cell Proposed Ancestors of Plants Charophyceans are the green algae most related to land plants Several lines of evidence support this including: Homologous chloroplasts, cell walls, peroxisomes, sperm Phragmoplasts – microtubules form perpendicular to cell plate and guide deposition of cellulose to form wall Molecular systematics Charophyceans had a layer of sporopollenin to prevent exposed zygotes from drying out until they are in water again Classified Into 2 Major Groups 1. Nonvascular plants (aka Bryophytes) Bryophyta: mosses Anthocrophyta: Hornworts Heptophyta: Liverworts 2. Vascular Plants (aka Tracheophytes) Seedless vascular plants (Pteridophytes) Lycophyta: Lycophytes Pterophyta: Ferns & Horsetails Seeded vascular plants Naked seeded plants (Gymnosperms) Coniferophyta: Conifers Cycadophyda: Cycads Gnetophyta: Gnetae Ginkgophyta: Ginko Flowering plants and enclosed seeds (Angiophyta) Flowering plants Nonvascular Plants: Bryophytes Gametophyte dominant form Lack vascular tissues Limits size (can’t grow tall) Rely on diffusion Rhizoids – analogous to roots; used for anchorage Male flagellated sperm produced by the gametangium (antheridium) Female egg produced by the gametangium (archegonium) Sporophyte produces haploid spores within sporangium 3 Divisions: Bryophyta (mosses); ex: Sphagnum (peat moss) Heptophyta (Liverworts); sexual and asexual reproduction Anthocerophyta (hornworts) Vascular Plants: Tracheophytes Key adaptations to success on land: Seeds – protect embryo & provide food for initial growth Pollen – airborne dispersal; Sporopollenin in walls of spores Sporophyte dominant Vascular tissues – phloem & xylem; specialization of parts of plant for specific functions (true roots, stems, and leaves) Ligninfied cell walls – supports plant in air Seedless Vascular Plants Division Lycophyta Club mosses Many are epiphytes – grow on other plants but not parasitic Sporangia produced on specialized leaves for reproduction called sporophylls Most species are homosporous – produce a single type of spore that can produce a gametophyte with antheridia and archegonia Heterosporous species – have sporophytes that produce separate spores Megaspores – produce female archegonia on female gametophyte Microspores – produce male antherdia on male gametophyte Seedless Vascular Plants Division Sphenophyta Horsetail (Equisetum) – only extant genus Homosporous Silica in cell walls make stems abrasive Gametophyte is free-living; can photosynthesize and not dependent on sporophyte for nutrients Seedless Vascular Plants Division Pterophyta Ferns – dominant seedless vascular plant Large leaves (fronds) – compound with smaller leaflets Leaves are megaphylls – leaves with branched vascular tissues/veins Homosporous Sporangia develop on specialized sporophylls Sporangia grow in clusters (sori) on underside Flagellated sperm – require water & fertilization of egg in archegonium Sporophyte protected in archogonium and emerges from ground as fiddlehead
