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CHAPTER 29 PLANT DIVERSITY I: HOW PLANTS COLONIZED LAND. More than 280,000 species of plants inhabit Earth today. Land plants evolved from a green algae, called charophyceans . An Overview of Land Plant Evolution.
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More than 280,000 species of plants inhabit Earth today. Land plants evolved from a green algae, called charophyceans. An Overview of Land Plant Evolution
There are four main groups of land plants: bryophytes, pteridophytes, gymnosperms, and angiosperms. Evolutionary adaptations to terrestrial living characterize the four main groups of land plants
Bryophytes, pteridiophytes, gymnosperms, ands angiosperms demonstrate four great episodes in the evolution of land plants: the origin of bryophytes from algal ancestors the origin and diversification of vascular plants the origin of seeds the evolution of flowers
The plasma membranes have a particular cellulose structure of the cell wall. The presence of peroxisomes. Enzymes in peroxisomes help minimize the loss of organic products due to photorespiration. Land plants that have flagellated sperm cells which are similar to charophyceans. Charophyceansare the green algae most closely related to land plants
apical meristems multicellular embryos dependent on the parent plant alternation of generations sporangia that produce walled spores gametangia that produce gametes Several terrestrial adaptations distinguish land plants from charophycean algae
Apical meristems, localized regions of cell division at the tips of shoots and roots.
Alternation of generations Gametophyte- haploid cells, produces: gametes (egg and sperm.) Sporophyte- diploid cells, produces: haploid spores. A spore is a reproductive cell that can develop into a new organism without fusing with another cell.
Sporangia-are found on the sporophyte and haploid produce spores by meiosis. Spores are covered by a polymer called sporopollenin, the most durable organic material known.
Gametangia- produces gametes Archegonium- afemale gametangium, produces a single egg cell in a vase-shaped organ. Antheridia- a male gametangia, produces many sperm cells that are released to the environment.
Cuticle- covers leaves withpolyesters and waxes. protects the plant from microbial attack. waterproofing to prevent excessive water loss.
Stomata- pores in the epidermis of leaves allow the exchange of carbon dioxide and oxygen between the outside air and the leaf interior. Xylem- Tube-shaped cells carry water and minerals up from roots. Cells are dead. Phloem-is a living tissue in which nutrient-conducting cells arranged into tubes distribute sugars, amino acids, and other organic products.
The oldest known traces of land plants are found in mid-Cambrian rocks from about 550 million years ago. The Origin of Land Plants Land plants evolved from charophycean algae over 500 million years ago
Bryophytes are represented by three phyla: phylum Hepatophyta - liverworts phylum Anthocerophyta - hornworts phylum Bryophyta - mosses Bryophytes- The three phyla of bryophytes are mosses, liverworts, and hornworts
Sporophytesare smaller and present only part of the time. Gametophores-generate gametes The gametophyte is the dominant generation in the life cycles of bryophytes
Bryophytes are anchored by tubular cells or filaments of cells, called rhizoids. not composed of tissues lack specialized conducting cells do not play a primary role in water and mineral absorption.
The gametophytes of hornworts and some liverworts are flattened and grow close to the ground. Bryophyte sporophytes disperse enormous numbers of spores
Wet regions dominated by Sphagnum or peat moss are known as peat bogs. Carbon reservoirs- stabilizes atmospheric carbon dioxide levels. Used in the past as diapers and a natural antiseptic material for wounds. Bryophytes provide many ecological and economic benefits
Cooksonia, an extinct plant over 400 million years old, is the earliest known vascular plant. A diversity of vascular plants evolved over 400 million years ago
phylum Lycophyta - lycophytes phylum Pterophyta - ferns, whisk ferns, and horsetails Pteridophytes: Seedless Vascular Plants
The leafy fern plants are sporophytes. The gametophytes are tiny plants that grow on or just below the soil surface. A homosporoussporophyte produces a single type of spore. A heterosporoussporophyte produces two kinds of spores. Megaspores develop into females gametophytes. Microspores develop into male gametophytes. A sporophyte-dominant life cycle evolved in seedless vascular plants
Phylum Lycophyta - Modern lycophytes are relicts of a far more eminent past. By the Carboniferous period, lycophytes existed as either small, herbaceous plants or as giant woody trees with diameters of over 2m and heights over 40m. The giant lycophytes thrived in warm, moist swamps, but became extinct when the climate became cooler and drier. The smaller lycophytes survived and are represented by about 1,000 species today. Lycophytaand Pterophyta are the two phyla of modern seedless vascular plants
The phylum Pterophyta: Psilophytes, the whisk ferns Sphenophytesare commonly called horsetails because of their often brushy appearance.
Ferns first appeared in the Devonian and have radiated extensively until there are over 12,000 species today.
Ferns produce clusters of sporangia, called sori, on the back of green leaves (sporophylls) or on special, non-green leaves.
(1) the evolution of seeds, which lead to the gymnosperms and angiosperms, the plants that dominate most modern landscapes (2) the emergence of the importance of seed plants to animals, specifically to humans. Agriculture, the cultivation and harvest of plants (primarily seed plants), began approximately 10,000 years ago in Asia, Europe, and the Americas. Overview of Seed Plant Evolution
Seed plants are vascular plants that produce seeds. Important reproductive adaptations: continued reduction of the gametophyte the advent of the seed the evolution of pollen.
The gametophytes of seed plants are even more reduced than those of seedless vascular plants. 1. Reduction of the gametophyte continued with the evolution of seed plants
A seed consists of a sporophyte embryo packaged along with a food supply within a protective coat. 2. Seeds became an important means of dispersing offspring
All seed plants are heterosporous, producing two different types of sporangia that produce two types of spores (megaspores and microspores). Layers of sporophyte tissues, integuments, envelop and protect the megasporangium. An ovule consists of integuments, megaspore, and megasporangium.
They are carried away by wind or animals until pollination occurs when they land in the vicinity of an ovule. 3. Pollen eliminated the liquid-water requirement for fertilization
The four phyla of gymnosperms are ginko, cycads, gnetophytes, and conifers Gymnosperms
Phylum Ginkgophyta consists of only a single extant species, Ginkgo biloba. Ornamental species has fanlike leaves that turn gold before they fall off in the autumn. Landscapers usually only plant male trees because the seed coats on female plants decay, they produce a repulsive odor.
Cycads (phylum Cycadophyta) superficially resemble palms. Palms are actually flowering plants.
Phylum Gnetophyta consists of three very different genera. Weltwitschia plants, from deserts in southwestern Africa, have straplike leaves. Gentum species are tropical trees or vines. Ephedra (Mormon tea) is a shrub of the American deserts.
increasing dominance of the sporophyte seeds as a resistant, dispersal stage pollen as an airborne agent bringing gametes together. Conifers, are heterosporous, developing male and female gametophytes from different types of spores produced by separate cones. Small pollen cones produce microspores that develop into male gametophytes, or pollen grains. Larger ovulate cones make megaspores that develop into female gametophytes. The life cycle of a pine demonstrates the key reproductive adaptations of seed plants
The conifers, phylum Coniferophyta, is the largest gymnosperm phylum. Conifers include pines, firs, spruces, larches, yews, junipers, cedars, cypresses, and redwoods.
Much of our lumber and paper comes from the wood (actually xylem tissue) of conifers. Coniferous trees are amongst the largest and oldest organisms of Earth. Redwoods from northern California can grow to heights of over 100m. One bristlecone pine, also from California, is more than 4,600 years old.
There are abut 250,000 known species of angiosperms. All angiosperms are placed in a single phylum, the phylum Anthophyta. Angiosperms (Flowering Plants)
As late as the 1990s, most plant taxonomists divided the angiosperms into two main classes, the monocots and the dicots. Recent systematic analyses have upheld the monocots as a monophyletic group. However, molecular systematics has indicated that plants with the dicot anatomy do not form a monophyletic group. One clade, the eudicots, does include the majority of dicots. Systematistsare identifying the angiosperm clades
One cotyledon Two cotyledon
The flower is an angiosperm structure specialized for reproduction. A flower is a specialized shoot with four circles of modified leaves: sepals, petals, stamens, and carpals. The flower is the defining reproductive adaptation of angiosperms
The sepals at the base of the flower are modified leaves that enclose the flower before it opens. The petals lie inside the ring of sepals. Stamens, the male reproductive organs, are the sporophylls that produce microspores that will give rise to gametophytes. A stamen consists of a stalk (the filament) and a terminal sac (the anther) where pollen is produced. Carpals are female sporophylls that produce megaspores and their products, female gametophytes. At the tip of the carpal is a sticky stigma that receives pollen. A style leads to the ovary at the base of the carpal. Ovules and, later, seeds are protected within the ovary.
A fruit is a mature ovary. As seeds develop from ovules after fertilization, the wall of the ovary thickens to form the fruit. Fruits protect dormant seeds and aid in their dispersal. Fruits help disperse the seeds of angiosperms
All angiosperms are heterosporous, producing microspores that form male gametophytes and megaspores that form female gametophytes. The immature male gametophytes are contained within pollen grains and develop within the anthers of stamens. Each pollen grain has two haploid cells. Ovules, which develop in the ovary, contain the female gametophyte, the embryo sac. It consists of only a few cells, one of which is the egg. The life cycle of an angiosperm is a highly refined version of the alternation of generations common in plants