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Plant Evolution and Classification

Plant Evolution and Classification. Adapting to Land. Life flourished in oceans for more than 3 billion years. No organisms lived on land until about 475 million years ago, when the Earth’s Ozone Layer was formed. Three adaptations were required to allow plants to thrive on land:

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Plant Evolution and Classification

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  1. Plant Evolution and Classification

  2. Adapting to Land • Life flourished in oceans for more than 3 billion years. • No organisms lived on land until about 475 million years ago, when the Earth’s Ozone Layer was formed. • Three adaptations were required to allow plants to thrive on land: • The ability to prevent water loss • The ability to reproduce in the absence of water • The ability to absorb and transport nutrients.

  3. Preventing Water Loss • Moving to land had its advantages • More direct sunlight, increased carbon dioxide, and a greater supply of inorganic material. • However, the land environment also presented challenges. • Plants on land are susceptible to drying out through evaporation. • The Cuticle, a waxy protective covering on plant surfaces that prevents water loss, was one early adaptation to life on land. • Plants that had a small opening in their surfaces, called stomata, were able to survive. Stomata allow the exchange of CO2 and O2

  4. Reproducing by Spores and Seeds • A spore is a haploid reproductive cell surrounded by a hard outer wall. • Spores allow widespread dispersal of the plant species. • Eventually most spores develop into seeds. • A seed is an embryo surrounded by a protective coat. • Some seeds contain endosperm, a tissue that provides nourishment for the developing plant.

  5. Absorbing and Transporting Materials • On land plants absorb nutrients through the soil with their roots. • Plants evolved to contain a specialized tissue known as vascular tissue, which transports water and dissolved substances from one part of the plant to another. • Made up of the • Xylem carries absorbed water and inorganic nutrients in one direction, from the roots to the stems and leaves. • Phloem carries organic compounds, such as carbohydrates, and some inorganic compounds in any direction.

  6. Classifying Plants

  7. Classifying Plants • 12 phyla can be divided into two groups based on the presence of vascular tissue. • Three phyla of nonvascular plants have neither true vascular tissue nor true roots, stems, or leaves. • Nine phyla of vascular plants have vascular tissue and true roots, stems, and leaves.

  8. Classifying Plants • Notice vascular plants can be further divided into two groups, seedless and seed plants. • Seedless include the phylum of ferns and there phyla made up of plants closely associated with ferns. • Seed plants are plants that produce seed for reproduction including four phyla of gymnosperms and one phylum of angiosperms.

  9. Gymnosperms • Which are pine trees, are seed plants that produce seeds that are not enclosed in fruits.

  10. Angiosperms • Also known as flowering plants, are seed plants that produce seeds within a protective fruit.

  11. Alternating Life Cycles • All plants have a life cycle that includes two phases, which are named for the type of reproduction cells they produce. • Diploid, Haploid • The first phase of the life cycle consists of a diploid (2n) sporophyte plant that produces spores. • The second phase consists of a haploid (1n) gametophyte plant the produces eggs and sperm. • A life cycle that alternates between the sporophyte and gametophyte is called alternation of generations.

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