Presentation is loading. Please wait.

Presentation is loading. Please wait.

Fig. 17-0c Diversity of plant life Charophytes (algae) Extinct seedless plants (origin of fossil fuels) Simple mosses Dry land adaptations.

Published byJason Byrd Modified over 9 years ago

Similar presentations

Presentation on theme: "Fig. 17-0c Diversity of plant life Charophytes (algae) Extinct seedless plants (origin of fossil fuels) Simple mosses Dry land adaptations."— Presentation transcript:

1 Fig. 17-0c Diversity of plant life Charophytes (algae) Extinct seedless plants (origin of fossil fuels) Simple mosses Dry land adaptations

2 Fig. 17-1ca Flagellated sperm Stem Leaf Fern Stomata; roots anchor plants, absorb water; lignified cell walls; vascular tissue; fertilization requires moisture Roots Moss Stomata only on sporophytes; primitive roots anchor plants, no lignin; no vascular tissue; fertilization requires moisture Spores Flagellated sperm Leaf Stem Roots Flagellated sperm Vascular tissue Key Holdfast (anchors alga) Alga Water supports alga. Whole alga performs photo- synthesis; absorbs water, CO 2, and minerals from water. Spores

3 Fig. 17-1cb Leaf Seed Pollen Stem Roots Pine tree Stomata; roots anchor plants, absorb water; lignified cell walls; vascular tissue; fertilization does not require moisture Vascular tissue Key

4 Fig. 17-2a Ancestral green alga Origin of land plants (about 475 mya) 1 Origin of vascular plants (about 425 mya) 2 Origin of seed plants (about 360 mya) 3 Mosses Lycophytes (club mosses, spike mosses, quillworts) Pterophytes (ferns, horsetails, whisk ferns) Gymnosperms Angiosperms Millions of years ago (mya) 500 4503503004000 Seed plants Liverworts Hornworts Seedless vascular plants Nonvascular plants (bryophytes) Vascular plants Land plants

5 Fig. 17-3-1 Haploid (n) Diploid (2n) Key Gametophyte plant (n) Gametes (n) Sperm Egg Mitosis

6 Fig. 17-3-2 Haploid (n) Diploid (2n) Key Gametophyte plant (n) Gametes (n) Sperm Egg Fertilization Zygote (2n) Mitosis

7 Fig. 17-3-3 Haploid (n) Diploid (2n) Key Gametophyte plant (n) Gametes (n) Sperm Egg Fertilization Zygote (2n) Sporophyte plant (2n) Mitosis

8 Fig. 17-3-4 Haploid (n) Diploid (2n) Key Gametophyte plant (n) Gametes (n) Sperm Egg Fertilization Zygote (2n) Sporophyte plant (2n) Meiosis Spores (n) Mitosis

9 Fig. 17-3-5 Haploid (n) Diploid (2n) Key Gametophyte plant (n) Gametes (n) Sperm Egg Fertilization Zygote (2n) Sporophyte plant (2n) Meiosis Spores (n) Mitosis

10 Fig. 17-8b Stamen Anther Filament Petal Receptacle Ovule Sepal Stigma Style Ovary Carpel

11 Fig. 17-9-1 Meiosis 1 Egg (n) Haploid spores in anthers develop into pollen grains: male gametophytes. Meiosis Pollen grains (n) Ovule Haploid (n) Diploid (2n) Key 2 Haploid spore in each ovule develops into female gameto- phyte, which produces an egg.

12 Fig. 17-9-2 Meiosis 1 Haploid (n) Diploid (2n) Key Egg (n) Sperm Haploid spores in anthers develop into pollen grains: male gametophytes. 2 Meiosis Pollen grains (n) Ovule Haploid spore in each ovule develops into female gameto- phyte, which produces an egg. 3 Pollination and growth of pollen tube Stigma Pollen grain Pollen tube Fertilization

13 Fig. 17-9-3 Meiosis 1 Haploid (n) Diploid (2n) Key Egg (n) Fertilization Sperm Zygote (2n) Haploid spores in anthers develop into pollen grains: male gametophytes. 2 Meiosis Pollen grains (n) Ovule Haploid spore in each ovule develops into female gameto- phyte, which produces an egg. 3 Pollination and growth of pollen tube Stigma Pollen grain Pollen tube 4

14 Fig. 17-9-4 Meiosis 1 Haploid (n) Diploid (2n) Key Egg (n) Fertilization Sperm Seed coat Zygote (2n) Food supply Embryo (2n) Seeds Haploid spores in anthers develop into pollen grains: male gametophytes. 2 Meiosis Pollen grains (n) Ovule Haploid spore in each ovule develops into female gameto- phyte, which produces an egg. 3 Pollination and growth of pollen tube Stigma Pollen grain Pollen tube 4 Fruit (mature ovary) 6 Seed 5

15 Fig. 17-9-5 Meiosis 1 Haploid (n) Diploid (2n) Key Egg (n) Fertilization Sperm Seed coat Zygote (2n) Food supply Embryo (2n) Seeds Haploid spores in anthers develop into pollen grains: male gametophytes. 2 Meiosis Pollen grains (n) Ovule Haploid spore in each ovule develops into female gameto- phyte, which produces an egg. 3 Pollination and growth of pollen tube Stigma Pollen grain Pollen tube 4 Fruit (mature ovary) 6 Seed 5 Ovary Ovule Stigma Anther Sporophyte (2n) Seed germinates, and embryo grows into plant. 7

16 Fig. 17-10b Seed dispersals and pollination are the result of coevolution of plants and animals

17 Fig. 17-13a

Download ppt "Fig. 17-0c Diversity of plant life Charophytes (algae) Extinct seedless plants (origin of fossil fuels) Simple mosses Dry land adaptations."

Similar presentations

Flowers contain reproductive organs protected by specialized leaves.

Flowers contain reproductive organs protected by specialized leaves.
How Did Plants Adapt to Dry Land?

How Did Plants Adapt to Dry Land?
2007-2008 Domain Eubacteria Domain Archaea Domain Eukarya Common ancestor Kingdom: Plants Domain Eukarya.

Domain Eubacteria Domain Archaea Domain Eukarya Common ancestor Kingdom: Plants Domain Eukarya.
Chapter 16 - Plants, Fungi, and the Move onto Land

Chapter 16 - Plants, Fungi, and the Move onto Land
Plants, Fungi, and the Colonization of Land

Plants, Fungi, and the Colonization of Land
Kingdom: Plantae.

Kingdom: Plantae.
Plants Chapter 21.

Plants Chapter 21.
The Evolution of Plant and Fungal Diversity

The Evolution of Plant and Fungal Diversity
Plant Evolution & Diversity – Ch

Plant Evolution & Diversity – Ch
Cellular Characters,Tissues Phylogeny and Life Cycles

Cellular Characters,Tissues Phylogeny and Life Cycles
Chapter 17 – Introduction to Plants

Chapter 17 – Introduction to Plants
Kingdom Plantae Arose from Green Algae approximately 1 billion years ago Red and brown algae are not included A single species of freshwater green algae.

Kingdom Plantae Arose from Green Algae approximately 1 billion years ago Red and brown algae are not included A single species of freshwater green algae.
Charophytes Green algae closest to plants.

Charophytes Green algae closest to plants.
Seed Formation in Gymnosperms & Angiosperms

Seed Formation in Gymnosperms & Angiosperms
Mr. Ramos Plant Organs and Tissues. Introduction to Plants There are over 260,000 different species of flowering plants alone! Plants are multicellular,

Mr. Ramos Plant Organs and Tissues. Introduction to Plants There are over 260,000 different species of flowering plants alone! Plants are multicellular,
Sexual Reproduction in Plants

Sexual Reproduction in Plants
Plant Adaptations for Success on Land Vascular tissue Evolution of the seed that provides food and protection Many methods of seed dispersal Evolution.

Plant Adaptations for Success on Land Vascular tissue Evolution of the seed that provides food and protection Many methods of seed dispersal Evolution.
Plant Sexual Reproduction & Development

Plant Sexual Reproduction & Development
© 2014 Pearson Education, Inc. Charophyte algae Fungi Animals Plants 1.

© 2014 Pearson Education, Inc. Charophyte algae Fungi Animals Plants 1.
Plant Characteristics

Plant Characteristics

Similar presentations

Ads by Google