Seed Bearing Plants.

Slides:

Advertisements

Similar presentations

Copyright Pearson Prentice Hall

Advertisements

Flowers contain reproductive organs protected by specialized leaves.

Domain Eubacteria Domain Archaea Domain Eukarya Common ancestor Kingdom: Plants Domain Eukarya.

Chapter 10 Plant Reproduction.

Classify Which plant structures are male sexual organs and which are female sexual organs Apply Concepts Relate the characteristics of angiosperms reproduction.

Ch 24- Reproduction of Seed Plants

Kingdom: Plantae.

Plant Overview and Reproduction Pre-AP Biology. 2 What Is a Plant? Members of the kingdom Plantae Plants are multicellular eukaryotes Plants have cell.

PLANTS-A brief introduction of chapters 22 thru 25.

Alternation of Generations and Plant Life Cycles

Flowers n Monocots. Flowers n -veins in most are parallel.

Gymnosperms & Angiosperms

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 Reproduction Section 1: Sexual Reproduction in Seedless Plants

Unit 7 Chapter 24 Reproduction in Plants

Introduction to Plants

Chapter 38. Plant Reproduction.

Plant Reproduction Asexual Reproduction Asexual reproduction is natural “cloning.” Parts of the plant, such as leaves or stems, produce roots and become.

Group Four Seeded, vascular plants (ex: angiosperm)

Angiosperm Reproduction Chapter Recall: Alternation of Generations In angiosperms: – Sporophyte is dominant – Reduced gametophyte, dependent.

Seed Reproduction Chapter 9 Notes. Seed Reproduction Plants need to reproduce to carry on their species. Plants reproduce due to the movement of pollen.

Reproduction ASEXUAL VS. SEXUAL.

Chapter 24 Reproduction in Plants. Alternation of Generations All plants have a life cycle in which a diploid sporophyte generation alternates with a.

Group Four Seeded, vascular plants (ex: angiosperm)

Ch. 24- Reproduction of Seed Plants.  I. Reproduction With Cones and Flowers  A. Alternation of Generations  - All plants have a life cycle in which.

Reproduction in Plants. Flower Reproductive structure of angiosperm Sporophyte – diploid  Produces haploid spores  Mitosis produces haploid gametophyte.

Chapter 3: Plant Growth and Reproduction 5 th grade Science Teacher Imarlys Cajigas Big Idea: Plants have a variety of structures to help them carry out.

Plant Classification & Reproduction. Plants can be classified into 2 main groups: Non-seed plants  mosses = no vascular systems  ferns = vascular systems.

AP Biology Chapter 38. Plant Reproduction.

Pop Quiz! 5. Gametophytes are a. haploid plants that produce spores.

Plant Diversity. Land Plants Evolved from Green Algae Occurred 500 million years ago Plants have enabled the life of other organisms on land Supply oxygen.

Plant Life Cycles Meiosis Review Cell starts diploid –E–Ex: Human = 46 chromosomes Cell divides twice to create 4 cells End result: Haploid cells –E–Ex:

Plant Reproduction In Angiosperms (Flowering Plants)

Plant Structure and Reproduction Double Fertilization.

AP Biology Domain Eubacteria Domain Archaea Domain Eukarya Common ancestor Kingdom: Plants Domain Eukarya.

Plant Reproduction.  Do not need to know page 773 or “structure of the mature seed”

AP Biology Start Here AP Biology First seed plants  Gymnosperm: conifers  vascular  heterospory  male vs. female gametophytes.

Gymnosperms & Angiosperms

Figure 22–6 A Cladogram of Plant Groups

Flowers contain reproductive organs protected by specialized leaves.

What is the significance of plants producing flowers?

Group Four Seeded, vascular plants (ex: angiosperm)

Group 4: Flowering Plants

Flowers contain reproductive organs protected by specialized leaves.

Multi cellular Plants Section 18-3, (25-2)

Chapter 10 Notes Section 3.

Plant life cycles alternate between producing spores and gametes.

Plant Classification & Reproduction

Flowers contain reproductive organs protected by specialized leaves.

24–1 Reproduction With Cones and Flowers

Plant Reproduction.

Group 4: Flowering Plants

Flowers contain reproductive organs protected by specialized leaves.

Reproduction of Seed Plants

Plant Life Cycles & Reproduction

24.1 Reproduction in Flowering Plants

Chapter 21/22 Vascular Plants

Chapter 38. Plant Reproduction

Group Four Seeded, vascular plants (ex: angiosperm)

Plant Overview and Reproduction

Reproduction of Seed Plants

Flowers contain reproductive organs protected by specialized leaves.

Flowers contain reproductive organs protected by specialized leaves.

Ch. 24- Reproduction of Seed Plants

Presentation transcript:

Seed Bearing Plants

Alternation of Generations All plant life cycles involve alternation of generations between the sporophyte and the gametophyte In different types of plants the relationship changes Mosses: the gametophye is the longest phase Flowering plants: the sporophyte is the longest phase

Seeds Recall the definition of the seed Tougher and more resistant to drying than spores Most spores: single cell Seeds: fully formed plant embryo and stored food; specialized for distribution Evolution of the seed uncoupled reproduction from water

Cones and Flowers Contrast with the life cycle of the fern Tiny gametophytes of the seed bearing plants do not have independent life of their own Gametophytes life inside the sporophyte (in pine cones and flowers) Two kinds of spores: pollen and eggs (these are not gametes in plants)

Reproduction in Conifers (gymnosperms) Study the picture on page 582: the life cycle of a gymnosperm Alternation of generations: gametophyte develops within the sporophyte Two kinds of cones: male cones (produce pollen), female cones (produce eggs) Typically fertilization and seed formation takes a year Seed release is the next year

Reproduction in Angiosperms (flowering plants) 1 Angiosperms produce seeds encased in a protective tissue of the sporophyte called an ovary The combination of seed and ovary is called a fruit Specialized reproductive structure called the flower

Reproduction in Angiosperms (flowering plants) 2 Typical flowers produce both male and female gametophytes Some have separate male and female flowers on the same plant (corn) Some have separate male and female plants (willow) Formed from 4 types of leaves (sepals, petals, stamens and carpels) See diagram of flower on page 586

Reproduction in Angiosperms (flowering plants) 3 Flower parts Sepals Leaflike, green, protect the bud Petals Colorful, advertise the flower to pollinators Stamens Male leaves produce pollen (anther and filament make up the filament) Carpels Female leaves each has an ovary (stigma and style make up the pistil)

Reproduction in Angiosperms (flowering plants) Follows the pattern of alternation of generations Production of gametophyte, fertilization of eggs, development of seed takes place within the flower See life cycle of an angiosperm on page 587

Reproduction in Angiosperms (flowering plants) 4 Key difference between gymnosperm life cycle and angiosperm is double fertilization A sperm nucleus fuses with one of the 2n embryos to make a 3n cell; which divides to produce the endosperm (food for the embryo) In angiosperms, endosperm is produced after the fertilization In gymnosperms endosperm is produced before fertilization

Reproduction in Angiosperms (flowering plants) 5 Fertilization sets into action a number of events Sepals and petals and stamens fall away, Carpel thickens, nutrients directed to endosperm and walls of the ovary This produces a fruit (an ovary containing seeds) Review difference between monocots and dicots