LIFE CYCLES OF PLANTS ABBOTTS COLLEGE ABBOTTS 1. TOPICS 2  DEFINITIONS  Alternation of generations  Haploid  diploid  LIFE CYCLES OF:  Moss  A.

Slides:

Advertisements

Similar presentations

Reproduction in living organisms (other organisms … not you) (that topic is covered in health class)

Advertisements

Chromosomes & Inheritance Gene Segregation during MEIOSIS 3 significant results 1. Haploid cells because of 2 divisions following only 1 DNA replication.

Plant Reproduction.

The Plant Reproduction Unit

Life Cycles: Meiosis and the Alternation of Generations

Modern Biology Chapter 32

LIFE CYCLES OF PLANTS ABBOTTS COLLEGE ABBOTTS 1. TOPICS 2  DEFINITIONS  Alternation of generations  Haploid  diploid  LIFE CYCLES OF:  Moss  A.

Plant Reproduction: Seedless Plants. Review: What are the different types of plant reproduction? Sexual reproduction – Are these cells haploid or diploid?

Sexual reproduction requires a cycle that alternates between haploid (n) and diploid (2n) cells. Meiosis is required for sexual reproduction. The offspring.

Plant Diversity and Life Cycles

Life Cycles (Mitosis and Meiosis). Mitosis Cell replication The segregation of identical chromosomes into 2 new cells, each containing exact copies of.

Multicellular Organisms. Tissue - a group of similar cells that together perform a specific function in an organism.

REPRODUCTION Reproduction – The process of producing offspring

ALTERNATION OF GENERATIONS. 1.Alternation of generations: haploid (n) stage that produces gametes followed by diploid (2n) stage producing spores. 2.Haploid:

Plant Characteristics

MEIOSIS: The Production of Sex Cells *Click for Animation*

Ch. 7 Meiosis & Sexual Reproduction

Biology 7.2 Sexual Reproduction

Chapter 19 The Three Life Cycles -Mitosis -Meiosis -Alteration of Generation By: Bryan Eng, Raza Samimy, and Tony Li Marsilea Somatic Cells.

Mitosis vs. Meiosis. What is the difference Mitosis is asexual reproduction. Does not produce a new organism. Mitosis is asexual reproduction. Does not.

Meiosis and Alteration of Generations. Outline Overview  Asexual and Sexual Reproduction Phases of Meiosis  Meiosis I  Meiosis II Alternation of Generations.

Aim: How are plants adapted to reproduce? Flower Alternation of Generations.

The Plants. The Origin of Plants Plants are believed to have originated on the Earth about half a billion years ago. They evolved from early algal ancestors.

PLANT DIVERSITY. SUPERGROUP ARCHAEPLASTIDA – KINGDOM PLANTS.

Chromosomes & Inheritance Gene Segregation during MEIOSIS 3 significant results 1. Haploid cells because of 2 divisions following only 1 DNA replication.

Reproduction in plants. Can be sexual or asexual Asexual – budding, bulbs and rhizomes – vegetative growth by mitosis only – no diversity as genes are.

Chapter 7 Section 2: Sexual Reproduction Grade 10 Biology Fall 2010.

Meiosis and Sexual Reproduction

Meiosis and Sexual Reproduction Section 1 Section 2 Meiosis Sexual Reproduction.

MEIOSIS AND SEXUAL LIFE CYCLES CHAPTER 13. REPRODUCTION Asexual reproduction – single parent passes on all of its genes to its offspring Sexual reproduction.

Meiosis and Sexual Reproduction.  Of the following organisms, which is haploid (one set of chromosomes) and which is diploid (two sets of chromosomes)?

Meiosis: The Cellular Basis of Sexual Reproduction Chapter 11.

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.

Mitosis & Meiosis. Mitosis Asexual Cellular Reproduction Asexual Cellular Reproduction.

Sexual reproduction Life cycles and the alternation of generations.

Life History Chapter 6. Reproduction Complex in seaweeds Asexual or vegetative reproduction is common Fragments of thallus can often grow into new individuals.

Plants Kingdom: Plantae Sporophytes are diploid and gametophytes are haploid. Review Photosynthesis and Cellular Respiration Plant provide the base for.

Meiosis The ability to pass on traits is called heredity. – This ability is one of the unifying themes of biology as individual units of heredity (genes)

Introduction to Plant Reproduction

1 1 Asexual Reproduction Requires only one parent New organism is identical to the parent New organism will have DNA identical to the parent.

Review  Xylem and Phloem are the tube systems of vascular plants that help move water, nutrients and sugars.

Chapter 13.2 Fertilization and meiosis alternate in sexual life cycles

Station 1: Salmon life Cycle

Algae Reproduction of ulva.

Asexual Reproduction Versus Sexual Reproduction

Sexual vs. Asexual Reproductions

Organismal Development Part 2

REPRODUCTION OF FLOWERING PLANTS

The Cellular Basis of Inheritance: Life Cycles

Asexual vs. sexual reproduction

Concept: Compare the Process of Mitosis and Meiosis

Seedless Plant Reproduction

Mitosis vs. Meiosis.

Plant Reproduction Pages

Organismal Development Part 2

ALTERNATION OF GENERATIONS a defining feature of plants

Algae Reproduction.

How cells create gametes

MEIOSIS AND SEXUAL REPRODUCTION

CHAPTER 10 NOTES Section 1 and 2..

Section 3: Multicellular Life Cycles

Meiosis Vocabulary Gametes- cells that contain ½ the usual # of chromosomes (because = 46) Egg- female gamete (1n) Sperm- male gamete (1n) Fertilization-

Meiosis Making the sex cells.

Alternation of Generations

Organismal Development Part 2

Introduction to Plant Reproduction

Key Ideas What is a diploid life cycle? What is a haploid life cycle?

Station 1: Salmon life Cycle

(but not the exciting bits)

Presentation transcript:

LIFE CYCLES OF PLANTS ABBOTTS COLLEGE ABBOTTS 1

TOPICS 2  DEFINITIONS  Alternation of generations  Haploid  diploid  LIFE CYCLES OF:  Moss  A flower  DEFINITIONS  Alternation of generations  Haploid  diploid  LIFE CYCLES OF:  Moss  A flower PAGE 2.3.4

Asexual and sexual reproduction AsexualSexual Produces genetically identical organisms Produces organisms that are not genetically identical Faster processSlower Replaced damaged cells and tissuesProduces sex cells or gametes Takes place in favourable conditionsTakes place in unfavourable conditions Cells divide by mitosisCells divide by meiosis No sexes involvedMale and female organisms required Asexual reproduction = No sex cells or gametes involved. No sexes male or female organisms required. Sexual reproduction = Sex cells or gametes involved. Male or female organisms required.

Sexual reproduction involves the two alternating processes of meiosis and fertilization. In meiosis, the chromosome number is reduced from the diploid to the haploid number.meiosisdiploidhaploid In fertilization, the nuclei of two gametes fuse, raising the chromosome number from haploid to diploid. Whatever variation in details there may be from one organism to another, these two activities must occur alternately if sexual reproduction is to continue. ANIMALS Meiosis generates the haploid gametes — sperm and eggs — directly. These single cells fuse to form the zygote which will develop into another diploid animal.zygote. Alternation of Generations

PLANTS Meiosis and fertilization divide the life of the organism into two distinct phases or "generations". The gametophyte generation begins with a spore produced by meiosis. The spore is haploid, and all the cells derived from it (by mitosis) are also haploid. In due course, this multicellular structure produces gametes — by mitosis — and sexual reproduction then produces the diploid sporophyte generation. The sporophyte generation thus starts with a zygote. Its cells contain the diploid number of chromosomes. Eventually, though, certain cells will undergo meiosis, forming spores and starting a new gametophyte generation Alternation of Generations

PLANTS ANIMALS

Alternation of Generations

ALTERNATION OF GENERATIONS 8  All terrestrial plants have two phases in their life cycles:  A haploid gametophyte generation that alternates with a diploid sporophyte generation  All terrestrial plants have two phases in their life cycles:  A haploid gametophyte generation that alternates with a diploid sporophyte generation DIAGRAM AND DEFINITION PAGE 2.3.4

9

ALTERNATION OF GENERATIONS 10  A haploid spore grows into the haploid gametophyte generation  that produces gametes  A diploid zygote grows into a diploid sporophyte generation  Certain cells undergo meiosis and form halpoid spores  Which are the start of the new gametophyte generation  A haploid spore grows into the haploid gametophyte generation  that produces gametes  A diploid zygote grows into a diploid sporophyte generation  Certain cells undergo meiosis and form halpoid spores  Which are the start of the new gametophyte generation

MUST DO  TEXTBOOK PAGE LEARNING ACTIVITY 4: ALTERNATION OF GENERATIONS  TEXTBOOK PAGE LEARNING ACTIVITY 5: DOMINANT PHASES  TEXTBOOK PAGE LEARNING ACTIVITY 4: ALTERNATION OF GENERATIONS  TEXTBOOK PAGE LEARNING ACTIVITY 5: DOMINANT PHASES 11

LIFE CYCLE OF A BRYOPHYTE Eg MOSS 12  Shows a clear alternation of generations  Gametophyte is the more prominent phase  The sporophyte is attached to it and dependent on it  Shows a clear alternation of generations  Gametophyte is the more prominent phase  The sporophyte is attached to it and dependent on it PAGE DIAGRAM OF THE MOSS LIFE CYCLE PAGE DIAGRAM OF THE MOSS LIFE CYCLE PAGE LEARNING ACTIVITY 6 PAGE LIFE CYCLE OF THE MOSS LEARNING ACTIVITY 6 PAGE LIFE CYCLE OF THE MOSS LEARNING ACTIVITY 8 PAGE QUESTION 1 AND 2 BRYOPHYTES LEARNING ACTIVITY 8 PAGE QUESTION 1 AND 2 BRYOPHYTES

Bryophytes Eg. Moss No conducting tissue (no xylem and phloem) No proper roots Gametophyte generation is more prominent Sporophyte dependant on gametophyte 2n n

14

15

LIFE CYCLE OF A FLOWERING PLANT 16  Are the dominant terrestrial plants  Shows a clear alternation of generations  Gametophyte is less prominent than the sporophyte  There are separate male and female gametophytes  Both are microscopic with the female gametophyte dependent on the sporophyte  Are the dominant terrestrial plants  Shows a clear alternation of generations  Gametophyte is less prominent than the sporophyte  There are separate male and female gametophytes  Both are microscopic with the female gametophyte dependent on the sporophyte PAGE SIMPLIFIED DIAGRAM OF THE LIFE CYCLE FLOWERING PLANTS PAGE SIMPLIFIED DIAGRAM OF THE LIFE CYCLE FLOWERING PLANTS PAGE 2.3.8

17

18

19

20

TO DO 21 LEARNING ACTIVITY9 PAGE SEXUAL REPRODUCTION IN LAND PLANTS

 THE END 22