Plant Diversity 22-1, 22-2, 22-3.

Slides:

Advertisements

Similar presentations

PLANT DIVERSITY I.

Advertisements

Kingdom Plantae Characteristics: Eukaryotic (has a nucleus)

Lesson Overview 22.2 Seedless Plants.

Introduction to Plants

An introduction to plants

22–1 Introduction to Plants

Lesson Overview 22.1 What is a Plant?.

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

Plantae. General characteristics multicellular eukaryotes cell walls made of cellulose carry out photosynthesis.

Kingdom Plantae Intro to Plants What is a plant? A member of the kingdom Plantae. Plants are multi-cellular eukaryotes with cell walls composed.

Chapter 22 Plant Diversity.

Botany Unit Notes Part I. What is a Plant? When you are asked, “what color is life?”, the color that comes to mind is usually green! It is no wonder that.

Introduction to Plants. What is a Plant? Plants provide the base for the food chain Multicellular eukaryotes that have a cell wall made of cellulose Carry.

Objectives: 10.0 Distinguish between monocots and dicots, angiosperms and gymnosperms, and vascular and nonvascular plants Describing the histology.

PLANT NOTES Part 1 Plant Diversity  Plants are members of the Kingdom ______.  They are classified as eukaryotic organisms that have cell walls made.

Plant Diversity: How Plants Colonized Land

Plants Biology 112. Kingdom Plantae  Multicellular eukaryotes that have cell walls made of cellulose  Develop from multicellular embryos and carry out.

Lesson Overview Lesson Overview What is a Plant? Lesson Overview Lesson Overview What is a Plant? Lesson Overview 22.1 What is a Plant?

OVERVIEW OF PLANTS Ch INTRODUCTION TO PLANTS  Plants are multicellular, eukaryotic, have cell walls make of cellulose, and develop from multicellular.

End Show Slide 1 of 33 Copyright Pearson Prentice Hall 22–1 Introduction to Plants.

Plant Evolution and Classification. Adapting to Land  Life flourished in oceans for more than 3 billion years.  No organisms lived on land until about.

Plant Kingdom!!. Characteristics  Eukaryotic  Autotrophic  Multicellular  Sexual reproduction  Cellulose in cell walls.

PLANT DIVERSITY 1 BE SURE TO READ THE DESCRIPTIONS OF ALTERNATION OF GENERATIONS AND THE CHARACTERISTICS OF THE PLANT GROUPS IN THE LAB MANUAL.

Plant Diversity. General Characteristics of Plants All plants are: Eukaryotic Autotrophic Multicellular Cell Walls with cellulose Chloroplasts w/ chlorophyll.

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.

The challenges to live on land and the will to survive The sun can be brutal!

Plants  plants dominate most of the land on Earth  plants and plant products are all around us, in the products we use and the foods we eat.

Why plants are important - explorers.com/wildflowers/importance_of_plants _and_plant_c.htmhttp:// explorers.com/wildflowers/importance_of_plants.

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

Plants are multicellular eukaryotes that have cell walls made of cellulose. (Fig. 22-1) A. They develop from multicellular embryos and carry out photosynthesis.

PLANT KINGDOM.  What Is a Plant?  Plants are multicellular, autotrophic eukaryotes that have cell walls made of cellulose.  Plants develop from multicellular.

The Plant Kingdom Chapter 4:1 and 2 (Photosynthesis)

Plant Diversity. Kingdom Plantae Multicellular eukaryotes Cell walls made of cellulose Photosynthesize using chlorophyll a and b Most are autotrophs.

Plant Diversity. What are Plants? Multicellular (made of many cells) Eukaryotes (cells have nucleus & organelles) Cell Walls made of Cellulose Autotrophs.

Chapter 22: Plants. What is a Plant? Plant  mostly multicellular organisms of eukaryotic cells with think cell walls and that mostly get energy through.

Plant Kingdom. Plants on land Plants are the most dominant group or organisms on Earth by weight Very diverse 2mm across to 100m tall Most are photosynthetic.

22–1 Introduction to Plants

Try This… 1. What is the dominant stage of the fern life cycle? The moss? Fern-Sporophyte Moss - Gametophyte 2. Why do ferns need to live in a moist.

Plant Kingdom Characteristics: Multi-cellular organisms Have eukaryotic cells Cell walls contain cellulose Carry out photosynthesis with a pigment.

Chapter 22: Plant Diversity

Plant Diversity What to know from Ch 29, 30, 35

Copyright Pearson Prentice Hall

Kingdom Plantae.

Introduction to Plants

Introduction to Plants

Introduction to Plants

Ch 22-Intro. To Plants BIG IDEA: What are the 5 main groups of plants & how have 4 of these groups adapted to life on land?

Plant Diversity.

Ch. 22 – Plant Diversity.

Bellwork: What makes a plant a plant

Chapter 22 Plant Diversity

The Wonderful World of Plants

The Diversity of Plants

Plant Diversity.

22–1 Introduction to Plants

Do Now What do plants need in order to survive?

Packet 13: Plants Chapters 21-24

Kingdom Plantae.

Kingdom Plantae.

Kingdom Plantae.

The Evolution of Plants

Lesson Overview 22.1 What is a Plant?.

Chapter 22 – Plant Diversity

Overview of Plants Ch

Lesson Overview 22.1 What is a Plant?.

PLANTS Chapter 22 p. 550.

Lesson Overview 22.1 What is a Plant?.

Presentation transcript:

Plant Diversity 22-1, 22-2, 22-3

What is a Plant? Plants are multicellular eukaryotes that have cell walls made of cellulose. (Fig. 22-1) They develop from multicellular embryos and carry out photosynthesis using the green pigments chlorophyll a and b. Most are autotrophs (some are parasites or saprobes that live on decaying materials) Provide the base for food chains, provide shade, shelter, and oxygen.

Plant Life Cycle – Fig. 22-2

Plant Life Cycle Alternation of Generations – process in which plants switch back and forth between haploid (n) and diploid (2n) stages of their life cycles Sporophyte – diploid phase or spore-producing plant Gametophyte – haploid phase or gamete-producing plant In plants, meiosis results in the production of spores, not gametes.

What plants need to survive Sunlight – Plants convert the energy from the sun into chemical energy in the process of photosynthesis. The shape and arrangement of leaves enhances their ability to make their own food.

What plants need to survive B. Water & minerals – Water and minerals are taken up by the plant roots and transported to all other cells. Plants have developed structures that limit water loss.

What plants need to survive C. Gas exchange – Plants exchange oxygen and carbon dioxide with the atmosphere D. Movement of water and minerals – Most plants have specialized tissues that carry water and minerals from one place to another

Early Plants Plants had to adapt to the conditions of life on land, mainly they had to evolve structures that acquire, transport, and conserve water. Plants evolved from a multicellular green algae, similar to the algae below

Overview of the Plant Kingdom This cladogram shows the evolutionary relationships among the various groups of plants.

Overview of the Plant Kingdom Plants are divided into four major groups based on: Presence or absence of water-conducting tissue know as vascular tissues 1. mosses have no vascular tissue 2. ferns, conifers, and flowering plants all have vascular tissue Presence of seeds 1. mosses and ferns do not have seeds 2. conifers and flowering plants have seeds C. Flowers; seeds enclosed in fruit – only flowering plants have this feature

Overview of the Plant Kindgom

Bryophytes Bryophytes must have water to reproduce. They lack vascular tissue and must draw up water by osmosis.

Bryophytes Because of the absence of vascular tissue, bryophytes are relatively small and they must live in moist places. Water is needed for fertilization. The gametophyte is the dominant generation (most visible) The sporophyte generation depends on the gametophyte for water and nutrients

Life Cycle of Bryophtes – Fig. 22-11 http://www.sumanasinc.com/webcontent/animations/content/moss.html http://www.phschool.com/atschool/phbio/activities/cbd-7222/simbase.htm

Human use of moss Sphagnum – group of mosses that absorbs many times its own weight in water and is used by gardeners Peat moss – also very absorbent and increases soil acidity, also used by gardeners

Seedless Vascular Plants The evolution of vascular tissue, which is specialized to conduct water and nutrients throughout the plant, allowed plants to grow larger than bryophytes.

Vascular Tissue Fig. 22-13

Vascular Tissue Xylem – water conducting tissue; transports water from the roots  stems  leaves Xylem also provides some support to the plant Phloem – sugar (sap) conducting tissue; transports sugar in two different directions Sugar can be transported from the root  stems  leaves or from the leaves  stems  roots

Vascular Tissue

Life Cycle of Ferns Ferns and other vascular plants have a life cycle in which the diploid sporophyte is the dominant generations

Life Cycle of Ferns Spores are produced in sporangium which are located on the underside of the leaf

Life Cycle of Ferns Spores are released and grow into the haploid gametophyte generation (very small and not easily visible) Gametophytes produce the sperm and egg. Water is still needed for the sperm to be able to swim to the egg and fertilize it. After fertilization a sporophyte develops on the gametophyte and eventually matures into an adult fern.