III. Plant Diversity B. Tracheophyte Origins 1. The Rhyniophyta -vascular system of phloem and xylem.

Slides:

Advertisements

Similar presentations

How Did Plants Adapt to Dry Land?

Advertisements

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

Seed Plants  Two groups of seed plants: Gymnosperms Gymnosperms Angiosperms Angiosperms  Gymnosperms include the conifers and cycads and this group originated.

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

Plant Evolution Plants evolved about 475 million years ago from charophytes (a group of green algae) –Most modern plants are photoautotrophs on land.

Continuing Trends in Plant Evolution Reduction of water-dependent gametophyte Vascular tissue – improved water/food transport More efficient roots, stems,

1 Overview of Plant Diversity Chapter The Evolutionary Origins of Plants Defining characteristic of plants is protection of their embryos.  Land.

Four Types of Plants Non-vascular Vascular Gynosperms Angiosperms.

Seedless Plants. Nonvascular Seedless Plants Mosses, liverworts, hornworts Grow on soil, bark of trees, rocks Usually live in places that are damp Are.

Plant Evolution.

Introduction to Plants AP Biology Invading Land Conditions to overcome: buoyancy of water is missing, no longer bathed in a nutrient solution, air dries.

Kingdom Plantae An Evolutionary History of Plants.

Plants A survey of Kingdom Plantae. Characteristics of Plants n All Plants are Producers - Photosynthetic n Plants are Multicellular n Plant cells have.

Plant Diversity II: The Evolution of Seed Plants Chapter 30.

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

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

PLANT Evolution Structural Adaptations Vascular system – roots and shoots (tracheophytes) Mycorrhizae – fungal associations Stomata and cuticle Lignin.

KINDS OF PLANTS. NONVASCULAR PLANTS Mosses are often found next to streams, coastlines and other moist places. They will can be found in odd places as.

re/plantae/ KINGDOM PLANTAE.

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

Review of Plant Diversity

Plant Kingdom Biology 112. Vascular Plants  Moss-like plants evolved into more complex structures that contained vascular tissue  Specialized cells.

Chapters 29 and 30. Characteristics of All Plants Multicellular Eukaryotic Photosynthetic autotrophs Alternation of generations.

Honors Biology Chapter 22- Plants

Seedless Plants. Nonvascular Seedless Plants Mosses, liverworts, hornworts Grow on soil, bark of trees, rocks Usually live in places that are damp Are.

Plant Structure & Function Last revised April, 2009.

IV. The Domain Eukarya D. Plants: 4. Non-tracheophytes.

Plants, Fungi and the Move Onto Land. Colonizing Land Terrestrial Adaptations? Structural Shoots, roots, leaves Vascular tissue.

Staying “afloat” in air? Strong support tissue, lignin

Kingdom Plantae.

Gymnosperms: “naked seeds”

Chapter 22: Plant Diversity Biology- Kirby. Chapter 22- Plant Diversity Plant- multicellular eukaryotes with cell walls made of cellulose. Plants are.

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

Evolution of Plants Chapter Ch 21 pp pp. 564 Chap 22: pp ; pp. 581; ; ;

Domain Eukarya Plant Kingdom. Traits of Plants: ♣ Multicellular, photosynthetic, eukaryotes ♣ Waxy cuticle to prevent water loss ♣ Stomata (openings on.

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.

PLANT DIVERSITY. SUPERGROUP ARCHAEPLASTIDA – KINGDOM PLANTS.

Plant Diversity Chapters 29 & 30 Biology – Campbell Reece.

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

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.

PLANTS & THEIR EVOLUTION. The General Plant Life Cycle: Alternation of Generations Sporophytes are the diploid stage that grow by mitosis from a fertilized.

II. Introduction to Plants A. Evolutionary History 1. Green Algal “roots” – Ulva (sea lettuce)

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.

Plantae Seed Plants. Vascular Plants Formation of vascular tissue –Xylem (water) –Phloem (food) –True leaves, roots, and stems Lignin ____________ generation.

Exam #2 F 2/29 in class Review Th 2/28 5pm in PAI 3.02.

Plants. Characteristics Eukaryotic. Multicellular. Photosynthetic. Cell walls contain cellulose. Develop from embryos protected by parental tissue.

Adaptations Non-Vascular Gymnosperms Angiosperms

Includes: – Mosses (most common) – Liverworts – Hornworts Defining characteristics: – No seeds – No vascular system – Grows low to ground (absorbs nutrients)

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

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

PowerLecture: Chapter 23 Plant Evolution. The Plant Kingdom Fig. 23-2, p.372.

Evolution of Plants. Plant Evolution All Plants have Alternation of Generations  gametophyte….  plant body that produces gametes  Sporophyte –plant.

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

Exam #2 M (3/8) in class (bring cheat sheet)

Land Plants long.

Kingdom: Plants Domain Eukarya Domain Bacteria Archaea

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

Biology 11 Plantae Review.

I. A Brief History of Life II. Classifying Life

Supplemental Instruction 2/20/2018

Plant Diversity.

Ferns, Fern Allies Gymnosperms

SEEDLESS PLANTS Prof. Ms. Vrushali S. Dighe Department Of Botany S. M. Joshi College, Hadapsar, Pune.

Seed coat – original sporophyte ovule Endosperm – haploid gametophyte

Biology 11 Plantae Review.

Plant Evolution Chapters 29 & 30.

Presentation transcript:

III. Plant Diversity B. Tracheophyte Origins 1. The Rhyniophyta -vascular system of phloem and xylem

III. Plant Diversity B. Tracheophyte Origins 1. The Rhyniophyta Silurian – 440 mya -vascular system of phloem and xylem -“tracheids” in sporophytes --water and nutrient distribution

GymnospermsAngiosperms

III. Plant Diversity B. Tracheophyte Origins 1. The Rhyniophyta -vascular system of phloem and xylem -“tracheids” in sporophytes --water and nutrient distribution -- lignin and support

III. Plant Diversity B. Tracheophyte Origins 4. Life History: simple (primitive) - Homospory

III. Plant Diversity C. Non-seed Tracheophytes 1. Lycophytes (Club Mosses)

III. Plant Diversity C. Non-seed Tracheophytes 1. Lycophytes - (Club Mosses) - ancient; dominated first “forests” mya Lepidodendron - 45m -Carboniferous

III. Plant Diversity C. Non-seed Tracheophytes 1. Lycophytes - (Club Mosses) - ancient; dominated first “forests” mya - simple leaves

III. Plant Diversity C. Non-seed Tracheophytes 1. Lycophytes - (Club Mosses) - ancient; dominated first “forests” mya - simple leaves - Dominant Sporophyte (with stobili)

III. Plant Diversity C. Non-seed Tracheophytes 1. Lycophytes - (Club Mosses)

III. Plant Diversity C. Non-seed Tracheophytes 1. Ferns “and their allies”

III. Plant Diversity C. Non-seed Tracheophytes 1. Ferns “and their allies” - true complex leaves

III. Plant Diversity C. Non-seed Tracheophytes 1. Ferns “and their allies” - true complex leaves - true roots

III. Plant Diversity C. Non-seed Tracheophytes 2. Ferns “and their allies” - true complex leaves - true roots - also ancient; appearing 350 mya - dominant sporophyte; reduced gametophyte

Fern Life Cycle:

III. Plant Diversity D. Seed Tracheophytes - heterospory

III. Plant Diversity D. Seed Tracheophytes - heterospory - seeds: lipid-rich endosperm packaged with the zygote

III. Plant Diversity D. Seed Tracheophytes 1. General Characteristics - heterospory - seeds: lipid-rich endosperm packaged with the zygote -pollen: - no more swimming sperm!!

III. Plant Diversity D. Seed Tracheophytes 2. Gymnosperms – “naked seed” a. Evolutionary History - dominated during Permian (280 mya) and through Mesozoic, and still dominate in dry env. Today (high latitudes, sandy soils)

III. Plant Diversity D. Seed Tracheophytes 2. Gymnosperms – “naked seed” a. Evolutionary History - dominated during Permian (280 mya) and through Mesozoic, and still dominate in dry env. Today (high latitudes, sandy soils) b. Diversity - cycads - ginko - Gnetales - conifers

III. Plant Diversity D. Seed Tracheophytes

c.Gymnosperm Life Cycle

III. Plant Diversity D. Seed Tracheophytes 3. Angiosperms – “flowering plants” - double fertilization - triploid endosperm

III. Plant Diversity D. Seed Tracheophytes 3. Angiosperms - double fertilization - triploid endosperm - fruits - flowers Both serve to bribe animals to disperse either Pollen or seeds NON-RANDOMLY. More likely to end up in a similar habitat.

III. Plant Diversity D. Seed Tracheophytes 3. Angiosperms - Angiosperm History

III. Plant Diversity D. Seed Tracheophytes 3. Angiosperms - Angiosperm History - Diversity - evolutionary trends: primitivederived insect pollinatedwind pollinated terrestrialaquatic “woody”herbaceous