3/19/15 Do Now: -How have you depended on or used plants today? HOMEWORK: -VOCAB Ch.9 sections 1-3 - Read Page 244 Visualizing plant classification and make a chart or flow diagram - p.245 #6 (if you did not do 1-5 on 245 you must do it)!!!

AIM: How do Plants Obtain Nutrients 3/20/15 Do Now: How does the cuticle layer protect the plant?

THE PLANT KINGDOM

What you will learn: Characteristics to all plants Plant adaptations that help them survive on land Vascular vs. Nonvascular plants Vocabulary: Section 1 -Cuticle, Cellulose, Vascular plant, Nonvascular plants

What is a plant?: Trees, flowers, vegetables, fruits, and field crops: rice, wheat and corn Between 260,000-300,000 species have been identified and discovered Without plants most life on Earth would not exist -Can range in size from microscopic water ferns to giant sequoia trees that can be more than 100 m in height

*light *water *air *nutrients *time *room to grow 7 Basic needs of plants: *temperature *light *water *air *nutrients *time *room to grow

Have plants always existed on Earth? Ancestors -green algae (that lived in water) Have the same type of chlorophyll and carotenoids (red, orange, yellow) pigment used for photosynthesis) Fossil records: The oldest plant fossil is about 420 million years old. Ex. Cooksonia (spores are at the top of the stem) Cone- bearing: fossils date back to 300, 000 million years ago Flowering plant: origin is unknown

COOKSONIA FOSSILS!

Plant Cell Review Cell membrane, nucleus, cell wall, other organelles: Can you name some? Many have Chlorophyll -(pigment=color found in Chloroplasts- Used for Photosynthesis Many have a LARGE Central vacuole (regulates water and many substances are stored there including pigments- red, blue, purple flowers)

PLANT CELL

Ex. WOOD is used for construction FACTS: eukaryotes and autotrophic (true nucleus, can make their own food *Most live on land and have a way to obtain water. LAND ADAPTATIONS fig 4 in your textbook Many have a waterproof layer covering their leaves called the cuticle - prevents water loss or gain. Cell wall ( outside the membrane) contain: Cellulose- A chemical compound that plants can make out of sugar that’s help with structure and support -Some plants use secrete other substance into the cellulose to make the cell stronger Ex. WOOD is used for construction

Land adaptations cont. REPRODUCTION: -Water resistant spores -Water resistant seeds in cones and flowering plants that develop into fruits

Classification of Plants Classified into groups called divisions (same as phylum in other kingdoms) 2 groups= 1)VASCULAR= Have tube-like structures that carry water, nutrients and other substances throughout the plant 2)NONVASCULAR= No tube-like structures And must use other ways to move water and other substances

Classification cont. NAMING PLANTS: Carlos Linnaeus BINOMIAL NOMENCLATURE - EX. Quercus alba : First word is genus, second is species Kingdom, phylum, class, order, family, genus, species

Two major divisions of plants Vascular Plants - those that have vascular tissues (tubes that transport water throughout the cell

Nonvascular Plants - those that have no vascular tissues and must be completely connected to the ground

The three kinds of nonvascular plants are mosses, liverworts and hornworts.

MOSS

Mosses: green fuzzy part you see is the gametophyte Root-like structures called rhizoids anchor the moss & absorb water and nutrients from the soil. Has a long thin stalk with a capsule on the end that contains spores. They live on tree trunks and rocks.

LIVERWORTS

Liverworts Liverworts grow flat along the ground on moist rocks and soil along streams. They look like a human liver.

HORNWORTS

Hornworts look like liverworts except that they have curved structures growing out of them. They live in moist soil mixed in grasses.

2. SEED PRODUCERS VASCULAR PLANTS Two main divisions of vascular plants: 1. SPORE PRODUCERS (ferns, club mosses and horsetails) 2. SEED PRODUCERS

Ferns, club mosses and horsetails need moist surroundings so spores will survive and grow into gametophytes. When the gametophytes produce egg and sperm cells, there must be enough water nearby for fertilization to occur. Most club mosses and horsetails have become extinct …

All other plants are seed plants All other plants are seed plants. They have two types of vascular tissue (xylem and phloem) and use seeds to reproduce.

Cells of stems are xylem, or phloem - located in long strands called vascular bundles.

xylem cells: move water in plants.

phloem cells: move food down the stem to other parts of the plant.

TWO TYPES OF STEMS:

woody Stems that are hard and stiff. These stems usually don't die back to the ground during the winter. These are stems we use to make furniture and houses.

herbaceous Plants with stems that are usually soft. These stems die back to the ground every year.

Sporophyte - the plant produces spores Life Cycle of Plants Two stages: Sporophyte - the plant produces spores Gametophyte - the plant produces 2 kinds of sex cells (gametes) sperm cells and egg cells

Two types of seed plants: GYMNOSPERMS: Woody stems(conifers) Produce naked seeds not enclosed in an ovary Needle like leaves

REPRODUCTION IN GYMNOSPERMS Conifers produce male and female cones - sometimes cones are produced on separate trees

Male cones produce pollen Females produce one ovule at base of cone

Pollen falls from male on to female. In time sperm and egg cell join in ovule. Zygote develops into embryo.

to female reproductive structure POLLINATION: Transfer of male reproductive structure Seed develops & cone size increases. Cones with immature seeds point up & cones with mature seeds point down. to female reproductive structure

ANGIOSPERMS: PARTS OF THE FLOWER: Herbaceous stems 2nd type of seed plant ANGIOSPERMS: Herbaceous stems Produce stems in enclosed fruit two characteristics - produce flowers and fruit PARTS OF THE FLOWER:

The stigma is the sticky surface at the top of the pistil; it traps and holds the pollen. The style is the tube- like structure that holds up the stigma. The style leads down to the ovary that contains the ovules.

The stamen has two parts: anthers and filaments The stamen has two parts: anthers and filaments. The anthers carry the pollen. These are generally yellow in color. Anthers are held up by a thread- like part called a filament.

Petals attract pollinators. The sepals are the green petal- like parts at the base of the flower. Sepals help protect the developing bud.

Seeds develop once the sperm cells fertilize the egg cells. The seed provides a covering to keep the young plant from drying out. All seeds have an embryo, stored food and a seed coat.

The young plant that develops from the fertilized egg is called the embryo. The embryo has the beginnings of the roots, stems and leaves. The embryo uses the stored food inside the seed to grow. The stored food is in cotyledons. The outer part is called the seed coat.

TWO TYPES OF ANGIOSPERMS DICOT: examples are roses, violets and dandelions, oak, maple, vanilla bean and apple Flowers have 4 or 5 petals or multiples of that number Leaves are wide with veins that branch off each other Stems have bundles of vascular tissue arranged in a circle.

Slender leaves with veins that run parallel like train tracks MONOCOT: Examples are grasses, corn, wheat, rice, lilies, tulips Vascular tissue is scattered randomly through stem

Life Cycle A plant's life cycle describes how long a plant lives or how long it takes to grow, flower, and set seed. Plants can be either an annual, perennial, or biennial.

Annual A plant that completes its life cycle in one growing season. It will grow, flower, set seed, and die Examples: marigolds, tomatoes, and petunias.

Examples: daisies, chrysanthemums, and roses. Perennial A plant that lives for 3 or more years. It can grow, flower, and set seed for many years. Examples: daisies, chrysanthemums, and roses. (think bushes!)

Biennial A plant that needs two growing seasons to complete its life cycle. Produces leaves one season, rests in winter and grows flowers & seeds the next season. Examples: parsley, carrots, & foxglove.

Plant Parts - Roots The roots provide support - anchor the plant & absorb water and nutrients needed for growth. I’M A ROOT!

ROOT SYSTEMS Taproot system A root with a few branches that is very thick and swollen. Carrots & potatoes are example.

fibrous root system Some plants have a root system like this. It is a bunch of very fine roots all together. Grass plants have fibrous roots.

Plant Parts - Stems Stems carry water and nutrients taken up by the roots to the leaves. They also provide support. Without stem, there would be nothing to hold up leaves or flowers!

Leaves are the food making factories of green plants. Plant Parts - Leaves Leaves are the food making factories of green plants. Leaves can be simple, made of a single leaf blade OR...

compound in which the leaf blade is divided into separate leaflets

Joins leaf to main stem

Joins leaf to main stem

LEAF CELLS

Leaf Functions:Leaf cell