Kingdom Plantae

Kingdom Plantae

Kingdom Plantae AP BIOLOGY Why are Plants needed? What are some characteristics of the kingdom Plantae? Describe a plants life cycle.

What do plants need in order to survive?

50-90% of all photosynthesis Most live in water Unicellular, colonial, or multicellular Green algae are in the phylum Chlorophyta

Ancestor of green plants Ex. Chlmydomonas Alternation of Generations Gametophyte is the dominant generation Single celled Chlorophyta are considered protists. Multicellular Chlorophyta are plants. Ex. Ulva and spirogyra

Phylum Bryophyta Nonvascular plants

Mosses, liverworts, and hornworts. First land plants Tied to water for reproduction Gametophyte is dominant. Sporophyte grows from the top of the gametophyte. Male reproductive structure-antheridia Female- archegonium Phylum Pteridophyta

Ferns Dominant generation is the sporophyte They lack seeds Reproduction occurs by spores spreading

Horsetails Ferns The Origin of Vascular PlantsRequirements Seeds for reproduction- protect the

developing embryo. Vascular tissue- xylem carries water and phloem carries products of photosynthesis Phylum Tracheophyta- gymnosperms and angiosperms Ferns

Leaves are called fronds Spores are under the frond in the sorus Attached to ground by the rhizome and rhizoids, which are root like structures Dominant generation is the sporophyte Lifecycle of a fern

Tracheophytes are divided into gymnosperms and angiosperms The seeds of gymnosperms(conifers, cycads, and ginkos), are called naked seeds. Seeds are on the cones of conifers. Male cones are smaller than female cones and usually occur on the same tree. Males have microsporangia and females have megasporangia.

Flower whorls Angiosperms are flowering plants 1) 2) 3)

Gametocyte is found in the flower. The flower is made of layers. Outermost whorl of a flower is called the sepal. It encloses and protects a developing flower. Second whorl forms the flower petals. 3rd whorl forms the male gamete. The male gamete is made of a filament and an anther containing pollen. It is

called the stamen. 4) The 4th whorl is the female gamete. It is called the pistil or carpel. The pistil has a sticky top called a stigma, and tube for the pollen to travel through called the style, and the ovule in the ovary. When pollination occurs, the seeds are covered with a seed coat for protection.

The ovary develops into a fruit to nourish the embyro. It also aids in seed dispersal. Seed dispersal occurs through wind, water, or animals(vector). The ripe fruit eaten by animals, helps seeds become dispersed. Coevolution-plants and animals evolved together.

Major divisions of angiosperms

Monocots Veins in leaves are parallel Flower parts of 3s Vascular bundles scattered in stem Vascular bundles alternate in circle in

root Stems dont get thicker from year to year

Dicots Branching veins in leaves Petals in 4s or 5s Vascular bundles in rings in stems Vascular bundles arranged in X in roots Stems thicken from year to year

3 categories of plant life spans Annuals- have to be planted every year. Ex. Corn, petunias Biennials- 2 year cycles. Ex. Carrots.

The carrot will grow in one year. It takes 2 years for seeds to form. Perennials-grow for many years. Ex. Holly Plants Fertilization in angiosperms

Double fertilization 1 sperm fertilizes the egg to form a zygote The other fertilizes 2 polar bodies in the embryo sac to form an endosperm. The endosperm is rich in food to nourish the embryo. Plant organs

Dermal tissue- outer covering with a waxy cuticle Vascular tissue- conducts Ground tissue- anything that isnt dermal or vascular. Surrounding vascular=cortex Inside vascular=pith Plant tissues

Roots, stems, and leaves needed to live on land. Vascular tissue is xylem and phloem Veins are arranged into vascular bundles. Meristematic tissue is the only plant

tissue that divides by mitosis. Plant cells Parenchyma cells- most abundant;

metabolism Collenchyma- support growing parts of plants Schlerenchyma- dead; support Xylem and phloem Vascular Tissue

Xylem- made of vessel elements, which are wide and must die before they conduct water, and tracheids, which are long and narrow and also must die to work. Phloem- made of sieve tube elements with many holes in them and companion cells, which surround and control sieve tube elements. Sugars move from the sugar source to the sugar sink by diffusion. Types of Meristematic Tissue

Apical meristem-allows trees to grow taller Cork cambian- allows stems to thicken Vascular cambian- allows new vascular

tissue to form. Pericycle- allows roots to grow. Xylem cells Phloem cells Plant Classification

Bryophyta- mosses, liverworts, and hornworts. Pteridophyta- ferns and horsetails. Coniferophyta- conifers. Cycadophytacycads. Ginkophyta- ginkos Angiospermophyta, class Monocotyledoneae (irises, lillies, corn, wheat, bananas, etc) and class Dicotyledoneae (trees, shrubs, and most

fruit trees) Natural Perspective: Dicots (Class Dicotyledoneae) Roots

Taproots- long, thick primary root with tiny roots hairs. Found in oak and hickory trees, carrots, dandelion, beets, and radishes. Fibrous roots- Found in grasses and many trees. Roots have 3 tissue layers- 1) Epidermisoutermost. 2) Cortex- transports water and nutrients inward. 3) vascular cylindercontains xylem and phloem. 1)

2) 3) 4 root tip sections Root cap- protects the root and secretes CO2, which forms carbonic acid. This acid dissolves soil and allows the root to push through the soil Meristematic region- growth/mitosis Region of elongation- meristematic cells

form this region, where root cells increase in length, new protoplasm forms, and vacuoles get larger. 4) Zone of maturation- differentiation occurs, forming the mature tissues, xylem, phloem, and the root hairs. Leaf cross section Leaves

Cuticle- waxy layer. Keeps water from evaporating. Epidermis- thin layer that light passes through Palisade mesophyll- columnar cells with

chloroplasts for photosythesis. Spongy mesophyll- loose layer of cells that photosynthesis occurs in. CO2 can move through this layer. More of the leaf Xylem and phloem take water and

minerals into the leaf and nutrients out. Stoma (stomata) open and close to let CO2 in and O2 out of the leaf. It has to balance the need for CO2 with the cost of water loss. Guard cells control the opening and closing of stomata. Water moves in through the root hairs, through the epidermis and cortex. A

Casparian strip divides the cortex and vas. Cylinder. Once water moves through the Cas. Strip, it cant move back out. This is called root pressure and is one way that water moves through a plant. Water movement in plants 1) 2)

3) Root pressure- moves water a short distance. Capillary action- combination of adhesion and cohesion. Short distances only. Transpirational pull- as water evaporates through the leaves, more water moves into those cells by osmosis. This can pull water up a tall tree.

Stems Stems hold leaves up to the sun and conduct substances between roots and leaves. Plant Hormones 1.

2. Auxins- produced in the apical meristem and move downward. They stimulate cell elongation. They are also responsible for response to gravity. Roots grow downward, stems grow upwards. Auxins inhibit growth of lateral buds. Cytokinins- stimulate cell division and the growth of lateral buds, and cause dormant seeds to sprout. Root growth.

3. 4. 5. Gibberellins- produce dramatic increases in size, particularly in stems and fruits. Seed germination, fruit development, and leaf growth.

Ethylene- in response to auxins, fruit tissues release small amounts of this gas. This in turn stimulates the fruit to ripen. Absisic acid- inhibits growth and promotes dormancy. Photoperiodism

It is responsible for the timing of seasonal activities such as flowering and growth. Some plants are short-day plants, some are long-day plants. Some flowers open in the day, others only at night. Plant responses 1.

2. 3. Tropisms- response to external stimuli. There are several types. Gravitropism- roots grow down(positive gravitropism) and shoots grow up(negative). Phototropism- plants grow towards light. Thigmotropism-response to touch. Some will have their growth stunted, some will twist to avoid touch, others will grow tendrils into an

object. Soil Profiles SOIL

A mixture of sand, silt, clay, and bits of decaying animal and plant tissue. Humus- dead plants and animals Topsoil- made of humus, sand, clay, and minerals. Lots of air spaces. Subsoil- mixture of rocks and inorganic soil particles. There is little air here. Bedrock- solid, cant be penetrated by

plant roots. Essential Nutrients Plants need carbon dioxide, water, and inorganic nutrients to grow.

The most important inorganic nutrients are nitrogen, phosphorus, calcium, magnesium, and other trace elements. For example: nitrogen is needed for leaf growth and color. Phosphorus is needed for making DNA, roots, stems, flowers, and seeds. Reproduction in angiosperms

One pollen grain joins with the egg to form an embryo. Another pollen grain joins with the polar nuclei to form the endosperm. The endosperm gives nutrients and moisture to the embryo until it germinates. Plant propagation and agriculture

Cuttings Grafting Budding All of these allow plants to grow without fertilization. Fertilization and seed dispersal

Both can occur by wind, water, and animals( vector) Fertilization is transfer of sperm or pollen to eggs. Seed dispersal is dispersal of seeds away from the parent plant for growth. This prevents competition with the parent for

nutrients, sunlight, and water. AP Additions Stems are made of nodes (point of leaf attachment) and internodes (between

nodes) Axillary buds form between the node and stem and may form branches Terminal bud is at the top of a stem Leaves are made of blades (flat) and petioles (where leaves join the stem) Tissue types in the leaf, stem, and root

Dermal tissue- single layer that covers the plant Vascular tissue- xylem and phloem Ground tissue- anything that isnt dermal or vascular. Internally to vascular tissue-pith. External to vascular tissue- cortex

3 cell types 1. 2. 3. Parenchyma- photosynthesis and other metabolism Collenchyma cells- grouped in cylinders for support. Schlerenchyma- fibers for support on non-growing parts of plants.

Tree Bark Terms

Turgor pressure- pressure exerted against the cell wall when the plant is full of water. Aquaporins- protein channels for the passage of water between plant cells. Tonoplast- membrane surrounding the large central vacuole. Epiphytes- plants that grow on other plants (not parasitic). More terms

Monoecious- having male and female reproductive structures on the same plant. This may occur in some animals.

Dioecious- having separate organisms for each sex (male and female). Microsporocytes or microsporangiamale cells Megasporocyte or megasporangiafemale cells.

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