introduction to plants plant structures, signaling defences, responses to the environment
TRANSCRIPT
Introduction to Plants
Plant structures,
Signaling defences,
Responses to the Environment
Why are plants important?
Food Photosynthesis produces oxygen Roots prevent soil erosion Leaves absorb pollutants Take in Carbon Dioxide
Types of Plants Bryophytes – lack a true vascular
system (xylem and phloem)– Mosses
Remain small Need water to reproduce – sperm swims to
female plant to fertilize egg – grows into stalk with spore case on end
Seedless Vascular Plants Ferns
– Have xylem and phloem– Reproduce by spores instead of seeds
Seed Plants - Gymnosperms
Nonflowering seed plants– Many produce seeds in cones - conifers– “naked seeds” – have no flesh around it.
Seed Plants - Angiosperms
Flowering seed plants– Produce flowers containing male and/or
female reproductive structures
Seed Produced from union of egg and
sperm– Egg is in flower – usually deep inside– Sperm is in pollen – carried to egg during
pollination– Fertilization produces embryonic plant
within stored food and a protective coating
Pollination Wind Water Animals – bats, insects, birds,
mammals, snails, etc.
Fruits Attracts animals so seeds get
dispersed Seeds usually can pass through
animal’s digestive system to be dropped a distance away from parent plant
Structures of Angiosperms
Roots– Grow toward water– Absorb water and minerals– Transport them to stem– Store food– Anchor plant
Types of Roots Taproot system Fibrous root system
Root Tip Remember the root tip we squashed to
see the cells undergoing Mitosis?
Root cap
Zone of cell division
Zone of elongation
Zone of differentiation
Leaves You already know the structure of the
leaf:
Flower Structure
Carpel
Fertilization
Vegetative Reproduction Cuttings - houseplants Runners - strawberries Mutations – naval oranges Grafts Suckers – aspen roots
Plant Hormones Chemical messengers – made in one part of
plant and work on another (just like human hormones).
Auxins – responsible for growth at the end of stems – cut them off, and plant will send out shoots from the sides of stems. Pruning uses this info to make bushier plants.
Others include cytokinins for root growth, Giberellins for seed growth, ethylene for fruit ripening, and abscisic acid for fruit and leaf growth.
Plant Responses Phototropism gravitropism Thigmotropism hydrotropism
Dormancy in Winter Deciduous Trees
– Lose leaves in autumn – Why?– Low level of metabolism in winte– Growth is suspended until leaves grow in
spring
Evergreen trees Metabolism slows in cold weather, but
they can start up any time the temperature rises.
Lose leaves all year long, a little at a time.
Photoperiodism Plant responds to intervals of day and
night Long night plants – flower in late
summer or early fall Short night plants – flower in early to
midsummer
How long do plants live?
Monocots vs Dicots
How a Plant Grows:
Secondary Growth:
Tree trunks:
Water Transport
Fruits:Mature ovary
Growth of Seed: