Chapter 30 Plant Reproduction
Gametes
haploid produced by gametophyte
ovule seed ovary fruit
The ovary and zygote (fertilized ovule) develop and ripen. *The ovule forms the seed and the ovary forms the fruit. A fruit is a ripened ovary
Gymnosperms reproduction
The sperm is INSIDE pollen grains that are carried to female reproductive structures by the wind. Pollen cones -Male have scales with sporangia Gives rise to microspores which develop into pollen grains Female cones - Ovulate cones - have 2 ovules in each scale
Fertilization
The sperm travels through the pollen tube to the ovule. The sperm & egg fuse forming the zygote (fertilized egg) -this grows into the plant embryo (cells grow by mitosis)
Pollen cones
male have scales with sporagia
Flower structure male
male structure is called the stames and includes the anther which produces the pollen and is supporting stalk, the filament
Seed
an embryo packed with nutrients inside a protective coat
Heterospory
( two kinds of spores) (remember spores develop into gametophytes) - one female, one male
Four major steps in the seed plant cycle
1. Heterospory ( two kinds of spores) (remember spores develop into gametophytes) - one female, one male 2. plant spores are not dispersed - Female gametophytes: remain in plant and produce EGG. Stay protected Males gametophytes inside pollen grains: released from plant and carried by wind or animals (i.e. bees) to female gametophyte. No aquatic environment needed!! 3. pollination - transport of pollen from sporangium to the ovule via air or animals (cross fertilization) 4. Maturation of ovule into seed enclosing embryo and nutrients
Fern Life cycle Answer
Gametes produced in antheridium and archegonion of gametophyte Sperm swims to reach egg Fertilization produces sporophyte Haploid spores produced under leaf Release spores and develops into gametophyte
Pollen production
Microspores develop into pollen grains, which contain the male gametophytes Pollination - transfer of pollen to the part of a seed plant containing the ovules Wind dispersal If a pollen grain germinates, it gives rise to a pollen tube that discharges sperm into the female gametophyte within the ovule
Ovules Production
Ovules consist of: Megasporangium Megaspore Integument (protects)
Evolutionary trends
Reduction in size of gametophyte Notice in moss Fern Seeded plants Physical and physiological dependence on sporophyte/gametophyte is reversed
Advantages of heterospory male gametphyte
The male gametophyte (n) is dispersed in seed plants, but is protected by a layer of sporophyte tissue (2n). The whole structure is called a pollen grain.
Flower structure Female
Within the flower is called the carpel and is made up of the pistil which has an enclosed chamber called the ovary at its ase containing one or more ovules which eggs develop a stalk(style) extending from ovary ans a sticky tip the stigma
Advantages of Seeds
Withstand harsh environmental conditions - nice little package Seeds can be dormant for long time Seeds have stored food for embryo
Seeded Vascular plants
bring femals and male gametes together when conditions are dry
Broad leaved
capture more sunlight for photosynthesis
Sporophyte
diploid organism - produce spores Spores protected in the sporangia (organ) Sporocytes (cells in the sporangia) undergo meiosis and produce the spores
Fruits
encourage seed dispersal by passing through animals digestive tract and once excreted, find suitable location for germination
Archegonium
female gametophyte
Gametophyte
haploid organism - produces gametes gametes produced in gametangia (organs - 2 kinds) sperm in antheridium eggs in archegonium zygote develops in archegonium
Antheridium
male gametophyte
Cones
production of spores gametophyte grows, gametes produced gertilization happens
Flowers
reproductive shoots specialized for the transfer and receipt of pollen
Pollination
transfer of pollen to the part of a seed plant containing the ovules
