2. A seed’s protective coat is derived from the ovule.
Within this seed coat, a seed may remain dormant for days, months, or even years until favorable conditions trigger germination.
When the seed is eventually released from the parent plant, it may be close to the parent, or be carried off by wind or animals.
Fig. 30.3

3. Angiosperms
Flowering Plants

4. Introduction
Angiosperms, better known as flowering plants, are vascular seed plants that produce flowers and fruits.
They are by far the most diverse and geographically widespread of all plants.

5. As late as the 1990s, most plant taxonomists divided the angiosperms into two main classes, the monocots and the dicots.
Most monocots have leaves with parallel veins, while most dicots have netlike venation.
Monocots have one seed leaf (cotyledon, see below), Dicots have two.
Cotyledons are seed leaves that store food for the seedling.
Monocots include lilies, orchids, yuccas, grasses, and grains. Dicots include maples, oaks, peas, potatoes.

6. The flower is the defining reproductive adaptation of angiosperms
While evolutionary refinements of the vascular system contributed to the success of angiosperms, the reproductive adaptations associated with flowers and fruits contributed the most.
The flower is an angiosperm structure specialized for reproduction.
In many species, insects and other animals transfer pollen from one flower to female sex organs of another.
Some species that occur in dense populations, like grasses, rely on the more random mechanism of wind pollination.

7. A flower is a specialized shoot with four circles of modified leaves: sepals, petals, stamens, and carpals.
Fig a

8. At the tip of the carpal is a sticky stigma that receives pollen.
Stamens, the male reproductive organs, produce microspores that will give rise to gametophytes.
A stamen consists of a stalk (the filament) and a terminal sac (the anther) where pollen is produced.
Carpals are female reproductive organs that produce megaspores and their products, female gametophytes.
At the tip of the carpal is a sticky stigma that receives pollen.
A style leads to the ovary at the base of the carpal.
Ovules and, later, seeds are protected within the ovary.

9. Fruits are produced by the ovary developing
Fruits are produced by the ovary developing. The fruit will protect the seeds and aid in dispersal. Fruits in angiosperms include vegetables and fruits.

10. From Porifera to Mollusca
Animalia Part 1
From Porifera to Mollusca

11. Porifera – The Sponges!

12. Digestion
Filter feeders – suck in water and keep essential nutrients, while expelling wastes.
Collar cells (cells along the peripheral of the sponge) have a flagellum that creates a current from the outside moving inside.
Nutrients are absorbed directly by collar cells. Digestion occurs in collar cells and body cells.
Gases diffuse directly across cell membrane for respiration.

13. Excretion
Waste products diffuse out of cells into the internal cavity and out the osculum (mouth like structure).

14. Cnidaria – The Jellies!

15. Phylum Cnidaria Mouth at oral (mouth) end surrounded by tentacles.
One opening into and out of gastrovascular cavity. Incomplete digestive system – mouth and anus 1 tube
Two body forms
Polyp
Medusa
Two germ (skin/organ) layers

16. Mouth and Tentacles

17. Nervous System = Nematocysts!
Nematocysts – stinging structures used for obtaining food as well as defence.

18. Obelia

19. Class Hydrozoa Physalia

20. Class Scyphozoa Tentacles up to 70 meters in length
Cnidocytes (stingers) present in gastrodermis (internal gut layer, therefore sting prey as they ingest it) & epidermis
All marine – salt water