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Plants and People. Reproductive Morphology: Flowers and Fruits. Why a Flower?. The Reproductive Structure of Flowering Plants:. Perianth. Petal: Corolla Sepal:Calyx. Flower Anatomy. Calyx : the outer whorl of sepals ; typically these are green, but are petal-like in some species.
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Plants and People Reproductive Morphology: Flowers and Fruits
The Reproductive Structure of Flowering Plants: Perianth Petal: Corolla Sepal:Calyx
FlowerAnatomy Calyx: the outer whorl of sepals; typically these are green, but are petal-like in some species.
Flower Anatomy Corolla: the whorl of petals, which are usually thin, soft and colored to attract animals that help the process of pollination. The coloration may extend into the ultraviolet, which is visible to the compound eyes of insects, but not to the eyes of birds.
Flower Anatomy Androecium (from Greek andros oikia: man's house): one or more stamens, each with a filament topped by an anther where pollen is produced. Pollen contains the male gametes.
Flower Anatomy Gynoecium (from Greek gynaikos oikia: woman's house): all the female parts—the pistil(s) withovule(s) inside.
Flower Anatomycarpel carpel structure fertilization
Evolution of the Carpel See figures 3.1 and 3.2 in your book
ovule locule The Carpel The carpel is the basic unit of the gynoecium. Each carpel consists of an ovary connected to a stigma by the style. Within each carpel are one or more ovules, which will become the seed(s). The area of attachment is called the placenta (pl. = placentae) and the empty space in the chamber is called the locule (pl. = locules). The dividing walls are called the septa. transverse section longitudinal section single carpel fused carpels
The Single Carpel A gynoecium with only one carpel is termed unicarpellate. A gynoecium of many separate carpels is termed apocarpous. TS LS unicarpellate apocarpous
Fused Carpels A gynoecium with many fused carpels is termed syncarpous and the flower is said to have a compound pistil. Evolution of the fused carpel syncarpous
Placentation basal placentation: attachment of ovules to the bottom of the ovary. One locule, no septa. apical placentation: The attachment of the ovules is at the apex (top) of the ovary. One locule, no septa.
Placentation parietal placentation: ovules are attached to the side walls of the ovary (or extrusions of the wall) such that an ovary usually has one locule and therefore no septa. Can only be found in a syncarpous gynoecium; axile placentation: ovules are attached to an axis derived from the connate margins of the component carpels, such that an ovary is divided into two or more locules by septa. The ovules are borne along the central axis. Can only found in a syncarpous gynoecium.
Placentation free or central placentation: ovules attached to a free-standing central column in a syncarpous, unilocular ovary (one locule, no septa) marginal placentation: ovules are attached to the folded margins of the carpel, giving the appearance that there is only one elongated placenta on one side of the ovary. Can only be found in a simple pistil. This is conspicuous in legumes.
B D A C E F G How Many Carpels? Locules?
Flower Structure Variation perfect imperfect imperfect
Flower Structure VariationOvary Position A. ovary superior, floral parts hypogynous B. ovary inferior, floral parts epigynous C. ovary half-inferior D. ovary superior, floral parts perigynous, hypanthium cup shaped
Flower Structure Variation A flower having sepals, petals, stamens, and pistils is complete; if a flower is lacking one or more of these whorls, it is said to be incomplete. complete incomplete no stamens present = incomplete
Inflorescences An inflorescence is a group or cluster of flowers. It may be branched or unbranched. Modifications can involve the length, variations in the proportions, compressions, and swellings, and the order in which the flowers open. Usually the modifications have been evolved to optimize the plant’s method of pollen dispersal.
Pollen Dispersal by Animals Bees, Beetles, Bats, Birds, Butterflies, etc…
Symmetry Flowers that are actinomorphic have "radial symmetry", meaning they can be divided into symmetrical halves by more than one plane passing through the axis, much as a pie can be cut into several equal and identical pieces. Zygomorphic flowers have "bilateral” symmetry, where flowers can be divided by only a single plane into two mirror-image halves, much like a person's face.
Dicot versus Monocot Dicot Monocot
Fruit and Seed Formation A fruit develops from an ovary. A seed develops from an ovule.
Dry Fruits Dry fruits have the pericarp (fruit wall) dry at maturity. Fruits which split open to release the seeds are termed dehiscent. Those that do not split open are called indehiscent.
Indehiscent, Dry Fruits - Achene Achene - single seeded, thin pericarp, seed coat is separate from ovary wall. Example: sunflower and strawberry “seeds”
Indehiscent, Dry Fruits - Grain Grain (caryopsis) - single seeded, pericarp fused with the ovary wall. Example: corn, wheat, rice, oats, etc. fused
Indehiscent, Dry Fruits - Nut Nut - single seeded, with hard or bony pericarp, often wholly or partially surrounded by a husk of bracts. Example: hazelnut, walnut, pecan
Dehiscent, Dry Fruits - Legumes Legume - usually dehisces along two sutures; from a simple pistil. Example: beans, peas, soybeans caylx one folded carpel seed/ovule style Unopened Legume Legume Split Open (1 carpel, 2 seams)
Dehiscent, Dry Fruits - Capsule Capsule - usually from a compound pistil, usually many seeded. Pericarp opens with pores or slits. Example: okra (which we eat before maturity.) seed septa locule dehisces along locules (loculicidal) okra is a capsule
Fleshy Fruits - Berry Berry - one to multiple seeds, mesocarp is fleshy, endocarp is soft. Example: grape, tomato
Fleshy Fruits - Drupe Drupe - usually one seeded, exocarp a thin skin, mesocarp fleshy, endocarp usually hard. Example: peach, plum
Fleshy Fruits - Hesperidium Hesperidium - special kind of berry with leathery rind and oil glands dotting the surface. Example: lime, orange
Fleshy Fruits - Pepo Pepo fruits are berrylike, with a hard rind; almost always with three carpels and parietal placentation. Examples: melon, squash
Fleshy Fruits - Pome Pome fruits have most of the flesh derived from a floral cup and receptacle. Example: Apple, pear (receptacle)
Other Fruit Types (Non-Simple) Other fruit types: Multiple Aggregate Accessory Parthenocarpic
Non-Simple Fruits - Multiple Multipe fruits are formed by the fusion of fruits of numerous independent flowers. Example: pineapple, fig
Non-Simple Fruits - Aggregate Aggregate fruits are those formed from several separate ovaries within a single flower. Examples: raspberry, blackberry
Non-Simple Fruits - Accessory Accessory fruits are those where the “fruit” part is derived from something other than ovary tissue. A strawberry is a swollen receptacle and the seeds on the surface are the true fruits, called achenes.
Today’s Lab Activities • You need to get information from the prop cards to add to your chart. For each crop, record if it is a monocot or dicot, family and genus/species name, fruit type, origin and carpel number (for fruits.) • For some, carpel number will be given and for others you will need to determine the carpel number yourself by counting the carpels by either counting locules or points of attachments for seeds in an open fruit. • WARNING! If you have a severe allergy to poison ivy, you should not eatmango, pistachios, or cashews unless you know you are not sensitive to them • Other than allergy concerns, you are encouraged to taste things that are new to you by cutting small pieces to eat !! Have fun!