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Ch. 7: Plant Growth and Reproduction

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Title: Ch. 7: Plant Growth and Reproduction

1
Ch. 7 Plant Growth and Reproduction
2
Terms

Flower parts (BIOL 1030)

3
Floral variation

Parts may be fused
Example, petals fused to each other.

Snapdragon flower
4
Floral variation

Fusing of petals can form floral tube (nectar
made at bottom)
Only long-tongued or long-billed pollinators can
reach it.

Aesculus pavia flowers
seed
5
Floral variation

Flowers with both stamens and pistils perfect
flowers
Some flowers imperfect. Either pistillate (have
pistil) or staminate (have stamens).

Pistillate flowers of Sagittaria
Staminate flowers of Sagittaria
6
Floral variation

Note some species make pistillate flowers and
carpellate flowers on separate individuals
This termed dioecious (MUST outcross to reproduce
sexually)
Monoecious is when both sexes on same individual.

7
Floral variation
Persimmon fruits

Example of dioecious species Persimmon
(Diospyros virginiana)

Pistillate flower
Staminate flower
8
Floral variation

Some flowers are missing one or more sets of
basic parts incomplete flowers
Note that all imperfect flowers are therefore
incomplete!

9
Floral variation

Some flowers assembled into groups of flowers
inflorescence
Special inflorescence type head
Example, sunflower and its relatives
Ray flowers have large fused petals (corollas
fused), disk flowers small and crowded.

ray flowers
disk flowers
10
Floral variation

Flowering dogwood (Cornus florida)
Inflorescence white structures are modified
leaves (bracts) that act like petals.

Closeup showing individual greenish flowers
Inflorescence
11
Pollination

Why flowers so varied? Many form mutualism (,
interaction) with animals to achieve pollination

12
Terms

Pollination (flowering plants) transfer of
pollen from anther to stigma

Carpelpistil
13
Terms

Fertilization occurs when sperm in pollen tube
made by pollen grain fuses with egg in ovule to
produce zygote

14
Pollination

Abiotic pollen carried by wind or water
Wind pollination common among grasses, temperate
zone trees (Quercus, Carya, Pinus)
Not a mutualism

A grass
Carya
15
Terms

Biotic pollination pollen carried by animal
About 90 of flowering plants

16
Terms

Floral visitor animal that visits a flower
Pollinator animal that deposits pollen on stigma
from compatible flower
All pollinators are floral visitors, but not vice
versa!

17
Terms

All pollinators are floral visitors, but not vice
versa!
How decide?
1) Careful observation of visitor morphology and
activity

18
Terms

How decide?
2) Single visit study
Bag flower bud, allow flower to open
Remove bag, allow visitor to make 1 visit
Re-bag flower and see how many seeds result
Can use to compare effectiveness of different
pollinator species

19
Pollination as Mutualism

Most flowering plants are pollinated by animals
This is mutualism (,) interaction
Plant gets pollen transferred
Animal gets reward

20
Animal Rewards

Pollen high in protein
Also has lipids, minerals, starch

21
Rewards

Can be renewed by
sequential anther dehiscence (multiple stamens)

Tony Danzas Masters Study
Creosote bush
22
Rewards

poricidal anthers (buzz pollination) anthers
have holes at tip

Vaccinium (blueberry)
23
Rewards

Nectar sugary fluid produced by nectar glands
(nectaries) in flower

Lonicera japonica
24
Rewards

Nectar 10-60 sugars
May have amino acids too (butterfly flowers)
Renewable reward!

25
Rewards

Oils/Resins
some used as construction materials
cologne (male solitary bee uses oil as female
attractant)
food for larvae (Krameria)

Krameria wax gland wasp food!
26
Rewards

Edible petals (pineapple guava New Zealand)

27
Pollination

Benefits of animal pollination for plant
1) Directed dispersal of pollen pollen taken
directly to stigma of another flower. Results in
gene flow
Record distance for insect pollination?

20 km! For tropical orchid
28
Pollination

How does animal know where to go?
Floral cues and attractants
Color and shape
Scent
Warmth (thermogenic plants rare)

Skunk cabbage
29
Pollination

Benefits of animal pollination for plant
Directed dispersal aided by learning of floral
visitors decreases handling time
Fosters floral constancy (visiting single
species on foraging trip) by bees

Bumblebee visits to touch-me-not
30
Pollination

Benefits of animal pollination
2) Style of flower as selective racetrack
Keep in mind that 1 pollen grain can fertilize 1
ovule
Suppose 5 pollen grains arrive on stigma
Start to make pollen tubes
How many can fertilize an ovule?
2! First 2 to arrive!
Rest? LOSERS!

Pollen grains
stigma
style
ovary
2 ovules
31
Pollination

Benefits of animal pollination
2) Style of flower as selective racetrack
Pollen tubes are haploid (1N)
Haploid means only 1 allele (gene version) for
every trait
If an allele is recessive, then it will be
expressed (cant be masked by another, dominant
allele)
So, fittest (fastest) pollen grains mate
Inferior genes dont get passed to offspring.

Pollen grains
stigma
style
ovary
2 ovules
32
Pollination

Style of flower as selective racetrack
Is there evidence that this works?
Example, Coyote melon
Gourd growing in U.S. deserts.

33
Pollination

Style of flower as selective racetrack
Study done in 2000 showed that
1) takes 900 pollen grains to fully pollinate
flower
2) 1 pollinator visit puts 650 grains/flower. By
2 hours, 4000 grains deposited on stigma
3) Seeds produced from over-pollinated flowers
produced more vigorous seedlings (compared to
seeds from flowers with
stigma).

34
Outcrossing

Major benefit of sexual reproduction generate
genetic variation
This enhanced by mating with others (outcrossing)

Why just enhanced?
Making gametes by meiosis 23 pairs of
chromosomes gives 6 million different
combinations of Moms and Dads chromosomes in
gametes
35
Outcrossing