Quizbowl Plants I

Stomata

Leaves

Fronds

Leaves

Sessile types

Leaves

Palisade layer

Leaves

Stipules on base of

Leaves

Trichomes

Leaves

Craspedodromous and camptodromous classifications

Leaves

phyllotaxy

Leaves

epidermis of plant shoots

Stomata

abscisic acid closes

Stomata

Fusicoccin causes turgidity

Stomata

Ball-Berry-Leuning model

Stomata

KAT-like transporters

Stomata

Plant tissue

Xylem

Murray’s Law* (plant type)

Xylem

Tylosis

Xylem

Guttation

Xylem

Vessel elements

Xylem

scalariform plates

Xylem

end/exarch development

Xylem

Casparian strip

Xylem

Perforation plates

Xylem

cavitation

Xylem

Bulk flow

Phloem

Munch’s Pressure Flow Hypothesis

Phloem

Pores reinforced by platelets of callose

Phloem

Gynoecia

Fruit

Hesperidia

Fruit

Bromelain

Fruit

Cleistogamous structures limit

Pollination

Namesake “traps” of odors/adhesives

Pollination

Tube lipped bat

Pollination

3n endosperm

Angiosperms

Archaefructus liaoningensis

Angiosperms

3 and 7 cells in reduced gametophytes

Angiosperms

ABC model

Angiosperms

Genes named after Superman

Angiosperms

acronym ANITA

Angiosperms

-phyta named phyla

Gymnosperms

Ephedrine supplement

Gymnosperms

Fronds

Ferns

“Great radiation”

Ferns

Prothallus gametophyte stage

Ferns

Umbrella-like indusium

Ferns

Leptome

Mosses

Dawsonia superba

Mosses

rely on spores* not ferns

Mosses

Plant hormone

Auxins

Stimulates stem elongation

Auxins

Discovered by Fritz Went

Auxins

Activate proton pumps

Auxins

Transported in parenchyma tissue

Auxins

Acid growth hypothesis

Auxins

Derivatives of tryptophan

Auxins

activate the most common inducible degron

Auxins

Activates ethylene

Auxins

PIN proteins transport

Auxins

YUC/IPA pathways

Auxins

First example of a linked gene

Pollen

Pseudocopulation

Pollen

Self-incompatibility

Pollen

S-RNases can kill cells in this substance

Pollen

Male reproductive component

Stamen

Filament + anther

Stamen

Microsporangia

Stamen

Arabidopsis

Stamen

enzyme callase localizes to

Stamen

Tapetum layer

Stamen

CesA genes

Cellulose

Rosette terminal complexes

Cellulose

beta-1,4 glycosidic bonds

Cellulose

Fibers can make lyocell and viscose

Cellulose

Change based on pH in Hydrangeas

Flowers

Present in angiosperms

Flowers

ABC model

Flowers

Anther dehiscence opens

Flowers