Term
|
Definition
consists of all the
organisms in a particular area, along
with physical components of the
environment |
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Term
|
Definition
add to the quality of the atmosphere,
surface water, soil, and other physical
components of an ecosystem |
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Term
Plants alter the landscape in ways that
benefit other organisms (5) |
|
Definition
– produce oxygen via oxygenic photosynthesis
– build soil by providing food for decomposers
– hold soil and prevent nutrients from being lost
to erosion by wind and water
– hold water in the soil
– moderate the local climate by providing shade
and reducing the impact of wind on landscapes |
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Term
|
Definition
– dominant primary producers in terrestrial ecosystems
– provide the base of the food chain in the vast majority
of terrestrial habitats
– eaten by herbivores, which are eaten by carnivores
– artificial selection for plants has lead to dramatic
changes in plant characteristics
-KEY TO CARBON CYCLE ON LAND |
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Term
|
Definition
- Plant Dies in wet habitat
- organic matter only partially decays
- If covered by sediment and compressed, completes the formation |
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Term
| Common Plant Based Medicines (5) |
|
Definition
Codine - Opium
Ipicac - Ipicac
Menthol - Peppermint Tree
Morphine - Opium Poppy
Salicin - Willow trees
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Term
| How do biologists study green plants? (3) |
|
Definition
1. compare fundamental morphological
features
2. analyze the fossil record
3. assess similarities and differences in
DNA sequences from homologous
genes |
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Term
|
Definition
• traditionally been considered protists, but
studied along with land plants for two reasons:
1. closest living relatives to land plants
2. transition from aquatic to terrestrial life occurred
when land plants evolved from green algae
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|
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Term
Why it is hypothesized green algae closely related to
plants: |
|
Definition
- Chloroplasts
- Cell wall Structures |
|
|
Term
Morphology of Green Algae |
|
Definition
– are unicellular, colonial, or multi-cellular
– live in marine or freshwater habitats |
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|
Term
Three Categories of Plants |
|
Definition
- nonvascular plants,
- seedless vascular plants,
- seed plants |
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Term
|
Definition
lack vascular tissue—specialized groups of cells
that conduct water or dissolved nutrients from
one part of the plant body to another
Do not grow tall |
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Term
| Seedless vascular plants: |
|
Definition
– have well-developed vascular tissue, but do not
make seeds |
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Term
| Seed plants: Description & Categories (2) |
|
Definition
- have vascular tissue and make seeds
– Gymnosperms (“naked seed”)
– Angiosperms (“encased seed”) |
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Term
|
Definition
consists of an embryo and a
store of nutritive tissue, surrounded by
a tough protective layer |
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Term
| Age of Green Algae Fossils |
|
Definition
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Term
| Age of Fossil Land Plants |
|
Definition
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Term
| Age of Angiosperm Fossils |
|
Definition
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Term
| Origin of Land Plants 475 - 444 mya |
|
Definition
First evidence of land plants :
Cuticle
Spores
Sporangia |
|
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Term
| Silurian-Devonian Explosion |
|
Definition
444 - 359 mya
Most major morphological Inovations:
- Stomata
- Vascular Tissue
- Roots
- Leaves |
|
|
Term
Carboniferous:
Lycophytes and horsetails abundance |
|
Definition
359 - 299 mya
Extensive Coal Forming Swamps |
|
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Term
|
Definition
299 - 145 mya
Both wet and dry environments blanketed with green plants for the first time |
|
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Term
|
Definition
145 mya - Now
Diversifications of flowering plants |
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Term
|
Definition
Draw Phlogeny of Green Plants
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Term
Adaptations needed for
Plants to live on dry land (2) |
|
Definition
1. prevention of water loss from cells (evolved only once)
- Cuticle
- Stoma
2. transportation of water from tissues with
access to water to tissues without access
(evolved multiple times)
- Vascular Tissue |
|
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Term
|
Definition
waxy, watertight sealant that covers
the aboveground parts of the plant and
gives them the ability to survive in dry
environments
– BUT, blocks CO2 uptake |
|
|
Term
|
Definition
opening called a pore
surrounded by specialized guard cells
– used for gas exchange
– pore opens and closes as the guard cells
change shape |
|
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Term
|
Definition
Allowed early plants to both
support erect stems and transport water from
roots to aboveground tissues. |
|
|
Term
Evolutionary Sequence of
Water Conducting Cells (4) |
|
Definition
- Simple water conducting cells
- First Vascular Tissue
- Tracheids
- Vessel Elements
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|
|
Term
What do you know about
Simple water Conductiong cells |
|
Definition
- Little Structural Support (Cellulose)
- Found in fossils and
- Present Day Mosses |
|
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Term
|
Definition
- Single wall (with Cellulose)
- Some Structural support (Lingin) |
|
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Term
|
Definition
- Cell Wall (Cellulose)
- Seconday Wall (Lingin)
- Ends have gaps in secondary cell wall
- Found in all Vascular Plants |
|
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Term
|
Definition
- Primary Wall
- Secondary Wall
- Ends have gaps through primary AND secondary cell walls |
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Term
|
Definition
| Structural Polymer built from six-carbon rings |
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|
Term
How do plants
reproduce in dry conditions? |
|
Definition
– spores resist drying
– gametes produced in complex, multi-cellular
structures
– embryos retained on the parent plant and
nourished by it |
|
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Term
|
Definition
Specialized reproductive organs that
protected early gametes from drying and damage
– all living land plant groups but angiosperms still have these
|
|
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Term
|
Definition
| sperm-producing structure: |
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Term
|
Definition
|
|
Term
| Embryophyte Reproduction (land plants): |
|
Definition
Zygote is retained on the gametophyte
after fertilization and develops into a
multicellular embryo that remains attached
to the parent and is nourished by it |
|
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Term
|
Definition
multi-cellular haploid phase
(evolved early) |
|
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Term
|
Definition
Multi-cellular diploid phase
(evolved later) |
|
|
Term
Alternation of generations always involves
the same five key events: |
|
Definition
1.Haploid gametophytes produce haploid
gametes by mitosis
2.Two gametes unite to form a diploid zygote
3. The zygote divides by mitosis; develops into a
multi-cellular, diploid SPOROPHYTE
4. The sporophyte produces haploid spores by
meiosis
5.Spores divide by mitosis; develop into a
haploid GAMETOPHYTE |
|
|
Term
|
Definition
produce a single
type of spore that develops into a
bisexual gametophyte that produces
both eggs and sperm
(includes all non-vasc and most seedless) |
|
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Term
|
Definition
The production of two distinct types of spore producing structures - Male and Female
(Seeded Plands are heterosporous;
Include microsporangia and macrosporangia) |
|
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Term
|
Definition
Produce microspores that
develop into male gametophytes (produce sperm) |
|
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Term
|
Definition
Produce megaspores that
develop into female gametophytes (produce eggs) |
|
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Term
|
Definition
Heterosporous plants lost their
dependence on water for fertilization
when pollen evolved |
|
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Term
|
Definition
- allow embryos to be dispersed to a new habitat, away from the parent plant
- often dispersed by wind, water, or animals
Evolution of heterospory, pollen and seeds
triggered a radiation about 290 mya
|
|
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Term
|
Definition
contains the anther, where microsporangia
develop |
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Term
|
Definition
contains the ovary in which the ovules are
found |
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Term
| Heterospory in Gymnosperms |
|
Definition
|
|
Term
| Heterospory in Angiosperms |
|
Definition
|
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Term
|
Definition
structure derived from the ovary
and encloses one+ seeds
make efficient seed dispersal possible |
|
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Term
| Is it a fruit or a vegetable? |
|
Definition
• Fruits: mature ovaries + seeds
• Vegetables: other plant parts |
|
|
Term
diversification of angiosperms is associated
with three key adaptations: |
|
Definition
– vessel elements
– flowers
– fruits |
|
|
Term
Adaptations allow angiosperms
to efficiently transport: (3) |
|
Definition
|
|
Term
|
Definition
one cotyledon (the first leaf)
TRAITS:
Vascular tissue Scattered
Parallel Veins
Flower Petals in Multiples of 3 |
|
|
Term
|
Definition
two cotyledons
• dicots are paraphyletic
– dicots are not a natural grouping
– most biologists call them eudicots
TRAITS:
Vascular Tissue in circular Alignment
Branching Veins in Leaves
Leaves in multiples of 4 or 5
|
|
|
Term
the evolution of gametangia, retained
embryos, pollen, seeds, and flowers
enabled green plants to |
|
Definition
reproduce efficiently even
in very dry environments |
|
|
Term
evolution of cuticle, stomata, and waterconducting
tissues allowed green plants to |
|
Definition
|
|
Term
|
Definition
• green algae are a paraphyletic group that totals
about 7000 species
• their chloroplasts have a double membrane and
chlorophylls a and b, but relatively few accessory
pigments (like land plants)
• important primary producers in nearshore ocean
environments and in all types of freshwater
habitats
• live in close association with an array of other
organisms |
|
|
Term
Coleochaetophyceae (3)
(Coleochaetes) |
|
Definition
• most grow as flat sheets of cells
• multi-cellular individuals are haploid
• strictly freshwater algae that grow
attached to aquatic plants or over
submerged rocks |
|
|
Term
| Ulvophyceae (Ulvophytes) (3) |
|
Definition
• range from unicellular to multi-cellular
• many of the large green algae in
habitats along ocean coastlines
• important primary producers in aquatic
areas |
|
|
Term
| Charaphyceae (Stoneworts) (3) |
|
Definition
• common name: usually accumulate crusts
of calcium carbonate over their surfaces
• multicellular; some species can be a meter
or more in length
• freshwater algae
• good indicator that water is not polluted |
|
|
Term
Nonvascular Plants
("Bryophytes") (3) |
|
Definition
• the most basal lineages of land plants
• grow low to the ground
– most do not have any water-conducting cells
• evolutionary relationships among the three
lineages with living representatives—
mosses, liverworts, and hornworts—are still
unclear |
|
|
Term
|
Definition
• common in moist forests, but they can also be
abundant in extreme environments
• severe conditions: they can dry out and then
rehydrate later
• most cannot grow taller than a few centimeters
– they lack a true vascular tissue
|
|
|
Term
| Hepaticophyta (Liverworts) |
|
Definition
• commonly found growing on damp
forest floors or riverbanks, often in
dense mats
• can grow on bare rock or tree bark
• after they die they contribute to the
initial stages of soil formation
|
|
|
Term
| Anthocerophyta (Hornworts) |
|
Definition
• the sporophytes look like
horns and have stomata
• some species harbor symbiotic
cyanobacteria that fix nitrogen
|
|
|
Term
|
Definition
• paraphyletic group that forms a grade (sequence of
lineages that are not monophyletic) between the
nonvascular plants and the seed plants
• ALL species have conducting tissues with cells that
are reinforced with lignin, forming vascular tissue
• depend on the presence of water for reproduction
• fossil record: tree-sized are abundant
• most living today: much smaller
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|
|
Term
Lycophyta (Lycophytes/Club Mosses) |
|
Definition
• fossils up to 40 meters tall
• 1000 species living today are all small in stature
• most ancient plant lineage with roots
• most live on the forest floor or on the branches or
trunks of tropical trees |
|
|
Term
| Psilotophyta (Whisk Ferns) |
|
Definition
• six species living today
• no fossil record
• live only in tropical regions
• very simple morphologically, lack both
leaves and roots |
|
|
Term
|
Definition
• prominent in the fossil record of land plants
• only 15 species are known today
• name comes from the brushy appearance of the
stems and branches in some species
• live in wet habitats such as stream banks or
marsh edges
• can flourish in waterlogged soils by allowing
oxygen to diffuse down their hollow stems |
|
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Term
|
Definition
• by far the most species-rich seedless vascular plants:
12,000 known species
• particularly abundant in the tropics
• growth habits highly variable
– range in size from just a few centimeters tall to 20-meter-tall trees
• only seedless vascular plants to have large, welldeveloped leaves
– leaves give the plant a large surface area with which to capture sunlight for photosynthesis |
|
|
Term
|
Definition
• monophyletic group that consists of the
gymnosperms and the angiosperms
• defined by the production of seeds and
pollen grains
|
|
|
Term
Gymnosperms: Cycadophyta
(Cycads) |
|
Definition
• resemble palms but are not closely related to
them
• extremely abundant when dinosaurs were living
(150–65 mya): now only about 140 species exist
• most live in the tropics
• harbor large numbers of symbiotic, nitrogen-fixing
cyanobacteria; the nitrogen they fix provides
nutrients for the cycads and for nearby plants
|
|
|
Term
Gymnosperms: Ginkgophyta
(Ginkgos) |
|
Definition
• have an extensive fossil record, BUT
only one species is alive today
• unlike most gymnosperms, the ginkgo
is deciduous, and individual trees are
either male or female
|
|
|
Term
Gymnosperms: Gnetophyta
(Gnetophytes) |
|
Definition
• about 70 species in three genera:
– vines and trees from the tropics
– desert-dwelling shrubs in southwestern North
America
– unusual plant called Welwitschia with only two
large leaves aboveground that grows in the
deserts of southwestern Africa
• have vessel elements in addition to tracheids
|
|
|
Term
Gymnosperms: Pinophyta
(Pines, Spruces, Firs) |
|
Definition
• cone: reproductive structure in which microsporangia and megasporangia are produced
• ALL living species make wood as a support structure
• have a unique arrangement of needle-like leaves
• among the most abundant trees on the planet, as well as some of the most long-lived
– one bristlecone pine is known to be at least 4900 years old |
|
|
Term
|
Definition
|
|
Term
|
Definition
| Common in very cold environments |
|
|
Term
| Gymnosperms: Other Conifers |
|
Definition
• ALL are large shrubs or trees
– redwood trees = world’s largest plants
• most have narrow leaves; some have scale-like,
overlapping leaves
– allow them to thrive in dry or very cold habitats
• produce cones
• wind-pollinated
– the seeds are dispersed by wind, or by birds or mammals |
|
|
Term
|
Definition
• most species-rich of the land plants, with over 250,000 known species
• range in size from less than half a millimeter to massive oak trees
• thrive in environments from desert to freshwater to rain forests
• defining adaptation = flower
• vascular tissue of most angiosperms contains both
tracheids and vessel elements |
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