All AP Biology Resources
Example Questions
Example Question #401 : Gre Subject Test: Biology
Which is of the following is not an adaptation/modification that enabled plants to move from aquatic to terrestrial environments as they evolved?
Thylakoid membranes
Roots and root hairs
Cutin
Stomata
Thylakoid membranes
Thylakoid membranes are found within chloroplasts, which are used for photosynthesis. Plants found in both aquatic and terrestrial environments photosynthesize, so these membranes cannot be considered adaptations uniquely benefiting terrestrial plants.
Comparatively, cutin is a waxy coating found on various parts of plants that helps prevent water loss when exposed to air. Stomata are tiny openings in the epidermis of plants that allow for the exchange of carbon dioxide and oxygen while minimizing water loss. Roots and root hairs allow plants to absorb nutrients and water from the soil. Water loss was the primary challenge plants faced when moving from aquatic to terrestrial environments; cutin, stomata, roots, and root hairs all help terrestrial plants absorb and conserve water.
Example Question #1 : Understanding The Water Land Transition
Which structures did not evolve after plants emerged onto land?
Stomata
Seeds
Vascular transport
Waxy cuticles
Cell walls
Cell walls
Cell walls were present in plant cells before the transition to land. Seeds, stomata, waxy cuticles, and vascular transport all evolved to reduce water loss and circulate water to all areas of the plant. Water loss and circulation were not an issue before the transition to land; plants were forced to adapt these traits in order to survive in a terrestrial environment.
Example Question #2 : Plant Biology
As plants moved from water to land, they developed structures and lifestyles better suited to life in their new environment. Which of the following is not an example of these adaptations?
Increase in vertical height
Cuticle
Vascular tissue
Decrease in rigidity
Roots
Decrease in rigidity
Plants developed more rigid structures to help maintain their growth on land as opposed to water.
Waxy cuticles developed to help reduce water loss/desiccation. Roots allowed plants greater access to water, as well as provided anchoring to the ground; this allowed plants to grow taller. Vascular tissue facilitated transport of water and nutrients to all parts of the plant. Stomata helped with gas exchange.
Example Question #1 : Plantae
What is a distinct feature of a C4 plant?
Light independent reactions
Bundle-sheath cells
Closed stomata during the day
Carbon fixation
Bundle-sheath cells
Carbon fixation converts inorganic carbon dioxide into organic carbon compounds, such as glucose and cellulose. This is a characteristic function of both C3 and C4, and is a primary purpose of light independent reactions.
Closed stomata during the day is a characteristic of CAM plants, which allows for the conservation of water that is usually lost during photorespiration.
Bundle-sheath cells are a characteristic of C4 plants. The presence of bundle-sheath cells isolates rubisco, preventing rubisco from binding to oxygen during photorespiration.
Example Question #3 : Plantae
Which of the following refers to the principle of alternation of generations in plants?
The need for external pollinators
A life cycle that includes a multicellular haploid stage
The differences between a tree and a seed
A life cycle which includes a unicellular haploid stage
Gamete-producing sporophytes
A life cycle that includes a multicellular haploid stage
Plants have a multicellular haploid stage called the gametophyte. Gametophytes () produce gametes () through mitosis, which combine to produce a zygote (). The zygote grows into a multicellular, diploid sporophyte (), which produces spores () through meiosis. Those spores give rise to multicellular gametophytes.
Example Question #1 : Plant Biology
How is it believed that plants first became photosynthetic?
An ancestor of modern plants internalized a photosynthetic prokaryote through phagocytosis
The origin of the chloroplast is still largely unknown
The chloroplast was a cluster of synthesized proteins, which evolved over time
A vacuole became specialized for photosynthesis
An ancestor of modern plants internalized a photosynthetic prokaryote through phagocytosis
The chloroplast is believed to have evolved from photosynthetic bacteria that formed a mutualistic symbiotic relationship with an ancestor of plants through endosymbiosis. There is lots of evidence supporting the endosymbiotic theory, which is based on the principle of one organism phagocytosing another, resulting in mutualism.
Example Question #2 : Plant Biology
Mutualistic relationships between angiosperms and biotic pollinators foster which of the following types of evolution?
Convergent evolution
Co-evolution
Speciation
Divergent evolution
Co-evolution
Biotic pollinators, such as bees and hummingbirds, share a mutualistic relationship with angiosperms. This leads to co-evolution, in which the selective pressure of one species impacts the genetic composition of another. In this case, the preferences of the pollinators impact the reproductive success of specific angiosperms.
Example Question #1 : Understanding Alternation Of Generations
Fill in the blanks.
The __________ generation is dominant in the bryophyte life cycles, and the __________ generation is dominant in seedless vascular plants.
sporophyte . . . sporophyte
gametophyte . . . sporophyte
gametophyte . . . gametophyte
sporophyte . . . gametophyte
gametophyte . . . sporophyte
Bryophytes are nonvascular plants, such as mosses. Gametophytes are species that have haploid cells during their mature lives, while sporophytes are predominantly diploid during their adult phases.
Bryophytes have the gametophyte generation as dominant, with the sporophytes relying on the parental gametophyte. Starting with the evolution of seedless vascular plants, the gametophytes become reduced and are no longer the dominant life cycle. By the formation of angiosperms (seed plants), the gametophytes have become dependent on the parental sporophyte.
Example Question #1 : Classes Of Plant
Which of the following structures would be found in a tracheophyte, but not in a bryophyte?
Xylem
Chloroplasts
Plasmids
Cell walls
Xylem
All plants can be classified as either bryophytes or tracheophytes. Plants that contain transport vessels (xylem and phloem) are tracheophytes, while those without transport vessels are bryophytes. All plants contain cell walls and chloroplasts, but only a tracheophyte would contain xylem. Plasmids are structures that are almost exclusively found in bacteria or protozoans.
Example Question #1 : Classes Of Plant
Which of the following is not an example of an advantage gained through the vascularization of plants?
Swimming sperm
Dominant sporophyte generation
Extensive root and shoot systems
Large size
Larger photosynthetic area
Swimming sperm
Swimming sperm is a feature of avascular and early vascular plants, who needed to remain in moist environments in order to retain water.
After gaining vascular systems, plants were able to circulate water and nutrients more efficiently, thus being able to grow larger, have more leaves, develop branched systems of roots and shoots to collect water and nutrients, and better dispersal of spores due to gains in size.
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