Macrostructures - AP Biology
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Which of the following terms is best defined as the microscopic pores on the leaf?
Which of the following terms is best defined as the microscopic pores on the leaf?
Stomata are the pores on the leaves that allow for carbon dioxide to enter and oxygen to leave the leaf. Stroma, thylakoids, and chlorophyll are all components of the chloroplasts.
Stomata are the pores on the leaves that allow for carbon dioxide to enter and oxygen to leave the leaf. Stroma, thylakoids, and chlorophyll are all components of the chloroplasts.
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What structure in plants allows for CO2 and O2 exchange and transpiration?
What structure in plants allows for CO2 and O2 exchange and transpiration?
The stoma allows for gas exchange and transpiration. The stoma usually opens following stimulation by sunlight and closes in low water environments. Other answers are parts of a typical plant, however do not play a role in gas exchange or transpiration.
The stoma allows for gas exchange and transpiration. The stoma usually opens following stimulation by sunlight and closes in low water environments. Other answers are parts of a typical plant, however do not play a role in gas exchange or transpiration.
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In plants, leaves contain specialized pores used for gas exchange. Each pore is formed by a pair of cells that control its closing and opening. What are these cells called?
In plants, leaves contain specialized pores used for gas exchange. Each pore is formed by a pair of cells that control its closing and opening. What are these cells called?
For proper functioning, plants must take in carbon dioxide, expel oxygen, and limit the loss of water vapor. This gas exchange takes place via pores called stomata. These pores are formed by a pair of adjacent cells that can open and close in response to a number of factors. These cells are called guard cells.
The cuticle and epidermis are layers of leaf structure, and do not correspond to specific cell types. The stoma is the name of a single pore itself, not its surrounding cells.
For proper functioning, plants must take in carbon dioxide, expel oxygen, and limit the loss of water vapor. This gas exchange takes place via pores called stomata. These pores are formed by a pair of adjacent cells that can open and close in response to a number of factors. These cells are called guard cells.
The cuticle and epidermis are layers of leaf structure, and do not correspond to specific cell types. The stoma is the name of a single pore itself, not its surrounding cells.
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The layer of cells that separates the a leaf from the environment (the outermost layer of leaf tissue) is called the .
The layer of cells that separates the a leaf from the environment (the outermost layer of leaf tissue) is called the .
The outer layer of cells on a leaf is called the epidermis. It is composed of the upper epidermis and the lower epidermis and the two have somewhat different structures and function, but both serve to protect the leaf from the outside environment. Spongy mesophyll and bundle sheath cells are both structures on the interior of the leaf, which house chloroplasts. Stomata are found on the outside layer of a leaf, but they are pores that allow gas exchange. Xylem is a transport structure that is used to conduct water and nutrients through a plant.
The outer layer of cells on a leaf is called the epidermis. It is composed of the upper epidermis and the lower epidermis and the two have somewhat different structures and function, but both serve to protect the leaf from the outside environment. Spongy mesophyll and bundle sheath cells are both structures on the interior of the leaf, which house chloroplasts. Stomata are found on the outside layer of a leaf, but they are pores that allow gas exchange. Xylem is a transport structure that is used to conduct water and nutrients through a plant.
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In which of the following leaf tissues does the most photosynthesis take place?
In which of the following leaf tissues does the most photosynthesis take place?
The mesophyll of a leaf contains palisade parenchyma cells (along with other cell types) which contain a high concentration of chloroplasts and are located near the edge of the leaf. These parenchyma cells in the mesophyll perform the bulk of the photosynthesis in a plant, though any part of a plant that contains chlorophyll can photosynthesize, including the spongy mesophyll.
The mesophyll of a leaf contains palisade parenchyma cells (along with other cell types) which contain a high concentration of chloroplasts and are located near the edge of the leaf. These parenchyma cells in the mesophyll perform the bulk of the photosynthesis in a plant, though any part of a plant that contains chlorophyll can photosynthesize, including the spongy mesophyll.
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What is the name of the structure of the leaf that attaches the leaf to the stem?
What is the name of the structure of the leaf that attaches the leaf to the stem?
The petiole attaches the leaf to the stem. Xylem is a tissue that transports water and minerals from the roots to other areas of a plant. Phloem is a tissue that transport water and nutrients from the leaves down to other areas of the plant. A filament is a part of a flower, not a leaf. Mesophyll is the tissue that makes up much of the body of the leaf and is where most photosynthesis takes place, but does not attach the leaf to the stem.
The petiole attaches the leaf to the stem. Xylem is a tissue that transports water and minerals from the roots to other areas of a plant. Phloem is a tissue that transport water and nutrients from the leaves down to other areas of the plant. A filament is a part of a flower, not a leaf. Mesophyll is the tissue that makes up much of the body of the leaf and is where most photosynthesis takes place, but does not attach the leaf to the stem.
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Which of the following are true of parenchyma cells?
Which of the following are true of parenchyma cells?
Parenchyma cells are the main photosynthetic cells of a plant, but also function in storage of water and nutrients. Parenchyma cells are usually soft cells that are located in leaves and fruit. Phloem cells contain sieve-tube members, and function in transport of water and nutrients throughout the plant. Schlerenchyma cells are strengthened with lignen, and are support cells.
Parenchyma cells are the main photosynthetic cells of a plant, but also function in storage of water and nutrients. Parenchyma cells are usually soft cells that are located in leaves and fruit. Phloem cells contain sieve-tube members, and function in transport of water and nutrients throughout the plant. Schlerenchyma cells are strengthened with lignen, and are support cells.
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Which of the following can be defined as the tissue in the interior of the leaf?
Which of the following can be defined as the tissue in the interior of the leaf?
The mesophyll is the interior of the leaf. Chloroplasts are mainly found within the mesophyll and leaves are the major sites of photosynthesis in plants.
The mesophyll is the interior of the leaf. Chloroplasts are mainly found within the mesophyll and leaves are the major sites of photosynthesis in plants.
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Of the following answer choices, which most accurately describes the mechanism that the stems of plants use to grow toward light?
Of the following answer choices, which most accurately describes the mechanism that the stems of plants use to grow toward light?
Plants grow so as to maximize the elongation of their stems as much as possible. Cells on the lighter side of the stem are already being provided with photosynthetic energy, while cells on the darker side are receiving less of this energy input. This causes the cells on the darker side to elongate toward the energy source. When one side of the stem is longer than the other, it causes a curve in the growth, resulting in a directionality of the growth of the stem.
Plants grow so as to maximize the elongation of their stems as much as possible. Cells on the lighter side of the stem are already being provided with photosynthetic energy, while cells on the darker side are receiving less of this energy input. This causes the cells on the darker side to elongate toward the energy source. When one side of the stem is longer than the other, it causes a curve in the growth, resulting in a directionality of the growth of the stem.
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Plant root systems can be generally categorized as either taproot systems or fibrous root systems. Which of the following is a characteristic of a fibrous root system?
Plant root systems can be generally categorized as either taproot systems or fibrous root systems. Which of the following is a characteristic of a fibrous root system?
Fibrous root systems are common in seedless vascular plants and in most monocots, such as grasses. Many small roots grow from the stem of the plant and are considered adventitious (a term describing a plant organ that grows in an unusual location).
Fibrous roots have no main root and do not penetrate deeply into the soil, usually penetrating only a few centimeters. As such, fibrous root systems are best adapted to shallow soil. This also helps prevent erosion, as the shallow, highly-branched roots hold the topsoil in place.
Fibrous root systems are common in seedless vascular plants and in most monocots, such as grasses. Many small roots grow from the stem of the plant and are considered adventitious (a term describing a plant organ that grows in an unusual location).
Fibrous roots have no main root and do not penetrate deeply into the soil, usually penetrating only a few centimeters. As such, fibrous root systems are best adapted to shallow soil. This also helps prevent erosion, as the shallow, highly-branched roots hold the topsoil in place.
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Which of the following is a type of stem?
Which of the following is a type of stem?
Stems are one of the three basic plant organs, and consist of an alternating system of nodes (where leaves attach) and internodes (regions of the stem that span between nodes).
Some plants have evolved to have stems with additional functions, such as the ability to store food or to participate in asexual reproduction. These modified stems include rhizomes, bulbs, tubers and stolons.
A rhizome is a horizontal shoot of the plant that grows just below the surface. Vertical shoots (and resulting leaves) grow from axillary buds on the rhizome. Examples of plants with rhizomes include irises, hops, and asparagus.
Stems are one of the three basic plant organs, and consist of an alternating system of nodes (where leaves attach) and internodes (regions of the stem that span between nodes).
Some plants have evolved to have stems with additional functions, such as the ability to store food or to participate in asexual reproduction. These modified stems include rhizomes, bulbs, tubers and stolons.
A rhizome is a horizontal shoot of the plant that grows just below the surface. Vertical shoots (and resulting leaves) grow from axillary buds on the rhizome. Examples of plants with rhizomes include irises, hops, and asparagus.
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Which of the following is not a usually function of the roots of a plant?
Which of the following is not a usually function of the roots of a plant?
Roots are usually underground and not exposed to sunlight, do not usually contain chlorophyll, thus they do not perform photosynthesis. However, roots do provide stabiity, obtain water and nutrients from the soil, and store carbohydrates.
Roots are usually underground and not exposed to sunlight, do not usually contain chlorophyll, thus they do not perform photosynthesis. However, roots do provide stabiity, obtain water and nutrients from the soil, and store carbohydrates.
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Which of the following are true of the root cap?
Which of the following are true of the root cap?
The root cap occurs on the end of any root. It protects the tip of a plant's root. Specifically, it protects the apical meristem of the plant, which lengthens the root and helps it grow. Also root cap secretes a polysaccharide slime called mucilage. The zone of elongation does occur in roots, but it is not contained to the root cap. The root cap grows towards the pull of gravity. The root cap occurs only on the tip of the root, not over the entire surface of the root. These cells only protect the root; they are not xylem cells, which function in transport of water and nutrients from the roots up to the leaves.
The root cap occurs on the end of any root. It protects the tip of a plant's root. Specifically, it protects the apical meristem of the plant, which lengthens the root and helps it grow. Also root cap secretes a polysaccharide slime called mucilage. The zone of elongation does occur in roots, but it is not contained to the root cap. The root cap grows towards the pull of gravity. The root cap occurs only on the tip of the root, not over the entire surface of the root. These cells only protect the root; they are not xylem cells, which function in transport of water and nutrients from the roots up to the leaves.
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Which of the following best describes where parenchyma cells can be found in plants?
Which of the following best describes where parenchyma cells can be found in plants?
Parenchyma cells make up a type of ground tissue in plants. Parenchyma cells compose most of the soft tissues in plants including leaves, roots, stems, and seeds. The functions of parenchyma cells include photosynthesis, storage, and wound repair.
Parenchyma cells make up a type of ground tissue in plants. Parenchyma cells compose most of the soft tissues in plants including leaves, roots, stems, and seeds. The functions of parenchyma cells include photosynthesis, storage, and wound repair.
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Which of the following is true regarding meristem tissue in plants?
Which of the following is true regarding meristem tissue in plants?
Meristem tissue contains undifferentiated cells and allows for plant growth. Apical meristems are found in areas of growth, which include the shoot and roots—cells in these tissues divide rapidly.
Meristem tissue contains undifferentiated cells and allows for plant growth. Apical meristems are found in areas of growth, which include the shoot and roots—cells in these tissues divide rapidly.
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A fruit develops from the of a flower.
A fruit develops from the of a flower.
Once a plant is fertilized, the ovary will ripen around the developing seed of a plant and become a fruit. These fruits perform many functions including protection, provision of nutrients for the developing plant embryo, and aid in dispersal. The pedicel is the stem that connects the flower to the rest of the plant. The stigma is the sticky tip of the pistil that receives pollen from the environment. The stamen is the male section of the flower and the anther is the tip of the stamen that disperses pollen.
Once a plant is fertilized, the ovary will ripen around the developing seed of a plant and become a fruit. These fruits perform many functions including protection, provision of nutrients for the developing plant embryo, and aid in dispersal. The pedicel is the stem that connects the flower to the rest of the plant. The stigma is the sticky tip of the pistil that receives pollen from the environment. The stamen is the male section of the flower and the anther is the tip of the stamen that disperses pollen.
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The primary function of the stamen is to .
The primary function of the stamen is to .
The stamen is the male part of the flower which produces and distributes pollen. The female part of the flower is called the pistil and it receives pollen in order to fertilize the ovule. Roots are the structures that collect water and nutrients from the soil. Colorful petals and sugar-rich nectar are among the objects that are used are used to attract pollinators. Sepals are the leaf-like structures that protect the developing bud of a flower.
The stamen is the male part of the flower which produces and distributes pollen. The female part of the flower is called the pistil and it receives pollen in order to fertilize the ovule. Roots are the structures that collect water and nutrients from the soil. Colorful petals and sugar-rich nectar are among the objects that are used are used to attract pollinators. Sepals are the leaf-like structures that protect the developing bud of a flower.
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Which of the following are not a part of a flower?
Which of the following are not a part of a flower?
Leaves are the sites of photosynthesis. Petals are specialized leaves that help attract pollinators. The stigma collects pollen, and facilitates its passage down the style to the ovary to fertilize the ovules (eggs). Anthers produce pollen. The ovary contains a collection of 1 or more ovules.
Leaves are the sites of photosynthesis. Petals are specialized leaves that help attract pollinators. The stigma collects pollen, and facilitates its passage down the style to the ovary to fertilize the ovules (eggs). Anthers produce pollen. The ovary contains a collection of 1 or more ovules.
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Which of the following is a method plants use to attract potential pollinators?
Which of the following is a method plants use to attract potential pollinators?
Attracting pollinators is key for many plants' success. There are a variety of strategies plants use such as the creation of nectar or odor as well as bright colors to attract pollinators. Also, some plants have ultraviolet patterns on their flowers to direct animals toward their nectar to facilitate pollination.
Attracting pollinators is key for many plants' success. There are a variety of strategies plants use such as the creation of nectar or odor as well as bright colors to attract pollinators. Also, some plants have ultraviolet patterns on their flowers to direct animals toward their nectar to facilitate pollination.
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What strategies might a plant use to disperse its seeds?
What strategies might a plant use to disperse its seeds?
Seed dispersal is key to plant success and plants use a wide variety of strategies to facilitate this process. Plants use all the listed strategies in order to spread their seeds. They also make seeds with adhesive properties that stick to animals that pass by. The seeds are then brushed off some time later at a different location.
Seed dispersal is key to plant success and plants use a wide variety of strategies to facilitate this process. Plants use all the listed strategies in order to spread their seeds. They also make seeds with adhesive properties that stick to animals that pass by. The seeds are then brushed off some time later at a different location.
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