Q&A Hero

Q: What is the term given to the theory that put forth the idea that living organisms could arise by incubating nonliving components? A) spontaneous generation B) natural selection C) evolution D) preformation E) collective combination

Q: What is the term given to the theory which states that the fertilized egg contains a complete miniature adult? A) preformation B) transduction C) transformation D) conjugation E) cell theory

Q: In the 1600s, William Harvey studied reproduction and development. What is the term given to the theory which states that an organism develops from the fertilized egg by a succession of developmental events that lead to an adult? A) preformation B) sequential pattern formation C) equational transformation D) transduction E) epigenesis

Q: Read the following scenario to answer the following questions. In the late 1800s, Charles Darwin and his son Francis conducted the first experiments on phototropism. Several years later, their work was furthered by Peter Boysen-Jensen, Arpad Paal, and Frits Went. Peter Boysen-Jensen separated the tip of grass shoots from the rest of the plant using either tiny blocks of agar (a gelatin) or a mica wafer (an impervious rock). Like the Darwins, Boysen-Jensen noticed that the grass did not grow toward a light without its tips. However, when he separated the tip from the rest of the plant using agar, the grass would grow toward a light. The grass would not grow toward a light if the tip of the shoot was separated using a mica wafer. Arpad Paal cut off the tips of grass shoots that were growing in the dark. He placed these cut tips back on the shoots, but with only part of the tip covering the cut surface, and found that the plants grew, in the dark, in the opposite direction from the side with the tip covering it. Lastly, Frits Went removed the tips of many grass shoots and placed them on a large block of agar for a few hours. Then, he cut up the agar block, and was able to make grass shoots without any tips at all grow toward a light by putting these agar blocks on the cut surfaces of the shoots (i.e., no tips were placed back on the shoots, only the agar). Considering the experiments of the Darwins, Boysen-Jensen, Paal, and Went, what do you conclude about phototropism? A) We still do not know the mechanism for phototropism. B) The substance that regulates phototropism is produced in the tips of plants, and causes the same response even when it comes from an external source (not from the same individual). C) For a plant to bend toward a light source, the substance that regulates phototropism must be able to move into cells on the same side as the light source. D) The substance that regulates phototropism is distributed throughout a plant equally, but cells on the side away from the light source are the only ones that respond to the substance.

Q: Read the following scenario to answer the following questions. In the late 1800s, Charles Darwin and his son Francis conducted the first experiments on phototropism. Several years later, their work was furthered by Peter Boysen-Jensen, Arpad Paal, and Frits Went. Peter Boysen-Jensen separated the tip of grass shoots from the rest of the plant using either tiny blocks of agar (a gelatin) or a mica wafer (an impervious rock). Like the Darwins, Boysen-Jensen noticed that the grass did not grow toward a light without its tips. However, when he separated the tip from the rest of the plant using agar, the grass would grow toward a light. The grass would not grow toward a light if the tip of the shoot was separated using a mica wafer. Arpad Paal cut off the tips of grass shoots that were growing in the dark. He placed these cut tips back on the shoots, but with only part of the tip covering the cut surface, and found that the plants grew, in the dark, in the opposite direction from the side with the tip covering it. Lastly, Frits Went removed the tips of many grass shoots and placed them on a large block of agar for a few hours. Then, he cut up the agar block, and was able to make grass shoots without any tips at all grow toward a light by putting these agar blocks on the cut surfaces of the shoots (i.e., no tips were placed back on the shoots, only the agar). If Wents placed his agar blocks only halfway on the cut surfaces of grass shoots with their tips removed, what should he have observed? A) The grass shoot would not grow toward a light. B) The grass shoot would grow toward a light when the agar block was on the side of the grass that was facing the light. C) The grass shoot would grow toward a light when the agar block was on the side of the grass that was shaded from the light. D) The grass shoot would grow toward a light no matter which direction the light was coming from.

Q: Read the following scenario to answer the following questions. In the late 1800s, Charles Darwin and his son Francis conducted the first experiments on phototropism. Several years later, their work was furthered by Peter Boysen-Jensen, Arpad Paal, and Frits Went. Peter Boysen-Jensen separated the tip of grass shoots from the rest of the plant using either tiny blocks of agar (a gelatin) or a mica wafer (an impervious rock). Like the Darwins, Boysen-Jensen noticed that the grass did not grow toward a light without its tips. However, when he separated the tip from the rest of the plant using agar, the grass would grow toward a light. The grass would not grow toward a light if the tip of the shoot was separated using a mica wafer. Arpad Paal cut off the tips of grass shoots that were growing in the dark. He placed these cut tips back on the shoots, but with only part of the tip covering the cut surface, and found that the plants grew, in the dark, in the opposite direction from the side with the tip covering it. Lastly, Frits Went removed the tips of many grass shoots and placed them on a large block of agar for a few hours. Then, he cut up the agar block, and was able to make grass shoots without any tips at all grow toward a light by putting these agar blocks on the cut surfaces of the shoots (i.e., no tips were placed back on the shoots, only the agar). If Paal grew his plants using a light source that was directly overhead, what should he have observed? A) The grass shoot would not grow. B) The grass shoot would grow upward and straight. C) The grass shoot would grow in the opposite direction from the side with the tip covering the cut surface. D) The grass shoot would grow in the same direction as the side with the tip covering the cut surface.

Q: Read the following scenario to answer the following questions. In the late 1800s, Charles Darwin and his son Francis conducted the first experiments on phototropism. Several years later, their work was furthered by Peter Boysen-Jensen, Arpad Paal, and Frits Went. Peter Boysen-Jensen separated the tip of grass shoots from the rest of the plant using either tiny blocks of agar (a gelatin) or a mica wafer (an impervious rock). Like the Darwins, Boysen-Jensen noticed that the grass did not grow toward a light without its tips. However, when he separated the tip from the rest of the plant using agar, the grass would grow toward a light. The grass would not grow toward a light if the tip of the shoot was separated using a mica wafer. Arpad Paal cut off the tips of grass shoots that were growing in the dark. He placed these cut tips back on the shoots, but with only part of the tip covering the cut surface, and found that the plants grew, in the dark, in the opposite direction from the side with the tip covering it. Lastly, Frits Went removed the tips of many grass shoots and placed them on a large block of agar for a few hours. Then, he cut up the agar block, and was able to make grass shoots without any tips at all grow toward a light by putting these agar blocks on the cut surfaces of the shoots (i.e., no tips were placed back on the shoots, only the agar). Boysen-Jensen also used the mica to separate a tip of a grass shoot only partially, by cutting the tip halfway and inserting a wafer of mica into the cut. If this experiment supported the Darwins' hypothesis, what would Boysen-Jensen have observed? A) The grass shoot would not grow toward a light. B) The grass shoot would grow toward a light when the mica wafer was on the side of the grass that was facing the light. C) The grass shoot would grow toward a light when the mica wafer was on the side of the grass that was shaded from the light. D) The grass shoot would grow toward a light no matter which direction the light was coming from.

Q: Read the following scenario to answer the following questions. Nitrogen shortage is a common nutritional problem for plants. In crops, a nitrogen deficiency can result in stunted growth as well as lower nutritional content. Farmers sometimes apply fertilizers containing nitrogen as well as other essential nutrients, such as phosphorus and potassium. Compost can also be used to fertilize soils. Compost consists of vegetable matter that adds nutrients to soil as it is decomposed by microorganisms, fungi, and animals. Certain plants, including legumes such as peas and beans, house nitrogen-fixing bacteria in swellings called "root nodules." The bacteria have enzymes that help convert atmospheric N2 to ammonium ions that can be readily used by the plants. The plant, in turn, provides the bacteria with other nutrients. When conditions are favorable, root nodule bacteria fix so much nitrogen that the nodules secrete excess ammonia. Which approach could an organic farmer use to deal with nitrogen deficiency? A) plant legumes in alternate years and fertilize the soil with compost B) apply synthetic fertilizers that provide nitrogen C) plant legumes in alternate years and use synthetic fertilizers D) use genetically modified plants that require less nitrogen

Q: Read the following scenario to answer the following questions. Nitrogen shortage is a common nutritional problem for plants. In crops, a nitrogen deficiency can result in stunted growth as well as lower nutritional content. Farmers sometimes apply fertilizers containing nitrogen as well as other essential nutrients, such as phosphorus and potassium. Compost can also be used to fertilize soils. Compost consists of vegetable matter that adds nutrients to soil as it is decomposed by microorganisms, fungi, and animals. Certain plants, including legumes such as peas and beans, house nitrogen-fixing bacteria in swellings called "root nodules." The bacteria have enzymes that help convert atmospheric N2 to ammonium ions that can be readily used by the plants. The plant, in turn, provides the bacteria with other nutrients. When conditions are favorable, root nodule bacteria fix so much nitrogen that the nodules secrete excess ammonia. Some farmers practice crop rotation, alternating between planting nonlegumes such as corn or wheat one year and legumes the next year. What is the advantage of crop rotation? A) The legumes in the rotation will transfer nitrogen, phosphorus, and potassium to the other crop plants. B) Planting legumes enriches the soil for the next year when root nodule bacteria fix so much nitrogen that excess ammonia is secreted into the soil. C) The nitrogen-fixing bacteria in legumes can migrate to nonlegume crop plants and provide them with nitrogen. D) Any nitrogen fertilizer that is applied to the soil will be converted into ammonium ions by the nitrogen-fixing bacteria.

Q: A scientist finds seeds of an unknown plant on top of the soil in a desert. She measures the concentration of two hormones in these seeds. After it rains, she collects more of these seeds, and finds that the concentration of the two hormones has changed. A graph of her results is shown above. If the scientist returns to the desert to collect more seeds, a few days later, what should she observe? A) The seeds that are still in the desert will be dormant. B) The seeds that are still in the desert will be germinating. C) The seeds that are still in the desert will be dead. D) The seeds that are still in the desert will have increased levels of hormones 1 and 2.

Q: A scientist finds seeds of an unknown plant on top of the soil in a desert. She measures the concentration of two hormones in these seeds. After it rains, she collects more of these seeds, and finds that the concentration of the two hormones has changed. A graph of her results is shown above. Identify the most likely hormones measured by the scientist. A) hormone 1: gibberellin; hormone 2: cytokinin B) hormone 1: auxin; hormone 2: ethylene C) hormone 1: abscisic acid; hormone 2: gibberellin D) hormone 1: ethylene; hormone 2: auxin

Q: The figure below shows plants originally grown in the dark, and then a light is added on one side only (arrow). Predict the response of the plants to the addition of the light source. A) Auxin becomes concentrated on the lighted side of the plants, and the plants begin to grow toward the light. B) Auxin becomes concentrated on the darker side of the plants, and the plants begin to grow toward the light. C) Auxin becomes concentrated on the lighted side of the plants, and the plants begin to grow away from the light. D) Auxin becomes concentrated on the darker side of the plants, and the plants begin to grow away from the light.

Q: The figure below shows plants grown in the dark, and illustrates ________ in plants. A) photoperiod B) gravitropism C) thigmotropism D) phototropism

Q: Examine the figure below. When considering the shaded side of a grass shoot, which of the following best describes why it bends toward the light? A) Reduction in auxin levels allows gibberellins to promote cell elongation. B) Reduction in gibberellin levels allows auxin to promote cell elongation. C) Increase in auxin levels promotes cell elongation. D) Increase in auxin levels promotes cell proliferation.

Q: In the figure above, which of the following produce nitrogen in a form that can be used directly by the plant, without need for conversion? A) nitrifying bacteria only B) ammonifying bacteria only C) nitrogen-fixing bacteria only D) ammonifying bacteria and nitrogen fixing bacteria

Q: Examine the figure above. Which of the following add ammonium to the soil by decomposing organic matter? A) nitrifying bacteria only B) ammonifying bacteria only C) nitrogen-fixing bacteria only D) nitrifying bacteria and nitrogen fixing bacteria

Q: Examine the figure below. Which of the following is the site of carbon dioxide uptake by a plant? A) root hairs B) stomata C) rhizomes D) internodes

Q: Three very popular strawberry cultivars grown by farmers in the United States are Earliglow, Ozark Beauty, and Tristar. Earliglow produces all of its fruit in the early summer (June-bearing). Ozark Beauty produces fruit from mid to late summer (everbearing). Tristar produces fruit all summer long, starting when conditions become favorable for flowering and fruit production. What is the best classification for these three strawberry cultivars? A) Earliglow: long night; Ozark Beauty: short night; Tristar: night neutral B) Earliglow: short night; Ozark Beauty: short night; Tristar: night neutral C) Earliglow: night neutral; Ozark Beauty: short night; Tristar: long night D) Earliglow: short night; Ozark Beauty: long night; Tristar: long neutral

Q: Oats are eaten by humans as oatmeal or rolled oats, and as feed for livestock such as cattle. In order for an oat plant to make the part we eat (the seed), it must flower and be pollinated. Typically, oat plants flower when days are lengthening (i.e., late spring to early summer). What is the best classification for oat plants? A) long night B) short night C) night neutral D) short day

Q: Across the globe, billions of people eat rice. In order to make rice grains (the seed), a rice plant must flower and be pollinated. Rice plants flower only after days become shorter (i.e., summer to autumn). What is the best classification for rice? A) long night B) short night C) night neutral D) long day

Q: Which of the following best describe(s) the dependencies of most flowering plants? I) Many depend on insects or other animals for pollination. II) Many depend on insects or other animals for seed dispersal. III) Many depend on fungi to help them acquire nutrients. A) I B) II C) I and III D) I, II, and III

Q: Which of the following triggers flowering for plants sensitive to photoperiod? A) temperature B) night length C) day length D) intensity of sunlight

Q: Which of the following best describes night-neutral plants? A) The plants flower at night. B) Plants tend to flower when nights become longer. C) Plants tend to flower when nights become shorter. D) The flowering in these plants is not affected by photoperiod.

Q: Experimental plants that were sent up in space shuttle missions did not exhibit all of their normal tropisms. Which of the following responses would you most expect to be lacking from these plants? A) gravitropism B) photoperiod C) thigmotropism D) phototropism

Q: Which of the following is exemplified by a pea tendril contacting a string or wire and coiling around it for support? A) gravitropism B) photoperiod C) thigmotropism D) phototropism

Q: Which of the following hormones promotes seed dormancy? A) cytokinin B) ethylene C) gibberellin D) abscisic acid

Q: Which of the following hormones promotes seed germination? A) auxin B) ethylene C) gibberellin D) abscisic acid

Q: Which of the following hormones promotes cell division? A) auxin B) cytokinin C) gibberellin D) abscisic acid

Q: Which of the following hormones promotes fruit ripening and dropping of leaves? A) auxin B) ethylene C) gibberellin D) abscisic acid

Q: Which of the following best describes the condition of a twig if the auxin produced by its apical meristem is conveyed equally down all sides? A) It will elongate. B) It will branch near its tip. C) It will produce a flower. D) It will bend to one side.

Q: Which of the following hormones promotes cell elongation in stems? A) auxin B) cytokinin C) ethylene D) gibberellin

Q: Which of the following plant hormones affect(s) development in the plant body? I) auxin II) cytokinin III) gibberellin A) I B) I and II C) III D) I, II, and III

Q: Which of the following statements is TRUE? A) A given hormone has the same effect on all parts of a plant. B) A single hormone may have different effects depending on concentration and presence of other hormones. C) Plants and animals use hormones in very different ways. D) Large amounts of hormones are required to affect plant growth and development.

Q: Trace the flow of a water molecule that is used during photosynthesis.A) stoma -> xylem -> root hair -> mycorrhizaB) soil -> root hair -> xylem -> stoma -> atmosphereC) soil -> root hair -> xylem -> leaf cellD) soil -> xylem -> leaf cell -> atmosphere

Q: Early in the spring, cherry trees produce flowers, even before their leaves develop, by using sugars that were stored in their roots the previous year. While cherry flowers are developing, we would expect the phloem pressure near flowers to be ________, and ________ near root storage cells. A) high high B) high low C) low low D) low high

Q: In a strawberry plant in the summer, the leaves are ________ and the strawberry fruits are ________. A) sugar sources sugar sources B) sugar sources sugar sinks C) sugar sinks sugar sources D) sugar sinks sugar sinks

Q: A farmer decides she wants to grow certified organic corn and sets out to meet all USDA standards to do so. Her crop grows well for the first 3 years; however, she notices during the 4th and 5th years that plants are getting smaller and producing much less corn. She has not altered farming practices and begins to wonder what is happening. She remembers someone mentioning planting peanuts every 3rd year in place of a corn crop, which leads to much healthier corn. Why would a farmer want to change to a different crop, especially something like peanuts? A) Planting a legume like peanuts increases water retention in the soil, allowing the following year's corn crop to thrive. B) Crop rotation with a legume like peanuts will increase nitrogen in the soil, reducing the need for chemical fertilizer. C) Planting a legume like peanuts increases the available carbon in the soil. D) Changing from corn to peanuts, a legume, allows the soil to "rest" for a year.

Q: A location in a plant where sugar is being received for storage or consumption is ________. A) a sugar sink B) a sugar source C) phloem sap D) phloem tube

Q: Which of the following explains how phloem sap moves within a plant? A) cohesion-tension mechanism B) gravity pulls the phloem sap down C) pressure-flow mechanism D) transpiration

Q: Transpiration pulls water up a plant because of two mechanisms: ________ describes water molecules sticking together and ________ describes water molecules sticking to the walls of the xylem. A) cohesion... adhesion B) adhesion... cohesion C) adhesion... gravity D) gravity... cohesion

Q: Which of the following best describes the mechanism that causes stomata to open? A) Water accumulates below the opening and eventually causes the stoma to open. B) A large bubble of oxygen accumulates below the stoma and eventually causes it to open. C) Two guard cells flanking each stoma control its opening by changing shape. D) The internal pressure of xylem sap expands the leaf, stretching the stoma open.

Q: Which of the following best describes the opening and closing of the stomata in most plants? A) They are open during the day and closed at night. B) They are open at night and closed during the day. C) They are open almost all of the time. D) They are closed except for brief periods of time during the day.

Q: Which of the following weather conditions would cause transpiration to be most rapid? A) hot, humid weather B) cold, humid weather C) hot, dry weather D) windy, wet weather

Q: Which of the following mechanisms best explains how xylem sap moves up against the downward pull of gravity? A) cohesion-tension hypothesis B) gravitropism C) phototropism D) expenditure of ATP

Q: Which of the following best describes transpiration? A) the loss of oxygen from a plant B) evaporation from a plant's roots C) the bulk flow movement of water in a plant D) the loss of water from plant leaves through evaporation

Q: Which of the following best describes the conversion that occurs during nitrogen fixation? A) ammonium to nitrate B) nitrate to ammonium C) nitrogen to ammonium D) nitrogen to ammonium or nitrate

Q: Most plants rely on bacteria to supply them with a usable form of which of the following substances? A) nitrogen B) carbon dioxide C) water D) amino acids

Q: Which of the following best describes the role of plant root nodules in plants such as peas and beans? A) They house nitrogen-fixing bacteria. B) They help absorb nutrients from the soil. C) They house mycorrhizae. D) They store nutrients.

Q: Which of the following convert soil ammonium to nitrate? A) nitrifying bacteria B) ammonifying bacteria C) mycorrhizae D) nitrogen-fixing bacteria

Q: Which of the following convert atmospheric nitrogen to ammonium? A) nitrifying bacteria B) nitrogen-fixing bacteria C) mycorrhizae D) ammonifying bacteria

Q: What does a plant gain from a mycorrhizal relationship? A) It allows roots to absorb water and solutes more rapidly. B) It increases the surface area for photosynthesis. C) It helps to break down complex molecules in the soil to release micronutrients. D) It helps to break down decaying organic matter into essential plant nutrients.

Q: For plants, mycorrhizae are______. A) parasitic B) mutualistic C) an adaptation for photosynthesis D) agricultural pests

Q: Which of the following supplies water and minerals to a typical plant? A) the air B) bacteria C) sunlight D) the soil

Q: Which of the following best describes substances that enter a plant through the root system? A) They are dissolved in water. B) They are obtained from the air. C) They are organic molecules. D) They are brought in through stomata.

Q: The three most important nutrients contained in fertilizers are ________. A) nitrogen, iron, and phosphorus B) zinc, sulfur, and phosphorus C) nitrogen, phosphorus, and potassium D) zinc, iron, and potassium

Q: Which one of the following is a plant micronutrient? A) iron B) oxygen C) sulfur D) phosphorus

Q: Which of the following describes a chemical element that a plant must obtain from its environment in order to complete its life cycle? A) macronutrient B) micronutrient C) essential element D) mineral

Q: For a plant, carbon and nitrogen are ________. A) macronutrients B) micronutrients C) minerals D) compost

Q: Which of the following BEST describes the essential difference between plant and animal nutrition? A) Plants use inorganic substances and energy from the sun to produce their own food. B) Plants use organic substances to produce their own food. C) Plants absorb food through their roots. D) Plant and animal nutrition are essentially the same.

Q: In phytoremediation, plants are used to remove ________ and ________ from the soil. A) carbon heavy metals B) radioactive isotopes heavy metals C) nitrogen phosphorus D) water sulfur

Q: Read the following scenario to answer the following questions. The pineapple, grown for its sweet fruit, is a tropical monocot with a diploid number of 50. It can live for many years. The plant starts as one short stem with tough leaves. The flowers of the pineapple are located as a cluster at the very top of the stem. After pollination, the single fruit forms from the fusion of the ovaries of the flowers in the cluster. The seeds are located just underneath the surface of the fruit. The pineapple fruit is harvested by cutting at the base of the fruit. After the first fruit is produced, side shoots grow from the main stem, which can go on to produce additional fruits. Where would we expect to find cells with 25 unpaired chromosomes in a pineapple plant? A) in the leaves B) in the ovaries prior to pollination C) in the fruit D) in the fused ovaries

Q: Read the following scenario to answer the following questions. The pineapple, grown for its sweet fruit, is a tropical monocot with a diploid number of 50. It can live for many years. The plant starts as one short stem with tough leaves. The flowers of the pineapple are located as a cluster at the very top of the stem. After pollination, the single fruit forms from the fusion of the ovaries of the flowers in the cluster. The seeds are located just underneath the surface of the fruit. The pineapple fruit is harvested by cutting at the base of the fruit. After the first fruit is produced, side shoots grow from the main stem, which can go on to produce additional fruits. What evidence best supports the pineapple's classification as a monocot? A) It does not produce woody tissue. B) It produces a fruit. C) Its flowers have three petals each. D) It has double fertilization.

Q: Read the following scenario to answer the following questions. The pineapple, grown for its sweet fruit, is a tropical monocot with a diploid number of 50. It can live for many years. The plant starts as one short stem with tough leaves. The flowers of the pineapple are located as a cluster at the very top of the stem. After pollination, the single fruit forms from the fusion of the ovaries of the flowers in the cluster. The seeds are located just underneath the surface of the fruit. The pineapple fruit is harvested by cutting at the base of the fruit. After the first fruit is produced, side shoots grow from the main stem, which can go on to produce additional fruits. The first pineapple on a plant develops from ________, whereas the pineapples from the second harvest of the same plant develop from ________. A) the terminal bud the axillary buds B) the terminal bud the root caps C) the axillary bud the terminal buds D) primary growth secondary growth

Q: Read the following scenario to answer the following questions. The North American beaver is a large rodent that builds dams to convert freshwater streams into ponds. Beavers build their dams out of trees, which they cut down using their front teeth. Beavers also eat the leaves and bark of trees, as well as the starchy roots of water lilies. Water lily shoots and roots have very little structural support because this support is not needed in aquatic habitats. What structures would you be LEAST likely to see in a water lily stem? A) epidermis B) parenchyma C) sclerenchyma D) tracheids

Q: Read the following scenario to answer the following questions. The North American beaver is a large rodent that builds dams to convert freshwater streams into ponds. Beavers build their dams out of trees, which they cut down using their front teeth. Beavers also eat the leaves and bark of trees, as well as the starchy roots of water lilies. Beavers dams are sturdy, because the part of a tree that provides structural support when the tree is alive lends its strength to the dam, even after the tree is dead. What part of a tree provides this structural support? A) heartwood B) bark C) collenchyma D) parenchyma

Q: Read the following scenario to answer the following questions. The North American beaver is a large rodent that builds dams to convert freshwater streams into ponds. Beavers build their dams out of trees, which they cut down using their front teeth. Beavers also eat the leaves and bark of trees, as well as the starchy roots of water lilies. Water lilies store carbohydrates in their roots, which is why beavers like to eat water lily roots. What type of plant cells store these carbohydrates? A) guard cells B) sclerenchyma cells C) parenchyma cells D) collenchyma cells

Q: Read the following scenario to answer the following questions. The North American beaver is a large rodent that builds dams to convert freshwater streams into ponds. Beavers build their dams out of trees, which they cut down using their front teeth. Beavers also eat the leaves and bark of trees, as well as the starchy roots of water lilies. When a beaver is eating leaves, what plant structure(s) is it ingesting? I) mesophyll II) parenchyma III) cork A) I B) II C) III D) I and II

Q: Read the following scenario to answer the following questions. The North American beaver is a large rodent that builds dams to convert freshwater streams into ponds. Beavers build their dams out of trees, which they cut down using their front teeth. Beavers also eat the leaves and bark of trees, as well as the starchy roots of water lilies. When a beaver is eating bark, what plant structures is it ingesting? A) secondary phloem, cork cambium, and cork B) secondary xylem, secondary phloem, and cork cambium C) primary phloem, cortex, and endodermis D) primary xylem, vascular cambium, and primary phloem

Q: Read the following scenario to answer the following questions.The North American beaver is a large rodent that builds dams to convert freshwater streams into ponds. Beavers build their dams out of trees, which they cut down using their front teeth. Beavers also eat the leaves and bark of trees, as well as the starchy roots of water lilies.As a beaver chews from the outside to the inside of a tree, in what order does it encounter plant tissues?A) secondary xylem - secondary phloem - cork - cork cambium - vascular cambiumB) cork cambium - cork - secondary xylem - vascular cambium - secondary phloemC) cork - cork cambium - vascular cambium - secondary xylem - secondary phloemD) cork - cork cambium - secondary phloem - vascular cambium - secondary xyle

Q: Read the following scenario to answer the following questions. In late 2006, bee workers in the United States started to notice a disturbing phenomenon: the sudden disappearance of honeybees from commercial hives. This mysterious condition was called "colony collapse disorder," and it has caused a drastic reduction in commercial honeybee populations all over the country. It is estimated that one-third of our food supply relies on bees and is in danger. Crops that rely most heavily on honeybees include apples, almonds, blueberries, and pumpkins. If colony collapse disorder cannot be cured or treated effectively, farmers may have to turn to other insects, perhaps other bee species or even moths. Which plant structure is adapted for attracting beneficial insects such as honeybees? A) axillary bud B) terminal bud C) flower D) petiole

Q: Read the following scenario to answer the following questions. In late 2006, bee workers in the United States started to notice a disturbing phenomenon: the sudden disappearance of honeybees from commercial hives. This mysterious condition was called "colony collapse disorder," and it has caused a drastic reduction in commercial honeybee populations all over the country. It is estimated that one-third of our food supply relies on bees and is in danger. Crops that rely most heavily on honeybees include apples, almonds, blueberries, and pumpkins. If colony collapse disorder cannot be cured or treated effectively, farmers may have to turn to other insects, perhaps other bee species or even moths. Without honeybees, which process in the life cycle of plants such as apples, almonds, blueberries, and pumpkins is most affected? A) seed dispersal B) secondary growth C) pollination D) seed germination

Q: Please refer to the following art of the cross-sections of two trees to answer the following questions. Which statement CORRECTLY compares the growth of these two trees? A) The two trees grew at the same rate. B) The tree on the left grew at a slower rate than the tree on the right. C) The tree on the left grew at a faster rate than the tree on the right. D) The growth of the two trees cannot be compared with the images shown.

Q: Please refer to the following art of the cross-sections of two trees to answer the following questions. These trees most likely grew in an environment with ________. A) constant cold temperatures B) constant warm temperatures C) alternating warm and cold seasons D) It is not possible to predict the temperatures of the trees' environment.

Q: Please refer to the following art of the cross-sections of two trees to answer the following questions. When were the cross-sections of these trees made? A) before completion of the first year of growth B) in the spring C) later in the summer D) in the winter

Q: Please refer to the following art of the cross-sections of two trees to answer the following questions. How old are these trees? A) 3.5 years old B) 7 years old C) 14 years old D) 28 years old

Q: Examine the figure below. What process has to occur to produce a haploid embryo sac? A) meiosis B) meiosis followed by mitosis C) mitosis followed by meiosis D) mitosis

Q: Examine the figure below. Secondary growth involves cell division in the ________. A) cork cambium and apical meristem B) vascular cambium and apical meristem C) vascular cambium and cork cambium D) secondary xylem and secondary phloem

Q: The arrows in the figure below illustrate ________. A) germination B) secondary growth C) meiosis D) primary growth

Q: What is the likely effect of pruning a plant at the dotted line? A) The plant will grow taller. B) The plant will grow bushier. C) The plant will produce flowers. D) The plant will grow more roots.

Q: In a sporophyte of an angiosperm, growth occurs at ________ via ________. A) meristems mitosis B) meristems meiosis C) flowers fertilization D) seeds dispersal