1. If plants had never evolved the elements necessary for transpiration, what do you think the maximum height of a land plant would be? Are there plants that lack the elements necessary for transpiration? If so, what are these? If land plants, how tall do they grow?
1. If plants had never evolved the elements necessary for transpiration, what do you think the...
Do you think if they never came to the compromise we would've had a nation that dealt with slavery? Or if the compromise never came into play would slavery had died out in the states completely? (three-fifth compromise)
How do you think modern art would look had the enlightenment never took place and mankind stayed in their old ways of thinking?
1- What is Photorespiration and what are two alternatives strategies of carbon assimilation plants have evolved? 2- Explain the "catch 22" that plants face on a hot day? 3- Give an overview of both these alternatives strategies 4- what is kranz anatomy? 5- can you give an example of these different plant mentioned? (all 3 groups) 6- when do C3 plants outperform plants with other carbon assimilation methods?
A plant called blue-eyed grass normally produces blue flowers. However, plants producing white flowers also occur, because an allele for the gene coding for the protein that produces the blue pigment is non-functional. This white-flowered allele (W) is dominant to the blue-flowered allele (w), but generally occurs at very low frequency in populations. Suppose you crossed a homozygous dominant plant with a homozygous recessive plant, and the result is 16 seeds. If you plant these, assuming simple Mendelian genetics, how...
1. Write down your "if.....then ...... because" hypothesis for the transpiration condition you plan to test in Procedure 1, and have it initialed by your TA. • Follow the "if (insert independent variable (what you are changing))..., then (insert dependent variable (what you expect to see/measure)..., because... format. Keep it simple and concise, not too broad. Avoid using words like I think, believe, all, never, and sometimes. These words may either personalize it or are too vague and will result...
1) What were some of the challenges that plants had as they moved onto land? (Check all that apply.) A. They no longer had structural support of water. B. They didn’t have water to stop dispersal of gametes. C. They were in danger of drying out without water. D. They were not as susceptible to predators and predators. 2) Pollen grains were a great adaptation for land plants because A. They allowed for dispersal for gametes via wind or animals...
1. Which of the four elements of financial management do you think are the most important and why do you consider it to be so? 2. In the event of an emergency at home, which hospital would you choose to go to? Which of the types of organizations described by the authors, on page 6 of the text, is your hospital? You may need to check the hospitals web site to figure it out. 3. What is the "Chart of...
, Pre-Lab Assignment P generation 1. Figure 9.8 illustrates one of Gregor Mendel's Dwarf breeding experiments with his pea plants. ai Genetic makeup: In this particular experiment with pea plant height, the P generation consisted of pure- breeding tall pea plants mated with pure- breeding dwarf pea plants. Gametes: 0 plants nated wito Fill in the blanks of the following paragraph ,geneation concerning this experiment. Gregor Mendel discovered several new ideas about inheritance when he performed breed- Genetic makeup: ing...
You are a conservation biologist, and you discover a small population of plants that live in rocky patches of land on the western side of the Superstition mountains (population A). These plants are biennial, meaning that they reproduce only in their second year of life and then die. The population you discover in Year 1 consists of 150 seeds, 30 one-year-old (vegetative) plants, and 10 two-year-old (flowering) plants. Other biologists at ASU have already done the long and hard research...
A researcher identified some mutant barley plants that had unusually elongated internodes in their stems and their seeds lacked dormancy. She found that she could reproduce these phenotypes in wild type plants or seeds by applying a plant hormone. What growth regulator do you think this was? What might be the cause of the mutation she discovered? How could you test your hypothesis?