In the sexual reproduction phase of the fungus life cycle, two haploid cells fuse to form a diploid zygote.
Sexual reproduction in fungi involves the fusion of two haploid cells, each with a single set of chromosomes, to form a diploid zygote with two sets of chromosomes. This zygote then undergoes meiosis to produce new haploid cells, which can grow and develop into new fungal individuals. The sexual reproduction phase in fungi is important for genetic recombination and the generation of genetic diversity. The exact details of the sexual reproduction phase can vary among different species of fungi, but it is typically characterized by the formation of specialized reproductive structures, such as fruiting bodies or hyphae, and the release of gametes or spores that can fuse with compatible partners.
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White-crowned sparrows evolved from an ancestral species that possessed the capacity for song learning. This is an example of...
A. an adaptive value explanation.
B. a developmental explanation.
C. an explanation relating to evolutionary history.
D. a physiological explanation
White crowned sparrows evolved from their ancestral species which possessed the capacity for song learning. This is an example of an explanation related to evolutionary history.
Hence, the correct option is option C.
Evolution is basically the change in the heritable characteristics of the biological populations over a number of successive generations. These characteristics can be the expressions of the genes that are passed on from the parent to the offspring when reproduction takes place.
The white crowned sparrows basically evolved from their ancestors which had a capacity to learn songs and this is an example of explanation which is related to the evolutionary history.
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THIS IS URGENT SOMEBODY PLEASE HELP!!!!!!!
Do some research into thornless varieties of plants.
a. What plants are available that do not have thorns?
b. Is thornlessness a mutation?
c. When and where was the possibility of growing thornless varieties of plants discovered?
d. How do these varieties compare with the variety that has thorns?
Answer:
There are a variety of plants that do not have thorns, including 'Doyle's Thornless' and 'Chester' varieties of blackberries, and the 'Nemacladus' variety of cactus. b. Thornlessness is generally caused by a mutation in the plant's genetic code. c. The possibility of growing thornless varieties of plants was discovered in the early 1900s. d. Thornless varieties generally produce a high yield of smaller fruits, while varieties with thorns produce a lower yield of larger fruits.
Explanation:
Which organ secretes sodium bicarbonate to neutralize the acidity of chyme?
Answer:
The pancreas
Explanation:
This sodium bicarbonate is secreted by the pancreas
A fish inherits a mutation that results in a new regulatory switch ("eye switch") that regulates Pitx1 expression in the eye. This new switch binds a particular activator found in the tissues of the eye (activator 3)
The fish with the eye switch mutation will likely experience changes in Pitx1 expression specifically in the tissues of the eye, as the new switch regulates its expression in response to the presence of activator 3.
The fish "eye switch" mutation points to the creation of a novel regulatory system that controls Pitx1 gene expression. The patterning, differentiation, and other stages of ocular development are all influenced by this gene. An activator known as activator 3 that is frequently found in ocular tissues is bound by the novel switch. When activator 3 is present, the eye switch will be activated, which will change how the Pitx1 gene expresses.
This alteration in the expression of Pitx1 in response to activator 3 may have substantial effects on the development and function of the eye.
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The complete question is:
A fish inherits a mutation that results in a new regulatory switch ("eye switch") that regulates Pitx1 expression in the eye. This new switch binds a particular activator found in the tissues of the eye (activator 3), where will the Pitx1 expression changes are going to occur?
Which of the following is not a type of
fatty acid?
A. Presaturated fat
B. Saturated fat
C. Unsaturated fat
D. None of the above
Answer:
The answer is D, because it is none of the above.
Explanation:
All of the above answers are fatty acids.
Wrinkled eed are receive to mooth eed. Show a plant that alway produce wrinkled eed croed with a heterozygou mooth eed producing plant
The genotype ratio is 1:2:1, often known as RR: Rr: Rr. The ratio of round to wrinkled seeds in phenotypic is 3:1.
When compared to females, males have XY chromosomes. A heritable mutation is a change in the DNA's nucleotide sequence. Among the 23 pairs of chromosomes found in humans, there are 22 pairs of autosomes and 1 pair of sex chromosomes. The gamete will therefore have 23 chromosomes. The term "genotype" is used in a broad sense to refer to either the genes themselves or the whole gene pool of an organism. The phrase can also refer to a gene's alleles, or distinctive variations, in a more limited sense. A scalar variable called speed can be used to describe how quickly an item moves or how much its location changes over time. It is often shortened to "s."
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which of the following is not one of the three major parts of the neuron? a. soma b. glial c. dendrite d. axon
The three major part of the neurons are soma, dendrite and axon. So hence glial is not the major part of the neuron. Glia are non-neuronal cells of the central nervous system (brain and spinal cord) and the peripheral nervous system that do not generate electrical impulses.
They are also known as glial cells (gliocytes) or neuroglia. They keep homeostasis in check, create myelin in the peripheral nervous system, and support and shield neurons. Glial cells comprise oligodendrocytes, astrocytes, ependymal cells, and microglia in the central nervous system, and Schwann cells and satellite cells in the peripheral nervous system.
They serve four major purposes: to enclose and support neurons; to nourish and oxygenate neurons; to isolate one neuron from another; to eliminate infections and remove dead neurons.
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it is a transport protein present in the blood. Fat
Glucose
Hemoglobin
Answer: Hemoglobin
What is Hemoglobin?
In normal adults, hemoglobin is a protein whose primary function is to carry oxygen from the lungs to the tissues and carbon dioxide from the tissues to the lungs.
Hemoglobin is known as Transport Protein due as it:
Carries oxygen from the lungs to the tissues.Carries carbon dioxide from the tissues to the lungs.It gives red blood cells their colour and shape.Hemoglobin is essential for the body because it can bind oxygen, carbon dioxide, and other groups such as sulfides and nitric oxide. These substances are transported through blood bound to hemoglobin.
Therefore, known as transport protein.
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Hemoglobin is a transport protein present in the blood.
What is Hemoglobin?
In normal adults, hemoglobin is a protein whose primary function is to carry oxygen from the lungs to the tissues and carbon dioxide from the tissues to the lungs.
Hemoglobin is known as Transport Protein due as it:
Carries oxygen from the lungs to the tissues.
Carries carbon dioxide from the tissues to the lungs.
It gives red blood cells their colour and shape.
Hemoglobin is essential for the body because it can bind oxygen, carbon dioxide, and other groups such as sulfides and nitric oxide. These substances are transported through blood bound to hemoglobin.
Therefore, known as transport protein.
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at the arterial end of capillaries, why does fluid move from the intravascular space into the interstitial space
At the arterial end of capillaries, fluid moves from the intravascular space into the interstitial space because the capillary hydrostatic pressure is higher than the capillary oncotic pressure (Option B).
The capillary hydrostatic pressure pushes the fluid out of the blood vessels and into the surrounding tissue, while the capillary oncotic pressure, also known as colloid osmotic pressure, works to pull fluid back into the blood vessels.
The net effect of these opposing forces results in fluid moving from the intravascular space into the interstitial space.
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The question is -
At the arterial end of capillaries, fluid moves from the intravascular space into the interstitial space because the:
A)interstitial hydrostatic pressure is higher than the capillary hydrostatic pressure.
B)capillary hydrostatic pressure is higher than the capillary oncotic pressure.
C)interstitial oncotic pressure is higher than interstitial hydrostatic pressure.
D)capillary oncotic pressure is lower than the interstitial hydrostatic pressure.
=
2.
DNA fingerprinting
and molecular
sequence analysis of DNA is
possible for all of these reasons
EXCEPT SC.912.L.16.10
EXCEPT for the ability to manipulate and change the DNA sequence.
What is DNA fingerprinting?DNA fingerprinting is a laboratory technique used to identify an individual based on their unique DNA pattern. It involves analyzing specific regions of DNA called "variable number tandem repeats" (VNTRs) that vary in length among individuals. By comparing the VNTRs of a person's DNA sample to a reference sample, such as a database, the likelihood of a match can be determined.
DNA fingerprinting is used in forensic science to solve crimes, in paternity testing to determine biological relationships, and in medical research to identify genetic disorders. The high degree of accuracy and reproducibility of the method has made it a valuable tool in various fields.
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dolphins make sounds in air and water. what is the ratio of the wavelength of the sound in air to its wavelength in water? assume air temperature is 20.0°c and the speed of sound in sea water at 20.0°c is 1540 m/s.
Explanation:
The ratio of the wavelength of sound in air to its wavelength in water can be calculated using the equation for the speed of sound in air and water. The speed of sound in air is dependent on temperature and pressure, and the speed of sound in water is dependent on temperature and the properties of the medium (e.g. salinity, pressure, etc.).
At 20.0°C, the speed of sound in air is approximately 340 m/s. The wavelength in air is given by the formula:
λ_air = v_air / f
where λ_air is the wavelength in air, v_air is the speed of sound in air, and f is the frequency of the sound.
The wavelength in water is given by the formula:
λ_water = v_water / f
where λ_water is the wavelength in water, v_water is the speed of sound in water (1540 m/s at 20.0°C), and f is the frequency of the sound.
The ratio of the wavelength of sound in air to its wavelength in water is given by:
λ_air / λ_water = v_air / v_water
Plugging in the known values for v_air and v_water, we find that:
λ_air / λ_water = 340 m/s / 1540 m/s = 0.22
So, the wavelength of sound in air is approximately 0.22 times the wavelength of the same sound in water.
urine flows from the kidneys through two long, thin tubes called ________.
urine flows from the kidneys through two long, thin tubes called ureters. Two lengthy, narrow tubes, known as ureters, carry urine away from the kidneys.
The two skinny tubes, or ureters, that carry urine from the kidneys to the bladder. About 8 to 10 inches is how long the ureters are. To push urine down and away from the kidneys, muscles in the walls of the ureters contract and release. Approximately every 10 to 15 seconds, small volumes of urine flow from the ureters into the bladder.
The ureteropelvic junction (UPJ) of the kidneys, which are located posterior to the renal vein and artery in the hilum, is where the ureters are first formed[1]. In the abdominal cavity, the ureters then move inferiorly. The psoas muscle is crossed over as they enter the bladder through the trigone's posterior bladder aspect.
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A certain cell undergoes mitosis every 20 min. The number of cells produced from one original cell after 1 h 20 min. Would be.
Answer: I'm not sure
Explanation:
What kind of element is carbon
Answer:
nonmetal
Explanation:
Carbon is a nonmetallic chemical element in Group 14 of the periodic table. Although widely distributed in nature, carbon is not particularly plentiful—it makes up only about 0.025 percent of Earth's crust—yet it forms more compounds than all the other elements combined
TRUE/FALSE. neuroglia do not conduct impulses; they protect the nervous system through phagocytosis by engulfing and digesting any unwanted substances.
It is true to say that neuroglia does not transmit electrical impulses; instead, they defend the nervous system through phagocytosis by engulfing and digesting any foreign objects.
Neuroglia is a abundant class of affecting animate nerve organ cells of ectodermal (astroglia, oligodendroglia, and peripheral glial cells) and mesodermal (microglia) inception. Neuroglial cells support homeostatic support, guardianship, and defense against the anxious fabric. The composition of the ancestry-intellect obstacle. Provision of nutrients for neurons.
Glial cells, otherwise known as glial cells or neuroglia, are cells that is non-neuronal and are situated inside the main central nervous system and the peripheral nervous system that supplies material and metabolic support to neurons, containing neuronal cushioning and ideas, and nutrient and waste transport.
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is it likely that the protein translated from tra-rb could play the same functional role played by the protein translated from tra-ra?
Protein translated from a different gene can play the same functional role as another protein is a complex issue. In order to answer this question, it is necessary to examine both the genetic sequence of the proteins and the specific biological functions they perform.
In the case of tra-rb and tra-ra, it is possible that the protein translated from tra-rb could play a similar role as the protein translated from tra-ra. This is because the protein's function is determined by the sequence of amino acids that make up the protein. If the amino acid sequences of the proteins from tra-rb and tra-ra are similar, then it is likely that the proteins will have similar functions.
However, even if the amino acid sequences are similar, it is still possible that there are differences in the way the proteins interact with other molecules in the cell that could result in different biological functions. For example, the protein translated from tra-rb may have a different binding site than the protein translated from tra-ra, leading to a different function.
In addition, the protein's function may also be influenced by its location in the cell and the presence of other proteins. For example, if the protein translated from tra-rb is located in a different part of the cell than the protein translated from tra-ra, it may have a different role.
Overall, while it is possible that the protein translated from tra-rb could play the same functional role as the protein translated from tra-ra, it is important to carefully examine the molecular details of the proteins to determine their true function.
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how breast milk is formed in mammary glands
Breast milk is produced by the mammary glands which are made up of lobules, which are clusters of glandular cells that produce milk. Breast milk is produced when a hormone called prolactin stimulates the mammary glands to produce milk. Prolactin is released by the pituitary gland in response to the hormone stimulation from the hypothalamus, which is triggered by the baby's suckling on the nipple.
The mammary glands are a type of exocrine gland found in female mammals, including humans, and are responsible for producing and secreting breast milk. The milk is stored in ducts, which lead to the nipple.
Breast milk is a complex fluid that contains various nutrients, hormones, and antibodies. These components provide vital nutrition to the baby and help to protect them against infections and illnesses. Some of the key nutrients in breast milk include proteins, carbohydrates, fats, vitamins, and minerals.
Breast milk also contains antibodies that help to build the baby's immune system. These antibodies are transferred from the mother to the baby, providing protection against various infections and illnesses. Additionally, hormones in breast milk, such as oxytocin and prolactin, promote bonding and a sense of comfort between the mother and baby.
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Which of the following are true of the Polymerase Chain Reaction (PCR)? Check all that apply.
- It uses an RNA primer It requires a special DNA polymerase that works at very low temperatures.
- It makes many copies of a target DNA sequence
- It can start with as little as one DNA molecule
- It involves DNA replication in a living cel
An RNA primer is employed. It calls for a unique DNA polymerase that operates at extremely low temperatures.
In this procedure, two sets of primers (short chemically generated oligonucleotides that are complementary to the sections of DNA) and the enzyme DNA polymerase are used to create multiple duplicates of the gene (or DNA) of interest in vitro.
Certain viral infections and genetic alterations can be quickly and accurately diagnosed using PCR (polymerase chain reaction) assays. In order for the tests to function, a sample must include the Dna molecules of a pathogen (an organism that causes disease) or aberrant cells. In molecular biology and biotechnology labs, the PCR, or polymerase chain reaction, method is used to make several copies of a specific DNA region.
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Three hundred joules of heat are added to a system. The system uses 140 joules to do work. By how much did the internal energy of the system change?.
A system generates 300 J of heat and uses 140 J to accomplish a particular task. Since the system's internal energy will change by 160 J, option B is correct.
The energy transfer that occurs when an object is moved over a length by an external force, at least some of which is applied in the direction of the displacement, is referred to as work in physics. If the force is constant, work can be calculated by multiplying the elements of the force acting along the path by its length.
This idea can be expressed mathematically as, where W is the amount of work and f is the force multiplied by d, the distance. When the force is applied at an angle of about the displacement, the work is finished.
The information provided in response to the question is,
Energy required = 140 J
Energy added = 300 J
Change in internal energy in the system after doing work.
= 300 J- 140 J
= 160 J
Therefore, the change in the internal energy of the system is 160 J.
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autotrophs and the process of photosynthesis, which of the following would be a likely affect on the
environment?
a. A decrease in carbon dioxide
A decrease in oxygen
d. An increase in methane
b. An increase in nitrogen
Autotrophs and the process of photosynthesis, the affect on the environment is a decrease in carbon dioxide. So correct option is A.
What do you mean by autotrophs?Autotrophs are organisms that are capable of producing their own food through the process of photosynthesis. Photosynthesis is a metabolic process that converts light energy into chemical energy, which can be stored as organic matter. Autotrophs use this energy to synthesize simple sugars from carbon dioxide and water, which they can then use as a source of food.
Autotrophs play a crucial role in the Earth's ecosystem as they are at the base of the food chain. They provide food and energy for other organisms, including heterotrophs (which are unable to produce their own food and must consume other organisms for energy), and help to regulate the levels of atmospheric gases such as oxygen and carbon dioxide.
Examples of autotrophs include plants, algae, and some bacteria. They are found in almost all environments on Earth, including freshwater and marine ecosystems, deserts, and forests. Their importance to the planet and its ecosystems cannot be overstated, as they provide the foundation for the rest of the food chain and help to maintain the balance of the Earth's ecosystem.
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Which one of the following is NOT a function of glial cells?a.getting nutrients to the neuronsb.generating action potentialsc.cleaning up the remains of dead neuronsd.providing insulation
Generating action potentials is NOT a function of glial cells.getting nutrients to the neurons,.cleaning up the remains of dead neurons,providing insulation are the functions of glial cells.
Glia are non-neuronal cells of the central nervous system (brain and spinal cord) and the peripheral nervous system that do not generate electrical impulses. They are also known as glial cells (gliocytes) or neuroglia. They keep homeostasis in check, create myelin in the peripheral nervous system, and support and shield neurons. Glial cells comprise oligodendrocytes, astrocytes, ependymal cells, and microglia in the central nervous system, and Schwann cells and satellite cells in the peripheral nervous system. They also participate in physiological activities like respiration as well as synaptic connections and neurotransmission. While it was once believed that glia outnumbered neurons 10 to 1, more recent research employing better techniques and a reevaluation of previous quantitative data reveals that the ratio is really less than 1:1, with significant variance across various species.
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Name the family of proteins that by physically interacting with ras enhances the intrinsic gtpase activity of ras in the rtk-mediated signal transduction pathway.
The family of proteins that enhance the intrinsic GTPase activity of Ras in the RTK-mediated signal transduction pathway is called GAP (GTPase Activating Proteins).
GAPs bind to Ras and increase its rate of hydrolysis of GTP to GDP, leading to the termination of Ras signaling. This helps to prevent overactive or prolonged signaling that can lead to cellular malfunctions and diseases such as cancer. Thus, GAPs play a crucial role in the regulation of the Ras signaling pathway, ensuring that the proper signals are transmitted and the pathway is terminated at the right time.
The term "family of proteins" is used because there are multiple different types of GAP proteins, each with slightly different structures and functions. The GAP family is made up of several different proteins, including p120GAP, NF1-GAP, and p190GAP, among others.
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v-snares and t-snares bind together causing the lipid layers of both membranes to join, inserting vesicle membranes into plasma membranes in a process called
Exocytosis, a process where vesicle membranes are inserted into plasma membranes, is caused by the binding of v-snares and t-snares, which causes the lipid layers of both membranes to connect.
The role of t-SNARE is to produce stable subcomplexes and act as a guide for v-SNARE, whereas the role of v-SNARE is to mediate the process of exocytosis. Additionally, the two primary v-SNARE types are VAMP7 and VAMP 8, and the two primary t-SNARE types are Syntaxin 1 and SNAP-25. A vesicle's ability to fuse with the cell membrane is aided by a class of membrane-bound proteins known as SNAREs. Both the vesicle and the cell membrane include SNARE proteins, which bring them together. According to the SNARE theory of vesicle fusion, a number of protein-protein interactions control how vesicles are transported to different membrane destinations, including the Golgi network and the plasma membrane.
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a student observes a cell through a light microscope and correctly decides that it is a plant cell. what observation would lead to that conclusion?
When a student examines a cell under a light microscope, they correctly identify it as a plant cell. That conclusion would follow from the observation that it has a sizable central vacuole.
Large rectangular interlocking blocks can be seen as plant cells under a microscope. Each cell's exterior cell wall is clearly discernible. The cell wall is reasonably thick and may be clearly seen when dyed. Additionally, the cytoplasm is faintly stained and has a nucleus at the cell's edge that is darkly stained.
In addition to a cell membrane, plant cells also have a cell wall. The cell membrane is encased by the cell wall in plants. The plant cell's distinctive rectangular shape is a result of this. Animal cells do not have a cell wall; only the cell membrane is present.
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the endocrine system appears to play a role in which types of disorders?
Menopause.
Diabetes.
Addison's disease.
Cushing's disease.
Graves' disease.
Hashimoto thyroiditis.
Hyperthyroidism/hypothyroidism.
Prolactinoma.
Main part of a nerve cell; contains organelles to maintain homeostasis inside each cell
Mithocondria. The power plant of the cell, this organelle is crucial for supplying energy for vital metabolic functions that enable the cell to achieve homeostasis.
Cellular membrane It is a biphospholipidic layer made up of transversal proteins that link the external environment to the inside of the cell. The cell membrane is essential for communication and for providing hints about the environment to the cell, enabling adjustments aimed at maintaining homeostasis. Nucleus. The code that includes all the information the cell needs to live is found in this organelle. The nucleus receives and transmits signals that cause metabolic adjustments, which is essential for flexibility and enabling homeostatic conditions in a changing environment.
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The building blocks or monomers of nucleic acid molecules are called _____. See Concept 5.5 (Page 84)
A. pyrimidines and purines
B. polysaccharides
C. DNA and RNA
D. fatty acids
E. nucleotides
Nucleotides are the monomers, or building units, of nucleic acid molecules. Here option E is the correct answer.
Nucleic acids are large, complex biomolecules that play a crucial role in the storage and expression of genetic information. The building blocks of nucleic acids are called nucleotides, which consist of a nitrogen-containing base, a sugar molecule, and a phosphate group.
There are two types of nitrogen-containing bases found in nucleotides: purines (adenine and guanine) and pyrimidines (cytosine, thymine, and uracil). The sugar in nucleotides can be either deoxyribose (found in DNA) or ribose (found in RNA).
When nucleotides are linked together through covalent bonds, they form long chains called nucleic acids, such as DNA or RNA. The sequence of nucleotides in a nucleic acid molecule determines the genetic information stored in the molecule.
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jack summers has hit his head and is diagnosed with damage to his hypothalamus. physicians are postulating what will happen if jack's hypothalamus is not secreting any hormones. what hormones will not be produced?
Many hormones are normally produced by the hypothalamus, including GnRH, dopamine somtostatin, prolactin releasing hormone, TRH HORMONE, corticotropin releasing hormone, and many others. So, if Jack's hypothalamus area is injured, he will not emit the above-mentioned hormone, which is required for bodily function.
GnRH, dopamine somtostatin, prolactin releasing hormone, TRH HORMONE, corticotropin releasing hormone, and many more hormones are routinely generated by the hypothalamus. As a result, if Jack's hypothalamus is damaged, he will not produce the aforementioned hormone, which is essential for physical function.
The hypothalamus is a brain organ that regulates your hormone system. It transmits hormones to another portion of your brain called the pituitary gland, which then delivers hormones to your other organs.
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tree annual rings 1 10 2 15 3 7 how would the position of the vascular cambium in these three core samples compare?
Begin counting the first dark ring you notice in the centre of the stump or cross-section of wood. Count outwards from the center ring until you reach the final dark ring.
The total number of dark rings indicates the tree's age in years. (The bark of the tree does not count as a dark ring.
In all three situations, the vascular cambium would be in different places relative to the stem Center, increasing in distance from 3 to 1 to 2. The tree will die if the cambium layer is damaged, although not immediately. According to most experts, if the cambium layer is weakened, it can take six to ten years for a tree to degrade and die.
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A bacterium that only possesses the ability to ferment obtains energy A by glycolysis only. B. by fermentation or aerobic respiration. C. only in the presence of oxygen. D.by aerobic respiration only. E. only in the absence of oxygen.
A bacterium that only possesses the ability to fermentation obtains energy by glycolysis only.
Glycolysis is the first stage of fermentation; however, it does not involve the final two phases of aerobic cellular respiration (the Krebs cycle and oxidative phosphorylation). Two NAD+ electron carriers are converted during glycolysis into two NADH molecules and two net ATPs. For glycolysis to proceed and for cells to continue generating 2 ATPs, the NADH must be oxidized again. Because oxidative phosphorylation cannot occur during fermentation due to a lack of oxygen, cells are only able to produce 2 ATP at a time. Alcoholic and lactic acid fermentation are the two forms of fermentation. We use both forms of fermentation using other organisms even though our cells can only execute lactic acid fermentation.
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