The oxygen released by photosynthesis is produced by c. splitting water molecules.
Photosynthesis is the process by which plants and other photosynthetic organisms convert light energy into chemical energy in the form of organic carbon compounds. During photosynthesis, plants use carbon dioxide and water to produce glucose and oxygen, releasing the latter into the atmosphere. Chlorophyll, a green pigment found in the chloroplasts of plant cells, is responsible for capturing the light energy required for photosynthesis to occur.
Water is split into oxygen and hydrogen during photosynthesis, with oxygen being released into the atmosphere. The electron transfer system of photosystem II is responsible for splitting water molecules. The process of splitting water into oxygen and hydrogen ions, known as photolysis, is an essential component of photosynthesis, and without it, plants would be unable to produce oxygen, which is necessary for the survival of many organisms on Earth. Therefore, the oxygen released by photosynthesis is produced by c. splitting water molecules.
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The best description of fungi function of the structure from the image is the A, spore production.
Why do fungi produce spores?Fungi produce spores as part of their reproductive process. Spores are single-celled or multicellular structures that are capable of developing into a new individual fungus when they land in a suitable environment.
There are several reasons why fungi produce spores:
Dispersal: Spores are lightweight and easily carried by wind, water, or other means, allowing fungi to spread their genes over long distances and colonize new habitats.Survival: Spores are often highly resistant to environmental stressors such as extreme temperatures, drought, and UV radiation, allowing fungi to survive in harsh conditions.Genetic diversity: Fungal spores can be produced sexually or asexually, leading to genetic diversity among the offspring and increasing the chances of survival in changing environments.Find out more on fungi here: https://brainly.com/question/10878050
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Image transcribed:
The image displays a structure of fungi. Which of the following best describes the function of the structure displayed in the image below?
a Spore production
b Food absorption
C Sexual reproduction
d Asexual reproduction
when bacteria forms a hollow tube between two cells and exchange genetic material this is known as
a binary fusion
b transformation
c transduction
d conjugation
Answer:
Explanation:
a conjugation
density-independent factors that limit population growth include . answer unselected seasonal changes in the weather that affect birth rates unselected access to food unselected competition for mates unselected competition for nesting sites
Recognizing the various factors that contribute to population growth is crucial for understanding population dynamics and developing effective conservation strategies.
Density-independent factors that limit population growth include seasonal changes in the weather that affect birth rates. These factors are not directly related to population density and can impact the growth of a population regardless of its size.for such more questions on growth is crucial
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Look at the parts of the insect's body in Figure 6.9a. Then look at how the parts vary in the six insect specimens in Figure 6.9b. Invent a key to distinguish between these six specimens.
This key is just one possible way to distinguish between the six insect specimens based on the information given in Figure 6.9a and 6.9b. Other keys may also be possible depending on how the body parts of the insects are compared and contrasted.
What is the key to distinguish between these six specimens?Here's a possible key to distinguish between the six insect specimens based on their body parts:
Does the insect have two pairs of wings?
Yes: Go to 2
No: Go to 3
Are the wings transparent and have many veins?
Yes: The insect is Specimen 3
No: The insect is Specimen 1
Does the insect have a long, thin body with a pointed end?
Yes: The insect is Specimen 2
No: Go to 4
Does the insect have a hard, protective covering on its body?
Yes: Go to 5
No: The insect is Specimen 6
Are the wings membranous and held flat over the body?
Yes: The insect is Specimen 5
No: The insect is Specimen 4
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a new drug is developed which enhances the actions of the serotonin transporter at synapses - it makes the transporter better and quicker at pulling serotonin from the synaptic cleft. if the monoamine hypothesis were completely true, what effect would this drug likely have on an individual?
If the monoamine hypothesis were completely true, a drug that enhances the actions of the serotonin transporter at synapses would likely have an antidepressant effect on an individual.
The monoamine hypothesis suggests that depression is caused by a deficiency of certain neurotransmitters, including serotonin, at certain synapses in the brain. Specifically, it proposes that an imbalance in the levels of serotonin, norepinephrine, and dopamine can lead to depressive symptoms.
By enhancing the actions of the serotonin transporter, the new drug would increase the rate at which serotonin is removed from the synaptic cleft, which would result in higher levels of serotonin being available to activate postsynaptic receptors. This increase in serotonin availability is thought to improve mood and alleviate symptoms of depression.
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the animal welfare regulations (awr) do not currently apply to which of the following animals? non-vertebrates, laboratory mice, and laboratory rats. pigs and sheep. hamsters and gerbils. dogs.
The Animal Welfare Regulations do not apply to non-vertebrates, laboratory mice, and laboratory rats due to their biological differences or specific use in scientific research.
The Animal Welfare Regulations (AWR) are designed to protect the well-being of animals by establishing guidelines for their care and treatment. However, these regulations do not currently apply to all types of animals. Among the mentioned options, non-vertebrates, laboratory mice, and laboratory rats are the ones not covered by the AWR.
Non-vertebrates, such as insects, do not fall under the scope of these regulations because they lack a backbone and are considered less capable of experiencing pain or suffering. Laboratory mice and rats, on the other hand, are specifically exempt from AWR due to their widespread use in scientific research.
Although these animals do experience pain and stress, the need for controlled experiments to advance scientific understanding and develop new medical treatments has led to their exclusion from the regulations.
In contrast, pigs, sheep, hamsters, gerbils, and dogs are all covered under AWR. These animals are considered sentient beings, capable of feeling pain, suffering, and distress, and thus warrant protection under the law. Regulations ensure proper housing, nutrition, and humane treatment of these animals in various settings, including agriculture, research, and domestic environments.
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describe how nmda receptor function/expression changes as a consequence of even acute exposure to nmda antagonists and account for the withdrawal syndrome associated with nmda antagonists
NMDA receptors are ionotropic glutamate receptors that play a crucial role in synaptic plasticity and learning and memory processes.
Acute exposure to NMDA antagonists, such as ketamine or PCP, causes a reduction in NMDA receptor function and expression. This is thought to be due to a compensatory mechanism in response to the inhibition of NMDA receptor activation. Chronic exposure to NMDA antagonists can lead to upregulation of NMDA receptor expression and function as a result of increased receptor synthesis.
Withdrawal symptoms associated with NMDA antagonists are thought to be due to the rebound activation of NMDA receptors following chronic exposure to these drugs. This can cause an overactivation of the glutamatergic system, leading to excitotoxicity and neuronal damage. Symptoms may include anxiety, agitation, hallucinations, and cognitive impairment. The severity and duration of withdrawal symptoms can depend on several factors, including the specific drug, the duration and dosage of exposure, and individual differences in neurobiology.
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What would you predict would happen if hunting were discontinued for bighorn sheep in a large population? a. There would be a large amount of gene flow between the population where hunting was not allowed and nearby populations where hunting was still allowed. b. Over time, we could see an increase in the H1 allele frequency. c. Genotype frequency of H2H2 and H1H2 would increase. d. There would be a new mutation for large horns because the females would prefer to mate with males with large horns. e. We would only see genetic drift, but not evolution by natural selection on horn size.
If hunting were discontinued for bighorn sheep in a large population, the H1 allele frequency would increase over time. This is because without hunting pressure, natural selection would favor larger horns as they provide an advantage in the competition for mates. The correct option is B.
Hunting is the act of pursuing or trapping animals, birds, or fish for food, sport, or other purposes. Hunting affects the population of animals that are hunted, including bighorn sheep.
An allele is a version of a gene. There are two types of alleles, dominant and recessive. The H1 allele is a dominant allele that has been associated with larger horn sizes in bighorn sheep. Population genetics is the study of changes in the frequency and distribution of alleles within populations over time.
In a large population of bighorn sheep, if hunting was discontinued, there would be no selective pressure on the bighorn sheep to have smaller horns. As a result, the frequency of the H1 allele would increase over time.
So, the correct option is B.
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explain why the immune response to a ribosomal protein of streptococcus pneumoniae is not protective, but an immune response to its capsule is protective.
The immune response to ribosomal proteins from Streptococcus pneumoniae is not protective because ribosomal proteins are essential for the survival of all living cells, including human cells.
Therefore, antibodies against these proteins can also attack normal, healthy human cells, leading to autoimmunity and possibly harm to the host. In addition, ribosomal proteins are highly conserved among different bacterial species.
On the other hand, the immune response to the shell of S. pneumoniae has a protective effect because this is a unique and specific characteristic of this pathogen. The capsule is a layer of polysaccharide that surrounds the bacterial cell and is essential for its virulence.
The antibodies produced against the capsule can specifically recognize and neutralize the pathogen, preventing the pathogen from causing disease. In addition, because the capsule is specific to S. pneumoniae, the immune response to the capsule.
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a metabolic pathway that is regulated by accumulation of one or more end products that act to shut down the first enzymatic reaction in the chain is said to be subject to:
A metabolic pathway that is regulated by accumulation of one or more end products that act to shut down the first enzymatic reaction in the chain is said to be subject to feedback inhibition.
Feedback inhibition is a type of negative feedback in which the product of a pathway inhibits the activity of an enzyme earlier in the pathway, thus slowing down or stopping the production of the product. This is a common mechanism for regulating metabolic pathways and maintaining homeostasis in the cell or organism.
Because the end products of a reaction are known to attach to the enzyme's allosteric site, which causes the enzyme to become inactive and produce fewer products, allosteric inhibition is also known as feedback inhibition.
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which of the statements are true about energy metabolism? the brain requires a significant amount of energy from glucose. fatty acids, glucose, and amino acids are the primary fuels we metabolize. red blood cells lack mitochondria and thus get all of their fuel from fatty acids. all cells can conduct glycolysis, so all cells use glucose for fuel.
Option A and B are true statements regarding energy metabolism: the brain needs a substantial amount of energy from glucose. The main fuels humans metabolize are fatty acids, glucose, and amino acids.
The metabolic route is crucial since red blood cells (RBCs) only use glucose and the brain relies on it as its main fuel. Because red blood cells lack mitochondria, they are unable to oxidize either fatty acids or amino acids and must instead synthesize ATP from glucose.
Our body uses the metabolic process to turn food into energy. Our bodies require energy to do tasks like daily chores. The chemical processes in the body's cells known as metabolism convert food into energy.
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Correct question:
which of the statements are true about energy metabolism?
the brain requires a significant amount of energy from glucose.
fatty acids, glucose, and amino acids are the primary fuels we metabolize.
red blood cells lack mitochondria and thus get all of their fuel from fatty acids.
all cells can conduct glycolysis, so all cells use glucose for fuel.
why is it necessary to expose the cells to a hypotonic solution when preparing cells for karyotyping?
[tex]\blue{\huge {\mathrm{KARYOTYPING}}}[/tex]
[tex]\\[/tex]
[tex]{===========================================}[/tex]
[tex]{\underline{\huge \mathbb{Q} {\large \mathrm {UESTION : }}}}[/tex]
Why is it necessary to expose the cells to a hypotonic solution when preparing cells for karyotyping?[tex]{===========================================}[/tex]
[tex] {\underline{\huge \mathbb{A} {\large \mathrm {NSWER : }}}} [/tex]
Exposing cells to a hypotonic solution is necessary when preparing cells for karyotyping because it causes the cells to swell and burst, which releases the chromosomes for staining and visualization.
In a hypotonic solution, the concentration of solutes outside the cell is lower than the concentration inside the cell. This causes water to move into the cell, resulting in cell swelling or lysis (bursting). When cells are exposed to a hypotonic solution during karyotyping, the hypotonicity causes the cell membrane to rupture, which releases the chromosomes from the nucleus. The chromosomes can then be stained and visualized under a microscope.
[tex]{===========================================}[/tex]
[tex]- \large\sf\copyright \: \large\tt{AriesLaveau}\large\qquad\qquad\qquad\qquad\qquad\qquad\tt 04/02/2023[/tex]
It is necessary to expose the cells to a hypotonic solution when preparing cells for karyotyping because it will cause the cells to swell and spread apart from one another, making it easier to visualize the chromosomes during the process.
What is karyotyping?Karyotyping is the process of identifying and characterizing the chromosomes in an individual's genome. A sample of blood, bone marrow, or amniotic fluid is usually taken to prepare for karyotyping. To obtain a suitable cell sample for karyotyping, the cells must first be treated with a hypotonic solution. When a cell is put in a hypotonic solution, it causes the cell to swell and spread apart from other cells, making it easier to view and analyze chromosomes.
Hypotonic solution is a term used in biology to refer to a solution with a lower solute concentration than another solution, typically the cell in biology. A hypotonic solution is a solution in which the concentration of solutes is less than that of another solution across a semipermeable membrane such as a cell membrane.
Steps in karyotyping are:
Gathering a sample of cells from the patient: The sample may be taken from blood, bone marrow, or amniotic fluid.Preparing the cells: The cells must first be treated with a hypotonic solution, causing them to swell and spread apart from one another. Cells are then treated with a fixative to preserve their structure and prevent further growth.Slides are prepared and stained: Chromosomes are extracted from the cells and positioned on a glass slide for analysis. Staining is used to highlight the chromosome pairs and make them easier to see.The chromosomes are then analyzed, and abnormalities or variations are identified.
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what would you need to do after measuring zones of inhibition and before concluding your organism as r/i/s?
You would need to compare the zone widths to recognised standards or breakpoints for that antimicrobial agent after measuring the zones of inhibition to determine if an organism is resistant (R), intermediate (I), or susceptible (S) to that antimicrobial agent.
The standards are based on a number of variables, including the drug's pharmacokinetics and pharmacodynamics, the site of the illness, and the severity of the infection, in addition to the microorganism's known susceptibility to it.
Clinical and laboratory standards bodies often define the standards or breakpoints, which can vary for various bacteria and antimicrobial drugs. You can then assess if the organism is R, I, or S to the antimicrobial agent being tested by comparing the zone sizes to the predetermined standards.
The patient's clinical condition and other elements, such as the existence of comorbidities or immunosuppression, which may affect the efficacy of the antimicrobial treatment, should be taken into consideration when interpreting the results.
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a general rule relating the capacity of a specific animal's digestive system to provide adequate access to substrates for biosynthesis of cellular components as well as energy molecules needed for atp production is that the animal should have access to
There should be a diet that matches the "food pyramid" for the species so that animal's digestive system to provide adequate access to substrates for biosynthesis.
In 1992, the USDA published the Food Guide Pyramid, a recognized nutritional tool. It is designed in the shape of a pyramid, which implies that people should eat more food at the bottom of the pyramid and less food and drink at the top of the pyramid.
A general guideline regarding the ability of an animal's digestive system to provide sufficient substrates for the biosynthesis of cellular components and energy molecules necessary for the production of ATP is that the animal should have access to a diet that matches to the "food pyramid" of the species.
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which of the following examples is the most likely way severe weather can negatively affect the biodiversity of a marine ecosystem? a severe thunderstorm brings rain and wind to an intertidal zone. a storm surge from a hurricane floods a coastal area. a tornado causes a waterspout. a blizzard adds snow and ice to an arctic glacier.
The most likely way severe weather can negatively affect the biodiversity of a marine ecosystem is B. a storm surge from a hurricane flooding a coastal area.
A storm surge is a rise in sea level caused by strong winds and low atmospheric pressure during a hurricane or tropical storm. When it floods a coastal area, it can have several negative impacts on the marine ecosystem. Firstly, the increased water levels can lead to coastal erosion, destroying habitats for various species that live near the shore. This can lead to a loss of nesting grounds, feeding areas, and refuge for these organisms, thus negatively affecting biodiversity.
Secondly, storm surges can cause an influx of fresh water from land into the marine ecosystem, which can alter the salinity levels. Many marine species are sensitive to changes in salinity and may not be able to adapt quickly enough, resulting in a decline in their population and, ultimately, biodiversity.
Lastly, the powerful winds and water currents generated by a hurricane can also lead to the mixing of shallow and deep waters, causing shifts in water temperature and the distribution of nutrients. This can disturb the food web dynamics and potentially lead to a decline in the populations of certain species. Therefore, Option B is the answer
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which of the following examples is the most likely way severe weather can negatively affect the biodiversity of a marine ecosystem?
A. a severe thunderstorm brings rain and wind to an intertidal zone
B. a storm surge from a hurricane floods a coastal area
C. a tornado causes a waterspout
D. a blizzard adds snow and ice to an arctic glacier
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a particular legume is native to india, can tolerate drought conditions and has been cultivated for over 3000 years. what legume would that be?
The legume native to India that can tolerate drought conditions and has been cultivated for over 3000 years is the chickpea (Cicer arietinum).
Chickpeas are a rich source of protein, dietary fiber, vitamins, and minerals, and are a staple food in many parts of the world, particularly in South Asia, the Middle East, and the Mediterranean region. Chickpeas can be consumed in various forms, including as whole seeds, flour, or hummus, and are commonly used in dishes such as curries, salads, and stews. Due to its high nutritional value and ability to grow in arid and semi-arid regions, chickpea cultivation has been promoted as a means of food security in many developing countries.
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Most animals avoid eating monarch butterflies due to their bad taste. Viceroy butterflies look very similar to the monarchs.
Which of these best explains how the viceroy butterfly benefits from looking like the monarch butterfly?
A.Viceroy butterflies are able to reproduce with the monarch butterflies.
B.Viceroy butterflies are able to deter predators in the same way as the monarch butterflies.
C.Viceroy butterflies are able to follow the migratory patterns of the monarch butterflies.
D.Viceroy butterflies are able to find additional sources of food used by the monarch butterflies.
Answer:
B
Explanation:
the answer is b because of the way it is
a population of drosophila mauritiana reproduces in synchrony at discrete time periods every generation. generations occur at four-week intervals. the current population size is 1500 and its geometric population growth rate is 1.4 per generation. after 12 weeks, the expected size of the population would be closest to
The expected size of the population after 12 weeks would be closest to 4116.
Geometric growth, also known as exponential growth, is a type of population growth in which the rate of increase of a population is proportional to its size. In other words, the population grows at a constant percentage rate over time, resulting in an exponential increase in population size.
The geometric growth equation is given by; [tex]N_{t}[/tex] = N0 × [tex]r^{t}[/tex]
where Nt is the population size at time t, N0 is the initial population size, r is the geometric growth rate, and t is the time interval.
In this case, the initial population size is 1500, the geometric growth rate is 1.4 per generation, and the time interval is 12/4 = 3 generations. Therefore, we can plug in these values to find the expected size of the population after 12 weeks:
Nt = 1500 × (1.4)³
Nt = 1500 × 2.744
Nt = 4116
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for the punnett square in the previous question, what proportion of the offspring have a phenotype that is different from the phenotype of either parent? assume that capital letters represent the dominant allele and that the genes are on different chromosome types.
The percentage of offspring with a phenotype that differs from either parent's phenotypic is 7/6. The percentages of phenotypes in a cross's progeny from known genotypes can be predicted using a Punnett square.
The percentages of phenotypes in a cross's progeny from known genotypes can be predicted using a Punnett square. Based on the other genotypes involved in the cross, a missing genotype can be identified using a Punnett square. The alleles of the other parent are put over the top of the Punnett square, and the potential allele pairs for one parent are printed down the left side of the table. The potential genotypes and phenotypes of the progeny are determined using the same procedure.
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help?
Heredity Lab Report
Objective(s):
In your own words, what was the purpose of this lab?
Answer:
based on the information you have provided, the objective of the heredity lab may have been to investigate the principles of heredity, including how traits are passed down from parents to offspring and how genetic variations occur. The lab may have involved the study of traits in different organisms, such as the color of pea plants or the pattern of inheritance of genetic disorders. By conducting experiments and analyzing data, the lab may have aimed to deepen students' understanding of genetics and how it contributes to the diversity of life on Earth.
Explains two reasons why the atmosphere should be balanced, clearly identifying the causes and effects. Explains two consequences of clearing forests including one long-term effect and one short-term effect.
For the health and welfare of both people and the environment, it is imperative to keep a balanced environment. Preventing climate change and maintaining air quality are the two primary justifications for this.
On the other side, clearing forests has significant short- and long-term effects, including biodiversity loss and a role in climate change. As a result, it's crucial to take steps to keep the atmosphere in equilibrium, like lowering greenhouse gas emissions and preserving forests and other natural habitats.
Reasons why a healthy environment is important
Climate Change: The atmosphere's delicate gas equilibrium maintains the Earth's temperature within a range that is suitable for humans and other species to live in. Climate change may result from the upset of this equilibrium.
The rise of greenhouse gases in the atmosphere, such as carbon dioxide, is one of the primary factors contributing to climate change. Human actions like the burning of fossil fuels and deforestation, which release significant amounts of carbon dioxide into the atmosphere, are to blame for this rise.
This imbalance causes the Earth's temperature to rise at an alarming rate, which has several unfavorable effects like rising water levels, an increase in the frequency of extreme weather events, and loss of biodiversity.
Maintaining air purity is another reason why the atmosphere needs to be in balance. The air we breathe is filtered by the sky to remove dangerous pollutants and particles like smog and dust.
When this equilibrium is upset, it can result in poor air quality, which has several detrimental impacts on health. In addition to heart disease, lung cancer, and other diseases, air pollution can result in respiratory issues like asthma.
Forest clearing's negative effects
Loss of biodiversity in the short run, as forests are home to a variety of plant and animal species. Loss of biodiversity results from the destruction of these species' habitats when woodlands are cleared. The loss of crucial pollinators and food sources can have instant effects on ecosystems, and this can also have long-term effects on how resilient ecosystems are.
Long-term effect: Climate change. Forests are crucial regulators of the climate on Earth because they take in and store carbon dioxide from the environment through photosynthesis. When forests are cut down, this carbon is returned to the atmosphere, increasing greenhouse gases and causing the earth to warm.
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what are some genetic factors that affect growth and survival.
Answer:
height, weight, body structure, the colour of their eye, the texture of their hair, and even intelligence and aptitudes.
Explanation:
HELP ASAP!!!! WILL GIVE BRAINLIEST!!!!!
What does a sound scientific conclusion most likely rely upon?
a) Meticulously collected data sets that are irrefutable
b) Anecdotal evidence collected over thousands of years
c)Evidence that is independently verified through a systematic process
d) Evidence that provides all of the answers about natural phenomena
Answer:
c)Evidence that is independently verified through a systematic process
Answer:
I think it relies on evidence that provides app answers about natural phenomena
True or False: If more people are using the water than normal, this can lead to a drought.
Answer: True, especially if the city/state you live in has a limit of water.
Explanation: Drought can also cause long-term public health problems, including: Shortages of drinking water and poor quality drinking water. Impacts on air quality, sanitation and hygiene, and food and nutrition. More disease, such as West Nile Virus carried by mosquitoes breeding in stagnant water.
Brainliest? <33
true or false: epidemiology is a quantitative discipline that requires data for descriptive and analytic studies. group of answer choices
Answer:
True. Epidemiology is the study of the distribution and determinants of health and disease in populations, and it relies heavily on the collection and analysis of quantitative data for descriptive and analytic studies.
"Epidemiology is a quantitative discipline that requires data for descriptive and analytic studies," the statement is true.
Epidemiology is the study of the distribution and determinants of health and disease in human populations, and it involves the collection and analysis of data to inform public health decisions. Therefore, it is a quantitative discipline that requires data for both descriptive and analytic studies.
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in the tree above, which character is an example of an autapomorphy? limbs. lungs. amniotic egg hole in skull in front of eye socket fused bones form carapace
The character that is an example of an autapomorphy is fused bones that form a carapace, the correct option is (c).
The one that could be an example of autapomorphy is the fused bones that form a carapace. This is a characteristic that is unique to turtles, which are the only group of reptiles with a fully fused bony shell that protects their body.
No other taxonomic group or species possesses this specific trait, making it an example of an autapomorphy for turtles. The other characters mentioned, such as limbs, lungs, and the hole in the skull in front of the eye socket, are shared by many different taxa and are not unique, the correct option is (c).
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The complete question is:
In the tree above, which character is an example of an autapomorphy?
a. Lungs.
b. Limbs.
c. Fused bones form carapace
d. Amniotic egg
e. Hole in the skull in front of the eye socket
how does matter and energy move from one ecosystem to another
Answer:.
Explanation:
Energy is transferred between organisms in food webs from producers to consumers. The energy is used by organisms to carry out complex tasks. The vast majority of energy that exists in food webs originates from the sun and is converted (transformed) into chemical energy by the process of photosynthesis in plants. So basically, looking at a food web will show you how this process is carried on and the cycles.
which type of signaling is long-distance signaling mediated by chemicals released into the blood? bio 180
Long-distance signaling mediated by chemicals released into the blood is known as endocrine signaling.
This type of signaling involves the secretion of hormones by specialized cells called endocrine cells, which release hormones into the bloodstream to be transported to target cells throughout the body. Hormones are specific chemical messengers that interact with target cells through receptors on the surface or within the cells.
Endocrine signaling is responsible for regulating various physiological processes, including growth and development, metabolism, reproductive cycles, and responses to stress. Hormones are also involved in maintaining homeostasis by coordinating the functions of different organs and tissues. Common examples of hormones include insulin, estrogen, testosterone, and adrenaline.
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which of the following is true of the pulmonary circuit? a. it exists only in fishes. b. the right ventricle pumps oxygen-poor blood. c. oxygen-poor blood is received by the left atrium of the heart. d. blood is pumped to the digestive system. e. it bypasses the lungs.
The true statement of the pulmonary circuit is that the right ventricle pumps oxygen-poor blood. Therefore, option B is the correct answer.
The pulmonary circuit is responsible for carrying deoxygenated blood from the heart to the lungs and oxygenated blood from the lungs back to the heart. It involves the right ventricle pumping oxygen-poor blood to the lungs, where it is oxygenated, and oxygen-rich blood returning to the heart via the pulmonary veins, entering the left atrium of the heart. This cycle is repeated for the whole lifetime of an individual. Hence, option B is the correct answer.
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the amount of oxygen liver cells require to react lactic acid to produce glucose or the glycogen glycogen is the group of answer choices oxygen debt. lactate debt. refractory quantity. anaerobic concentration. aerobic conversion.
The amount of oxygen liver cells require to react with lactic acid to produce glucose or glycogen is the group of answer choices oxygen debt.
Oxygen debt is a term used to describe the additional amount of oxygen the body needs to convert lactic acid back to glucose or glycogen after strenuous activity. During strenuous exercise, the body uses anaerobic respiration to generate energy, which produces lactic acid as a byproduct. This lactic acid accumulates in the muscles, causing fatigue and soreness. However, the liver can convert lactic acid back to glucose or glycogen through a process known as the Cori cycle.
This process requires oxygen to occur, and any oxygen not present during the exercise must be supplied later to complete the cycle. This additional oxygen requirement is known as oxygen debt. An example of oxygen debt is the heavy breathing and increased heart rate that persists after exercise. This is the body's way of supplying the extra oxygen needed to convert lactic acid back to glucose or glycogen, thus eliminating the oxygen debt.
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