When comparing the SNS and ANS, which of the following are unique to the ANS?
A. somatic reflexes
B. lower motor neurons
C. skeletal muscles
D. preganglionic neurons
Answers
Answer:
D. Preganglionic neurons.
Explanation:
Hope this helps!
Preganglionic neurons are unique to the ANS, as they are the neurons that connect the CNS to the ganglia in the ANS is responsible for controlling involuntary functions such as heart rate, digestion, and respiration, while the SNS controls voluntary movements such walking and talking.
The ANS has two branches the sympathetic and parasympathetic nervous systems, which have opposing effects on bodily functions. The sympathetic system is responsible for the "fight or flight" response, while the parasympathetic system is responsible for the "rest and digest" response. The ANS differs from the SNS in that it uses preganglionic neurons to connect the CNS to the ganglia, while the SNS uses lower motor neurons to connect the CNS to the skeletal muscles. Explanation: Preganglionic neurons are unique to the ANS because they are responsible for transmitting information from the CNS to the ganglia, where it is then transmitted to the effector organs. This is different from the SNS, where the lower motor neurons directly control the skeletal muscles.
The SNS is responsible for voluntary control of skeletal muscles, while the ANS regulates involuntary activities such as digestion and heart rate. The unique feature of the ANS compared to the SNS is the presence of preganglionic neurons. Preganglionic neurons are the first neurons in a series of two-neuron chains that transmit nerve impulses from the central nervous system (CNS) to effector organs like glands and smooth muscles. These neurons play a crucial role in the functioning of the ANS but are not involved in the SNS.
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Related Questions
Explain TWO reasons why some countries are against reducing the carbon dioxide emissions by their industries.
Answers
What are the structures that make up a DNA molecule and where does your body get all
the molecules and compounds needed to make DNA structures in all of your body cells?
Explain.
Answers
true / false A selectively permeable membrane allows all molecules to cross.
Answers
15
Approximately how many degrees does Earth rotate on its axis over this five-hour period?
15°
45
75"
90°
A
Eliminator
8
Line Reader
Reference
CA
Period
Answers
Over a five-hour period, Earth rotates approximately 75 degrees on its axis. This calculation is based on the proportion that relates the time taken for Earth's complete rotation (24 hours) to the corresponding degrees of rotation (360 degrees).
The rotation of the Earth on its axis takes approximately 24 hours to complete one full rotation, which equals 360 degrees. To calculate how many degrees Earth rotates over a specific time period, we can use a simple proportion.
In this case, we have a time period of 5 hours. We can set up the proportion:
5 hours is to x degrees as 24 hours is to 360 degrees.
Using cross-multiplication, we can solve for x:
5 hours * 360 degrees = 24 hours * x degrees
1800 degrees = 24x
Dividing both sides by 24:
1800 degrees / 24 = x degrees
75 degrees = x
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Cellulose is a type of
A. protein
B. carbohydrate
C. grass
D. lipid
Answers
B Because Cellulose is a polysaccharide consisting of linear chain of numerous linked D-glucose units whereas proteins are formed of number of amino acids linked together by peptide linkage.
Cellulose is a polysaccharide and a structural component of the plant cell. It is a carbohydrate made of many monomers linked together. Thus, B is the correct option.
What is cellulose?Cellulose is an organic chemical that is insoluble in water and is a tough structure classified as carbohydrates. Cellulose is a structural component of plant cells.
It is made by monomer units linked by the beta-1,4 glycosidic bonds and is a biodegradable, tasteless organic compound with the chemical formula (C₆H₁₀O₅)ₙ.
It is the main component of the plant cell wall that provides support and shape due to its fibrous structure. It is made of linear chains of D-glucose units that makes the polysaccharide.
Therefore, option B. cellulose is a carbohydrate.
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If the population of rabbits in this ecosystem decreased dramatically because of certain environmental changes, which organisms’ food supply would decrease?
A.
owl and snake
B.
jackal and wildcat
C.
green plant and mouse
D.
goat and wildcat
Answers
Answer:
A. Owl and Snake
Explanation:
A green plant cannot eat a rabbit. Neither can a goat.
B. could be the answer but I believe that A. is the answer because I'm positive that those animals eat rabbits.
Hope this helped :)
ager a and may mj: understanding high endothelial venules: lessons for cancer immunology. oncoimmunology 4: e1008791, 2015
Answers
"Understanding High Endothelial Venules: Lessons for Cancer Immunology" by Ager A and May MJ (OncoImmunology 4: e1008791, 2015), likely explores the significance of HEVs in the context of cancer and how they can be targeted to enhance anti-tumor immune responses.
High endothelial venules (HEVs) are specialized blood vessels found in lymphoid organs such as lymph nodes and Peyer's patches in the intestines. They play a crucial role in the immune response by facilitating the migration of immune cells, particularly lymphocytes, from the bloodstream into the lymphoid tissues.
HEVs have distinct structural features compared to regular blood vessels. They have a high endothelial cell layer with a cuboidal or columnar shape, which facilitates the adhesion and transmigration of lymphocytes. HEVs express various adhesion molecules, such as selectins and chemokines, on their surface, creating a favorable environment for lymphocyte extravasation.
In the context of cancer immunology, understanding the role of HEVs is important because they can influence immune surveillance and immune responses against tumors. HEVs within tumor tissues can recruit immune cells, including tumor-specific T cells, natural killer (NK) cells, and dendritic cells (DCs), to the tumor microenvironment. This recruitment can be crucial for initiating and maintaining an effective anti-tumor immune response.
The study you mentioned, "Understanding High Endothelial Venules: Lessons for Cancer Immunology" by Ager A and May MJ (OncoImmunology 4: e1008791, 2015), likely explores the significance of HEVs in the context of cancer and how they can be targeted to enhance anti-tumor immune responses. It may discuss the mechanisms by which HEVs regulate immune cell trafficking within tumors and their potential as therapeutic targets.
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Identify the level of organization shown by each image in the left column of the chart. Use the
terms: tissue, ecosystem, organism, molecule, community, and organ. Then identify the level
below (smaller) it and the level above (larger) it. Some images are on the next page.
Level Below It Level Above It
Answers
Answer: molecule, tissue, organ, community, ecosystem
Explanation:
Hardwired characteristics of the brain that attempt to keep us in balance by correcting deficiencies are referred to as:
Answers
Hardwired characteristics of the brain that attempt to keep us in balance by correcting deficiencies are referred to as homeostatic mechanisms.
Homeostasis is the body's ability to maintain a stable internal environment despite external changes.
In the context of the brain, homeostatic mechanisms involve various processes that regulate physiological functions and maintain optimal levels of essential substances.
These mechanisms can include feedback loops that detect imbalances and initiate corrective actions.
For example, if there is a deficiency in a particular nutrient or hormone, the brain may activate mechanisms to increase its production, decrease its consumption, or enhance its absorption from the environment.
Homeostatic mechanisms play a crucial role in ensuring the body's overall stability and functioning, helping to maintain proper levels of various substances and promoting overall well-being.
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Why do the noble gases NOT form compounds readily?
Group of answer choices
They have an empty outer shell
They have a full valence shell
They have 7 valence electrons
They have no electrons
Answers
it's bc they have a full valence shell
Where do you think this bird would most likely live? Explain how two of the bird’s features would help it to survive in its environment.
Please No Links
Answers
Answer:
water because it has webbed feet
Explanation:
Tay-Sachs disease is an inherited disease that is caused by a recessive allele. If a man and his wife, who are both carriers, have three children, what is the probability of each of the following? Show your calculations and give your answers as fractions. a) All their three children do not have the disease. b) One or more of their three children have Tay-Sachs disease. c) All three children have the Tay-Sachs disease. d) At least one child is phenotypically normal without the disease.
Answers
a. All their three children do not have the disease: 27/64
b. One or more of their three children have Tay-Sachs disease: 37/64
c. All three children have the Tay-Sachs disease: 1/64
d. At least one child is phenotypically normal without the disease: 63/64
a) The probability that all three children do not have the disease can be calculated using the probability of each child being unaffected, which is the complement of the probability of having the disease.
Since both parents are carriers, they have a 1/4 chance of passing on the disease allele and a 3/4 chance of passing on the normal allele.
Probability of each child being unaffected = (3/4) * (3/4) * (3/4) = 27/64
b) The probability that one or more of their three children have Tay-Sachs disease can be calculated by subtracting the probability of none of the children having the disease from 1.
Probability of at least one child having the disease = 1 - Probability of none having the disease
Probability of none having the disease = (3/4) * (3/4) * (3/4) = 27/64
Probability of at least one child having the disease = 1 - 27/64 = 37/64
c) The probability that all three children have Tay-Sachs disease can be calculated using the probability of each child having the disease, which is 1/4.
Probability of all three children having the disease = (1/4) * (1/4) * (1/4) = 1/64
d) The probability of at least one child being phenotypically normal without the disease can be calculated by subtracting the probability of all three children having the disease from 1.
Probability of at least one child being phenotypically normal = 1 - Probability of all three having the disease
Probability of all three having the disease = (1/4) * (1/4) * (1/4) = 1/64
Probability of at least one child being phenotypically normal = 1 - 1/64 = 63/64
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reagent problems are most apparent if the control used for the pas reaction is:
Answers
The Periodic Acid Schiff (PAS) reaction is commonly used in histology and pathology to stain carbohydrates, glycoproteins, and other macromolecules.
In the PAS reaction, periodic acid oxidizes the diol groups of these molecules, creating aldehydes that then react with Schiff's reagent to form a colored compound.
To control for the PAS reaction, a negative control is typically used, which consists of a tissue sample that should not contain the target molecule. Reagent problems in the PAS reaction may become apparent if the negative control shows nonspecific staining or if the background staining is unusually high.
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Which is a role of photosystem II in the light reactions?
A. Making NADPH
B. Splitting H20
C. Making ADP
D. Making NADP+
Answers
Answer: B. splitting h20
Explanation:cause i said so
In order for whistle-blowing to be effective, a.employees must wish ill on the organization for which they work. b.lawmakers must make an effort to force employees to discuss details about the misconduct. c.the individual must have indisputable proof of guilt. d.it must occur at a very large multinational corporation. e.it requires that the individual have adequate knowledge of wrongdoing that could damage society.
Answers
For whistle-blowing to be effective, it requires that the individual have adequate knowledge of wrongdoing that could damage society.
Whistle-blowing refers to the act of reporting illegal, unethical, or fraudulent activities within an organization to the appropriate authorities or the public. To be effective, several factors come into play. One crucial factor is that the individual must have adequate knowledge of the wrongdoing that could have significant societal implications.
Whistle-blowing is most impactful when the reported misconduct poses a threat to public safety, violates legal or ethical standards, or harms society at large. The individual needs to possess substantial evidence or information that supports their claims, enabling authorities to investigate and take appropriate action.
Other options listed in the question, such as employees wishing ill on the organization, lawmakers forcing discussions, or the occurrence being limited to a large multinational corporation, do not necessarily determine the effectiveness of whistle-blowing. The effectiveness relies primarily on the gravity of the misconduct and the credibility of the information provided.
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Which part of a city is most like a lysosome
Answers
Answer:
The lysosomes would be the recycling and waste disposal center in cell city.
Explanation:
True or false? All living organisms have the same number of chromosomes.
Answers
We as living things are all made up of cells but as far as chromosomes.. humans have a different amount then an animal
PLEASE HELP FAST ILL GIVE BRAINLIEST IF CORRECT!!!!
A teacher divides her class into groups and assigns each
group the task of measuring the length of the same object
three times. The teacher already knows that the length of
the object is 78.5 mm.
Based on the results the students record, which group makes the most
accurate measurements of the object?
A. Group D: 75.0 mm, 75.0 mm, 75.0 mm
B. Group B: 75.5 mm, 75.0 mm, 74.8 mm
C. Group A: 78.5 mm, 77.5 mm, 79.5 mm
D. Group C: 78.5 mm, 72.9 mm, 79.8 mm
Answers
Answer:
I believe It's answer D.
Explanation:
what some limitations found in photosynthesis experiment with the use of dicotyledous leaf ?
Answers
The history of net photosynthesis and transpiration per unit leaf area was determined for intact soybean leaves from their unfolding to senescence during flowering and pod filling on untreated (podded) and partially depodded plants growing in a glasshouse. Leaf diffusive resistances to CO2 were calculated and a water use efficiency parameter was derived (net mass of carbon dioxide fixed per unit mass of water transpired per millibar vapour pressure deficit). Net photosynthesis and transpiration behaved similarly through all stages of leaf development. A number of peaks were evident in these parameters. The first was associated with leaf expansion and occurred when the leaf reached its maximum area. The second peak coincided with flowering of the plant and later peaks occurred during pod filling. Stomatal and mesophyll resistances also exhibited similar behaviour during the life of the leaf; the possible causes of this linkage are discussed. Water use efficiency increased rapidly up to the time of full lamina expansion. Thereafter, it rose slowly or remained stable until leaf senescence approached, when the efficiency declined. Net photosynthesis and transpiration of leaves were very similar in both podded and partially depodded plants. It appears that to prevent a shortage of assimilate during flowering and pod filling, photosynthesis may be maintained or increased in some leaves and the response is not related to the number of pods available for filling. The increases in photosynthesis were correlated with both higher stomatal and mesophyll conductances. Mechanisms by which the plant may control leaf photosynthesis are discussed.
Dentro de las Cadenas Tróficas, existen otros tipos de organismos que se alimentan de fuentes derivadas, sea de las Plantas o de los Animales, ¿cuáles son?
Answers
Answer:
Los detritívoros
Explanation:
Los detritívoros son organismos que se alimentan tanto de plantas como de animales en descomposición (detritos). Los organismos detritívoros representan un componente fundamental de los ecosistemas ya que de ellos depende el reciclaje de nutrientes en los ciclos biogeoquímicos. Los detritívoros incluyen bacterias (por ej., bacterias nitrificantes claves en el ciclo del nitrógeno), animales (por ej., la cochinilla de la humedad, lombrices, etc) y hongos saprófitos (por ej., Fomitopsis pinicola, Fomes fomentarius, los cuales crecen sobre la madera y/o sus restos). Los detritívoros se encuentran en todos los tipos de ecosistemas y tienen un rol fundamental en la cadenas trófica mediante su activa participación en los ciclos biogeoquímicos, especialmente en el ciclo del nitrógeno.
How does niche partitioning facilitate the coexistence of 20 terrestrial bird species investigated in Mohd-Azlan et al. (2014)? (200 word answer
Answers
Niche partitioning facilitate the coexistence of 20 terrestrial bird species investigated in Mohd-Azlan et al dividing resources.
Niche partitioning is a process where species divide resources in order to coexist in a particular habitat. In Mohd-Azlan et al. (2014), niche partitioning facilitated the coexistence of 20 terrestrial bird species by dividing resources. In other words, the birds have found ways to share limited resources such as food and habitat. For example, one bird species may feed on insects while another bird species feed on fruits and seeds.This allows each bird species to access its unique set of resources without direct competition with others.
Another way niche partitioning facilitated coexistence is by using different habitats. For example, some bird species may prefer to inhabit the canopy while others may prefer the understory or ground level. This helps to reduce competition for resources such as nesting sites and food. In conclusion, niche partitioning plays an essential role in facilitating the coexistence of bird species, this is achieved by allowing each species to access resources in a unique way, reducing competition and increasing the likelihood of survival.
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the following table describes some aspects of the two main metabolic functions, photosynthesis and cellular respiration:
which answer choice identifies the missing information from the table?
A. X= chloroplasts; Y= mitochondria
B. X=nucleus; Y= Golgi apparatus
C. X= Golgi apparatus; Y= nucleus
D. X=mitochondria; Y= chloroplasts
Answers
Answer: the answer is A
Explanation:
Option A identifies the missing information from the table.
Photosynthesis takes place in the chloroplasts of plant cells, while cellular respiration takes place in the mitochondria of both plant and animal cells.
What is Photosynthesis?
Photosynthesis is the remarkable mechanism whereby plants harness the power of sunlight, along with water and carbon dioxide, to generate vital oxygen and energy in the exquisite guise of sugar.
This intricate process stands as an indispensible pillar for terrestrial existence, bestowing upon us the precious oxygen we respire and the nourishment we consume.
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How doe changing the amplitude of a WATER wave affect what we ee/hear/experience? How and how would we likely experience thi in our everyday life?
Answers
The higher the amplitude, the higher the energy. To summarise, waves carry energy. The amount of energy they carry is related to their frequency and their amplitude. The higher the frequency, the more energy, and the higher the amplitude, the more energy.
Waves of heat, light, sound, and water carry a variety of energies. All types of energy can be converted into work because energy is defined as the capacity to perform work. The movement of an object in the direction of the force acting on it is referred to as work in science. When they move items, waves do really work. This process is evident when sand is carried or large logs are moved across ocean basins. Work can also be transformed into the acoustic energy produced when waves crash on the coast. The potent force of waves can also be used to move generator components and generate electricity.
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Animals AND PLANTS use cellular respiration to create energy from sugar?
A. True
B. False
Answers
Animals AND PLANTS use cellular respiration to create energy from sugar?
A. True
B. False
Very good question you have here!, i shall have no problem solving it however. ^v^!!!Cellular respiration: The process by which organisms combine oxygen with foodstuff molecules, diverting the chemical energy in these substances into life-sustaining activities and discarding, as waste products, carbon dioxide and water.
With this being said the answer is: TRUE!Both animals and plants use cellular respiration. I apologize if i'm wrong// you're welcome if i'm correct.((-Side Note-)): If you don't mind, if my answer is correct can you pls mark my answer brainliest? Thank you
I hope you have a great day ^v^"please help me. I been stuck on this question for a long time :(
Answers
Answer:
Explanation:
1. Climate change is caused by changes in the earth's atmosphere in the amounts of greenhouse gases released into the air. Some scientists believe that 100% of global warming is due to humans. The largest contribution comes from burning fossil fuels because it releases carbon dioxide gas to the air, which is done by humans. Other factors that contribute to climate change include:
>Deforestation- clearing out trees affects wildlife, ecosystems, whether patterns. Forests cover 30% of the lands mass and clearing them leaves many animals without homes.
>Waste from factories- they release tonnes of toxic fumes into the air.
> Agriculture and farming- this is a surprising contributing factor to global warming. Animals produce a greenhouse gas called methane and when livestock are grazed at a large scale, the amount of methane produced is a big contributor to global warming.
Some fertilizers release nitrous oxide, which is another greenhouse gas.
2. The effects of global warming include:
>Melting glaciers- this leaves many animals without homes and it also causes a rise in sea levels which causes flooding. (that's 3 effects)
>Worsening droughts- this leaves many humans to die as they have no food or water.
>Increasing tornadoes
okay that's all i could do... hope it helps.
) Discuss how the 3-cell model, El Niño Southern Oscillation, and the Madden-Julian Oscillation are related to each other. Your discussion should include locations, what each of these are, and how they all impact each other
b) Name two local influences on climate that can be more influential than a location’s position in the 3-cell model. Describe how and why these local influences impact the climate.
c) Do ENSO and the MJO impact hurricane activity? If yes, why? If no, why not?
Answers
The 3-cell model, ENSO, and the MJO are interconnected phenomena that impact each other and play crucial roles in shaping regional and global climate patterns. Topography and ocean currents are two local influences on climate that can be more influential than a location's position in the 3-cell model. ENSO and the MJO do impact hurricane activity, with El Niño and the active phase of the MJO suppressing hurricane activity, while La Niña and the inactive phase of the MJO can enhance it.
The 3-cell model, El Niño Southern Oscillation (ENSO), and the Madden-Julian Oscillation (MJO) are all related to each other and impact each other in different ways.
1. The 3-cell model refers to the global atmospheric circulation pattern that divides the Earth into three cells: the Hadley cell, the Ferrel cell, and the Polar cell. These cells are responsible for the movement of air and transfer of heat from the equator to the poles. They play a significant role in determining regional climate patterns and wind systems.
2. El Niño Southern Oscillation (ENSO) is a climate pattern that occurs in the tropical Pacific Ocean. It involves the interaction between the ocean and the atmosphere, resulting in a warming or cooling of sea surface temperatures in the eastern tropical Pacific. This phenomenon has a major impact on weather patterns worldwide, affecting rainfall distribution and temperatures.
3. The Madden-Julian Oscillation (MJO) is an eastward moving disturbance that travels around the equator. It is characterized by a large-scale, eastward-moving area of enhanced and suppressed rainfall. The MJO has a significant influence on tropical weather and can affect precipitation and atmospheric circulation patterns in various regions.
These three phenomena are related in that they all involve large-scale atmospheric and oceanic processes. For example, during an El Niño event, the warming of sea surface temperatures in the eastern tropical Pacific can disrupt the normal trade winds and atmospheric circulation patterns associated with the 3-cell model. This disruption can, in turn, affect the behavior and strength of the MJO.
b) Two local influences on climate that can be more influential than a location's position in the 3-cell model are topography and ocean currents.
Topography refers to the physical features of the land, such as mountains, valleys, and coastlines. These features can greatly influence climate by affecting the distribution of precipitation, temperature, and wind patterns. For example, mountain ranges can block the flow of air masses, leading to differences in rainfall on the windward and leeward sides.
Ocean currents play a crucial role in climate regulation. They transport heat from the tropics to higher latitudes and influence regional temperature and precipitation patterns. For instance, the Gulf Stream, a warm ocean current, influences the climate of the eastern coast of the United States, making it warmer than other regions at similar latitudes.
c) Yes, ENSO and the MJO can impact hurricane activity.
During an El Niño event, the warming of sea surface temperatures in the eastern tropical Pacific can alter atmospheric conditions, leading to the suppression of hurricane activity in the Atlantic Basin. El Niño creates stronger wind shear, which makes it difficult for hurricanes to form and intensify. On the other hand, La Niña, the cold phase of ENSO, can enhance hurricane activity in the Atlantic.
The MJO can also influence hurricane activity. When the MJO is in its active phase, it can create more favorable conditions for tropical storm development, such as increased moisture and decreased wind shear. Conversely, during the inactive phase of the MJO, hurricane activity tends to be suppressed.
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Which of the following molecules is not needed for the Calvin Cycle?
a. CO2
b. ATP
c. NADPH
d. H2O
pls help
Answers
Answer:
c. NADPH is the correct answer .
Explanation:
Hey mate..!
NADPH molecules is not needed for the Calvin Cycle.
The correct answer is water as the water molecules are produced during photosynthesis.
Co2 produces the starch from sugar. ATP and NADPH are also used to convert sugar molecules during the Calvin cycle.
Carbon enters the Calvin cycle as CO2 and leaves as sugar. ATP is the power source, even as NADPH is the decreasing agent that provides high-power electrons to shape sugar. The Calvin cycle absolutely produces a three-carbon sugar glyceraldehyde 3-phosphate (G3P).
What is the Calvin cycle?The Calvin cycle is a technique that plant life and algae use to show carbon dioxide from the air into sugar, the meals autotrophs want to grow. Every dwelling element on Earth relies upon the Calvin cycle. Plants rely on the Calvin cycle for power and meals.
Thus it's clear that it has no water needed.
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Mitosis results in which of the following?
A. Two cells with different genes.
B. Two cells with identical genes.
C. Four cells with different genes.
D. Four cells with identical genes
Answers
Answer:
B - Two identical daughter cells
Explanation:
In mitosis, the sister chromatids of each chromosome seperate so each daughter cell takes one chromatid from each chromosome
A chronic inflammation of joints due to autoimmune destruction of articular cartilage is called...a) osteoarthritis b) rheumatoid arthritis c) osteoporosis d) brittle bone disease
Answers
The chronic inflammation of joints due to autoimmune destruction of articular cartilage is called rheumatoid arthritis.
Rheumatoid arthritis is a chronic inflammatory disorder that primarily affects the joints. It is an autoimmune disease in which the immune system attacks the synovial membrane, the lining of the joints, leading to chronic inflammation and destruction of articular cartilage. Unlike osteoarthritis.
which is caused by wear and tear of the joints, rheumatoid arthritis is a systemic disease that can affect other organs in the body, such as the lungs, heart, and eyes. It is important to diagnose and treat rheumatoid arthritis early to prevent irreversible joint damage and disability. Treatment options include medications, physical therapy, and lifestyle changes. A chronic inflammation of joints due to autoimmune destruction of articular cartilage is called b) rheumatoid arthritis.
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Select all statements that describe requirements for speciation. reminder - you should apply the biological speciation concept. select all statements that describe requirements for speciation. reminder - you should apply the biological speciation concept. reduction in gene mixing between populations physical separation evolutionary changes that lead to reproductive barriers loss of the original species as it evolves into two new species
Answers
The biological species concept defines a species as a group of individuals that can interbreed and produce viable offspring, and are reproductively isolated from other groups. Based on this definition, the following requirements for speciation can be identified:
1. Reduction in gene mixing between populations: Speciation requires a reduction in gene flow between populations. This can occur due to physical separation, behavioral differences, or other factors that prevent or reduce interbreeding between individuals.
2.Physical separation: Physical separation of populations can create geographic barriers that prevent interbreeding between individuals.
3.Evolutionary changes that lead to reproductive barriers: Over time, genetic changes and natural selection can lead to the accumulation of reproductive barriers between populations, which can prevent or reduce interbreeding.
4.Loss of the original species as it evolves into two new species: As populations become reproductively isolated and continue to evolve, they can eventually become so distinct that they are considered separate species.
Therefore, speciation requires a reduction in gene mixing, physical separation or some other type of reproductive isolation, and evolutionary changes that lead to the formation of distinct groups that cannot interbreed with one another. This can ultimately result in the loss of the original species as it evolves into two or more new species.
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