which of the choices below determines the direction of respiratory gas movement? which of the choices below determines the direction of respiratory gas movement? the temperature solubility in water molecular weight and size of the gas molecule partial pressure gradient

The following vitamins and supplements is an essential amino acid found in meat and dairy, used to manufacture proteins, and has no direct influence on metabolic pathways in the body is taurine.

Taurine is found in a wide range of foods such as seafood, meat, and dairy products, and is also available as a dietary supplement. It plays an important role in many physiological processes such as stabilizing cell membranes, protecting cells from damage, aiding in the digestion of fats and lipids, and helping to regulate electrolyte balance. Taurine differs from other essential amino acids as it does not act as a building block of proteins or have any direct influence on metabolic pathways in the body. Instead, it functions as an organic osmolyte, helping to maintain cellular osmotic pressure and stabilizing cell volume. Taurine also helps to regulate neurotransmission, glucose levels, and blood pressure.

In addition to its role in the body, taurine is also important for infants as it helps in the development of their brain and nervous system. Taurine deficiencies can cause an array of health issues such as impaired vision, learning disabilities, and impaired coordination. Overall, taurine is an essential amino acid that is found in a variety of foods and is important for many physiological processes in the body. It does not act as a building block of proteins or have any direct influence on metabolic pathways in the body, but instead helps to maintain cellular osmotic pressure and regulate neurotransmission, glucose levels, and blood pressure.

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When an individual heterozygous for a trait and an individual homozygous recessive for the trait are crossed and produce many offspring, the offspring are likely to be heterozygous for the trait.

In genetics, the terms homozygous and heterozygous are frequently used. Homozygous is a genetic term that refers to two matching alleles for a single characteristic or trait, such as BB or bb, for example. The term heterozygous refers to two alleles that differ from one another, such as Bb.

Individuals that are homozygous for a specific trait have two of the same alleles (BB or bb) while individuals that are heterozygous for the same trait have two distinct alleles (Bb).In this question, an individual heterozygous for a trait and an individual homozygous recessive for the trait are crossed and produce many offspring, the offspring are likely to be heterozygous for the trait. Heterozygous individuals have one dominant allele and one recessive allele. Therefore, half of the offspring would express the dominant trait, and the other half of the offspring would express the recessive trait.

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The group of humans who hollowed out logs to make simple canoes which they used to cross rivers and to fish in deep water were the Neanderthals.

Neanderthals were ancient humans who lived in Europe and parts of Asia from about 400,000 to 40,000 years ago. They lived during the late Pleistocene period, which was a time of extreme cold and ice ages. Neanderthals were shorter and stockier than modern humans, with a larger brain and a protruding brow ridge. They were well-adapted to the cold climate, with large nasal passages to warm the air they breathed and a robust build to conserve heat.

Neanderthals are known for their impressive tool-making skills and were skilled hunters of large game animals such as mammoths and bison. They also used fire and made simple shelters to protect themselves from the cold weather. Neanderthals also made simple canoes by hollowing out logs which they used to cross rivers and to fish in deep water. Neanderthals were the first humans to use boats and watercraft, and this innovation allowed them to explore new areas and find food in places that were previously inaccessible.

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The type of ganglion cells that have larger cell bodies, large receptive field, and are involved in motion perception is called Magnocellular ganglion cells.

What are ganglion cells?

Ganglion cells are a kind of neuron located near the inner surface of the retina in the eye. There are three types of ganglion cells: M cells, P cells, and K cells. These cells are responsible for the transmission of visual information from the retina to the brain. The magnocellular ganglion cells are one of the three types of ganglion cells, as indicated in the question.

Types of ganglion cells

There are three types of ganglion cells:

M cellsP cellsK cellsMagnocellular cells (M cells) have large cell bodies, broad receptive fields, and are responsive to high-contrast stimuli.

They are especially sensitive to the detection of movement and speed. They are found primarily in the retina's peripheral region and the center of the fovea. The magnocellular pathway, which is associated with these cells, is involved in the detection of motion, low-contrast stimuli, and spatial frequency.

Magnocellular cells are named for their high sensitivity to temporal modulations of light.

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Even at rest, the vagus nerves carry impulses to the sinoatrial node and the atrioventricular node. This is referred to as vagal tone.

The vagus nerve regulates the heart rate through a complex interplay between the sympathetic and parasympathetic systems. The vagus nerve dominates the heart rate at rest, referred to as vagal tone. Vagal tone is the result of the balance between the parasympathetic and sympathetic nervous systems. In normal people, it is estimated that parasympathetic activity predominates at rest (vagal tone). The parasympathetic nervous system opposes the sympathetic nervous system's cardiovascular effects, which increase heart rate and blood pressure. It slows heart rate through vagal stimulation of the sinoatrial node, leading to the reduced force of contraction, slowing of electrical conduction, and suppression of automaticity.

It also induces vasodilation, leading to a decrease in peripheral resistance, which reduces blood pressure. As a result, parasympathetic activity reduces cardiac oxygen consumption. The sinoatrial node (SA node) is the primary pacemaker of the heart, producing the electrical impulses that cause the heart to beat. The atrioventricular (AV) node slows the electrical impulse from the atria, allowing the ventricles time to fill with blood before contracting, which is essential for efficient blood flow.

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Answer: The answer would be B.

Explanation: The SNS is related to the fight or flight response system, regulated by adrenaline and cortisol. An influx of both would cause more blood flow to muscles, and an increase in heart rate and respiratory rates. The increase allows for the adrenaline to get to important areas of the body quickly.

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Constriction of blood vessels in the digestive system is not a function of the sympathetic nervous system. Option d.

The sympathetic nervous system is a part of the autonomic nervous system and its main role is to prepare the body for stressful situations by increasing the heart rate, dilating the pupils, increasing the respiration rate, and raising the blood pressure.

The sympathetic nervous system also increases the flow of blood to the muscles, which is achieved by dilating the blood vessels in the muscles.

However, the sympathetic nervous system does not cause constriction of blood vessels in the digestive system. Instead, this function is performed by the parasympathetic nervous system, which has a calming and relaxing effect on the body.

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The statement 'Complex traits accumulate from many genes each contributing small amounts of characteristics' is true as this is polygenic inheritance.

In polygenic inheritance, multiple genes interact to affect a single trait. These genes may be located on different chromosomes and may come from both parents. Each gene contributes only a small portion to the overall trait, but taken together they can have a substantial effect.
For example, eye color is determined by multiple genes. Different combinations of alleles of these genes result in different eye colors. Additionally, the same gene can have different effects depending on the combination of alleles it is paired with.
Polygenic inheritance also plays a role in other traits, such as height, skin color, and behavior. These traits are determined by multiple genes, each of which contributes only a small amount. The genes interact in complex ways and are affected by environmental factors as well.
In summary, complex traits accumulate from many genes each contributing small amounts of characteristics. This phenomenon is known as polygenic inheritance.

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The mechanism by which trypsin, chymotrypsin, and elastase catalyze proteolysis is the nucleophilic attack of the enzyme to the substrate.

The digestive enzymes trypsin, chymotrypsin, and elastase are all enzymes that catalyze the breakdown of proteins in the digestive system by cleaving the peptide bonds between amino acids. The specificity of the cleavage is determined by the amino acid sequence of the protein and the enzyme's specificity for certain amino acids.

The mechanism by which trypsin, chymotrypsin, and elastase catalyze proteolysis is the nucleophilic attack of the enzyme on the substrate. The enzymes have a reactive serine residue in their active site that attacks the peptide bond between the amino acids to be cleaved, resulting in the release of a peptide product.

In summary, proteolytic enzymes such as trypsin, chymotrypsin, and elastase catalyze the hydrolysis of peptide bonds in proteins by nucleophilic attack of the enzyme's reactive site onto the substrate.

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In metaphase, the cell would contain eight chromatids and eight separate chromosomes.

A cell is growing and replicating DNA during the interphase as it gets ready to divide. Each chromosome at this point is made up of two sibling chromatids that are joined together at the centromere. With each chromosome comprised of two identical sibling chromatids, a cell with four chromosomes that have just entered interphase would therefore have a total of eight chromatids.

The same cell has finished interphase and advanced to mitosis, the step of cell division, when it reaches metaphase. The chromosomes condense and arrange themselves along the metaphase plate, which is the cell's equatorial axis, during metaphase. Each chromosome can be seen as a unique and compact structure during this stage.

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Glaucoma can result from the inhibition of the circulation of aqueous humor. So the correct answer is D.

Glaucoma is a group of eye diseases that can damage the optic nerve and lead to vision loss or blindness. In most cases, glaucoma is caused by a buildup of pressure within the eye due to the accumulation of aqueous humor, a clear fluid that circulates through the anterior chamber of the eye. Aqueous humor is produced by the ciliary body and flows through the pupil to nourish the cornea, lens, and trabecular meshwork before draining out of the eye through the trabecular meshwork and Schlemm's canal. If the flow of aqueous humor is inhibited, the pressure within the eye can increase and lead to optic nerve damage and vision loss over time.

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The methods of controlling eukaryotic gene expression not employed in prokaryotic cells are post-transcriptional processing and RNA interference.

Eukaryotic gene expression is the regulation of gene expression in eukaryotic organisms such as plants and animals. Gene expression is the process of turning a gene on or off, resulting in the production of a specific protein or RNA molecule. It includes transcription, mRNA processing, translation, and post-translational processing. Gene expression can be regulated at different levels to respond to environmental changes and ensure proper development and growth.

Post-transcriptional processingPost-transcriptional processing is the conversion of pre-mRNA to mature mRNA, which is then transported to the cytoplasm for translation. In eukaryotic cells, pre-mRNA processing includes splicing, 5' capping, and 3' polyadenylation. In contrast, prokaryotic cells lack pre-mRNA processing, and transcription and translation occur simultaneously.

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When the substrate concentration is continually increased, a point comes where no further increase in oxygen production would occur because the enzyme reaches to its saturation point where no active sites are vacant for the enzyme to increase the rate of reaction.

Active sites are the regions present in the enzymes where the substrate molecules binds the chemical reactions occur. These active sites are comprised of certain amino acids that form temporary bonds with the substrates.

Enzymes are the proteinaceous biological catalysts which function to amplify the rate of chemical reaction by many folds. The enzymes change the nature of substrates while they themselves remain unchanged.

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According to the statement, a pair of alleles—'r' being the dominant allele and 'r' being the recessive allele—determine whether a whiptail can roll its tail. We know that a tail-rolling whiptail must have the genotype "Rr" if it is a whiptail.

When an allel pair is dominant and recessive, the phenotype is determined. When combined with a dominant allele, a recessive allele does not produce its gene product. An organism will always benefit from having a dominant allele.

Dominant alleles, like B, are compared to the capital letter version of a letter. Recessive alleles exist. as a letter's lower case; b. A person must inherit the dominant trait from one of their parents in order for them to display it.

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The genotypes of the parent birds in this cross are GG (green) and gg (albino).

The parent birds have two different homozygous genotypes, GG and gg.

GG stands for the homozygous dominant genotype that produces green color in budgies, while gg stands for the homozygous recessive genotype that produces albino budgies.

Both of these genotypes are pure-breeding, which means that each parent bird has only one copy of the gene for the budgie’s color.

When a cross is made between two pure-breeding birds with different phenotypes, all of the offspring will be heterozygous, meaning they have both copies of the gene for the budgie’s color.

This is because both the GG and gg genotypes can be passed on to the offspring. The GG genotype is a dominant gene and will override the gg gene. This means that the offspring will have the dominant phenotype, which in this case is green.  

To summarize, the genotypes of the parent birds in this cross are GG (green) and gg (albino). The GG gene is dominant and will override the gg gene, resulting in all offspring having a green phenotype.

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Some examples of plants and animals domesticated by early people include the wolf (a), which was domesticated to become the dog (b), and the boar (d). The zebra was not successfully domesticated by early people.

Domestication is the process of altering a population of animals and plants to make them more advantageous to humans for the intended purpose. Early peoples were natural hunters and gatherers who had to rely on hunting animals and gathering fruits, vegetables, nuts, and seeds for survival. Humans gradually began to domesticate animals and plants as their population grew and their needs and desires became more complex.

As a result of domestication, animals became more gentle and more responsive to human instruction. Cattle, pigs, sheep, goats, chickens, and other animals were domesticated by humans. The wolf was initially domesticated by humans and became the dog. As a result of domestication, crops also became more abundant, dependable, and nutritious. Wheat, barley, peas, beans, olives, grapes, and a variety of fruits and vegetables are just a few examples of crops that have been domesticated.

Therefore, options (a), (b) and (d) are correct.

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Answer:

The pioneer community contains soil as opposed to barren rock.

Explanation:

The right response is: One recessive gene is carried by each parent.

This indicates that both parents contain one recessive allele for yellow flowers and are heterozygous for the flower color gene (Rr), with the dominant allele for red flowers (R) manifested in their phenotypic (r).

There is a 25% probability that when they have a child, the child will inherit the recessive allele from each parent and have the recessive phenotype (yellow flowers).

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If meiosis II proceeds normally, each of the four gametes that result from that meiosis will have 20 chromosomes.

If a homologous pair undergoes non-disjunction during meiosis, then two cells will have an extra chromosome, and the remaining two cells will have one chromosome fewer.

In the first meiotic division of a germ cell, if a single homologous pair undergoes non-disjunction in meiosis, it means that they do not separate correctly.

Non-disjunction is defined as the failure of chromosomes to separate during cell division, resulting in an abnormal distribution of chromosomes in the daughter nuclei.

When non-disjunction occurs during meiosis I, the chromosomes remain attached, and all four daughter cells will have an abnormal number of chromosomes.

Non-disjunction can result in cells that have too many or too few chromosomes. If the pair of chromosomes does not separate properly in meiosis I, it will result in two cells having an extra chromosome, and two cells will lack one chromosome.

These cells are called aneuploid cells. An aneuploid cell is a cell that does not contain a multiple of the haploid chromosome number.

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Starch-borate and starch-glycerol polymers can be used for encapsulation of pharmaceutical drugs or pesticides to enhance their stability, solubility, and bioavailability.  

The use of starch-borate and starch-glycerol polymers for encapsulation of pharmaceutical drugs or pesticides can have several benefits. Encapsulation involves the process of enclosing active ingredients (such as drugs or pesticides) within a protective coating or matrix, which can enhance their stability, solubility, and bioavailability.

Starch-borate and starch-glycerol polymers are natural, biodegradable, and non-toxic materials that have been found to be effective as encapsulation agents. These polymers can form stable and uniform coatings around the active ingredients, protecting them from environmental degradation and improving their delivery to the target site.

The use of these polymers for encapsulation can also help to reduce the toxicity and environmental impact of pharmaceutical drugs or pesticides.

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Answer: When grown at room temperature, Serratia marcescens cells produce a red pigment. This is an example of the production of pigments by bacteria.

What is pigment production?

Bacteria produce pigments, which are often colored organic molecules, as a result of secondary metabolism. Pigment production in bacteria is commonly related to sporulation and antibiotic formation.

Pigment production is a widespread phenomenon in both Gram-positive and Gram-negative bacteria. Pigments are classified into two types. Primary pigments, such as chlorophyll and bacteriochlorophyll, are involved in photosynthesis.

Secondary pigments, such as carotenoids, phycobilins, and melanins, are not involved in photosynthesis. Secondary pigments, on the other hand, aid in survival under hostile environmental circumstances.

Production of red pigment by Serratia marcescens: Serratia marcescens is a Gram-negative bacteria. It is a facultative anaerobe, which means it can survive with or without oxygen.

Serratia marcescens is an opportunistic pathogen that is found in soil, water, and on plants. At room temperature, it produces a red pigment called prodigiosin that is heat-stable and nonfluorescent.

Prodigiosin production is regulated by quorum sensing. The pigment serves as a protective barrier against predation by nematodes and amoebae, as well as survival in hostile environments.

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The temperature is raised above the optimum for a specific enzyme. As a result of the change in temperature you would expect to observe are the enzyme would be denatured and activity would slow down due to the change in the enzyme's conformation.

Enzymes are proteins that catalyze biochemical reactions. Their activity is influenced by several factors, including temperature, pH, and substrate concentration. Enzymes are sensitive to temperature changes, and they have an optimum temperature at which they operate the most effectively. If the temperature is too low, the reaction would be too slow, and if it is too high, the enzyme will be denatured, and the reaction will slow down.

If the temperature is raised above the optimum for a particular enzyme, the enzyme would be denatured, and its activity would slow down due to the change in the enzyme's conformation. This would result in a decrease in the enzyme's catalytic activity. Denaturation occurs when the protein's tertiary structure is disrupted, and it loses its function. As a result of a change in temperature, the substrate may not be able to bind to the active site, preventing the formation of an enzyme-substrate complex. The activity of the enzyme is reduced when this occurs.

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Mutations can alter the information flow in a cell and have a dramatic effect on protein synthesis. Point mutations, frameshift mutations, and insertions/deletions can all result in the production of a misfolded or non-functional protein, and they can also affect gene expression.

Mutations are changes in the genetic material of a cell, and they can alter the flow of information and affect protein synthesis. There are three main types of mutations that affect protein synthesis: point mutations, frameshift mutations, and insertions/deletions.

Point Mutations occur when a single base pair in the DNA is altered. This can result in an incorrect amino acid being incorporated into the protein, leading to a misfolded protein or a non-functional protein. Point mutations can also change the regulatory sequences, which can result in decreased or increased expression of a gene.

Frameshift Mutations happen when a single base pair is deleted or inserted into the DNA, resulting in the reading frame of the codon being shifted. This can drastically alter the protein that is produced, leading to a misfolded or non-functional protein.

Insertions/Deletions occur when one or more base pairs are added or removed from the DNA, respectively. This can result in the production of a truncated protein, or a non-functional protein. Insertions and deletions can also affect the regulatory sequences of the gene, which can lead to decreased or increased expression of a gene.

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The body systems interacting in this scenario are the musculoskeletal, and integumentary systems.

The musculoskeletal system is responsible for supporting the body and enabling movement.

The integumentary system as the body system includes the skin, hair, nails, and associated glands.

In this scenario, the musculoskeletal system is interacting with the integumentary system through the use of platform shoes.

By wearing platform shoes, the individual is changing the alignment of their bones and joints, which affects their height.

The integumentary system is also involved because platform shoes are a type of footwear that can cover the feet and potentially impact the health and appearance of the skin and nails.

Therefore, the use of platform shoes is affecting the musculoskeletal and integumentary systems by altering the height and impacting the health and appearance of the feet.

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The mutation that would be most likely to produce S. pombe cells that are elongated and which require a long time to complete mitosis is the mutation that abolishes wee1 activity.

When the function of wee1 kinase is removed, the cell cycle is pushed forward, and cells take a longer time to complete mitosis because the cells spend more time in the G2 phase. During the S phase of the cell cycle, DNA replication occurs, which means that each chromosome produces two identical copies. Afterward, the cell goes through the G2 phase, during which the spindle formation is monitored, the cell ensures that each chromosome's DNA is replicated, and the chromatin is further condensed. This G2 phase ensures that the cell is ready to enter mitosis after G2 phase.

Finally, the cell enters the mitotic phase or M phase, during which the chromosomes are divided into daughter cells. So, a mutation that abolishes wee1 activity is most likely to produce S. pombe cells that are elongated and which require a long time to complete mitosis.

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The face of a sunflower turning to follow the sun moving across the sky is an example of phototropism, which is a type of tropism exhibited by plants.

Phototropism is a type of tropism that occurs in plants. Tropism is a growth process in which the plant responds to environmental stimuli, such as light or gravity. Phototropism, on the other hand, refers to the plant's response to light.

As a result of phototropism, a plant's stem bends towards a light source, causing its leaves to receive more light. This occurs as a result of plant hormones like auxins, which help the plant respond to light.

When light strikes a plant's leaves, the hormone auxin causes the plant to grow towards the light, as opposed to away from it.

Plants, as living organisms, have a variety of characteristics that distinguish them from non-living things. They have the capacity to grow, reproduce, and respond to stimuli. They are made up of cells and require energy to survive, which they obtain via photosynthesis.

The majority of plants are capable of undergoing phototropism.

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The aquiferous system, a system of pores and canals that function to bring water close to the cells responsible for food ingestion and gas exchange, is characteristic of the phylum Porifera.

Porifera is a phylum of animals that are commonly known as sponges. They are multicellular organisms that live in aquatic environments. Sponges have a unique body plan that is characterized by the presence of pores and canals that make up the aquiferous system.

The aquiferous system of sponges is responsible for bringing water close to the cells responsible for food ingestion and gas exchange. Water enters the sponge through small pores called ostia and then flows through the canals to reach the cells that need it.

The sponges are the only group of animals that possess the aquiferous system.

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The mitochondria is responsible for the production of energy in plant cells, so if it were removed, the process of energy production would immediately stop. This is known as cellular respiration, and it is vital for the functioning of a plant cell.

Cellular respiration involves the breakdown of molecules such as glucose to produce energy. It is a complex process which involves multiple steps, including the production of adenosine triphosphate (ATP). Without mitochondria, this process cannot take place, and the cell would no longer be able to produce energy.

In addition to the lack of energy production, other processes would also stop due to the lack of energy. These include processes like the creation of proteins, regulation of gene expression, and cell division. Without these processes, the plant cell would die.

In summary, The process of energy production would stop in a plant cell if the mitochondria were removed. This would lead to the death of the cell due to the lack of energy to carry out essential cellular functions.

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The oxygen exchange between the red blood cells and the alveoli is driven by diffusion. this diffusion is due to the lower pressure of oxygen in the red blood cells.

Red blood cells, also known as erythrocytes, are one of the main types of blood cells in the human body. They are responsible for transporting oxygen from the lungs to the body's tissues, and carbon dioxide from the tissues to the lungs for removal. Red blood cells are biconcave discs that are small in size, measuring about 7.5 micrometers in diameter.

They contain a protein called hemoglobin, which binds with oxygen and gives the cells their characteristic red color. Red blood cells are produced in the bone marrow and have a lifespan of about 120 days. They are constantly being produced and broken down in the body, with the spleen playing a major role in removing old or damaged red blood cells.

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Pollution is the result of hunting, fishing, and material collection at rates that are higher than the capacity of populations in biodiversity to recover it. Option 2 is Correct.

While habitat fragmentation is the division of habitat after correcting for habitat loss, habitat loss typically refers to the reduction in the geographical area of natural habitat, including forest, grassland, desert, and wetlands.

When an area's state deteriorates as a result of pollution, invading species, or excessive use of natural resources, that area is said to have been degraded. Examples include streams becoming damaged by runoff of sediments and pollutants from nearby farms and prairies being overrun by woody plants like eastern red cedar.

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Correct Question:

Hunting, fishing, and gathering material at rates that exceed the ability of populations to rebound is called and is a thread to biodiversity group of answer choices

1. invasive species

2. pollution

3. overharvesting habitat

4. loss climate change.