Normal cells require the correct environment and nutrients to divide and grow. Damage to the DNA can prevent normal cells from dividing and growing, making it a key factor that can stop normal cells from dividing.
Normal cells need the right environment and nutrients to divide and grow. Damage to the DNA is one of the key factors that can stop normal cells from dividing. This can be caused by various factors such as exposure to toxic substances or radiation, or mutations that occur due to errors in replication. Lack of nutrients, excessive heat, and infection can also prevent normal cells from dividing and growing, but damage to the DNA is the most significant factor.
Normal cells require the correct environment and nutrients to divide and grow. Damage to the DNA can prevent normal cells from dividing and growing, making it a key factor that can stop normal cells from dividing.
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Because you have taken microbiology, you are not surprised when she tells you that a ______ is the probable cause of cucumbers' condition.
Because you have taken microbiology, you are not surprised when she tells you that a pathogen is the probable cause of cucumbers' condition.
[Anatomy of the eye] What forms the primary portion of the nervous tunic?
The anatomical structure that forms the primary portion of the nervous tunic is the retina.
What is the nervous tunic?The retina is the inner nerve tunic or nervous tunic.
The retina is made up of an inner layer of nervous tissue (the neural layer) that is covered by an outer layer of pigmented epithelium. The pigmented epithelium contains vitamin A, which is required by photoreceptor cells in the neural layer and absorbs light (like the choroid).
The pigmented component (pigment epithelium) and nerve part of the optic part, the physiological region that receives visual light rays, are further split into the following layers: Pigment epithelium is the first layer, followed by a layer of rods and cones and an external limiting lamina, which is actually a row of junctional.
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hybrid breakdown Definition
Hybrid breakdown is a type of reproductive isolating mechanism and reproductive failure. This leads to sterile and nonviable F2 generation offspring obtained from the mating of fertile viable F1 individuals.
Hybrid breakdown is defined as the reduced fitness observed in the offspring of the hybrids. the reduced fitness is however not observed in the hybrid themselves.
Fitness in the evolutionary terms is the reproductive success of an individual or a whole population. If two individuals are able to breed and produce fertile offspring, then they are considered to be fit and can believed to adapt better in their surroundings.
Hybrids are the offspring produced by the mating of two organisms belonging to different breeds, variety species or even genera. The example of hybrid is a mule obtained by the breeding of a horse and a donkey.
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_____ is the maximum blood pressure during contraction of the ventricles; diastolic pressure is the minimum pressure recorded just prior to the next contraction.
Systolic pressure is the maximum blood pressure during contraction of the ventricle.
Which stage of contraction has the highest blood pressure?
The following qualities characterize systole:The heart muscle contracts during systole.
Blood is forced out of the heart and into the big blood arteries of the circulatory system as the heart contracts.
A person's blood pressure rises during systole.
What are the blood pressure's maximum and minimum readings?
Diastolic pressure is the lowest pressure measured right before the next contraction; it reaches its maximum during ventricular contraction.
The optimal blood pressure for an adult is 120/80 when they are physically at rest. Up to 139/89 is considered to be within the usual range and poses no health risks. However, levels higher than 129/84 are , are already considered in the elevated-normal range.
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kisspeptin is a signal protein in humans that initiates the secretion of gonadotropin-releasing hormone (gnrh) from neurons found in the hypothalamus. endocrinologists are finding that kisspeptin and its receptor are important for sexual maturation at puberty. neurons that release kisspeptin contain cytosolic estrogen receptors and respond to high levels of estrogen by decreasing kisspeptin secretion. given what you know about cell signaling and signal molecules, which statement is true?
Kisspeptin has been linked to the control of ovarian function, trophoblast invasion, fertility control, parturition, and breastfeeding. So, it might present a viable cure for gonadotropin-dependent reproductive illnesses such IHH, HA, and PCOS.
The following succinct summary of KPs' function in reproduction:
Universally acknowledged to be crucial gonadotropin axis activators, kisspeptins play crucial roles in the beginning of puberty and the regulation of gonadotropin production.
KPs/function GPR54's in the neuroendocrine regulation of ovulation is one of the novel features of their physiology that have come to light.
The metabolic control of fertility is greatly influenced by kisspeptins as fundamental gatekeepers of reproduction.
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The photograph to the right is a magnified image of bacteria viewed under a microscope.
A.if the magnification power(40) of the microscope increased explain how the apparent size and quantity of the bacteria observed with the microscope would change
The field of vision of a microscope changes as the magnification changes. In other words, the field of view reduces as magnification increases.
What are the purposes of microscopes?The microscope is a tool which can be used to examine cells and other tiny objects. With at least 1 lens in the microscope, an object's picture is enlarged. Because of the way this lens bends light, an object appears larger than it really is.
Which microscope makes the best use of cells?The most typical imaging device for live cells is an inverted epifluorescence microscope. The objective of such a microscope views the material from below. For cell biology imaging, inverted microscopes are common because they enable imaging through with a glass slide for seeing cells grown above.
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Part C: Simulate Reforestation
The government has a plan to limit the effects of deforestation. It involves planting new trees to replace some of the larger trees chopped down by deforestation.
In year 5: 540 new trees will be planted
In year 10: 900 additional new trees will be planted
Figure out how many blocks of the deforested regions will be restored in the year 5 and year 10 grids. Choose a new color for the blocks that represent the reforested regions and make adjustments to your grids. Then use the Insert Image button to insert screen shots of the two grids in the answer space.
Reforestation is the process of planting new trees in an area where forest cover has been reduced or lost. The government's plan to limit the effects of deforestation by planting new trees is a common approach to reversing the negative impacts of deforestation.
What is reforestation?Planting new trees in a forest where the number of existing trees has been declining is known as reforestation. A new forest is created when new trees are planted or seeds are sown in an area where none previously existed.
This can help to restore habitats for wildlife, improve air and water quality, and mitigate climate change by absorbing carbon dioxide from the atmosphere. However, it's important that the new trees are planted in a way that is sustainable and doesn't harm other ecosystems, and that the underlying causes of deforestation are addressed.
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Cell grows, performs its normal functions, and prepares for division; consists of G1, S, and G2 phases
During interphase Cell grows, performs its normal functions, and prepares for division; consists of G1, S, and G2 phases.
The G1, S, and G2 phases are included in the interphase, which is the part of the cell cycle where no changes can be seen under a microscope. The cell multiplies (G1), duplicates (S), and gets ready for mitosis during interphase (G2). Interphase cells are not simply dormant throughout this time. Since a cell is extremely active during interphase, producing proteins, transcribing DNA into RNA, absorbing external material, processing signals, to name just a few tasks, the term quiescent (i.e. dormant) would be deceptive. Just in terms of cell division, the cell is dormant. Most of a typical cell's life is spent in the interphase phase of the cell cycle.
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Identify the four chambers of the heart. Explain where oxygen enters and leaves the bloodstream. Same for CO2. Compare the functions of arteries, capillaries, and veins. Explain where urea is added or removed from the bloodstream. Do the same for glucose.
Answer:
see below
Explanation:
The four chambers of the heart are the right atrium, right ventricle, left atrium, and left ventricle. The right atrium receives deoxygenated blood from the body and pumps it into the right ventricle. The right ventricle then pumps the deoxygenated blood into the lungs, where it receives oxygen and releases carbon dioxide. The oxygenated blood then returns to the left atrium through the pulmonary vein. The left atrium pumps the oxygenated blood into the left ventricle, which then pumps it out to the rest of the body through the aorta.
Oxygen enters the bloodstream in the lungs, where it diffuses across the alveoli walls and into the pulmonary capillaries. Carbon dioxide leaves the bloodstream in the lungs, where it diffuses across the alveoli walls and into the air.
Arteries are blood vessels that carry oxygenated blood away from the heart to the body's tissues. Capillaries are the smallest blood vessels in the body and are responsible for exchanging oxygen and carbon dioxide, as well as other nutrients and waste products between the blood and the body's tissues. Veins are blood vessels that carry deoxygenated blood back to the heart.
Urea is a waste product of protein metabolism and is formed in the liver. It is added to the bloodstream in the liver and removed from the bloodstream in the kidneys through the process of urine formation.
Glucose enters the bloodstream from the small intestine after being absorbed from food, and it leaves the bloodstream as it is taken up by cells for energy production or storage.
Relate specific chromosomal aberrations to the altered phenotypes.Drag the appropriate labels to their respective targets. Not all labels will be used.
-Turner syndrome- X chromosomal monosomy -Down syndrome- trisomy 21 -Patau-trisomy 13 -Gossypium- amphidiploid -Vertebrate liver cells Endopolyploidy is the multiplication of chromosomal.
A chromosome is a lengthy DNA molecule that contains some or all of an organism's genetic material. The extremely long thin DNA strands in most chromosomes are wrapped by packing proteins; the most essential of these proteins in eukaryotic cells are the histones. These proteins, with the help of chaperone proteins, bind to and compress the DNA molecule in order to keep it intact. [1] [2] These chromosomes have a complicated three-dimensional structure that is important in transcriptional control. Only during the metaphase of cell division are chromosomes visible under a light microscope (where all chromosomes are aligned in the center of the cell in their condensed form). [4] Each chromosome is duplicated before this occurs.
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A certain type of mutation converts the base cytosine to uracil. If this mutation is not repaired when the DNA replicates, as shown in the diagram, which of the following changes is most likely to result
it is the Pythagorean theorem
choose the words to finish the sentence. a human cell that carries a double set of chromosomes is called a
A human cell containing a double set of chromosomes is called a diploid cell.
Cell is the most basic and fundamental unit of all the living organisms. Cells are divided into following two types: prokaryotic and eukaryotic. The eukaryotic cell is further of two types: plant cell and animal cell. A cell on its own has all the essential components for its survival.
Chromosomes are the genetic material that consists of one double-stranded DNA along with the histone proteins. A chromosome is the most compact form of genetic material. Each species contains different numbers of chromosomes that can accommodate their genes.
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mendal wanted to find out if the color of the seed of a pea plant affected the seed shape. what experiement did he perform to test this idea
Mendal wanted to find out if the color of the seed of a pea plant affected the seed shape. He tested seed color and shape at the same time
The process of genes being passed from parents to children is referred to as inheritance. Genetic qualities are passed down through inheritance from parents to their offspring, who receive all of their parents' genetic material.
Heredity, commonly referred to as inheritance or biological inheritance, is the process by which features are passed down from one generation to the next. The offspring cells or organisms acquire the genetic make-up of their parents through sexual or asexual reproduction.
Genetics is frequently used to refer to heredity, which is the passing on of genetic traits from one generation to the next. The passage of genetic features and their manifestation from one generation to the next is shown by inheritance.Mendal is the father of genetics.
Complete question:
mendal wanted to find out if the color of the seed of a pea plant affected the seed shape. what experiement did he perform to test this idea?
A.He tested only heterozygous plants.
B.He tested traits that were not dominant.
C.He tested seed color instead of seed shape.
D.He tested seed color and shape at the same time.
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Fusion of the superior pole of one kidney to inferior pole of the contralateral kidney is most consistent with which of the following congenital anomalies?
A. cake kidney
B. cross fused ectopia
C. pelvic kidney
D. sigmoid kidney
E. duplicated kidney
Fusion of one kidney's superior pole to the inferior pole of the contralateral kidney is most common in sigmoid kidney congenital abnormalities.
Congenital anomalies are morphological or functional abnormalities that arise during intrauterine life. These illnesses, sometimes known as birth abnormalities, congenital disorders, and congenital deformities, arise during pregnancy and can be detected before, during, or after delivery. Some congenital defects, including such cleft lip and palate, clubfoot, or hernias, can be corrected surgically or non-surgically. Others, like as heart problems, neural tube anomalies, or Down syndrome, can have long-term consequences.
Congenital abnormalities are a major contributor to the worldwide illness burden, with low- and middle-income nations bearing a disproportionate share of the burden. These places are also less prone to have facilities for treating reversible disorders like clubfoot, resulting in more apparent and long-term consequences.
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where are the intercostal muscles that aid in ventilation located?
The intercostal muscles that aid in ventilation is located in the upper part of the rib cage.
The muscles of respiration are also called the 'breathing pump muscles'.All muscles that are attached to the human rib cage have the inherent potential to cause a breathing action. Muscles that are helpful in expanding the thoracic cavity are called the inspiratory muscles because they help in inhalation. Those that compress the thoracic cavity are called expiratory muscles and they induce exhalation.
Along with the diaphragm, the intercostal muscles are one of the most important groups of respiratory muscles. These muscles are attached between the ribs and are important in manipulating the width of the rib cage. There are three layers of intercostal muscles. The external intercostal muscles are most important in respiration. These have fibres that are angled obliquely downward and forward from rib to rib. The contraction of these fibres raises each rib toward the rib above, with the overall effect of raising the rib cage, assisting in inhalation.
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What are the two basic two types of conservation in biodiversity?
There are two main types of conservation in biodiversity: in situ and ex situ conservation. In situ conservation refers to the preservation of biodiversity within natural ecosystems and habitats.
This can be done through the protection and management of specific areas, such as conservation national parks or wildlife reserves. Ex situ conservation, on the other hand, involves the preservation of biodiversity outside of natural habitats, such as in zoos, botanical gardens, and seed banks. This can be done through conservation captive breeding programs, seed collection and storage, and other methods of preserving biodiversity genetic material. Both in situ and ex situ conservation play an important role in protecting biodiversity, and a combination of biodiversity the two approaches is often used.
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fine hair takes color faster because
Fine hair takes color faster because, in fine hair, the melanin granules are more tightly packed together.
Because coarse hair typically needs more time to absorb color, its timing is longer. Because fine hair absorbs color more quickly, the application time is shorter. Color may also quickly absorb into dry or permed hair. Insufficient processing time, or the hair color's inability to adhere for a sufficient amount of time, is a common cause of rapidly fading colors. If either you or your client has gray hair, this is especially true. The cuticles of grey hair are tightly packed and take longer to open and absorb the molecules of artificial hair color.
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Which type of virus is most likely to be released by lysis of the host cell? Multiple Choice Enveloped virus Nonenveloped virus
type of virus is most likely to be released by lysis of the host cell is B. the non-enveloped virus
Viruses are the smallest organisms that are parasitic and can cause disease by infecting other living things. The characteristics of viruses are that they only have one nucleic acid, which can be DNA or RNA, however. Viruses can only reproduce by dividing themselves in other living things.
Viruses attack cells by lysis of the host cell using the enzyme lysozyme until the host cell wall is damaged so that the virus can come out and be ready to attack other host cells. Usually this occurs with non-enveloping virus types, namely viruses that are not enveloped by a membrane and are resistant in nature. This type of virus is even resistant to bile acids when it infects the digestive tract.
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the water generated in the tissues during the chemical breakdown of energy-yielding nutrients in foods is known as water. a. hard water b. distilled water c. ionic water d. metabolic water
The correct answer is D. metabolic water. Metabolic water is the water generated in the tissues during the chemical breakdown of energy-yielding nutrients in foods.
This water is generated by the oxidation of carbohydrates, proteins, and fats, and is then released into the bloodstream as a byproduct of metabolism.
Metabolic water is an essential part of the body's homeostasis, as it helps maintain the balance of water and electrolytes in the body. It is also an important source of energy, as it is released in the form of heat during the metabolic process. Metabolic water is essential for biochemical reactions to take place, and it also helps to maintain the body's temperature.
Metabolic water is necessary for proper digestion and absorption of nutrients, as well as for carrying out other metabolic functions such as respiration and excretion. Without metabolic water, the body would be unable to adequately break down and absorb nutrients from food, leading to deficiencies and other health problems.
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What is the term for small structures within cells that perform specific functions (mitochondria, nucleus, etc.)?
Organelles is the term for small structures within cells that perform specific functions.
An organelle is a subcellular shape that has one or more specific jobs to carry out within the cell, much like an organ does inside the frame. a few of the extra important cell organelles are the nuclei, which save genetic information; mitochondria, which produce chemical strength; and ribosomes, which collect proteins.
An organelle is a specific structure inside a cellular, and there are numerous different styles of organelles. Organelles are also referred to as vesicles within a cellular. and they truely have a characteristic it really is critical, due to the fact we need to compartmentalize all of the functions in the cell. So there desires to be a membrane across the mechanisms for making a unique product within a cell.
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Which would be the least likely to survive?
a) Trisomy 1
b) Trisomy 23
c) Monosomy 23
What is stabilizing selection example?
Stabilizing selection is a type of natural selection that occurs when the environment favors individuals with intermediate traits, while selecting against individuals with extreme traits.
Stabilizing selection is the human birth weight. In human populations, babies that are born too small or too large have a higher intermediate traits of death during childbirth. This leads to a stabilization of the average birth weight within the population over time. stabilizing selection is the size of the beak of a bird species that feeds on a certain type of seeds. Birds with beaks that are too large or too intermediate traits may have difficulty in cracking the seeds open and may not survive as well as those with beaks that are of an intermediate size. stabilizing selection is a process that maintains the norm or the average of a certain trait within a population, and it helps to keep the population stable and well-adapted to the environment. The environment favors intermediate traits.
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at that time, why did it seem reasonable for the bases to be on the outside of the dna molecule?
Given that they differ in quantity and spatial arrangement between species, the bases were thought to be the most probable components of DNA to encode genetic information.
Deoxyribonucleic acid is a polymer made up of two polynucleotide chains that coil around one another to create a double helix. The polymer contains genetic instructions for all known organisms and viruses' genesis, functioning, growth, and reproduction.
Nucleic acids include DNA and ribonucleic acid (RNA). Nucleic acids, together with proteins, lipids, and complex carbohydrates (polysaccharides), are one of the four primary categories of macromolecules required for all known forms of life. The two DNA strands are known as polynucleotides as they are composed of simpler monomeric units called nucleotides
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Nuclear membrane reforms cytoplasm divides 4 daughter cells are formed?
nuclear membrane that has been reconstructed and divided cytoplasm. Four haploid daughter cells in all are created. is referred to as "reduction division" because it reduces the number of chromosomes by half.
the tiniest biological unit that can sustain life on its own and makes up all living things and physiological tissues. The fundamental units of all living things are cells. There are many billions of cells in a human body. They support the body's structure, ingest nutrients from meals, transform those nutrients into energy, and perform certain tasks. The molecules that enter and exit the cell are regulated by the cell membrane, which surrounds the cell. Cell biology is the study of cells, including their internal structural makeup and the functions of each organelle. Cells were first discovered by biologist Robert Hooke. Cells make up all living things.
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Which of the following traits evolved last (most recently) on the "one small step" phylogeny? A. digits B. eyes on top of a flat head C. strong armlike bones D. not enough information to tell
A phylogenetic analyses is a branch diagram or even a tree that depicts the relationships that have developed over time between different biological species or even other entities based on similar characteristics.
A phylogenetic tree must be constructed in four distinct steps: Identification and acquisition of a collection of homologous DNA and protein sequences, alignment of those sequences, estimation of a tree from of the aligned sequences, & presentation of the tree in a way that makes the pertinent information clear to others are the first four steps. The morphological (body form), biochemical, behavioral, and molecular characteristics of species or other groupings can be used to construct a phylogenetic tree. In order to construct a tree, species are grouped into nested units based on common derived features (characteristics distinct from those of group's progenitor). A common ancestor is typically represented by a single branch at the base of many phylogenetic trees. Such trees are referred to as rooted by scientists, implying that just one ancestral lineage.
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which of the following correctly lists the three stages of labor, in the proper order?
O dilation, crowning, expulsion O contractions, dilation, expulsion O contractions, dilation, crowning O dilation, expulsion, delivery of the placenta
The correct option is D ; Dilation, expulsion, delivery of the placenta.
Parturition is the birth of a child. Pregnancy, in which a baby develops inside a woman's uterus, culminates in childbirth. Labor is another name for childbirth. Human pregnancies last about nine months from conception to labor.
When labor begins, the first stage of parturition begins. Up until the cervix is fully dilated, it continues. There are two stages to this dilation:
Latent period. Cervix dilation ranges from 0 to 4 centimeters (cm).
active stage 4 to 10 cm of the cervix have dilated. At complete dilatation, the second stage of parturition begins and lasts until delivery. This stage contains two stages as well: inactive stage. The head of the infant descends into the vagina. active stage The mother feels the need to push or to quickly clench her abdominal muscles.
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the gene that is activated on philadelphia chromosome codes for an intracellular tyrosine kinase. explain how activation of this gene could contribute to the development of cancer
It is true that gene that is activated on Philadelphia chromosome codes for an intracellular tyrosine kinase.
What is Philadelphia chromosome?The Philadelphia chromosome, a balanced translocation between chromosomes 9 and 22, was originally identified in leukemia in 1960 and was found in Philadelphia by Nowell and Hungerford. A novel fusion gene that codes for a tyrosine kinase with higher enzymatic activity is the end product.
When chromosome 9 and chromosome 22 split and exchanged pieces, the Philadelphia chromosome was created. As a result, your cells have a new set of instructions that can result in the formation of chronic myelogenous leukemia and an unusually tiny copy of chromosome 22.
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Germ-line cells are haploid but gametes are diploid.a. trueb. false
The given statement is true that germ-line cells are haploid but gametes are diploid because when male and female gametes merge during fertilization, they produce a diploid cell or zygote with two pairs of chromosomes. .
While gametes are diploid, germ-line cells are haploid. In prophase, I, independent assortment will takes place. Homologous chromosomes' non-sister chromatids. Two chromatids, one on each of the two homologous chromosomes.
A germ cell will splits into two portions during meiosis (reduced division), which leads to the formation of the four gametes. A diploid (i.e., containing coupled chromosomes) zygote will be created during fertilization by uniting the male as well as female gametes.
Mitosis will make diploid offspring cells that are indistinguishable to the parent cell. Meiosis I is where the majority of the variations between the mitosis and meiosis will occur. The homologous chromosomal pairs will connect and are bonded together by the synaptonemal complex during meiosis I.
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A scientist found thousands of small worms thrashing about in a very small amount of soil and determined that the thrashing motion was due to having only longitudinal muscles. These worms are likely to have
A scientist discovered thousands of microscopic worms thrashing around in a tiny quantity of dirt and established that the thrashing motion was caused by just longitudinal muscles. These worms most likely have bilateral symmetry, genuine tissues, and a fully developed digestive tract.
What is longitudinal muscles?The longitudinal muscle fibers travel the length of the body, whereas the circular fibers encircle it. The contents of the body are liquids or tissues that may be molded into various forms while maintaining a constant volume. Peristalsis muscle movements are frequently described as wave-like because they contract and relax in a continual rhythm to propel food forward. They involve both the circular muscles that round your digestive tract's tubes and the longitudinal muscles that cross the tubes' walls.
Here,
A scientist discovered thousands of microscopic worms thrashing around in a very little amount of dirt and realized that the thrashing motion was caused by having just longitudinal muscles. These worms are believed to exhibit bilateral symmetry, genuine tissues, and a full digestive tract.
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1.artificial eutrophication is caused by?
2.it happens when?
3.what is the greatest cause of artificial eutrophication?
4.name another cause of artificial eutrophication.
5.what substance causes an algal bloom to form?
6.why do fish die in a body of water where an algal bloom has formed?
Artificial eutrophication is caused by humans through the discharge from farms, agricultural fields etc.
Eutrophication is basically defined as the process by which a water body or parts of a water body become enriched in nutrients and minerals like phosphorus and nitrogen. Due to this increase in the amount of nutrients, algal bloom in large amounts is observed.
Artificial eutrophication is caused by humans. The discharge from agricultural fields contains fertilizers. These fertilizers contain nutrients like phosphorus and nitrogen which increase the nutrition content in water and promote algal bloom. Another major cause of artificial eutrophication are the phosphates which are present in the dish washing liquids. Due to this, the amount of dissolved oxygen in the water decreases and this leads to the death of fishes living in it.
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