A massive toxic spill kills off half the population of photosynthetic plankton in the ocean. What do you predict may happen to the atmosphere as a result of this event?

Answer:

Prokaryotic cells reproduce by a process that is called binary fission.

Explanation:

The DNA in such cells is contained in a single circular chromosome called a plasmid within the cytoplasm. The reproductive process starts with the replication of the chromosome.

Answer:Prokaryotic cells reproduce by a process called binary fission.

Explanation:

these cells contain a single circular chromosome called a plasmid within the cytoplasm so,the reproductive process starts with the replication of the chromosome.

The details were missing but I managed to found from another source.

Answer:

According to the table attached, no correlation exists between the concentration of glucose in the culture medium and the ATP concentration in the cells.

Explanation:

The glucose is present at two concentration levels in the culture medium, i.e. 1.5 mM and 25 mM. There were three replicates of glucose concentration at different oxygen concentrations. Despite the same glucose concentration in the culture medium, the ATP concentration in the cell increased. This was observed at both concentrations of glucose. So, the presence of glucose might have been necessary for the ATP production but oxygen was playing a direct role in ATP production. To draw a better conclusion, more information on other parameters is necessary.

The concentration of glucose in a culture medium is directly proportional to ATP concentration in cells. More glucose in the medium leads to more ATP in cells, while less glucose in the medium leads to less ATP in cells.

The relationship between the concentration of glucose in a culture medium and the ATP concentration in cells is directly proportional. Glucose is the primary source of energy for cells and is metabolized during cellular respiration to produce ATP, which is the main energy currency within the cell.

When the concentration of glucose in the culture medium increases, more glucose is available to the cells, leading to more glucose being used in cellular respiration. As a result, the production of ATP within cells also increases. Therefore, the ATP concentration in cells can be increased by increasing the glucose concentration in the culture medium.

Conversely, if the concentration of glucose in the culture medium is lowered, less glucose is available to the cells, thereby reducing the cellular production of ATP. So, the concentration of glucose in the culture medium directly affects the ATP concentration within the cells.

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Answer:

Electrons, protons, and Neutrons

Explanation:

Neutrons-Neutral charge

Protons-Positive charge

Electrons-Negative charge

Keep in mind that Protons and neutrons are found in the nucleus of the atom, while electrons are found in the electron cloud.

Both protons and neutrons have a mass of 1, while electrons have no mass.

Answer:

2. transplanting a human organ into another individual

3. inserting genes from one sheep into another cell to make a clone

Explanation:

The advancement of technology has allowed several phenomena to be observed and tested, promoting a rapid advance of scientific knowledge and improving our lives in several different ways.

It would be impossible for scientific knowledge to reach that point that we know today without the advancement of technology allowing this.

Two great examples of how this happened are the possibility of transplanting a human organ into another individual and the possibility of inserting genes from a sheep into another cell to form a clone. The advanced technology allowed several equipments to be created allowing several studies to be carried out, making the two examples above a real fact in our universe.

Answer:

A dominant trait can be described as a trait that suppresses the effect of a recessive trait. A recessive trait gets masked by a dominant trait.

In the scenario depicted in the question, there will be no chance that the offspring produced will carry the recessive trait of the mother. And there will be no chance that any of the offspring born will be homozygous for the trait. All of the offsprings produced from this cross will be heterozygous dominant.

Answer:

B. Putting the bacterium through a mass spectrometer.

Explanation:

FOR OBSERVATION AND TO CHECK THE RECOMBINANT DNA PROCESS WE HAVE TO THE OBSERVE THE REPLICATION PROCESS OF BACTERIA.

The process that should be used next, putting the bacterium through a mass spectrometer. The correct option is B.

A bacterium is a single form of bacteria. Bacteria is a prokaryotic organism. It is a unicellular and a microorganism. Bacteria are currently used in growing specific genes by growing them in and the genes are then transferred to the needed place.

A mass spectrometer is an instrument used to measure the mass to charge of the samples.

Thus, the correct option is B. Putting the bacterium through a mass spectrometer.

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Answer:

Your correct answer is B. An iron pot

Explanation:

Please mark brainliest!

Answer:

The correct answer is 'D'. Great white sharks have sharp serrated teeth for tearing into their prey.

Explanation:

Living organisms inhabit different habitats. They possess unique structures which help them perform specific functions. They maybe adapted or they are born with it. Sharks are carnivorous animals who feed on other animals. They have sharp pointy teeth which helps them to tear the flesh of their prey. Some other examples of animals are:

Answer:

The correct option is B) Nutrients

Explanation:

The availability of nutrients is very essential for a producer to survive. If nutrients will not be available, then the plant will not be able to carry out the essential processes which are required for its healthy living. The primary producers like plants take up nutrients from the soil.

Although, temperature and altitude also have an effect on the primary productivity but they can maintain homeostasis and hence these features will not affect that plant as much as the availability of nutrients.

Answer:

Salinity is the saltiness or dissolved inorganic salt content of a body of water. Substances that are dissolved in water are usually called solutes. The typical seawater has a salinity of 35 ppt or 35‰. The average density of seawater at the surface is 1.025g/ml

Explanation:

Salinity is the measure of dissolved salts in water, influencing both marine and terrestrial ecosystems. Organisms have adapted to various salinity levels, with some thriving in saline habitats by adjusting their internal solute concentrations. Biological processes and inputs from rivers affect oceanic salinity, making it crucial to measure accurately.

Salinity refers to the total amount of dissolved materials, usually salts, in seawater, expressed in grams per kilogram of water. It is a dimensionless quantity because it is a ratio and does not have units. The average salinity of seawater is about 3.4%, while the salinity of blood and other body fluids in animals is around 0.8%. This difference in salinity can be explained by the adaptation of organisms that moved from sea environments to land.

Saline habitats, which have lower water purity, often exclude most life forms due to water loss through diffusion, leading to decreased internal water content. Organisms that thrive in such environments usually have higher solute concentrations in their cytosol to cope with the osmotic stress.

Approximately half of the earth's biomass resides in the sea, with a significant portion consisting of diatoms and other organisms that create silica skeletons. Upon death, these organisms sink and annually contribute about 300 million tons of silica to sedimentary rocks. This process helps maintain the undersaturation of silica in the upper sea levels and influences the salinity levels.

Moreover, inputs of salts into the sea from rivers and hydrothermal activity at oceanic ridges increase salinity. The cells in most organisms maintain lower intracellular salinity (around 1%) to avoid damage from high salt concentrations, which can denature proteins and disrupt cell membrane integrity.

Salinity definitions have evolved to ensure accurate measurements. Initially based on chlorinity, salinity is now defined by more precise methodologies, making it easier to measure and understand its impact on marine and terrestrial life.

The student is actually doing replication

Answer: Option B

Explanation:

A student reads about a particular experiment, gets inquisitive to learn more and hence tries to copy that particular experiment. This is called as replication   as the student tries the same methodology and process adapted to perform the experiment. He tries to obtain the same result.

This result fascinates him giving assurance of the experiment. It also helps motivate trying different experiments.  It also inspires him to make further researches.

Answer:

Mendel's law of independent assortment

Explanation:

Gregor Mendel is a really important figure in genetics, his work on pea plants provided us with many of the fundamentals of genetics that we still have today!

Mendel proposed 3 laws:

1. The law of dominance - this law states that where there are two different alleles (heterozygous) the organism will always express the dominant trait over the recessive trait

2. The law of segregation - this law states that offspring will inherit one allele from each parent, because allele pairs separate in the process of meiosis, such that each gamete contains 1 allele of each trait. When the zygote is formed, it contains an allele from each parent.

3. The law of independent assortment - this law states that traits are independent from one another at the time of gamete formation. The genes are segregated separately from one another, as the presence of one does not impact the presence of another.

This example shows that all combinations of the height and color allele are possible, and therefore nicely demonstrates the law of independent assortment

Bombyx mori is the name

Answer:

Bombyx mori

Explanation:

Answer:

Breaking down of sugar in living organism requires Oxygen gas.

Explanation:

The gas oxygen is important to conduct different functions in living organism. For breaking sugar inside the living organisms oxygen is needed, this is the process of the cellular respiration. The body cell breaks sugar with the help of oxygen gas in this process. As a result of this process, energy is produced along with the carbon dioxide. This energy produced in this process is restored by the body for the future use of the cell.

Answer:

The higher frequency sound, you can see that the waves are close together and the wavelength is short

Explanation:

This is because of the fact, the wavelength and the waves are inversely proportional to the frequency of sound. That's why, greater the frequency the more closer the waves and also the greater the frequency shorter the wavelength. Usually the speed of the sound may vary from medium to medium, but the frequency always remains constant as it is just like oscillation having frequency of original source. The frequency depends upon four factor like length, diameter, tension as  well as density.

Answer:

DNA coiled to Histone protein.

Explanation:

1) DNA wrap itself around the histone protein due to the negative charge on the histone, that packed DNA tightly so that it can't be used in protein synthesis.

2) Prosthetic groups are itself co-factors that bind tightly to enzymes or proteins. they can be organic or metallic ions and attached to proteins by covalent bond.

3) The transfer of mitochondrial DNA (mtDNA) from mother to  her offspring is known as  maternal inheritance. only female can transmit  mtDNA beacuse, it can be transmitted through female eggs only. One can inherit mtDNA from exclusively their mother.

The symbiotic relationship in this situation is: Predation

Symbiosis or Symbiotic relationship is the relationship or interaction between two biological creatures. These interactions are essential to keep a balance in the ecosystem. Predation is one of the types of symbiotic relationship in which one biological creature preys on the other.

In predation, one biological creature benefits from another while the other is harmed or most likely killed in the process. The predator remains less wounded or completely unharmed depending on the type of prey it is. Hence, we can say that the symbiotic relationship in this situation where the polar bear his hunting and capturing a seal for food is Predation. The polar bear gets its food while the seal is killed for it.

The appearance of banded iron layers in the rock record between 1.08 and 3.8 billion years ago reflect the alteration of oxygen-rich and oxygen-poor conditions in the ocean at that time is True.

Explanation:

The banded iron formation of the rock is directly related with the atmospheric oxygen content of that time. The thorough study by the scientists revealed an interesting result. The study showed that about 3 billion years ago, in Canada, there were no oxygen in atmosphere or ocean as well.

This resulted in the increase of the photosynthesizing organisms. The chemicals released from the organisms reacted to the iron of the ocean to deposit iron oxide layer on rocks to form these layers.  

Answer:

Phenotype

Explanation:

The physical trait which is the color of the fur is associated with its genotype

Answer:

The color of the fur is the ✔ phenotype

The genetic combination of alleles that determine the fur color is called the

✔ genotype

Suppose that a mouse with black fur has both an allele for black fur and an allele for white fur (Bb). Based on this information, you can conclude that the dominant allele must be for ✔ black fur and the recessive allele must be for

✔ white fur.

For this lab, assume that the allele for black fur is dominant. This allele’s symbol is ✔ B

The allele for white fur is recessive. This allele’s symbol is ✔ b

Explanation:

right on edg..

Answer:

Down syndrome, which results from having the wrong number of chromosomes

Explanation:

Down's syndrome is a specific type of genetic defect in which a person has three copies of the twenty-first chromosome. Scientists can now determine whether a fetus has the extra chromosome—and thus Down's Syndrome—by creating a karyotype like the one pictured here.

Screening for genetic diseases that involve mutations in the construction of the genes instead of the number of genes may not be as straightforward.

Your body is composed of microscopic cells that are visible all the time ?True or false

Our body is composed of many microscopic cells. They are visible as a whole, but not individually. And all cells are not visible from outside. So the given statement is false.

Cells are defined as structural and functional unit of a living organism. Cells are of various shapes and sizes. A squamous epithelium cell is flat whereas a neuron is upto 1 meter in length. Cells of bronchus have projections called cilia whereas cells of small intestine have microvilli on their surface.

Our skin is formed of epithelial cells which are seen as a whole with our naked eyes. But individual structures of them are very small. This is why, human cells are microscopic in structure and not individually seen with naked eyes.

Answer:

oxygen

Explanation:

the oxygen debt must be ‘repaid’ once exercise stops causing deep breathing for some time

Oxygen said to be 'paid back' by the oxidation of lactic acid after anaerobic respiration.

The simplest process for lactate oxidation is:

lactate → pyruvate → acetyl CoA  → Tri-Carboxylic Acid, oxphos, etc.

A route can take place for lactate taken up by the liver in the body. There it is converted to glucose via the process of gluconeogenesis, and glucose is released into the blood. Other tissues consume glucose and completely oxidize it to carbon dioxide (CO2) and water.

Lactic acid is an essential part of the human body. It helps in cell respiration, glucose production, and molecule signaling. Lactic acid does not cause muscle soreness.

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Answer:

a Anaphase I

b Metaphase I

c Telophase I

d Anaphase II

e Prophase I

f Telophase II

Explanation:

Prophase I begins after the DNA has been duplicated, as shown in picture e. The chromosomes are condensed, and also visible, which is apparent in picture e.

The next stage is called Metaphase I, in which the pairs of homologous chromosomes align at The the centre of the cell and the spindle fibres attach, as shown in picture b.

The pairs of chromosomes are pulled apart to opposite poles of the cell by the spindle fibres., as shown in picture a. This stage is called Anaphase I.

Then, a process called Telophase I occurs, when the cell divides into two daughter cells. One of these cells is shown in picture c.

Picture d shows the stage Anaphase II, where the spindle has attached and the chromatids are pulled to the opposite poles of the cell.

The final picture left is picture f, which shows the daughter cell at the end of meiosis II, where the nuclear envelope is reforming, as in telophase II.

Explanation:

Photosynthesis produces glucose and O2 from inorganic CO2, light energy and water.

6CO2 + 6H20 + (energy) → C6H12O6 + 6O2

These end products, namely O2 and glucose are then used in respiration...

C6H12O6 (glucose) + 6 O2 → 6 CO2 + 6 H2O + ≈38 ATP

The CO2 and H2O produced as waste in respiration can then be incorporated at the beginning of photosynthesis. Thus the reactions are cyclic- they feed into each other.

Further Explanation:

Photosynthesis

Photosynthesis is a chemical pathway that’s integral to producing energy in plants and other primary producers. Energy in the form of molecules of glucose is produced from light, water and carbon dioxide while oxygen is released. This occurs in several complex steps, photosynthesis is a rate limited reaction, depends on several factors including carbon dioxide concentration, ambient temperature and light intensity; the energy is retrieved from photons, I.e. particles of light, and water is used as a reducing agent. This occurs in the thykaloids, where pigment molecules like chlorophyll reside.

Occuring in several complex steps, photosynthesis is a rate limited reaction, depends on several factors including carbon dioxide concentration, ambient temperature and light intensity; the energy is retrieved from photons, I.e. particles of light, and water is used as a reducing agent. Water supplies the chlorophyll in plant cell with replacement electrons for the ones removed from photosystem II.

Additionally,

Aerobic respiration

In respiration, energy is released when a phosphate group is removed from ATP; ATP is formed from the phosphorylation of ADP with an inorganic phosphate, Pi, which forms an unstable, high energy phosphate bond.

ADP + inorganic phosphate (Pi) + energy → ATP

Further Explanation:

In all eukaryotic cells mitochondria are small cellular organelles bound by membranes, these make most of the chemical energy required for powering the biochemical reactions within the cell. This chemical energy is stored within the molecule ATP which is produced. Respiration in the mitochondria utilizes oxygen for the production of ATP in the Krebs’ or Citric acid cycle via the oxidization of pyruvate through the process of glycolysis in the cytoplasm).

This forms a gradient where there is a differential in the number of protons on either side of the membrane the protons flow or re-enter the matrix through the enzyme ATP synthase, which makes the energy storage molecules of ATP from the reduction of ADP. At the end of the electron transport, three molecules of oxygen accept electrons and protons to form molecules of water in a process called chemiosmosis.

Anaerobic respiration

Anaerobic respiration utilizes pyruvate from glycolysis in order to restore the NAD+ supply . Within cells, aerobic respiration may not occur due to several factors:

Thus, they utilize other means for the generation of energy in the form of ATP and to replenish NAD+ an oxidized form of NADH, the main electron carrier in glycolysis. Pyruvate is produced in the cytoplasm via glycolysis- it is also used as an electron acceptor in a process called fermentation.

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Answer: above is right awnser

Explanation:

Answer:

D

Explanation:

ospreys decomposers

Answer: C - spiral staircase

Explanation:

Answer:

C a spiral staircase

Explanation:

Answer:

Zygote. Zygote, fertilized egg cell that results from the union of a female gamete (egg, or ovum) with a male gamete (sperm).

Explanation:

Formation of Gastrula. Once an egg is released from the ovary during ovulation, it meets with a sperm cell that was carried to it via the semen. These two gametes combine to form a zygote and this process is called fertilization. The zygote then begins to divide and becomes a blastula.

The process of embryonic development involves zygote formation, cleavage, and gastrulation, where three primary germ layers (ectoderm, mesoderm, endoderm) are established to give rise to various tissues and organs in animals.

Description of the process by which an animal zygote becomes a gastrula.

The process involves embryonic development and includes several stages:

1. Zygote Formation:

  - Fertilization occurs when a sperm cell penetrates an egg cell, forming a zygote.

  - The zygote is the initial diploid cell with a complete set of chromosomes.

2. Cleavage:

  - The zygote undergoes rapid cell divisions through a process called cleavage.

  - Cleavage results in the formation of a blastula, which is a hollow ball of cells.

3. Gastrulation:

  - Gastrulation is the next major developmental stage after cleavage.

  - The blastula undergoes a series of complex movements and differentiations to form three primary germ layers: ectoderm, mesoderm, and endoderm.

4. Formation of Germ Layers:

  - Ectoderm: Outer layer, gives rise to the skin, nervous system, and other external structures.

  - Mesoderm: Middle layer, gives rise to muscles, bones, circulatory system, and internal structures.

  - Endoderm: Inner layer, gives rise to the digestive system, respiratory system, and other internal organs.

5. Gastrula Formation:

  - As the three germ layers form, the structure is now called a gastrula.

  - The gastrula has a three-layered structure with distinct regions that will develop into specific tissues and organs.

6. Neurulation (in chordates):

  - In animals with a notochord, like vertebrates, a process called neurulation occurs.

  - Neurulation involves the formation of the neural tube, which eventually develops into the brain and spinal cord.

The process of gastrulation is fundamental to the development of complex multicellular organisms, allowing for the specialization of cells into various tissues and organs.

Answer:

Griffith called the process transformation because the harmless bacteria had been transformed. So the answer is 'C'.

Explanation:

Griffith performed an experiment on the mouse in which he worked on two different strains of streptococcus. One of the strain  was capable of causing disease (virulent) III-S and the other was a rough strain which was non virulent type II-R. He injected different combinations of the strains. The heat killed smooth strain became non virulent.

The most important discovery he made was that when heat killed smooth strain and rough strain were introduced together in the mice and the mice died. It happened because the rough strain of bacteria transformed into virulent form as the DNA from heat killed smooth strain was imbibed by the rough strain which converted into virulent form.

Answer:  B. Tropical rain forest

O

Explanation: The climate and biodiversity of one of Earth's most diverse and iconic biomes. the tropical rain forest. The tropical rain forest biome has four main characteristics: very high annual rainfall, high average temperatures, nutrient-poor soil, and high levels of biodiversity

Answer: Pathology

Explanation:

Basically, pathology is a branch of medicine that deals with the study of diseases, its origin, its nature, its causes

Answer:

pathology

Explanation: