Glucose is the name of the sugar made during the Calvin cycle.
The Calvin cycle, a light-independent reaction, biosynthetic step, dark reaction, or photosynthetic carbon reduction cycle of photosynthesis, is a series of chemical reactions that convert carbon dioxide and hydrogen-carrying compounds to glucose. The Calvin Cycle reaction adds carbon (from atmospheric carbon dioxide) to a simple five-carbon molecule called RuBP. These reactions use chemical energy from NADPH and ATP generated in the photoreaction. The final product of the Calvin cycle is glucose. Carbon leaves the Calvin cycle to synthesize other products, such as triose phosphate to synthesize sucrose in the cytosol.
Learn more about Calvin Cycle
brainly.com/question/3199721
#SPJ4
identify the primary functions of areolar connective tissue.
The two subclasses of connective tissue are loose and thick tissues. Areolar, adipose, and reticular tissue are further categories for loose connective tissues.
Areolar tissues are widely dispersed throughout the body and serve largely as a cushion between other tissues. All over the human body is connective tissue, including the areolar connective tissue. Organs, muscles, and many other tissues are supported and protected by it. It aids in keeping the skin together as well.
Areolar Connective Tissue's Purpose is:-
1. Offers a protective framework that supports and holds important structures in place.
2. Has mast cells that aid in infection prevention.
3. The collagen fibers in the areolar tissue are extremely thick, giving it strength and rigidity.
To know more about areolar connective tissue visit;
brainly.com/question/10423687
#SPJ4
What is the chemical nature of neurotransmitters, and how can drugs
alter their function?
Neurotransmitters are the substances which act as signaling molecules in the body. Many drugs mimic these neurotransmitters by activating different cells in the body.
What are neurotransmitters?
A neurotransmitter is a signaling molecule which is secreted by a neuron to affect another cell or neuron across a synapse. The cell receiving this signal, any main body part, or the target cell, may be another neuron, however they could also be a gland or muscle cell.
Drugs interfere with the way neurons send, receive, and process signals via neurotransmitters in the nervous system. Some drugs, such as marijuana and heroin, can activate neurons in the body because their chemical structure mimics that of a natural neurotransmitter present in the body. This allows the drugs to attach onto and activate the neurons.
Learn more about Neurotransmitters here:
https://brainly.com/question/9725469
#SPJ1
PLEASE HURRY
Universal Gravitation applies to _________________________________________________.
a mainly planets and moons
b all objects
c only our solar system
d only one direction
Why was Copernicus' model of the universe considered controversial?
a It was not supported by observations.
b It was mostly incorrect.
c It contradicted religious doctrine of the time.
d It was a complex model.
Answer:
Universal Gravitation applies to __B. All Objects___.
Why was Copernicus' model of the universe considered controversial?
B. It was mostly incorrect.
Explanation:
Hope it helps:)
Ptolemy's model first became a generally accepted model of the universe in the early days of astronomy. This model described the earth as being motionless and occupied the center of the universe.
A table shaking model was proposed by Copernicus, which has come to be referred to as the heliocentric model of the universe. In this model, the earth is depicted as orbiting the sun about its own axis, and so did other planets. The sun now lies at the center of the solar system, surrounded by the planets.
This theory removed the supposed "uniqueness" of the earth among other planets, which sparked outrage, especially from the Roman Catholic church, since the idea was diametrically opposed to the scientific ideas prevalent at that time.
What are the differences between clastic, chemical, and organic sedimentary rocks?
Clastic sedimentary rocks are formed from the accumulation and compression of fragments of preexisting rocks or minerals, chemical sedimentary rocks are formed by precipitation of minerals from a solution, and organic sedimentary rocks are formed from the accumulation and compression of remains of plants or animals.
What are sedimentary rocks?Clastic, chemical, and organic sedimentary rocks are types of sedimentary rocks that form through different processes and have distinct characteristics.
Clastic sedimentary rocks are made up of fragments of other rocks, minerals, or fossils. These fragments, known as clasts, are transported by wind, water, or ice and then deposited in a new location. Examples of clastic sedimentary rocks include sandstone, shale, and conglomerate.Chemical sedimentary rocks form through precipitation of minerals from water. They can also form by chemical precipitation from other fluids like mineral rich hot springs. Examples of chemical sedimentary rocks include limestone, dolomite, and rock salt.Organic sedimentary rocks form from the accumulation and compression of organic material, such as plant or animal remains. Examples of organic sedimentary rocks include coal, oil shale, and some limestones.Learn more about sedimentary rocks, here:
https://brainly.com/question/10709497
#SPJ1
how many chromosomes do humans have in each body cell
Answer:
46
Explanation:
Match each image to the
correct step of the cell cycle.
MA
7605
Interphase
Prophase
Metaphase
Anaphase
Telophase
Cytokinesis
The matching of each image to the correct cell of the cell cycle is as follows: Interphase: Most Last picture. Metaphase: Third picture. Anaphase: Fourth picture. Telophase: Second picture. Cytokinesis: First picture.
What are is a cell?the smallest unit that can live on its own and that makes up all living organisms and the tissues of the body. A cell has three main parts: the cell membrane, the nucleus, and the cytoplasm.
Why it is called cell?Robert Hooke suggested the name cell in 1665, from the Latin cell meaning storeroom or chamber, after using a very early microscope to look at a piece of cork. is also said that he thought that the rectangular chambers looked like the cells in some monasteries.
To know more about cell visit
https://brainly.com/question/3142913
#SPJ1
The following is how each picture is matched to the appropriate cell in the cell cycle: Interphase: The final image. Third image, the metaphase. Anagram: Fourth image. Second image: the telophase. Cytokinesis: the first image.
What exactly are cells?the largest unit that can sustain life on its own and makes all living things, including the body's tissues. The epithelial tissue, the core, and the fluid are the three primary components of a cell.
How come it is called a cell?Robert Hooke first up the idea for the eponymous cell in 1665 after using a very primitive camera to study a piece of cork. The term comes from the Latin word organelle, which denotes a chamber or storage area. It is also asserted that he thought the rectangle-shaped areas looked similar to certain monastery cells.
To know more about cell visit:
brainly.com/question/3142913
#SPJ1
What happens if the undigested food is stored in large intestine?.
Which happens when undigested food is stored in the large intestine is that food forms waste and is excreted by the body.
The digestive system is a process carried out by the digestive organ system to process food through mechanical and chemical digestion. So food can be absorbed by the body and converted into energy. The digestive system consists of the alimentary canal and glands associated with the digestive process.
The large intestine is covered by a mucous membrane without folds except the rectum. The large intestine functions to absorb water, form faecal masses, and form mucus to lubricate the mucosal surfaces. In the large intestine, the process of digestion, both chemical and mechanical, does not occur. Therefore, food that is not digested by the small intestine and then enters the large intestine will only be absorbed by the water and then formed into feces. Stool that is formed will be pushed into the rectum periistally and then expelled through the process of defecation.
Learn more about digestive system at:
https://brainly.com/question/29077069
#SPJ4
yeasts can perform both aerobic respiration and fermentation. in fact, the homebrewer must be careful that oxygen is not introduced into the carboy once the yeast begin fermentation. what would be the products if o2 is allowed to enter the carboy?
If [tex]O_{2}[/tex] is аllowed to enter the cаrboy during fermentаtion, yeаsts would perform аerobic respirаtion.
In аerobic respirаtion, yeаst cells use oxygen аs the finаl electron аcceptor to produce energy. This process will produce cаrbon dioxide ([tex]CO_{2}[/tex]) аnd wаter ([tex]H_{2}O[/tex]) аs the mаin by-products. During fermentаtion, yeаst cells ferment sugаrs to produce energy without using oxygen. In the аbsence of oxygen, yeаst will ferment sugаrs аnаerobicаlly to produce ethаnol аnd [tex]CO_{2}[/tex] аs the mаin by-products. If oxygen is аllowed to enter the cаrboy during fermentаtion, yeаst will switch from fermentаtion to аerobic respirаtion. This cаn leаd to severаl potentiаl problems for the homebrewer.
For more information about the аerobic respirаtion refers to the link:
https://brainly.com/question/12605249
#SPJ4
minor items such as nails and glue are usually considered to be ______.
Minor items such as nails and glue are usually considered to be indirect materials.
Indirect materials refer to materials that are used in the production process but do not become part of the finished product. These materials may include items such as office supplies, cleaning supplies, and fuel for equipment. They are considered indirect because they are not directly traceable to the finished product and are typically used in support of the production process. Indirect materials are considered overhead costs, as opposed to direct materials which are direct costs associated with the production of a specific product.
Additionally, indirect materials can include items such as packaging materials, lubricants, and adhesives. They are typically considered indirect costs because they are not specifically identifiable with a particular product or job and cannot be easily traced to a specific unit of production.
To know more about indirect materials, click here,
brainly.com/question/28322420
#SPJ4
Which cells are involved in bone growth?
Bone morphogenetic proteins (BMPs), which are secreted and deposited into the extracellular matrix during bone formation, are the work of osteoblasts.
What kind of cells contribute to bone growth?terms in this group (9) The secretion of an organic matrix and mineral salts by osteoblasts contributes to the development of new bone. are established bone tissue cells that have reached maturity.
Which two cells are crucial to bone remodeling?Osteoclasts, multinucleated cells that break down the bone matrix, and osteoblasts, which have osteogenic functions, are the two main bone tissue cells that must operate properly for bone remodeling to occur.
To know more about bone visit:-
https://brainly.com/question/14810294
#SPJ1
Based on the periods of the stars , which three start the same most luminous?
The brightest stars, paradoxically, are among the least researched by astronomers, yet there has been at least one recent effort to record their brightness.
which three are the luminous stars ?
the list of the three most luminous stars are as follows they are sun, sirius, canopus. and not just that the list has the numerous number of stars like rigel, procyon and so on
The brightest stars, paradoxically, are among the least researched by astronomers, yet there has been at least one recent effort to record their brightness. The fluctuation in brightness between stars is being measured by the BRITE (BRight Target Explorer) constellation of nanosatellites. Austria, Canada, and Poland are among the countries involved in the six-satellite initiative. In 2022, five of the satellites are still functioning.
To learn more about luminous stars follow the given link: https://brainly.com/question/62981
#SPJ1
Which hormone stimulates the mammary glands to produce milk after childbirth?
The hormone that stimulates mammary glands to produce milk after childbirth is prolactin.
This hormone is produced by the pituitary gland, which is located in the brain. It is released into the bloodstream shortly after childbirth and helps the mammary glands to produce milk.
Prolactin not only helps the mammary glands to produce milk, but it also helps to regulate the amount of milk that is produced. It is essential for successful breastfeeding.
After childbirth, the hormone prolactin stimulates the mammary glands to produce milk. Prolactin is produced by the pituitary gland, and its release is regulated by the hypothalamus.
To learn more about hormone, click here:
https://brainly.com/question/13020697
#SPJ4
Briefly describe how you set up a wet mount.
A wet mount is a technique used in microscopy to view a sample suspended in a liquid. To set up a wet mount, you will need the following materials:
A microscope slideA coverslipThe sample you wish to view (in a liquid)A dropper or pipetteThe basic steps to set up a wet mount are:
Obtain a microscope slide and a coverslip.
Using a dropper or pipette, place a small droplet of the liquid containing the sample on the center of the microscope slide.
Carefully lower the coverslip onto the droplet of liquid, making sure to avoid trapping any bubbles between the coverslip and the slide.
Use the microscope to view the sample.
Keep in mind that depending on the sample and the type of microscope you are using, you may need to adjust the focus, light intensity, and magnification settings.
It is also important to remember that some samples may require special staining or fixation techniques before being placed in the wet mount. Additionally, some samples may not be suitable for wet mount because they are not transparent enough or can't be preserved in a liquid medium.
To learn more about wet mount visit the link:
https://brainly.com/question/21538060
Can RNA be synthesized in a lab?.
The capacity for self-reproduction is one of life's essential characteristics. The first ribonucleic acid molecules, a single-stranded relative of deoxyribose nucleic acid that can replicate almost any other RNA, have already been produced by scientists.
A ribozyme known as RNAP, also known as an all-RNA version of RNAP, was developed by scientists in 1993. It connected two short RNA strands on a different template strand. The issue with all of these RNAP ribozymes is that they can only reproduce specified nucleotide base sequences, which are the building blocks of RNA and DNA, and such sequences have no true biological importance in living cells. To encode the initial RNAP ribozyme, Joyce and his colleague first synthesized a sizable library of DNA strands. To ensure that each final RNAP was unique, the DNA sequence was altered at random. These RNAPs were a component of a vial that also included a number of short RNA fragments that the researchers intended to combine on another template strand. If the RNAP ribozyme was effective in producing the new RNA, the new strand would bind to a particular molecular target in its vial as proof. Each RNAP ribozyme was designed to remain attached to its unique, produced RNA strand, which allowed the researchers to identify any successes. Then, a new round of evolution was started from scratch using each captured RNAP ribozyme. The present product is an RNAP ribozyme known as 24-3 polymerase, which evolved in 24-round test tubes. The criteria for a productive RNAP ribozyme gradually increased during this procedure. The 24-3 polymerase can increase the abundance of some RNAs 10,000-fold by replicating already duplicated RNAs. As a result, the first RNA version of the widely utilized polymerase chain reaction, which copies DNA, was developed.
To know more about the polymerase chain reaction click here,
https://brainly.com/question/28502368
#SPJ4
what is the difference between a reptile and an amphibian
Answer:
Reptiles have scales, and their skin is dry. Amphibians do not, and their skin is often moist with mucus, which keeps them from drying up.
this gland secretes melatonin, a hormone that may help regulate when you sleep at night
Pineal gland secretes melatonin, a hormone that may help regulate when you sleep at night.
The pineal gland in the brain is primarily responsible for producing the naturally occurring hormone melatonin. Your circadian rhythm and sleep–wake cycle are better under your control. There is still a lot that scientists don't know about all of its impacts on the human body. Your pineal gland, a tiny gland in your brain, is primarily responsible for producing the hormone melatonin, which is a natural steroid. Your endocrine system includes your pineal gland.
When it is dark outside, your pineal gland produces the most melatonin; when you are exposed to light, it produces less. This means that during the daytime, melatonin levels in your blood are low, while at night, they are at their highest. Your pineal gland releases melatonin for a longer period of time the longer the night.
To know more about pineal gland, refer to the following link:
https://brainly.com/question/9637584
#SPJ4
Pick 5 important key features of the cell membrane and write about each and why they are
important.
A cell membrane, also known as a plasma membrane, is a thin, semipermeable barrier that surrounds the cytoplasm of a cell and separates the cell from its environment.
What do you mean by cytoplasm?
Cytoplasm is the fluid-like substance found in the interior of a cell, excluding the nucleus. It is composed primarily of water and contains a variety of organic and inorganic molecules, ions, and organelles. It functions as the cell’s metabolic center and plays important roles in many cell processes, such as energy production, protein synthesis, and cell division.
Five important key features of the cell membrane:
1. Phospholipid Bilayer: The phospholipid bilayer is important for regulating the flow of substances both into and out of the cell, allowing the cell to acquire the nutrients it needs and expel waste.
2. Glycoproteins: They are important for cell-to-cell communication, as they bind to specific receptors on other cells to facilitate communication between the cells. They also act as recognition sites for hormones and other molecules that enter the cell.
3. Cholesterol: Cholesterol is a fatty molecule that helps stabilize the cell membrane and prevents it from becoming too rigid or too fluid. It also helps regulate the movement of substances across the cell membrane.
4. Integral Proteins: They are important for transporting molecules across the membrane, as well as for recognizing and interacting with other molecules.
5. Peripheral Proteins: They play an important role in cell signaling and regulation, as they can interact with other proteins or molecules on the cytoplasmic side of the cell membrane. They are also important for anchoring the membrane to the cytoskeleton.
To know more about cytoplasm,
https://brainly.com/question/174023
#SPJ1
Is it possible for two
parents that both have a recessive trait to pass off the
dominant trait to their offspring? Explain please!!
Answer: yes it is possible and the reason behind this is DNA and RNA.
Explanation: DNA and RNA are direct factors affects the child. Traits of parents DNA are highly influential for a child growing inside womb. Also the psychological reason can also help passing trait of parents to children as even in womb child observe all the energy, surrounding and behaviour.
What would happen if a wave is absorbed by a material? I think the waves energy would transfer to the material
Answer The energy of the wave is transferred to the
Explanation:
How many biosafety levels are there for selected infectious agents?OneTwoThreeFour
There are four different levels of biosafety. For the containment of germs and biological agents, each level has unique restrictions.
Biosafety is the practice of taking preventative measures to lessen the possibility of a laboratory worker coming into contact with a potentially contagious bacterium and to prevent contamination of the workplace and, eventually, the community. The main factors that affect containment levels are infectivity, disease severity, transmissibility, and the type of activity being done. The source of the microorganism or substance in question, as well as the exposure route, are crucial. Laboratory procedures, safety gear, and facility construction all require specialized containment controls that vary depending on the biosafety level. The levels of biosafety are BSL-1 through BSL-4. The controls of each level in the biosafety hierarchy are built upon. Regardless of the biosafety level, standard microbiological procedures are followed in every microbiology laboratory.
To learn more about biosafety from the link: https://brainly.com/question/28258024
#SPJ4
unspecialized cells that retain the ability to become a wide variety of specialized cells called
Answer:
Stem cells
Explanation:
how does glucagon cause the blood glucose level to decrease
By promoting hepatic glucose synthesis, the glucoregulatory peptide hormone glucagon works to offset the effects of insulin and raise blood glucose levels.
What is the structure and Synthesis of Glucagon?The pancreatic alpha cells primarily secrete the 29-amino acid peptide hormone known as glucagon. It comes from the precursor proglucagon, which is metabolized into a number of similar peptide hormones. Intestinal enteroendocrine L cells, pancreatic islet alpha cells, and brain stem and hypothalamus neurons all express proglucagon to varying degrees (8,9). Prohormone convertase 1/3 (PC1/3) and prohormone convertase 2 (PC2), which are processing enzymes, carry out the proglucagon processing, respectively. Proglucagon is converted to glucagon by PC2 in the pancreas, whereas PC1 is responsible for the conversion of proglucagon in the gut and the brain, resulting in the creation of GLP-1 and GLP-2 (9).To Learn more About hormone glucagon refer to:
https://brainly.com/question/10622985
#SPJ4
initiates the synthesis dna by creating a short rna segment
Conflation of DNA begins with the conformation of a short RNA member called an generator.
This generator binds to a template beachfront of DNA and acts as a manual for DNA conflation. Priming of DNA conflation is essential because it provides a starting point for the addition of deoxyribonucleotides to the growing DNA beachfront.
The inauguration of DNA conflation requires the list of the generator to the template beachfront of DNA, which is done through reciprocal base pairing. Once the generator is bound to the template DNA beachfront, DNA polymerase begins to synthesize the new beachfront of DNA. During this process, the generator acts as a manual and provides the 3 ’ end of the template
To know more about DNA visit:
https://brainly.com/question/30006059
#SPJ4
T/F a peripheral nerve passes from the spinal cord into the limbs
True. A peripheral nerve passes from the spinal cord into the limbs.
What do you mean by spinal cord?
The spinal cord is a long, thin bundle of nerves that runs from the base of the brain down to the lower back. It is the main conduit for information between the brain and the rest of the body. It carries nerve signals to and from the brain and is responsible for relaying information about sensation and movement. It also plays a role in controlling involuntary body processes such as breathing, heart rate, and digestion.
Peripheral nerves are the nerves that connect the central nervous system (CNS) to the limbs and organs of the body. They pass from the spinal cord, which is part of the CNS, into the limbs and organs. These nerves carry both sensory and motor signals from the CNS to the limbs and organs, and vice versa. This allows the CNS to control movement, sense touch, and regulate organ functions.
To know more about spinal cord,
https://brainly.com/question/12187861
#SPJ4
nervous system subdivision that is composed of the brain and spinal cord
The brain and spinal cord are the two components of the central nervous system. The peripheral nervous system is composed of nerves that emerge from the spinal cord and cover the entire body.
What division are the brain and spinal cord?The peripheral nervous system (PNS) and the central nervous system (CNS) are two components of the human nervous system (PNS). The brain and spinal cord are two components of the CNS that are located in the cranial cavity of the skull and the vertebral canal, respectively.The peripheral nervous system (PNS) and the central nervous system (CNS) make up the entire nervous system (PNS).The term "peripheral nervous system" describes the portions of the nervous system that are not located in the brain and spinal cord. It contains the neuromuscular connections, peripheral nerves, spinal nerves, their roots, and branches.The cervical, thoracic, lumbar, and sacral portions of the spinal cord are the four distinct divisions.To learn more about spinal cord refer to:
https://brainly.com/question/25188638
#SPJ4
A culture of yeast grows at a rate proportional to its size. If the initial population is cells and it doubles after hours, answer the following questions.
The number of yeast cells will increase at the following rate at eight hours: 377
The expression for the number of yeast cells after t hours is - 3000 + 2t.
After 88 hours, there are 3016 yeast cells overall.
The number of yeast cells is increasing at a rate of 377 yeasts per hour after 8 hours.
The expression for the number of yeast cells after t hours is
= 3000 + (2 × t)
= 3000 + 2t
The quantity of yeast cells after 8 hours will be:
= 3000 + 2t
= 3000 + 2(8) (8)
= 3000 + 16
= 3016
The number of yeast cells will be increasing at the following rate at eight hours: = 3016/8 = 377
To know more about population visit:-
brainly.com/question/13184540
#SPJ4
Question:-
A culture of yeast grows at a rate proportional to its size. If the initial population is 3000 cells and it doubles after 2 hours, answer the following questions.
(a) Write an expression for the number of yeast cells after t hours.
(b) Find the number of yeast cells after 8 hours.
Is an example of X-linked recessive trait *?.
Red-green color blindness and hemophilia A: Red-green color blindness are two examples of X-linked recessive diseases.
Red-green color blindness is simply the inability to distinguish between the many hues of red and green (usually blue-green). They can see with normal optical acuity.
An genetic bleeding ailment called hemophilia causes the blood to clot improperly. It results from insufficient levels of the clotting factor in the blood. The hemophilias A and B have an X-linked recessive inheritance pattern. One of the two sex chromosomes, the X chromosome, contains the genes linked to these diseases.
A mutation would need to occur in both copies of the gene in females (who have two X chromosomes) for it to result in the condition. However, boys have a higher risk of developing the condition since they only have one copy of the X gene.
Learn more about Hemophilia:
brainly.com/question/1428363
#SPJ4
Are green leaves carbon or nitrogen?.
High levels of carbon and low levels of nitrogen can be found in leaves. Nitrogen is necessary for the metabolism and growth of the microbes that break down organic matter such as leaves and other types of organic matter.
More consideration must be given to the carbon-nitrogen balance because leaves are primarily composed of carbon (60 parts carbon to 1 part nitrogen). The right ratio of leaves to green material or manure will not only result in a more nutrient-rich end product, but it will also speed up the production of compost.In plants, nitrogen makes up a portion of the chlorophyll. The green pigment in leaves and stems is called chlorophyll. Chlorophyll absorbs light energy and uses it to convert it into sugars that the plant can use.To know more about Green leaves here
https://brainly.com/question/24234175
#SPJ4
Use evidence to explain the effects of draining a peatland on the ecosystem. Predict how these changes could affect global ecosystems if global temperatures continue to rise. Give specific examples to justify your prediction. Type your answer in the space provided.
A peatland's drainage for agricultural purposes and other human activities, as well as changes in weather patterns and sea levels, have an adverse influence on the ecology, which supports a vast range of plant and animal species.
Tell us about draining a peatland?
A peatland is a form of wetland environment that is characterized by the buildup of peat, a type of soil made up of partially decayed plant material, and is referred to as an ecosystem that has been drained. Bogs, fens, and mires are only a few types of peatlands that may be found all over the world.
Peatlands are special environments that sustain a broad diversity of plant and animal species, therefore draining one can have a tremendous influence on the ecology. The water table drops when a peatland is drained, which may result in the loss of wetland ecosystems and the species that rely on them. As the peat dries up and decomposes, this may also result in a rise in the amount of carbon dioxide emitted into the atmosphere.
The peatlands of Southeast Asia, which have been extensively drained for agriculture and other human endeavors, are one particular illustration of this. Due to this, habitats for rare species like the Sumatran rhinoceros and orangutans have lost their homes, and the release of large amounts of carbon dioxide into the atmosphere.
To know more about ecosystem visit:
brainly.com/question/29775110
#SPJ1
genetic diversity leads to _____ in a species. This means that
individuals in a species have _____ in their alleles and ______.
If ______conditions shift, a species with greater genetic diversity
has a _____ chance of having individuals who are better suited to
the new conditions...and the species can adapt and survive.
Therefore, genetic diversity is directly linked to
_____survivorship through natural selection and adaptation.
Genetic diversity is also linked to _____ as an accumulation of
genetic differences and natural selection can act together to result
in new species. In contrast, asexual reproduction only produces
_____, so if environmental conditions kill one, they kill ____.
(words: all, individual, better, variation, species, phenotypes, genetic diversity, worse, speciation, environmental, clones.
Genetic diversity leads to variation in a species. This means that
individuals in a species have genetic diversity in their alleles and phenotypes.
If environmental conditions shift, a species with greater genetic diversity
has a better chance of having individuals who are better suited to
the new conditions...and the species can adapt and survive.
Therefore, genetic diversity is directly linked to individual survivorship through natural selection and adaptation.
Genetic diversity is also linked to speciation as an accumulation of
genetic differences and natural selection can act together to result
in new species. In contrast, asexual reproduction only produces
clones, so if environmental conditions kill one, they kill all.
What is genetic diversity?The total number of genetic traits that make up a species' genetic makeup is known as genetic diversity, and it can be related to how long a species has been around by considering both the number of species and the variations that exist within species.
Learn more about genetic diversity at: https://brainly.com/question/9718084
#SPJ1