Use of synthetic fertilizers often leads to the contamination of groundwater with nitrates. Nitrate pollution is also a suspected cause of anoxic "dead zones" in the ocean. Which of the following might help reduce nitrate pollution?a) growing improved crop plants that have nitrogen-fixing enzymes.
b) adding nitrifying bacteria to the soil.
c) adding denitrifying bacteria to the soil.
d) using ammonia instead of nitrate as a fertilizer.
Explanation:
Growing improved crop plants that have nitrogen fixing enzymes
Nitrate pollution occurs because of the introduction of excessive amounts of nitrogen to ground water and surface waterUse of synthetic fertilizers has resulted in high levels of pollution and eutrophication of lakes and rivers When nitrogen fertilizers are leached deep down into the soil they cause serious pollution problemsPlants that can do nitrogen fixation include members of family FabaceaeThe symbiotic association between legumes and Rhizobium is the most important nitrogen fixing association; rhizobia bacteria convert nitrogen gas to ammonia and this process is called nitrogen fixationAdding denitrifying bacteria to the soil could help reduce nitrate pollution by converting nitrates into nitrogen gas through the process of denitrification.
The excessive use of fertilizers leads to high levels of nitrates in groundwater and contributes to the creation of anoxic "dead zones" in the ocean. To help reduce nitrate pollution, one effective method could be adding denitrifying bacteria to the soil. These bacteria perform denitrification, a process where they convert nitrates (NO3−) into nitrogen gas (N2), thereby reducing the levels of nitrates in the soil and preventing the leaching of these compounds into groundwater and ultimately the ocean. This reduction in nitrate levels could decrease the occurrence of eutrophication and subsequent anoxic conditions.
The term _____ refers to a group of related plants that grow in some regions of Central and South America and whose leaves are used as natural sweeteners
Answer:
dtyykuk
Explanation:
utlilitli
The predatory bacterium, Bdellovibrio bacteriophorus, drills into a prey bacterium and, once inside, digests it. In an attack upon a gram-negative bacterium that has a slimy cell covering which can inhibit phagocytosis, what is the correct sequence of structures penetrated by B. bacteriophorus on its way to the prey's cytoplasm? 1. membrane composed mostly of lipopolysaccharide 2. membrane composed mostly of phospholipids 3. peptidoglycan 4. capsule A) 4 ?? 3 ?? 1 ?? 2 B) 1 ?? 4 ?? 3 ?? 2 C) 2 ?? 4 ?? 3 ??1 D) 4 ?? 1 ?? 3 ?? 2 E) 1 ?? 3 ?? 4 ?? 2
Answer:
D) 4,1,3,2
Explanation:
Once past the capsule, the next membrane is composed of lipopolysaccharides. Then comes the peptidoglycan cell wall. Finally, the inner membrane is composed of a phospholipid bilayer.
Which linkages would you expect to find at a branch point in glycogen or amylopectin?
Answer:
α-1,6-glycosidic linkage.
Explanation:
The carbohydrates are the polymers made of the sugars and bonded together through the glycosisdic bonds. The monosaccharides are the simplest unit of the carbohydrates.
The glycogen and amylopectin share similar structural features. Both have α-1,4-glycosidic linkage in their linear structure. The branching has been introduced in the glycogen and amylopectin structure through the α-1,6-glycosidic linkage.
Thus, the answer is α-1,6-glycosidic linkage.
There are several different types of symbiotic relationships. In this case, a tick attaches to an animal and feeds on its blood. Ticks need blood at every stage of their life cycle. Ticks can also spread disease to the animals when they penetrate the animal's skin while sucking its blood. What type of symbiotic relationship is this? Explain.
Answer:
Parasitism
Explanation:
There are three main types of symbiotic relationship which includes:
Mutualism: this is a type of symbiotic relationship that occurs between two organism where both gains/has something to offer to the relationship. Example is the mutualistic relationship between nitrogen fixing bacteria and root nodules of leguminous plant
Commensalism: a type of relationship in which only one benefits but does not cause harm to the other. Example: cattle egret and cattle
Parasitism: a relationship where one organism benefit and cause harm to the host organism. Example is the tick and its host
Answer:
paratism
Explanation:
Charles and Irene are editors at a content development firm. Both of them, unknowingly, are working on the same copy of the annual report. Irene finishes editing the report and saves her copy; Charles saves his report an hour after Irene. Charles's report replaces Irene's, and her changes are lost. This is an example of which kind of database problem?
Answer:
lost-update program
Explanation:
Based on the information provided within the question it can be said that this is an example of the database problem known as lost-update program. This term refers to when more than one individual is attempting to update a database entry within the same column and same row, at the same time. This causes the first entry that was saved by the system to be completely overwritten and lost. Such as what happened to Irene's report since it was saved first and then overwritten by Charle's report.
Compare and contrast some features of prokaryotic and eukaryotic cells. Match each statement with the correct cell type. 1. Lack of membrane-bound nucleus.2. DNA in cytoplasm.3. Single, circular chromosome.4. Membrane-bound nucleus.5. DNA inside nucleus.6. Multiple chromosomes. 7. Prokaryotic Cell. 8. Eukaryotic Cell.
Prokaryotic cells are cells with simpler features without membrane-bound organelles and nuclei. They are unlike the more complex eukaryotic cells with specialized organelles like the nucleus and membrane-bound mitochondrion, chloroplast, lysosomes, etc.
Both prokaryotic and eukaryotic cells have some basic features in common such as the presence of ribosomes for the synthesis of proteins and cell membrane for maintaining homeostasis. However, the absence of nuclei means that prokaryotic cells have their genetic materials which could be as simple as a circular chromosome lying freely in the cytoplasm.
That being said, each of the statements in the illustration can be matched as follows:
Prokaryotic cells: lack of membrane-bound nucleus, DNA in cytoplasm, single circular chromosomes
Eukaryotic cells: membrane-bound nucleus, DNA inside the nucleus, multiple chromosomes.
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Intracellular condensates are non-membrane bound biochemical subcompartments that form due to phase separation among networks of weakly interacting molecules. Sabari et al., 2018, proposed that the transcriptional coactivator BRD4 helps form intracellular condensates containing other transcriptional proteins. A prediction of this proposal is that BRD4 should behave as a liquid within the condensate with rapid movement. Which procedure could be used to analyze movement of BRD2 in living cells?
Answer:
Fluorescence recovery after photobleaching.
Explanation:
The molecules can move inside and outside of the cell trough the semi permeable membrane. The molecules might require or do not require energy depending upon the concentration gradient.
The FRAP (fluorescence recovery after photobleaching) is the techniques used to identify the diffusion and lateral movement of molecules. This technique uses the fluorescence molecule and then the photobleaching of that particular molecule is directly proportional to the movement of molecule. The bleaching can be observed on the autoradiography.
The very limited gene pool of wild cheetahs is an example of A. founder effect. B. natural selection. C. evolutionary decline. D. mate selection. E. the bottleneck effect.
Answer:
The very limited gene pool of wild cheetahs is an example of evolutionary decline
Explanation:
When there is limited gene pool of wild cheetah is an example of evolutionary decline, as there is decrease in number of gene pool of cheetah in the wild which makes it to be scarce
You are given the task of designing an aerobic, mixotrophic protist that can perform photosynthesis in fairly deep water (for example, 250 meters deep) and can also crawl about and engulf small particles. With which two of the following structures would you provide your protist?1. hydrogenosome
2. apicoplast
3. pseudopods
4. chloroplast from red alga
5. chloroplast from green alga
Answer:
3. pseudopods
4. chloroplast from red alga
Explanation: Pseudopods are extensions of the Cytoplasm of cells like Amoeba, they are changed in shape and appearance in order to aid the movement and for predation of the organisms that possess it.
Chloroplast from Red algae are characterized as not having Centrioles and flagella in their Eukaryotic cells and are known to contain the red pigments instead of the green pigments as seen generally in chloroplast.
_____ is the oldest possible age that members of a species can attain, whereas _____ is how long an average newborn in a particular place is likely to live.
Answer: Life span, Life expectancy.
Explanation:
The beginning of a true capillary is surrounded by a precapillary sphincter. The opening and closing of precapillary sphincters is controlled by ________.
Answer:
Local Chemical condition
Explanation:
Precapillary sphincter is a small smooth muscles that regulates the flow of blood into the capillaries.
Blood flows to the surrounding branches of the capillary due to the fact that surrounding capillaries require oxygen when the sphincters are open and the blood flows directly from the arteriole( which is a small artery) to the venule( which is a small vein) when the sphincters are closed
The opening and closing of precapillary sphincters at the beginning of a true capillary is controlled by chemical signals.
These signals work at the level of the sphincters to trigger either constriction or relaxation.
This control allows for the regulation of blood flow into a particular capillary.
For example, if the sphincter is open, blood will flow into the associated branches of the capillary blood.
Conversely, if all sphincters are closed, the blood will flow directly from the arteriole to the venule through the thoroughfare channel.
These muscle rings allow the body to accurately regulate when capillary beds receive blood flow, depending on the body's needs at any given time.
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If you wanted to sequence the genome of Ötzi, the 5,300-year-old "Iceman" mummy found in the Alps in 1991, which method would you be most likely to use?
The question is incomplete as it does not have the options which are:
a) DNA
b) AGCT
c) PCR
d) SNP
Answer:
PCR (polymerase chain reaction)
Explanation:
The polymerase chain reaction is the technique which replicates and produces multiple copies of the DNA molecule artificially in a short period of time.
The PCR technique employs a variety of enzymes and all the prerequisites which are required in the DNA replication in vivo conditions.
In the given question, if the genome of the mummy has to sequence then after the collection of samples from the bones, the DNA has to replicate through the process of PCR. The samples from the different bone structures can be compared and analysed and a complete genome sequence can be analysed.
Thus, PCR is correct.
In the Z-scheme ____ is the initial electron donor and ____ is the final electron acceptor. A. Water; NADP B. NADPH; oxygen C. Water; oxygen D. ATP; carbon dioxide
Explanation:
Z scheme also known as non cyclic electron flow which starts with the absorption of light by photosystem II
Z scheme involves both photosystem(PS) I and photosystem(PS) IIWater becomes oxidized and oxygen gas is released/evolved as a result NADP+ gets reduced and produces NADPHOxidation of water and release of protons in lumen is done by PSII whereas reduction of NADP+ to NADPH is done by PSIOxidation of water molecule establish gradient of proton and this gradient drives synthesis of ATPIn the Z-scheme of photosynthesis, water (H2O) is the initial electron donor, and NADP+ (nicotinamide adenine dinucleotide phosphate) is the final electron acceptor. Therefore option A is correct.
The Z-scheme, also known as the light-dependent reactions, occurs in the thylakoid membranes of chloroplasts.
During this process, light energy is absorbed by photosystems I and II, exciting electrons in chlorophyll molecules.
These electrons are then transferred along an electron transport chain, which includes cytochrome complexes, plastocyanin, and finally, NADP+. In the last step, NADP+ accepts two electrons and a proton, becoming reduced to NADPH.
Water is split, providing the electrons needed to replenish the electrons lost from chlorophyll in photosystem II, and oxygen (O2) is released as a byproduct.
Therefore option A Water; NADP is correct.
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You find a green organism in a pond near your house and believe it is a plant, not an alga. Which line of evidence would definitively support your hypothesis?
Final answer:
The presence of specialized structures like roots, stems, and leaves, as well as the ability to undergo photosynthesis, would definitively support the hypothesis that the green organism is a plant and not an alga.
Explanation:
The line of evidence that would definitively support the hypothesis that the green organism found in the pond near your house is a plant and not an alga is if it has specialized structures such as roots, stems, and leaves. These structures are characteristic of plants and are not found in algae. Additionally, if the organism undergoes photosynthesis and contains chloroplasts, it would further support the idea that it is a plant.
Based on what we know about the osmosis of water molecules across plasma membranes, predict what will happen to the cytoplasmic volume of the cells of Elodea (that is, the amount of liquid stored inside the cells) when an Elodea leaf is placed in a 15% NaCI solution (a hypertonic environment)
Based on what we know about the osmosis of water molecules across plasma membranes, predict what will happen to the cytoplasmic volume of red blood cells (that is, the amount of liquid stored inside the cells) when red blood cells are placed in distilled water (a hypotonic environment)
Answer:
when placed in hyper tonic solution , the cytoplasmic volume of elodea plant will be reduced, this is because, elodea is a water plant with high water potential; therefore,with cytoplasm of high water potential elodea will loose water from the cytoplasm to the external; hypertonic solution, of lower of potential by osmosis. This reduces the cytoplasmic volume.With time the protoplasm pulls away from the cell wall, and the whole elodea structure shrinks.
However,, when RBC is placed in hypotonic solution, of higher water potential than the RBC (which has lower water potential), the cytoplasmic volume increases as water moves into the cytoplasm by osmosis. The RBC swells and eventually busted. This is hemolysis.
Explanation:
In hypertonic solutions, water leaves cells causing cytoplasmic volume to decrease. In hypotonic solutions, water enters cells causing cytoplasmic volume to increase.
Explanation:In a hypertonic environment, such as a 15% NaCI solution, water molecules will move out of the Elodea cells through osmosis, causing the cytoplasmic volume to decrease. The hypertonic solution has a higher concentration of solute compared to the cytoplasm, so water will leave the cells to equalize the concentration. This can lead to shrinkage or wilting of the Elodea cells.
In a hypotonic environment, like distilled water, water molecules will move into the red blood cells through osmosis, causing the cytoplasmic volume to increase. The hypotonic solution has a lower concentration of solute compared to the cytoplasm, so water will enter the cells to equalize the concentration. This can result in the swelling and potential bursting of the red blood cells.
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What feature of DNA allows for faithful copies to be made during DNA replication and passed on to the daughter cells? If you cannot remember from high-school biology, you can review these basic concepts by completing this week's homework assignment first, before continuing this pre-lecture lesson: Molecular Basis of Heredity complementary base-pairing rules redundancy of genetic code no restriction of sequence of nucleotides along length of DNA molecule Central Dogma of Biology
Answer:
complementary base-pairing rules
Explanation:
DNA is the genetic material of living cells. It is a long chain of double-stranded molecules, in which each strand is complementary to one another i.e. Adenine base is paired with Thymine base while Guanine base pairs with Cytosine base following the complementary base pairing rule as proposed by Chargaff. This pairing is responsible for the double helical structure of the DNA.
The complementary base pairs that a DNA molecule contains make it able to produce identical copies of itself during replication or duplication. Before replication of DNA can occur, the double strands need to unwind to form two separate strands, which serves as a template for the synthesis of new complementary strands.
In this manner, each new strand contains one template strand and one complementary strand, which forms two new double helix that is identical to the original strand. This two identical copies of DNA gets separated into two daughter cells, which is the essence of the DNA replication.
Bacteria are a commonly used organism for studies of genetic material in the research laboratory. The nucleic acids must first be isolated from the cells for these studies. Which of the following would most likely be used to lyse the bacterial cells for nucleic acid isolation?
a. lysozyme
b. polymixins
c. alcohol
d. water
e. mycolic acid
Answer: a. lysozyme
Explanation: Lysozyme discovered by Sir. Alexander Fleming are enzymes that catalyzes the breakdown of some carbohydrates present in the cell walls of some bacteria. They can be used to lyse the cell walls of bacteria for isolation of the nucleic acids.
As president, Theodore Roosevelt was persuaded by Gifford Pinchot to refrain from setting aside millions of acres of federal land as wildlife preserves. True
Explanation:
Wildlife preserves can be found in each nation, each condition and each environment. Preserves hold however much of a primitive character as could be expected, acting as sanctuaries for flora and fauna and the characteristic procedures interesting to a considerable lot of these regularly special areas. Preserves are shielded from improvement trying to save their character. Unfortunately, bueracrats and psuedo-conservationalists at times have alterior thoughts of a preserve's purpose.
Isabella was horrified when her newborn son Matteo became cyanotic immediately after he was born. He was whisked away; when the doctor returned, he told Isabella and her husband that their son had a congenital heart defect called TGV or transposition of the great vessels. Part A - Cyanosis To become cyanotic means to turn blue. What could cause a new born to turn blue
Answer:
A new born baby can turn blue when there is not enough oxygen rich blood in his body
Explanation:
TGV - Transposition of the great arteries is a defective heart condition that occurs from birth. The two great arteries are the aorta and pulmonary artery. The aorta carries oxygen-rich blood from the heart to the rest of the body while the pulmonary artery carries oxygen deficient blood from the body to the lungs
Normally the aorta which is supposed to be connected to the left ventricle and supply oxygen rich blood from the heart to the rest of the body is transposed. Meaning that it is instead connected to the right ventricle and carries oxygen-deficient blood to the body.
Conversely in TGV situation, the pulmonary artery is connected to the left ventricle (instead of the right ventricle) and carries oxygen rich (instead of oxygen-deficient) blood to the lungs.
The result is that the new born baby body has oxygen deficient blood and hence begins to burn blue (cyanotic)
A leukocyte is responsible for:
bringing oxygen to the other body cells
fighting disease by phagocytosis or antibody production
causing muscle contraction
conducting nervous impulses throughout the body
Answer:
The second one is correct
Explanation:
A leukocyte is responsible for the immune system
Answer: fighting disease by phagocytosis or antibody production
Two parent plants fertilize to produce all tall offspring, depicted by the genotype Dd. D represents the trait for tall plants and d representing the dwarf trait. The only information you are provided is that the female parent exhibits the dwarf phenotype. Answer the following questions: Male Female What is the genotype of the female parent? What is the genotype of the male parent? Dd all tall What is the phenotype of the male parent (NOT genotype)? (one word only)
Answer:
i) genotype of female parent is dd ( dwarf). ii) genotype of male parent is DD(tall). iii) so, phenotype of male is Tall(Dd).Explanation:
Given:
D is dominant on d.
d is recessive allele,
all children are Dd ( tall)
Female parent exhibits the dwarf phenotype, so the genotype of female is dd.
i) genotype of female parent is dd ( dwarf).
ii) genotype of male parent is DD(tall).
iii) so, phenotype of male parent is Tall(Dd).
WILL BE MARKED AS. BRAINLIEST The process of inflammation _____.
a. is an ongoing response to long-term infection
b. produces chemotaxis
c. is a fast process that destroys infected or damaged tissue
d. produces prostaglandins
e. is never helpful to healing
Answer:
E
Explanation:
Inflammation occurs when tissues are injured by bacteria, trauma, toxins, heat, or any other cause.
Answer:Option d is correct that is Produces prostaglandins.
Explanation
Because prostaglandins are the chemical the releases at the site of infection. This chemical cause the release of the fluid from blood vessels to tissues and causes swelling. It act as ap part if healing process.
How many and what type of chromosomes would be expected in a karyotype of a human male
Answer: 22 pairs of autosomal chromosomes, 1 Y chromosome, and 1 X chromosome
Explanation:
The chromosomes pair are found in same number in both males and females. The male have XY chromosome and 22 pair of autosomes.
The XY pair of chrmosomes are known as sex chromosomes which decides the person is male or female.
The karyotype of the male person will have 22 pair of autosomes and a pair of sex chromosomes XY.
Consider the following statement: Bacteria can exchange genetic material through conjugation without the need for any protein structures or control mechanisms. Is this statement True or False
Answer:
FALSE.Explanation:
Bacteria exchange genetic material through conjugation with the help of proteins and various other factors.
It is the temporary union of two bacteria for the exchange of genetic material.
Steps :
An F+ donor (donor bacteria) cell contains its chromosomal DNA and an F plasmid.
It uses its pilus to attach to the recipient cell, and then these two cells are pulled together.
Then A channel forms between the cytoplasms of the two cells, through which conjugation occurs.
Some of the largest leaves in the world can be found on plants near the floor of dense tropical rain forests. Which of the following precursors for photosynthesis is most likely limited in these large leaves?A) oxygenB) carbon dioxideC) glucoseD) light
Light.
Explanation:
The tropical rainforest have a dense plant cover and the canopy of tall and densely packed trees do not allow much light to penetrate through them. However, light is essential precursor of photosynthesis for all green plants. To adapt in such conditions the plants that thrive on the forest floor of tropical rainforest developed large leaves so that more and more available light could be trapped in order to carry out photosynthesis.
Thus we can say here light being limited ,acts factor that lead to such morphology.
Which term defines the ketotic state most individuals enter in the early morning even after eating a meal containing carbohydrates the previous evening?
Answer:ketosis
Explanation: individuals experience a state of ketosis in the morning even afyer eating a carbohydrate-containing meal the previous evening. Ketosis is a state of metabolism in which there is very little glucose in the body, therefore, fat acs to provide energy to the body. Although ketosiz is mostly experienced in cases of low-carbohydrate diets, it also occurs in cases of pregnancy, infacny or in lactating mothers. Such cases are termed physiologic ketosis.
A long filamentous organelle found within muscle cells that has a banded appearance is called
Answer:
A long filamentous organelle found within muscle cells that has a banded appearance is called myofibril
Myofibril is called a long filamentous organelle found within muscle cells that has a banded appearance.
The myofibril consists of thick and thin filaments that form a pattern of striations, with thin filaments of actin in opposite directions that are joined by actin dimers.
Each myofibril has a banded appearance and is located within the striated muscle fiber, together with the mitochondria and the sarcolemma.The molecular and cellular mechanisms and processes that explain muscle contraction in skeletal muscle occur in the myofibril sarcomere.Therefore, we can conclude that the myofibrils are groups of thick and thin filaments that collaborate in muscle contraction.
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You measure the concentration of a polar molecule inside and outside of a cell. You find that the concentration is high outside but gradually increasing inside the cell. You also measure the ATP concentration inside the cell and find that it remains constant. Your best hypothesis for the process that is occurring would be: a. active transport b. passive transport c. facilitated diffusion d. simple diffusion e. endocytosis
Answer:
The correct answer is passive transport
Explanation:
Passive transport is the transport in which the molecules move inside the cell along the concentration gradient without the use of energy.
So here there is a concentration gradient and the polar molecule is moving from its high concentration to its lower concentration which results in increment of that polar molecule inside the cell and it is also given that no energy is used in this case as ATP concentration is constant which shows that the transport is passive transport. In active transport ATP is used to transport molecules across cell membrane.
Why does temperature affect heart rate in ectothermic organisms
Answer:cause its hot
Explanation:
Answer:
hii
Explanation: