Answer:
C
Explain: USATEST prep said so
Cortical nephrons can be distinguished from juxtamedullary nephrons by
A. their location within the renal cortex.B. their filtration rate.C. the size of their renal corpuscle.D. whether they drain into a collecting duct or directly into the renal pelvis
Answer:
A. their location within the renal cortex
Explanation:
Cortical nephrons are located high in the renal cortex and their loop of Henle is short. On the other hand, juxtamedullary nephrons are located near the medulla (low in the renal cortex) with long loop of Henle (deep in the medulla). Another difference between these two type of nephrons is that juxtamedullary nephrons produce more concentrated urine.
Final answer:
Cortical nephrons are distinguished from juxtamedullary nephrons by A. their location in the renal cortex and their loop of Henle.
Explanation:
Cortical nephrons can be distinguished from juxtamedullary nephrons by their location within the renal cortex and by certain structures of the nephron. While both types of nephrons are located in the cortex, cortical nephrons have a short loop of Henle that does not dip beyond the cortex. In contrast, juxtamedullary nephrons are located close to the renal medulla and have a longer loop of Henle, which allows them to regulate urine concentration more effectively.
The renal cortex can be easily identified in a dissected kidney due to its lighter color compared to the rest of the kidney. Although the assertion that juxtamedullary nephrons have a larger glomerulus and hence a higher filtration rate might be logical, the distinguishing factor in this context is primarily their anatomical differences, specifically the length of the loop of Henle. Both nephron types eventually drain into a collecting duct, so the method of drainage is not a distinguishing characteristic.
A dna molecule produced by combining dna from different sources is known as
Answer:
Recombinant DNA:
Explanation:
Name two autotrophs that you see in the lion king and what type of organism are they
Two autotrophs that you see in The Lion King are grass (plants) and trees (plants).
- Grass (Plants): Grass is a type of autotroph that undergoes photosynthesis to produce its own food using sunlight, water, and carbon dioxide. It serves as a primary food source for many herbivores in the film, such as antelopes and zebras.
- Trees (Plants): Trees are another example of autotrophs featured in The Lion King. They also undergo photosynthesis to synthesize organic compounds, providing habitat, shade, and food for various organisms within the ecosystem depicted in the film.
- Autotrophs: Autotrophs are organisms that produce their own organic compounds from inorganic substances, typically through photosynthesis or chemosynthesis.
- Importance in Ecosystems: Autotrophs form the base of food chains and food webs, providing energy and nutrients for heterotrophic organisms.
- Ecological Balance: The presence of autotrophs like grass and trees contributes to the ecological balance of the ecosystem portrayed in The Lion King, supporting the diverse array of life depicted in the film.
Part A: Design a food chain with four trophic levels, and identify the organism in each level. What happens to energy as it travels from the bottom up?
Part B: Can humans ever occupy the lowest, or first, trophic level? Why or why not?
Answer:
At the bottom you have the producers aka auto trophic livings (which use inorganic compounds to grow, produce energy, matter and so on..). These organisms would be plants, Cyrano bacteria, over all any organisms that do photosynthesis.
In a food chain with four trophic levels, energy decreases as it moves up, from producers like grass, to primary consumers like grasshoppers, to secondary consumers like frogs, and tertiary consumers like snakes. Humans do not occupy the first trophic level, as this level is reserved for producers.
A simple terrestrial food chain could consist of the following:
First trophic level: Grass (Producer)Second trophic level: Grasshopper (Primary Consumer)Third trophic level: Frog (Secondary Consumer)Fourth trophic level: Snake (Tertiary Consumer)As energy travels up the food chain, it decreases because some energy is lost as heat at each trophic level due to metabolism and respiration. This is why there are typically only four or five trophic levels in a food chain: there simply isn't enough energy to support more levels.Humans are omnivorous and can consume both plant and animal matter, meaning they can occupy second, third, and even fourth trophic levels. However, humans never occupy the lowest, or first, trophic level because this level is exclusively composed of producers—organisms that use photosynthesis or chemosynthesis to produce their own food, like plants or certain bacteria.
This is the unequal distribution of ions across a cell membrane.
Answer:
Concentration gradient
Explanation:
Concentration gradient of the ions across the membrane generates the membrane resting potential.
Concentration gradient means that there is unequal distribution of the ions on different sides of membrane. For example, the concentration of K ions is much higher within the cell then out of the cell. Opposite is with the Na ions. When ions move from the area of their higher concentration to the are with the lower concentration, we say they move down the gradient or diffuse (no energy required). On the other hand, movement of ions against their gradient means that this process requires energy and involves protein pumps.
The nerve cell shown has branches that develop during cell specialization. which of these functions does a nerve cell's branches help the cell perform
Communicating with other cells
Hope it’s help !!!
25 points!!
Describe an egg cell, a sperm cell, and a somatic cell in these terms:
diploid, haploid, male, female.
Egg cell: It's the female reproductive cell in oogamous organisms. (Female) (Haploid)
Sperm cell: The male reproductive cells. (Male) (Haploid)
Somatic cell: Body cells. (Diploid)
these are your Answer i tryed (Haploid)
(Male) (Haploid) (Diploid)
Explanation:
Where does the eustachian tube lead in a frog?
Answer:
Eustachian tube in frog leads to the lateral wall of the nasopharynx
Explanation:
Eustachian tube is known to be canal or tube that connects that join the middle ear to the nasopharynx. Thus, Eustachian tube functions by controlling the pressure within the middle ears by making the air pressure in the middle ear to be equal to the outside body. However, Eustachian tube in frog leads to the lateral wall of the nasopharynx by originating or extending from the anterior wall of the middle ear.
How does the primary transcript in the nucleus of a prokaryotic cell compare to the functional mrna?
A) the primary transcript is larger than the mrna
B) the primary transcript is smaller than the mrna
C) the primary transcript and the mrna both contain introns
D) the primary transcript is the same size as the mrna
Answer:
None of the answers is correct, because prokaryotic cell doesn't have nucleus
Explanation:
In eukaryotic cell, primary transcript is RNA synthesized via transcription in the nucleus. After processing it becomes mature mRNA. The processes of processining are addition of the 5' cap, 3'-polyadenylation, and alternative splicing (excision of introns). Because during the processing of RNA introns are removed the primary transcript is larger than the mRNA.
What are the benefits of the International Space Station? Select all that apply.
A. creates a spirit of international cooperation
B. increases knowledge about the composition of planets
C. gains information about the long-term effects of space flight
D. increases knowledge of our solar system and its components
i believe it would be A C and D
Answer:
C. gains information about the long-term effects of space flight
Explanation:
An International Space Station is a laboratory that is in space and is permanently inhabited by human beings who carry out scientific studies and research of a spatial nature. Basically, this station (which orbits the earth and is the residence and place of work of several researchers) has as main objective to provide information about the planet earth and about some experiments carried out with zero gravity. However, its main purpose is to surpass long-term space travel, assessing all the defects, advantages and risks of these trips.
Ribosomes provide the scaffolding on which trnas interact with mrna during translation of an mrna sequence to a chain of amino acids. a ribosome has three binding sites, each of which has a distinct function in the trna-mrna interactions. drag the appropriate trnas to the binding sites on the ribosome to show the configuration immediately before a new peptide bond forms. if no trna is bound to a site at that time, leave that binding site empty.
In the translation phase of protein synthesis, tRNAs bring appropriate amino acids to the ribosome, which 'reads' the mRNA in three-base codons. Before a new peptide bond forms, tRNAs would be occupying the A and P sites of the ribosome, with the E site being empty.
Explanation:The process you're referring to is part of protein synthesis known as translation, where the mRNA template, ribosomes, tRNAs, and various enzymatic factors all play crucial roles. During this stage, the mRNA transcript is 'read' by the ribosome, specifically in sets of three bases known as codons, each coding for a single amino acid. The ribosome has three binding sites - A, P, and E.
Charged tRNAs with the appropriate amino acids are brought to the ribosome. The tRNA molecule recognizes a codon on the mRNA, binds to it by complementary base pairing, and adds the correct amino acid to the growing peptide chain. The tRNA responsible for a specific amino acid will have an anticodon that matches with the mRNA codon.
Immediately before a new peptide bond forms, there would be a tRNA in both the A and P sites of the ribosome, with the P site tRNA holding the growing polypeptide chain. The A-site tRNA would be set to add its amino acid to that chain. The E site, however, is where dissociated tRNAs exit and would be empty at this stage.
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Where are neurotransmitter receptors located?
Answer:
Along the membrane we can find receptors.
Explanation:
Biotic and Abiotic Factors
An ecosystem is defined as any community of living and non-living things that work together. Ecosystems do not have clear boundaries, and it may be difficult to see where one ecosystem ends and another begins. In order to understand what makes each ecosystem unique, we need to look at the biotic and abiotic factors within them. Biotic factors are all of the living organisms within an ecosystem. These may be plants, animals, fungi, and any other living things. Abiotic factors are all of the non-living things in an ecosystem.
Both biotic and abiotic factors are related to each other in an ecosystem, and if one factor is changed or removed, it can affect the entire ecosystem. Abiotic factors are especially important because they directly affect how organisms survive
Eggs, sperm, urine and wastes all empty into what structure?
Eggs, sperm, urine, and wastes all empty into the cloaca.
The cloaca is a chamber in the digestive tract of amphibians, reptiles, birds, and many mammals. It is where the digestive, urinary, and reproductive tracts all empty into. In some animals, the cloaca also serves as a copulatory organ.
The cloaca is a complex structure that is essential for the reproduction and survival of many animals.
In frogs, the cloaca is located at the posterior end of the body. It is a single opening that receives urine from the ureters, sperm from the vasa deferentia, and eggs from the oviducts. The cloaca also opens into the rectum, which is the final portion of the digestive tract.
When a frog mates, the male deposits sperm into the female's cloaca. The sperm then travel up the oviducts and fertilize the eggs. The fertilized eggs then travel down the oviducts and into the cloaca, where they are laid.
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What Structure formed by the crossing over of the optic nerves
The optic chiasm is an X-shaped structure formed by the crossing of the optic nerves in the brain. The optic nerve connects the brain to the eye.
The optic chiasm is the shape that is created when the optic nerves cross. It is present at the base of the brain and has an an X-shaped structure.
Optic chiasma is the location of the crossing of the optic nerves from each eye to the opposing side of the brain.
Vision depends on the optic nerve. It's an extension of your central nervous system, which also consists of your brain and spine.
The eyes send electrical signals to the brain through the optic nerve. In order to see, the brain has to process this sensory data.
From the retinas of the eyes, the optic nerves transmit visual data to the brain. Information from the right eye is delivered to the left side of the brain through the optic chiasm, and information from the left eye is sent to the right.
Binocular vision requires the crossing over of the optic nerves.
Therefore, optic chiasm is the structure formed by the crossing over of the optic nerves.
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The weathering of rock caused by salt is A. Carbonation. B. Haloclasty. C. Oxidation. D. Abrasion.
Answer:
B
Explanation:
It occurs when water dissolved with salts seeps into the cracks of a rock. When the water slowly evaporates it leaves behind crystals of salts. When the rock is heated, the salts also expand and create pressure within the cracks, widening them and causing the rock to split.
Answer:b
Explanation:
which conditions describe the neritic zone? check all that apply
few organisms
ample sunlight
changing salinity
frigid temps
steady nutrient supply
Answer:
ample sunlight
steady nutrient supply
Explanation:
Neritic zine is the shallow end of deep water bodies.
This end receives stable temperatures of about 24 degrees celsius.
This area permits photosynthesis since light penetrates to the bottom, this is the reason why planktonic plants survive here.
The region has got steady salinity and because of its favourable nature, it has got many living organisms.
LT: Explain the importance of genetic diversity in a population.
A swamp contains a high genetic diversity of frogs. Toxic chemicals were released into the swamp. How can genetic diversity help the frog population survive?
Answer:
Because some frogs might be able to survive and the ones that cant die off. The frogs that survive get to reproduce which wouldn't be possible if they all had the exact same genetic code, if they were all the same they would have all died or all survived there would not be room for differences.
Explanation:
Select the correct sequence of steps as energy is extracted from glucose during cellular respiration.
a.glycolysis
b.citric acid cycle
c.citric acid cycle
d.acetyl CoA
e.electron transport chain
Answer:
a.glycolysis d.acetyl CoA b.citric acid cycle e.electron transport chain
Explanation:
Cellular respiration is set of metabolic processes that occur within the cell in order to produce usable energy (ATP) from the nutrients (food). It can be divided into four main stages:
Glycolysis-anareobic process in which glucose is broken down and it occurs in the cytoplasm. Products of glycolysis are 2 molecules of pyruvate and 2 molecules of ATP.Transition- Pyruvate form the glycolysis is transported into the mitochondria, where it is converted to a molecule Acetyl CoA used for further breakdownCitric acid cycle or Krebs cycle- aerobic process that occurs in the mitochondria matrix in which 4 molecules of ATP, and NADH are producedElectron transport chain-set of reactions that occur within the cristae of mitochondria. NADH and electrons are passed through electron transport chain to result in the production of ATP (32 ATPs for every glucose).One of the effects of the hormone secretin is to stimulate the release of bicarbonate ions into the duodenum, which neutralizes the acid that enters the duodenum with food from the stomach. One consequence of neutralizing the pH in the intestine is that: the enzymatically catalyzed hydrolysis of carbohydrate that began in the stomach is halted in the duodenum. carbohydrates are not as easily broken down in this neutral environment. enzymes that catalyze the hydrolysis of carbohydrates are active. enzymes that catalyze the hydrolysis of carbohydrates are denatured
Answer: One consequence of neutralizing the pH in the intestine is that ENZYMES THAT CATALYZE THE HYDROLYSIS OF CARBOHYDRATES ARE ACTIVE.
Explanation: During digestion, partially digested food particles are transported from the stomach to the first part of the small intestines, that is, the duodenum. The food particles that are coming from the stomach are acidic due to the secretion of hydrochloric acid in the stomach. This acidity has to be removed when the food particles get into the duodenum, this is because the enzymes that are needed to break down carbohydrates in the duodenum can not work in acidic medium. Thus, in order for the pancreatic amlayse enzyme to become active and to complete the break down of carbohydrate in the duodenum, the secretin hormone has to stimulate the release of bicarbonate that will neutralize the acidic partially digested food particles from the stomach.
Final answer:
Neutralizing the pH in the intestine with bicarbonate ions activated by secretin allows enzymes that catalyze the hydrolysis of carbohydrates to become active, aiding in digestion.
Explanation:
One consequence of neutralizing the pH in the intestine is that enzymes that catalyze the hydrolysis of carbohydrates are active. Strong acid is secreted into the stomach, allowing pepsin to work on protein digestion. When the contents enter the small intestine, the acid must be neutralized for the optimal function of different enzymes. This is because enzymes that work in the small intestine, including those for carbohydrate digestion, require a more basic environment. The secretin hormone, released in response to the acidic chyme in the small intestine, stimulates the pancreas to secrete bicarbonate ions (HCO₃₋) which neutralize the stomach acid, creating a favorable pH for the enzymes in the small intestine, including those that hydrolyze carbohydrates.
Which of the following is a characteristic of the pituitary gland?
produces insulin, which regulates blood glucose levels
produces hormones that regulate cell metabolism
produces hormones that regulate other glands
produces hormones that help the body respond to stress
I think it would be that it produces hormones that regulate cell metabolism
land, water, and air are everywhere on earth. these interact and affect the ____ where you live
Answer:
land, water, and air are everywhere on earth. these interact and affect the Climate where you live
Explanation:
Climate means the usual condition of the temperature, humidity, atmospheric pressure, wind, rainfall, and other meteorological elements in an area of the Earth's surface for a long time.
The climate of any particular place is influenced by different interacting factors.These include latitude, elevation, water, ocean currents, topography, vegetation, and winds.
Final answer:
Land, water, and air interact with and shape the environment where you live. Human activities significantly influence environmental health and the quality of life, which include the air quality and availability of natural spaces. Geography helps to understand these connections and the importance of sustainable living practices.
Explanation:
Land, water, and air interact and affect the environment where you live. The environment includes not just the physical aspects like geography and climate, but also the built elements such as homes, schools, and other infrastructure. Our decisions on how to use land and resources for food, shelter, and recreation have a significant effect on our local environment, and by extension, our health and well-being. The quality of air and water, availability of green spaces, and the accessibility of resources all play a crucial role in creating a livable environment.
In East Java, Indonesia, a mud volcano has been erupting since 2006. One controversial hypothesis is that the mud volcano in East Java is erupting because a gas mining company was drilling a deep hole nearby. When a mud volcano erupts, hot water deep below the earth's surface mixes with various minerals, and this mud spews out over the surface of the earth. The hot mud flow destroys organismal habitats, including the homes and livelihoods of people. When the mud volcano stops erupting, the disturbed area will be colonized by a variety of species. This process of colonization is called ________.
Answer:
Ecological succession (secondary)
Explanation:
Ecological succession is a process by which ecosystem changes and develops during a certain period of time. There are two types of succession:
Primary succession-it occurs when habitat that has never been colonized becomes colonizedSecondary succession-it occurs when habitat becomes colonized again after some kind of disaster (volcano eruption, wildfire, mass extinction).After a certain disaster, pioneer plants and animals are the one that appear first and colonize previously damaged place. The community becomes more stable and complex during time until it reaches the stage of climax community (steady stage).
On average, errors occur in DNA synthesis only once in every ten billion nucleotides incorporated. Which of the following does NOT contribute to this high fidelity of DNA synthesis? (A) Complementary base-pairing between the nucleotides (B) Tightening of the DNA polymerase around its active site to ensure correct pairing before monomer incorporation (C) Proofreading by the 3'-to-5' exonuclease activity of the enzyme to correct mispairing even after monomer incorporation (D) A strand-directed mismatch repair system that detects and resolves mismatches soon after DNA replication (E) None of the above
Answer:
(E) None of the above
Explanation:
All of the answers contribute to the high fidelity of DNA synthesis.
Accuracy of the DNA replication is achieved thanks to various mechanisms such as:
DNA polymerase activity (high processivity)-ability of the enzyme to copy long stretches of DNADNA polymerase proofreading-ability to recognize its own mistakes and fix themCell's surveillance-cell monitors its DNA status, checks for the damageMismatch Repair-cell contain repair machinery which recognizes DNA helix deformities, removes and replaces the portion containing the mismatch etc.All the mechanisms provided in options A to D contribute to the high fidelity of DNA synthesis by ensuring correct base pairing, proofreading newly added nucleotides, and repairing mismatches post-replication. Among the options provided, the one that does NOT contribute to this process is (E) None of the above.
Explanation:The high fidelity of DNA synthesis is attributed to several key mechanisms. Firstly, complementary base-pairing ensures that each new nucleotide is correctly matched with its opposite base on the template strand. Secondly, DNA polymerase tightens around its active site which helps confirm correct pairing before incorporating the monomer. Thirdly, proofreading activity, particularly the 3'-to-5' exonuclease function of DNA polymerases, catches and corrects any mispairing even after monomer incorporation. Lastly, the mismatch repair system acts post-replication to find and repair any remaining mispaired nucleotides.
Among the options provided, the one that does NOT contribute to this process is (E) None of the above. This is because all the listed mechanisms (A-D) are indeed involved in maintaining the high accuracy of DNA synthesis.
Until recently, looking through detailed records on family history of disease was the only way to try to avoid certain genetic conditions in some purebred dogs, such as a bleeding disorder called von willebrand's disease. what technological advances may have reduced the need for this process?
Answer:
DNA testing and the ability to get DN samples.
Explanation:
Technological advancements in genetic testing and DNA sequencing have made it easier to identify genetic conditions like von Willebrand's Disease in dogs, reducing reliance on pedigree analysis.
Technological advances such as genetic testing and DNA sequencing have significantly reduced the need for sifting through detailed records on family history to avoid certain genetic conditions in purebred dogs. For instance, a bleeding disorder like von Willebrand's Disease, which historically required pedigree analysis for its management, can now be identified through direct genetic tests. These tests analyze the dog's DNA for specific mutations associated with the condition, offering a faster, more accurate method to identify at-risk animals.
Direct-to-consumer genetic tests, like those offered by companies such as 23andMe, although primarily for humans, highlight the evolution of genetic tech that could be applied to animal genetics as well. These developments have the potential to revolutionize how breeders select animals for breeding, focusing on genetic health and reducing the prevalence of inherited diseases.
Imagine that a man is scratched by his cat. A phagocyte near the scratch site recognizes and engulfs a bacterium. Shortly thereafter, more phagocytes arrive in the tissue surrounding the scratch. Why? Select all correct choices.Other phagocytes are recruited to the scratch site by antigens secreted by the bacteria.Other phagocytes are recruited to the scratch site by cytokines produced by the bacteria.Other phagocytes are recruited to the scratch site by antigens secreted by the initial phagocyte.Other phagocytes are recruited to the scratch site by cytokines secreted by the initial phagocyte.
Answer:
Other phagocytes are recruited to the scratch site by cytokines secreted by the initial phagocyte.
Which of the following is true of kinesin?
a.Kinesin is an intermediate filament protein.
b.Kinesin moves vesicles toward the minus end of microtubules.
c.Kinesin hydrolyzes ATP.
d.Kinesin moves vesicles toward the plus end of actin filaments.
Answer:
C. Kinesin hydrolyzes ATP.
Explanation:
The central force-generating element that the two types of motor proteins (Kinesin and Myosin) have in common includes the site of ATP binding and the machinery necessary to translate ATP hydrolysis into an allosteric conformational change. Kinesin must use the energy derived from ATP binding and hydrolysis to force a large movement in part of the protein molecule. When kinesin forms a rigor-like tight association with the head location of the microtubule, the ATP is bound to the kinesin, and it is hydrolysis of ATP that promotes release of the motor from its track. Thus, myosins can typically drive filament sliding much more rapidly than kinesins, even though they hydrolyze ATP at comparable rates and take molecular steps of comparable length.
Option c is correct. Kinesin is a motor protein that moves along microtubules in your cells, converting ATP into mechanical work.
Explanation:The correct answer to your question is c. Kinesin hydrolyzes ATP. Kinesin is a type of motor protein that converts chemical energy stored in ATP (adenosine triphosphate) into mechanical work. The result is movement along the microtubules in your cells.
Kinesin is not associated with intermediate filaments, so option a is incorrect. It's also important to note that kinesin primarily moves towards the plus end of microtubules, which is the opposite of what option b suggests. As for option d, this is also incorrect because kinesin doesn’t act on actin filaments, instead, it moves along the microtubules.
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What function is the first to be affected by alcohol?
a. muscle control
b. vital functions
c. higher learning
d. none of the above?
Answer: muscle control
Explanation:
Alcohol affects the central nervous system
if you could have one super power what would it be ????
Answer:
i would be able to teleport but im not sure if this is a legit question
Explanation:
Answer:
Teleportation
Explanation:
I can go anywhere I want for free.
The cycads, a mostly tropical phylum of gymnosperms, evolved about 300 million years ago and were dominant forms during the age of the dinosaurs. Though their sperm are flagellated, their ovules are pollinated by beetles. These beetles get nutrition from the pollen and shelter from the microsporophylls. Upon visiting megasporophylls, the beatles transfer pollen to the exposed ovules. In cycads, pollen cones and seed cones are borne on different plants. Cycads synthesize neurotoxins, especially in the seeds, that are effective against most animals, including humans. Which feature of cycads distinguishes them from most other gymnosperms
Answer:
poliinators and flagellated sperm
Explanation:
Cycads (phylum Cycadophyta) together with Ginkgophyta, Gnetophyta, Pinophyta, Pteridospermales and Cordaitales belong to the gymnosperms (naked seed-producing plants). They are different than angiosperms which produce encased seeds within an ovary.
Cycads (but also Ginkgo) produce swimming sperm that is different than all other groups which produce sperm without swimming flagella.
Also, unlike other groups of gymnosperms, cycads have specialized pollinators, beetls.
Why are fertilizers important to farmers? What are their drawbacks?
All the nutrients in our food originally come from the soil. This maintains the soil fertility, so the farmer can continue to grow nutritious crops and healthy crops.
Farmers turn to fertilizers because these substances contain plant nutrients such as nitrogen, phosphorus, and potassium.
The drawback is that it needs to be used properly ( applied at the right time, in the correct form and correct amounts.
The Growing rate of chemicals and use of fertilizers in crops and grain are growing rapidly.
Explanation: Fertilizers are essential to the security of the world’s food supply, and they must be used properly. The manufacture, sale and transportation of fertilizers is heavily regulated. States have difference regulations and statutes that address fertilizer use and production to protect human health and the environment.
What are the chemicals in fertilizers?
Most chemical fertilizers are made by the reaction of an acid with an alkali. Packaged fertilizers also often contain three macronutrients: nitrogen, phosphorous and potassium. Ammonium nitrate, a good source of nitrogen and ammonium for plants, is also an important ingredient in the production of high quality, effective fertilizers.
With the global population steadily growing, it is important that enough crops are produced each year to provide food, clothing and other agricultural products to people around the world. Crops such as corn, wheat and cotton receive nutrients from the soil they are grown in; various crops deplete soil nutrients in different ways and rates. Some crop growth can deplete soil nutrients after just a few seasons of planting. Fertilizers play an important role in providing crops with the nutrients they need to grow and be harvested for nutritious food.
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