an organism that captures and consumes another organisms for nourishment is called an?
Answers
Answer:
The organism is called a predator and the organism captured, a prey.
Answer:
predation I think
Explanation:
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Related Questions
which is not a function of lipids? provide energy part of cell membranes transport the fat-soluble vitamins vital to making enzymes
Answers
Vital to making enzymes is not a function of lipids.
The correct option is D.
What is the function of lipids?Lipids are rich substances that have many different jobs to do in your body. They are a component of your living cells and aid in regulating what enters and exits your cells. They aid in producing hormones, absorbing vitamins, and transporting and storing energy. Possessing too much lipids can be dangerous.
Lipids are found where in the body?Your body stores lipids including cholesterol, cholesteryl esters, and triglycerides predominantly in specialist fat deposits called adipocytes, which are part of a specific type of fatty tissue known as adipose tissue. Both dietary lipids and lipids produced by your body can be used to make stored lipids.
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The complete question is -
Which is not a function of lipids?
A-provide energy
B-part of cell membranes
C-transport the fat-soluble vitamins
D-vital to making enzymes
When covalent bonds form. the amount of energy present decreases. What happens to the stability of the atoms in the bond?
Answers
Trapping animals in areas where they are abundant and releasing them in other areas is an example of which wildlife management practice?.
Answers
Trapping animals in areas where they are abundant and releasing them in other areas is an example of translocation, a wildlife management practice.
Translocation is a wildlife management technique that involves capturing animals from one area and relocating them to another area. This practice is often employed to establish or restore populations of endangered, threatened, or locally extinct species in suitable habitats. Translocation can also be used to manage populations of animals that are causing conflicts in certain areas.
The process of translocation typically involves trapping the animals using various methods such as live traps, cage traps, or nets. Once captured, the animals are carefully transported to a new location where they are released. The new location should provide suitable habitat, food resources, and appropriate conditions for the survival and reproduction of the translocated animals.
Translocation is implemented with the goal of increasing the population size, genetic diversity, or distribution range of a particular species. It can help to restore or enhance ecological balance, promote species conservation, and reduce human-wildlife conflicts. However, translocation requires careful planning, monitoring, and consideration of various factors such as habitat suitability, potential impacts on resident species, and long-term sustainability.
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What is the mineral “Magnesium” needed for? In plants?! PLSS HELP, I WILL GIVE BRAINLIEST!
Answers
Answer: Magnesium is used for making chlorophyll
Explanation:
The chlorophyll (which makes plant green) molecule contains magnesium. If a plant doesn't get enough magnesium, it cannot make as much chlorophyll as it needs. If there is lack of Magnesium in a plant, the leaves will turn yellow.
a farmer is is the dilemma of using pr not using chemical fertilizers .what suggestion would you like to give them
Answers
The best suggestion is to look into using organic fertilizers that are proven to be safer for the environment and for people who come into contact with them. Organic fertilizers often provide the same benefits as chemical fertilizers but provide fewer risks for long-term use.
Why fertilizers are used?Fertilizers are used to replenish soil with essential nutrients that are lost through plant growth or leached away by rain and irrigation. These essential nutrients, mainly nitrogen, phosphorus, and potassium, are necessary for healthy plant growth. Fertilizers can also help promote the biological processes that occur naturally in the soil. This helps to create healthy soil with a balanced nutrient content, which is necessary for optimal plant health and growth.
What is crop rotation?Crop rotation is the practice of growing different crops in the same area in successive seasons. The goal of this type of farming is to manage soil nutrients, reduce pests and diseases, and increase overall crop yield. This is done by alternating the type of crop grown in the same field, season after season. For example, one season may be used to grow corn while the next is used to grow soybeans. By alternating the crops, the soil is replenished with the needed nutrients and rotational benefits are realized.
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The greatest recommendation is to consider switching to organic fertilizers, which have been shown to be safer for the environment and for those who come into touch with them. When used over an extended period of time, organic fertilizers frequently offer the same advantages as chemical fertilizers with less hazards.
Why fertilizers are used?
Using fertilizers will restore the soil's vital nutrients that have been washed away by rain and irrigation or lost via plant development. These essential nutrients, mainly nitrogen, phosphorus, and potassium, are necessary for healthy plant growth. Moreover, fertilisers can support the soil's inherent biological activities. This helps to create healthy soil with a balanced nutrient content, which is necessary for optimal plant health and growth.
some suggestion will helpful for farmers who are debating whether or not to use chemical fertilizers.
Evaluate the benefits and drawbacks of chemical fertilizers: While chemical fertilizers can help increase crop yield, they also have negative impacts on the environment and may harm soil health. Farmers should weigh the benefits and drawbacks before making a decision.
Explore organic fertilizers: There are many organic fertilizers that can provide the necessary nutrients for crops while avoiding the negative impacts of chemical fertilizers. For example, compost, manure, and cover crops can improve soil health and fertility.
Consider the long-term impacts: The use of chemical fertilizers can lead to a decline in soil health over time, which can reduce crop yields and require even more fertilizer use to maintain yields. Organic fertilizers, on the other hand, can improve soil health and fertility in the long-term.
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Choose one abiotic and one biotic factor from your ecosystem. Imagine that they were suddenly removed. How would your ecosystem change? Tell me which factors you removed and how would your ecosystem change.
Answers
Answer:
Abiotic factor: Water | Biotic factor: Trees
Explanation:
Abiotic factors are non-living components within an ecosystem. Biotic factors are living organisms within an ecosystem. By removing the abiotic factor, water, an ecosystem will drastically decline. Just like humans, plants and animals depend on water. When drought hits, food supplies can be reduced and habitat compromised. Damage may be temporary, and habitat and food supplies may return to normal once the drought is over. By removing the biotic factor, trees, an ecosystem will suffer from material loss and climate change. Without trees, the land would be hot and dry, and dead trees would inevitably lead to large wildfires. This causes sun-blocking soot to blanket the skies, leading to years of crop failure and global famine.
Q4: What is a likely lurking variable in this case that could explain this observed relationship? (Hint: this lurking variable affects both the type of light with which a child sleeps and the child's later nearsightedness.)
Answers
A likely lurking variable in this case that could explain the observed relationship between the type of light a child sleeps with and the child's later nearsightedness is genetics.
Genetics is a lurking variable because it affects both the type of light a child sleeps with and their later nearsightedness. For example, if a child's parents are nearsighted, it is likely that the child will also develop nearsightedness.
Similarly, if a child's parents prefer to use dim lighting in the house or bedroom, it is likely that the child will also be exposed to dim lighting. Genetics can also play a role in how a child's eyes develop, which can influence their risk of developing nearsightedness.
For instance, if a child has inherited genes that make their eyes longer or their cornea flatter, they may be more likely to develop nearsightedness. These genetic factors can also interact with environmental factors such as the type of lighting a child is exposed to, increasing their risk of developing nearsightedness.
Therefore, while the type of lighting a child is exposed to may be a contributing factor to the development of nearsightedness, genetics is a likely lurking variable that should be considered in any analysis of the relationship between these two factors.
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what type of muscle cannot be controlled voluntarily
Answers
Smooth muscle cannot be consciously controlled, it behaves spontaneously.
Which muscles are you unable to control voluntarily?
The smooth muscles, also known as involuntary muscles, are typically found in sheets or layers, one layer of muscle being placed beneath the other. Such a muscle is uncontrollable. Without your conscious awareness, your body and brain direct these muscles.
Are muscles voluntarily? not subject to control?
The muscles in our hands when we catch a ball are an example of voluntary muscles that can be controlled by conscious thought. Although the neurological system still regulates the movement of involuntary muscles, such as those that control the heart's beating, they do not require conscious thought to move.
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Smooth muscles cannot be voluntarily controlled. Muscles are broadly classified into voluntary and involuntary muscles that are in or not in our control.
Spindle shaped non straight smooth muscles occur in layers or sheets one after the other, contract slowly and rhythmically and being out of our consciousness can not be undertaken into control.
Smooth muscles that are present in the intestine and cardiac system can not be voluntarily controlled by an individual and that is why they are termed as involuntary muscles.
These muscles are directed to work by our brain without even thinking about their mode of action.
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A scientist is trying to construct a genetic map for four genes found in a new species of avocado. The scientist obtains the following dataset from a series of two-point crosses.
Gene loci in testcross Recombination frequency (%)
a and b 30
a and c 50
a and d 10
b and c 50
b and d 20
c and d 50
What does this data suggest about the genes?
gene a is in a different linkage group from the others
gene b is in a different linkage group from the others
gene c is in a different linkage group from the others
gene d is in a different linkage group from the others
All of the genes are in the same linkage group
Answers
The determine whether gene b, c, or d is in a different linkage group without additional information since all three genes show recombination frequencies suggesting that they are either on different linkage groups or widely separated on the same linkage group.
Based on the provided dataset from the two-point crosses, we can analyze the recombination frequencies between different gene loci to determine their linkage relationships.
In this case, we are examining four genes labeled as a, b, c, and d in a new species of avocado.
A two-point cross involves the analysis of recombination events between two genes at a time.
The recombination frequency represents the proportion of offspring that exhibit a recombination event between the two genes, indicating the distance between them on a genetic map.
Higher recombination frequencies suggest a greater physical distance between genes, while lower frequencies indicate genes that are closer together.
Let's examine the given recombination frequencies:
The recombination frequency between gene loci a and b is 30%. This suggests that these two genes are relatively close to each other on the same linkage group, but not as closely linked as genes c and d.
The recombination frequency between gene loci a and c is 50%. This high recombination frequency indicates that genes a and c are located on different linkage groups or are very far apart on the same linkage group.
The recombination frequency between gene loci a and d is 10%. This low recombination frequency suggests that genes a and d are closely linked and located near each other on the same linkage group.
The recombination frequency between gene loci b and c is 50%. Similar to the case of genes a and c, this high recombination frequency implies that genes b and c are either located on different linkage groups or are widely separated on the same linkage group.
The recombination frequency between gene loci b and d is 20%. This suggests that genes b and d are closer together compared to genes a and d, but they are not as closely linked as genes a and b.
The recombination frequency between gene loci c and d is 50%. As observed previously, this high recombination frequency indicates that genes c and d are either on different linkage groups or are distantly located on the same linkage group.
Based on the analysis of these recombination frequencies, it can be concluded that the genes a, b, c, and d are not all in the same linkage group.
Gene a is likely in a different linkage group from the others because it shows distinct recombination frequencies with all the other genes.
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How much of your daily intake of cholesterol ok dose this shake provide
Answers
Answer:
300 milligrams
Explanation:
Who’s know stuff about child development?
Answers
The child development stuff is well known to the doctors and the nurse, and they advise mothers during the time of the pregnancy to take care of the baby in different ways.
What is the role of the medical staff?The medical field employs a variety of personnel, including doctors, experts, nurses, caregivers, and others, but the doctor and nurse roles are directly related to patients. They take care of patients of different types, such as those with minor to major health issues.
Hence, the child development stuff is well known to the doctors and the nurse, and they advise mothers during the time of the pregnancy to take care of the baby in different ways.
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(a) Christina wants to increase the number of eggs per year by using selective breeding.
(i)Which two chickens should she breed together?
(ii) Christina chooses chickens to breed from the offspring.
Which ones should she choose?
Answers
Simple is a good word to describe the fundamental approach. It is likely that her daughters will likewise be effective layers if you breed from the hen that produces the most eggs. This is so because a hen's genes, which she gets from her parents, play a factor in determining how many eggs she lays.
How did chickens raised for meat become a product of selective breeding?Increased growth rate and higher meat output were the primary objectives of selective breeding in meat chickens in the 1960s (i.e. producing larger chickens in less time). These days, the strategy is much more balanced, with health and wellbeing of the breeding animals playing a key role.
Inbreeding, linebreeding, and outcrossing are methods used in animal breeding.
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Uranus is unique because it is the only planet
discovered by mathematical calculations
that rotates on its side
with an atmosphere
with rings
Answers
Answer:
rotates on it's side
Explanation:
Defenses and counterdefenses are used by both parasites and their hosts to try and outcompete one another. An example of a defense or counterdefense is: a. Immune system to recognize microparasites using immune system memory cells. b. Biochemical defenses such as plant defensive secondary compounds or antibiotic use by humans. c. Defensive symbionts such as bacteria and fungi that can keep parasite populations low enough to avoid compromising an organism's fitness. d. Encapsulation by enclosing parasites, sealing them off from the body of the host so that they cannot harm it. e. All of the above.
Answers
Defenses and counterdefenses are crucial strategies used by both parasites and their hosts in the ongoing competition between them. These mechanisms enable organisms to protect themselves from harmful effects that may be caused by parasites.
One example of a defense or counterdefense is the immune system, which is used by hosts to recognize microparasites using immune system memory cells. Another example is biochemical defenses such as plant defensive secondary compounds or antibiotic use by humans. Defensive symbionts, including bacteria and fungi, can also keep parasite populations low enough to avoid compromising an organism's fitness. Encapsulation is also an effective defense mechanism used by some hosts to seal off parasites and prevent them from causing harm. All of the above are examples of defenses and counterdefenses used by parasites and their hosts to try and outcompete one another. The success of these mechanisms can be critical in determining which organism ultimately gains the upper hand in the ongoing competition between them.
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1) __________ alter repressor proteins thereby increasing the rate of transcription initiation.
A. Inducers
B. Corepressors
C. Effectors
D. Modulators
Answers
Option a is Correct. Repressor proteins are changed by inducers, speeding up transcription initiation.
Reducers lessen transcribing. An enhancer or silencer is a collection of transcription factor binding sites that can turn a gene on or off in a particular region of the body. A repressor is a little protein molecule. The operator gene attaches to the repressor, which stops it from starting the synthesis of the protein required by the operon.
The operon is either turned on or off depending on the presence or absence of specific repressor molecules. An inhibitor binds to an activator protein, whereas a corepressor binds to a repressor protein. An inhibitor binds directly to DNA, whereas a corepressor binds to a repressor protein, forcing the protein to bind to the DNA. (A binding protein is an inhibitor.
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Isabel is researching the effects of deforestation using online sources. She finds an environmental study on the relationship between deforestation and local weather.
Which of the following characteristics should this study have in order for its results to be considered valid?
1. Empirical observations
11. Evidence that can be replicated
III. Outcomes that don't change with new experimentation
OI and 11
O II and III
O I and III
O I only
Answers
Answer:
ll and lll
Explanation:
I did the math
The characteristics that the study have in order for its results to be considered valid are:
Empirical observationsOutcomes that don't change with new experimentation.Since Isabel is carrying out research and found an environmental study on the relationship between deforestation and local weather, it's important that the material should be valid in order to be accepted.
Therefore, to be valid, it should have the feature of an empirical observations and the outcomes should not change with new experimentation.
Empirical observations simply means the observations that are derived from experiments or based on experience.
In conclusion, the correct option is C.
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Micro-organisms can be
Answers
Answer:
Microorganisms can be unicellular (single cell), multicellular (cell colony), or acellular (lacking cells). They include bacteria, archaea, fungi, protozoa, algae, and viruses. Bacteria are single celled microbes that lack a nucleus.
Which experiment should be conducted as a field investigation?
Answers
Compare and contrast electrolytic and voltaic cells
Answers
Voltaic cells convert chemical energy to electrical energy by means of an oxidation-reduction reaction. Electrolytic cells convert electrical energy to chemical energy, so they are the opposite of voltaic cells.
What is an example of a voltaic cell?Daniell cell is a galvanic cell. One example of a galvanic cell is the common household battery. The electrons flow from one chemical reaction to another occurs through an external circuit that results in the current.
Thus,Electrolytic cells are less common in everyday life, although they are important in many industrial operations.
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What is the same about the 4 nucleotides?
Answers
Pyrimidines: Cytosine and Thymine each have a single six-member ring. Purines: Guanine and Adenine each have a double ring made up of a five-atom ring attached by one side to a six-atom ring.
Answer:
Nucleotides in DNA contain four different nitrogenous bases: Thymine, Cytosine, Adenine, or Guanine. ... Pyrimidines: Cytosine and Thymine each have a single six-member ring. Purines: Guanine and Adenine each have a double ring made up of a five-atom ring attached by one side to a six-atom ring.
1- What are Biometrics? And
Why Biometrics been used in Security industry?
2- There are two types of
enrollments in Biometrics. Mention them with explanation.
3- What is Multibiometric
Answers
1. Biometrics refers to the measurement and analysis of unique physical or behavioral characteristics of individuals, used in the security industry for accurate and reliable identification. 2. There are two types of enrollments: unimodal and multimodal. 3. Multibiometric systems utilize multiple biometric characteristics to enhance accuracy and overcome limitations of individual traits.
Biometrics refers to the measurement and analysis of unique physical or behavioral characteristics of individuals. It involves the use of advanced technologies to capture and authenticate these characteristics, such as fingerprints, iris patterns, facial features, voiceprints, or even behavioral traits like gait or typing patterns.
Biometrics is used in the security industry because it offers a high level of accuracy and reliability in verifying the identity of individuals. Compared to traditional methods like passwords or ID cards, biometrics provide a more secure and convenient way of authentication, as these characteristics are difficult to forge or replicate.
The two types of enrollments in biometrics are:
a. Unimodal Enrollment: In unimodal enrollment, a single biometric trait is used for authentication. For example, using only fingerprint or iris scan for identification. This approach is relatively simpler to implement and can be cost-effective for systems that require lower security levels or have limited resources.
b. Multimodal Enrollment: In multimodal enrollment, multiple biometric traits are combined to enhance the accuracy and reliability of identification. It involves capturing and storing data from two or more biometric sources, such as fingerprints and facial features, and using them collectively for authentication.
Multimodal enrollment provides higher security and reduces the risk of false positives or false negatives, as it combines the strengths of different biometric characteristics.
Multibiometric refers to the use of multiple biometric characteristics for identification and verification purposes. Instead of relying on a single biometric trait, multibiometric systems utilize a combination of traits such as fingerprints, iris patterns, facial features, or voiceprints to enhance accuracy and reliability.
This approach leverages the distinctiveness and uniqueness of multiple biometric traits, making it more difficult for unauthorized individuals to mimic or bypass the security measures. Multibiometric systems offer increased robustness and can overcome limitations or drawbacks associated with using a single biometric modality, such as environmental factors or individual variations.
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what is the element irons family name?
Answers
Group 8 is a group of chemical elements in the periodic table. It consists of iron, ruthenium, osmium, and hassium. They are all apart of the transition metals family.
I hope this helps!
Answer:
transition metals
Explanation:
what blood types will the children of type o mother and father have
Answers
Answer:
Type O blood
Explanation:
Question 81
What does it mean when a body of water has a high JTU?
a. It has a low amounts of organic matter
b. It has no bacteria
c. No one is swimming at this time
d. It has high turbidity
Answers
Answer:
d) it has high turbidity.
A variety of finch species within the Hawaiian Islands have acquired different types of beaks needed for utilizing specific food resources. What is the likely process by which these different species of finches came about
Answers
The likely process by which different species of finches with different types of beaks came about in the Hawaiian Islands is adaptive radiation.
Adaptive radiation refers to the diversification of a single ancestral species into multiple species that occupy different ecological niches. It occurs when a group of organisms colonizes a new environment with diverse available resources and undergoes adaptive changes to exploit those resources more effectively.
In the case of the finches in the Hawaiian Islands, a common ancestral finch species likely colonized the islands. The islands offered a variety of habitats and food resources, creating different ecological niches. Over time, the finches faced different selective pressures related to the available food sources. Those individuals with variations in their beak shapes and sizes that allowed them to efficiently exploit specific food resources had a higher chance of survival and reproductive success.
Natural selection played a crucial role in this process. Finches with beak variations that were better suited for accessing and consuming specific food sources had a selective advantage over others. As a result, those individuals were more likely to survive, reproduce, and pass on their advantageous traits to future generations. Over many generations, this led to the development of distinct finch species with specialized beak adaptations for different food resources.
Thus, through adaptive radiation driven by natural selection, the initial colonizing finch species diversified into multiple species with different beak types, each adapted to utilize specific food resources available in their respective habitats within the Hawaiian Islands.
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Can someone please help me with this please and thank you
Answers
Answer:
C it's right you have to replicate it basically a identical copy
where do the 12 ADP and 12 NADP+ go after reduction (step 2) of the Calvin cycle?
Answers
In the Calvin cycle, also known as the light-independent reactions or the dark reactions of photosynthesis, ADP (adenosine diphosphate) and NADP+ (nicotinamide adenine dinucleotide phosphate) are used as energy carriers and coenzymes, respectively.
During step 2 of the Calvin cycle, which is the reduction phase, ATP (adenosine triphosphate) and NADPH (reduced form of NADP+) are utilized to reduce CO2 and produce energy-rich molecules.
Specifically, during the reduction step of the Calvin cycle, ATP and NADPH are used to convert 3-phosphoglycerate (3-PGA), a 3-carbon compound, into glyceraldehyde-3-phosphate (G3P), another 3-carbon compound. This reduction reaction requires energy and electrons from ATP and NADPH to convert 3-PGA into G3P.
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What process is represented by the number 1?
Answers
C6H1206+(6)O3=(6)O2(6)H20+APT/energy
Monomers are small molecules composed of two or more elements, such as carbon, hydrogen, oxygen, nitrogen, and phosphorus. Glucose, amino acids, and nucleotides are monomers that occur naturally. The table shows the structure of these monomers. Glucose Amino Acid Nucleotide Monomers are the building blocks of larger molecules, called polymers. For example, proteins are composed of chains of amino acids that are linked together. Cellulose is a polymer that makes up plant cell walls. Cellulose is made from a chain of C6H10O5 molecules. Which monomers are most likely used to produce cellulose? Why?
Answers
Rank the subdivisions of large intestine, starting on top with the one that is closest to small intestine. 1. Cecum 2. Appendix 3. Colon 4. Rectum.
Answers
Appendix, Colon, Cecum, and Rectum. The large intestine is divided into the following groups, commencing at the top with the one that is closest to the small intestine.
In humans and certain other species, the rectum is the last straight segment of the large intestine, while in others it is known as the gut. The rectosigmoid junction (the end of the sigmoid colon), which is located at the level of the third sacral vertebra, marks the beginning of the adult human rectum, which is approximately 12 centimetres (4.7 in) long. The last section of the gastrointestinal tract and the digestive system in tetra-pods is the large intestine, also referred to as the large bowel. The residual waste is retained here once the water is absorbed in large intestine. large intestine starts from appendix.
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