Which physiological adaptation would decrease the process of transpiration in a plant?
A.
growth of an extensive root structure
B.
development of the ability to bind metals to roots cells
C.
development of an altered growth cycle to match the seasons
D.
opening stomata at night only
Answer: The answer is D: Opening stomata at night only
Explanation:
Opening stomata at night only is the physiological adaptation that would decrease the process of transpiration in a plant.
Transpiration referred to the way water move through plant evaporation from aerial parts, such as leaves, stems and flowers. Transpiration of plant is also loss of water from stomata.
Stomata means pores used for gas exchange. It is found in plants and some stems.
The cell membrane(or plasma membrane) is the outermost covering of a cell it protects the cell from the external environment it is
An image of plasma membrane shows the phospholipid bilayer, embedded proteins, and cholesterol molecules. The membrane separates the extracellular space, outside of the cell, from the cytosol inside the cell. The plasma membrane is the border between the interior and exterior of a cell. I hope this helps you :)
Answer:
Selectively Permeable
Explanation:
Very small population of tamarind monkeys are much more threaded by certain diseases than are very large populations of tamarind monkeys what is one possible explanation for this phenomenon
Large population can run away from disease sources
Small population are more easily attacked by bacteria
Small population are made up of weaker individuals than large population
Large population most likely have greater genetic diversity
D. Large population most likely have greater genetic diversity. Can I get Brainliest?
your answer is D.Large population most likely have greater genetic diversity
hope this helps
(give the other person brainliest please)
How would translation be affected if transcription did not occur?
Ans.
Transcription and translation are two important steps for protein synthesis. Transcription involves formation of mRNA from parent DNA that has codes for protein synthesis, while translation involves decoding of genetic codes present in mRNA to make a specific polypeptide chain.
Thus, 'if transcription does not occur, translation would not take place as there is no mRNA that can code for a polypeptide chain.'
During meiosis, homologous chromosomes exchange genetic material. This exchange of genetic material
The answer is; crossing over/synapsis
This occurs when the arms of homologous non-sister chromosome pairs connect at points called chiasma. They exchange genetic material causing recombination. This mostly occurs in the later stages of prophase I into metaphase I of meiosis. Flaws in crossing over can cause genetic diseases in offspring.
During meiosis, homologous chromosomes undergo an exchange of genetic material, known as recombination or crossover. This process contributes to genetic variation as maternal and paternal alleles are combined onto the same chromosome. Errors in meiosis can result in genetic disorders like Down syndrome.
Explanation:During the process of meiosis, homologous chromosomes undergo an exchange of genetic material, a process known as recombination or crossover. Starting in meiosis I, homologous chromosomes pair up and exchange non-sister chromatid segments, which leads to a unique genetic composition. This exchange significantly contributes to the diversity of genetic combinations in the resulting haploid gamete cells.
As the chromosomes align, particular segments of genetic material are exchanged, while the gene order remains unchanged. The result of this recombination is that maternal and paternal alleles combine on the same chromosome, causing extensive shuffling of alleles. These crossover events serve as an essential source of genetic variation.
If there are errors in meiosis, such as incorrect chromosome segregation, genetic disorders like Down syndrome can occur. These crossover events are fundamental in producing genetic variation, leading to a diverse gene pool and enhanced adaptability for species.
Learn more about Meiosis and Genetic Variation here:https://brainly.com/question/35455605
#SPJ6
Which gas is most important for understanding atmospheric processes? carbon dioxide oxygen water vapor ozone
Answer:
Water wapor is the most important gas for understanding atmospheric processes
Explanation:
To understand this you have to know that we have atmospherics processes such as radiation, aeroesol movement (this one is important to the process related with water cycles and energy) and convection. Water vapor plays an important role, this because transports latent heat also can condense into clouds and clouds reflects and adsorb solar radiation and affects earth's energy cycle, after that water vapor can be blown by the wind and return to the earth as snow or rain. Another process that is involved is that the heat radiated from the earth's surface is absorbed by the molecules of water vapor and they radiate heat in all directions. Finally water vapor is considered the second source of warmth to the earth.
Carbon dioxide (CO₂) is the most important gas to study or understand atmospheric processes.
Which gas is most important for understanding atmospheric processes?carbon dioxide (CO2) is the gas most important for understanding atmospheric processes. Carbon dioxide plays a crucial role in climate change and the greenhouse effect, affecting the Earth's temperature and the balance of energy in the atmosphere. It is a key component of the carbon cycle and is closely linked to various processes such as photosynthesis, respiration, and oceanic absorption. Monitoring and studying carbon dioxide levels and its interactions with other components of the atmosphere are vital for understanding and predicting changes in the Earth's climate system.
Learn more on atmospheric processes here;
https://brainly.com/question/11762179
#SPJ6
When you place your cursor over the insertion point, to what shape does it change? Question 1 options: underscore dash box I-beam
I think it's I-Beam
If not, let me know! Welcome.
How do plants store energy from photosynthesis?
Photosynthesis is the process plants and some algae use to convert light energy to chemical energy stored as sugar within chloroplasts -- the energy factories found in plant cells. Plants need only carbon dioxide and water for photosynthesis to work.
Answer:
The correct answer is "in the form of starch".
Explanation:
Plants store energy from photosynthesis in the form of starch. Starch is a polysaccharide, made from several units of glucose linked together following a particular disposition. The glucose that is produced during photosynthesis is used to synthesize starch, biomolecule that is used as a form to store energy.
which of the following is the most likely cause for succesion in ecosystems?
A. arrival of new species
B. Rain
C. loss of an animal species
D. wildfires
Hello.
The answer: D. wildfires
For succesion in ecosystems nothing remains the same or constaly changing. New specis, Rain and loss of animals can change an everment but only a Wildfire can change a ecosystem where nothing is left the same. So therefore the answer is Wildfires.
Have a nice day.
Hello.
The answer: D. wildfires
For succesion in ecosystems nothing remains the same or constaly changing. New specis, Rain and loss of animals can change an everment but only a Wildfire can change a ecosystem where nothing is left the same. So therefore the answer is Wildfires.
Have a nice day.
Read more on Brainly.com - https://brainly.com/question/11829334#readmore
What type of injury is not likely to occur from a chemical
Answer:
Bone damage is not likely to occur from a chemical.
Explanation:
Chemicals can damage our body unless it is our bones. They cant go to the bones so the bones can't be harmed.
Chemicals can lead to several injuries, including burns, respiratory issues, and eye damage. However, one injury that is unlikely to result from a chemical is a fracture, as this typically results from direct trauma rather than chemical exposure.
Explanation:Chemicals can lead to a variety of injuries, including burns, respiratory issues, and eye damage. However, one type of injury that is not likely to occur from a chemical is a fracture. A fracture is typically the result of blunt force or trauma directly applied to a bone, rather than from exposure to a chemical substance. Chemical injuries usually occur through inhalation, ingestion, or skin/eye contact and their consequences tend to be burns, irritation, or diseases like cancer or respiratory disorders.
Learn more about Chemical Injury here:https://brainly.com/question/29887856
#SPJ3
Which structure, if cut off, will hamper sexual reproduction in fungi? A. hyphae B. fruiting body C. rhizoids D. mycorrhizae
Answer:
B. fruiting body
Explanation:
Fruiting body is the term used for the part of fungi that produce spores that take part in the sexual reproduction of fungi.
As you can see in picture, it is very prominent part of fungal body that where spores are formed as a result of sexual reproduction or fusion of gametes. These spores disperse from one place to another and upon landing on a suitable substrate, they give rise to the whole fungus body.
Mushroom is the most common example of fungus with a prominent fruiting body. Now the question is how the fruiting body is formed, they are produced from small thread like structures called hyphae that make most of the fungus body and are collectively termed as mycelium. They grow above the soil layer and develop new structures called gills,cap and stalk. In gills of the fruiting body, spored are formed.
Therefore, f one hyphae is cut off it will not hamper the sexual reproduction because fungus contains million of hyphae called mycelum that form fruiting body where sexual reproduction occurs. However, if fruiting body is cut, it wiil hamper the formation of spores and sexual reproduction.
Hope it help!
Answer:
b
Explanation:
which of the following is a mixture of a gas dissolved in a liquid
A.bronze
B.liquid hydrogen
C.soda pop
D.dry ice
energy from organic molecules can be stored in atp molecules as a direct result of the process of ...
Cellular respiration is the process of oxidizing organic molecules such as glucose to form carbondioxide and water.The energy released during this process is stored in the form of ATP molecules which is further used for all energy consuming activities of cell. So the answer is A.
How would the global climate be different if more of Earth was covered by land than water? A) The climate would be more extreme than it is today. B) There would be no winds in the Northern Hemisphere. C) The climate would be more moderate than it is today. D) There would be no rainfall in the Northern Hemisphere.
The answer is option A. The climate would be more extreme than it is today.
The global climate is different if more of Earth was land than water, as the climate would be more extreme than it is today. The correct option is A.
What is climate?Climate is the different weather patterns that are long-term. The climatic changes happen due to changes in the activities of organisms.
The climate is already warming so much, that if there will be no water, the climate would be unfavorable to live in.
Thus, the correct option is A) The climate would be more extreme than it is today.
Learn more about climate, here:
https://brainly.com/question/12346202
#SPJ2
40 To test acidity levels of water, scientists test the pH. As acid rain falls, the pH levels in lakes and streams decrease. While certain animals can tolerate low pH levels, others are extremely sensitive to the effects of acid rain and cannot live under the conditions. Students in Maria's class know, based on the chart, the pH range tolerated by specific organisms living in the ponds surrounding their school Maria and several other students are anxious to design an experiment to investigate this topic.
What is the question, sorry if I misunderstood
Usable chemical energy on Earth begins as light energy, usually solar energy. Plants and other autotrophs convert solar energy to chemical energy via the process of photosynthesis. Carbon dioxide and water, in the presence of light, are transformed into glucose. The chemical energy is stored in the chemical bonds of glucose and is released during the process of cellular respiration. Cellular respiration releases the chemical energy stored in food molecules to produce high-energy ATP molecules. Macromolecules such as carbohydrates and fats can be used as fuels for the production of ATP. All foods contain chemical energy, but the amount of chemical energy is dependent of the type of food. The larger the compound, the more chemical bonds present and the greater amount of available chemical energy. We can rank molecule size, from smallest to largest, as sugar, starch, fat. We refer to the stored chemical energy in foods as calories. A calorie is the amount of energy required to raise the temperature of 1 gram of water 1 degree Celsius. When we refer to the calories in food, we are really talking about kilocalories or 1000 calories. Biology students “burned” 2 grams of food to heat water in a calorimeter in order
Answer:
The question is incomplete
Explanation:
Answer: A) Both the chip and the pecan are a high in fats/oils.
Explanation: Both the chip and the pecan are a high in fats/oils. Typically, the grease spot test/brown paper test is done to test for lipids. As we know from experience, lipids leave translucent spots (grease spots) on unglazed brown paper bags.
The human body works to keep blood within a certain pH range an example of
Homeostasis, aka your body maintaining life and the right amounts of stuff.
Answer:
pH range.
Explanation:
The human body works to keep blood within a certain pH range.
The density of an object with a mass of 27 g and a volume of 9 cm3 is?
the density is 3 gram cubic meter
HOPE THIS HELPS
The density of an object with a mass of 27 g and a volume of 9 cm3 is 3 g/cm3.
Explanation:
The density of an object can be calculated by dividing its mass by its volume. In this case, the mass is given as 27 g and the volume as 9 cm3. To find the density, we divide 27 g by 9 cm3 which gives us a density of 3 g/cm3.
Learn more about Density here:https://brainly.com/question/34199020
#SPJ11
This is the process by which organisms transform chemical energy into a usable form for living, growing, and reproducing.
Cellular respiration is the process by which organisms transform chemical energy stored in glucose into a usable form, ATP, for living, growing, and reproducing.
Explanation:The process by which organisms transform chemical energy into a usable form for living, growing, and reproducing is known as cellular respiration. This biological process happens within the cells of organisms, where energy stored in glucose (a type of sugar) is converted into ATP (Adenosine Triphosphate), the energy currency of cells. In essence, it is the conversion of chemical energy into a usable form for the essential functions of organisms like living, growing, and reproducing.
Learn more about Cellular Respiration here:https://brainly.com/question/32872970
#SPJ2
what is the identity the genotypes of the aunt and her fiancé?
Genotypes are what is in people's genes not what you can see on the outside.
Qualitative data definition
Qualitative data means information about qualities
information that can not be measured
which group of organic compounds stores genetic information?
The group of organic compounds that store genetic information are nucleic acids.
NUCLEIC ACIDS:
Nucleic acids are one of the four biological molecules in nature. Nucleic acids are molecules that help store and transmit genetic information in living cells. The two types of nucleic acids are DNA (deoxyribonucleic acid) and RNA (ribonucleic acid). DNA helps store genetic information in the cells of living organisms, which is transcribed and translated into proteins. Therefore, the group of organic compounds that store genetic information are nucleic acids.Learn more at: https://brainly.com/question/18375173?referrer=searchResults
Which stage of the cell cycle involves the division of the cell’s nucleus?
Metaphase
At the end of the phase the cell divides into two new cells
The division of the cell's nucleus occurs during the mitotic phase of the cell cycle, specifically in the process known as mitosis, which is followed by cytokinesis resulting in two daughter cells.
The stage of the cell cycle that involves the division of the cell's nucleus is called the mitotic phase, which is more specifically known as mitosis. The cell cycle is primarily divided into two major phases: interphase and the mitotic phase. During interphase, the cell undergoes growth and DNA replication. This phase allows the cell to prepare for division, leading up to the mitotic phase. Mitosis then follows interphase and is the process by which the replicated chromosomes are segregated and distributed into two daughter nuclei. The mitotic phase can be further divided into several steps including prometaphase, metaphase, anaphase, and telophase. After mitosis, the cell typically goes through cytokinesis, a process dividing the cytoplasm, resulting in two daughter cells.
1.
Which process uses the products of photosynthesis as reactants?
DNA replication
protein synthesis
active transport
cellular respiration
2.
The diagram shows an energy transformation that typically occurs in plant cell plastids.
Which statement best describes this role of plastids in the plant cell?
Chloroplasts transform chemical energy into electromagnetic energy.
Chloroplasts transform light energy into chemical energy.
Mitochondria transform chemical energy into electromagnetic energy.
Mitochondria transform light energy into chemical energy.
3.
Cellulose is a carbohydrate and a polymer of glucose. Which statement best describes how
cellulose is formed within living organisms?
It is the result of a physical change that alters the shape of a compound.
It is the product of the decomposition of a much larger molecule.
It is constructed by connecting smaller monomer subunits.
It is assembled by bonding individual atoms.
4.
Which statement best describes a relationship between mitochondria and chloroplasts?
Chloroplasts release chemical energy from molecules and store it in mitochondria.
Chloroplasts convert light energy into chemical energy that can be used by mitochondria.
Mitochondria convert chemical energy into light energy that can be used by chloroplasts.
Mitochondria release chemical energy from molecules and store it in chloroplasts.
5.
A jackrabbit has large ears containing blood vessels that help it maintain a constant
body temperature by adjusting heat exchange with the surrounding environment.
Which characteristic of life is best described by this example?
homeostasis
growth
organization
energy use
6.
Which two statements correctly describe one similarity and one difference between
cellular respiration and photosynthesis?
statements 2 and 3
statements 3 and 4
statements 1 and 4
statements 1 and 2
7.
Plant cells use sunlight to make their own food. Which structure allows plant cells to perform
this function?
nucleus
mitochondrion
vacuole
chloroplast
8.
The indicated protein is part of a cell membrane. What is the most likely purpose
of this protein?
It attracts unbalanced electrical charges in the cell’s environment.
It releases stored chemical energy in membrane carbohydrates.
It allows passage of particles into and out of the cell.
It manufactures phospholipids to repair membrane damage.
9.
Which graph best shows how enzyme activity changes as the temperature is adjusted above
and below the enzyme’s optimum temperature?
10.
Which statement best describes how active transport differs from passive transport?
Only active transport allows substances to leave a cell.
Only active transport requires ATP.
Only active transport moves small particles.
Only active transport relies on a plasma membrane.
1. Cellular respiration: Photosynthesis produces glucose and oxygen, which are both reactants in cellular respiration for generating energy in cells.
2. Chloroplasts transform light energy into chemical energy: Plant cell plastids, specifically chloroplasts, capture sunlight's energy and convert it into chemical energy (glucose) used by the plant.
3. It is constructed by connecting smaller monomer subunits: Cellulose, a glucose polymer, is formed within living organisms by linking individual glucose molecules (monomers) together.
4. Chloroplasts convert light energy into chemical energy that can be used by mitochondria: Chloroplasts produce energy (glucose) used in mitochondria for cellular respiration, showcasing their complementary roles.
5. Homeostasis: The jackrabbit's ability to regulate body temperature through ear adjustments exhibits homeostasis, a key characteristic of life.
6. Statements 1 and 2: Both processes use organic molecules as reactants (similarity), but cellular respiration releases energy while photosynthesis stores it (difference).
7. Chloroplast: Plant cells utilize chloroplasts, specialized organelles containing chlorophyll, to capture sunlight and perform photosynthesis.
8. It allows passage of particles into and out of the cell: The membrane protein likely facilitates controlled movement of substances across the cell boundary, a crucial function.
9. Graph 3: Enzyme activity peaks at an optimal temperature and declines sharply above and below, as shown in Graph 3.
10. Only active transport requires ATP: Unlike passive transport, which utilizes concentration gradients, active transport actively pumps molecules against gradients, requiring energy (ATP).
Image Solve
Photosynthesis and cellular respiration are two complementary processes that provide energy for living organisms. Photosynthesis captures energy from sunlight and stores it in glucose, while cellular respiration releases that energy to power the cell's functions. Understanding these processes is essential for appreciating the interconnectedness of life on Earth.
Photosynthesis and Cellular Respiration:
Photosynthesis and cellular respiration are two essential processes that work together to sustain life on Earth. Photosynthesis is the process by which plants and other organisms use sunlight, water, and carbon dioxide to produce glucose, a sugar molecule that stores energy. Cellular respiration is the process by which cells break down glucose to release energy that they can use to power their functions.
Vocabulary Matching:
ATP (1): The molecule that cells use to store and transfer energy.
Cellular respiration (2): The process by which cells break down glucose to release energy.
Photosynthesis (3): The process by which plants and other organisms use sunlight, water, and carbon dioxide to produce glucose.
Glucose (4): A sugar molecule that stores energy.
Energy (5): The ability to do work.
Chloroplast (6): The cell organelle where photosynthesis takes place.
Mitochondria (7): The cell organelle where cellular respiration takes place.
Catabolic process (8): A process that breaks down molecules into smaller units and releases energy.
Anabolic process (9): A process that constructs molecules from smaller units.
Chlorophyll (10): The green pigment in plants that absorbs sunlight for photosynthesis.
True or False:
1. All life needs energy. (True)
2. Glucose is a carbohydrate that stores chemical energy. (True)
3. Only heterotrophs can perform photosynthesis. (False) Autotrophs, like plants, can perform photosynthesis.
4. The products of photosynthesis are the reactants of cellular respiration. (True) Photosynthesis produces glucose and oxygen, which are used in cellular respiration.
5. Glucose is the energy carrying molecule that cells use for energy. (True)
6. Photosynthesis uses the energy in sunlight to make ATP. (False) Photosynthesis produces glucose, which is then used in cellular respiration to make ATP.
7. One molecule of ATP contains more energy than one molecule of glucose. (False) A molecule of glucose contains more energy than a molecule of ATP.
8. The process in which glucose is broken down and ATP is made is called cellular respiration. (True)
a wave has two different types of energy
A.kinectic and chemical
B.kinetic and physical
C.potential and kinetic
D.potential and mechanical
Answer:
C. potential and kinetic Energy
Explanation:
Wave is a form of energy, it transfers energy by converting one form into another. It has two types of energy kinetic and potential energy. e.g. in case of water waves when particles become its part, they start to move up and down they have kinetic energy at that spot. As it moves away from its normal position it slows down at this spot its kinetic energy is converted into potential energy. The waves and particles oscillates b/w kinetic and potential energy.
The two types of energy in a wave are potential and kinetic. Kinetic energy relates to motion, while potential energy relates to the position of particles. Therefore, the correct answer is option C.
In the context of waves, there are two main types of energy: potential and kinetic. This means the correct option is C. potential and kinetic. Kinetic energy is the energy of motion, which in the case of waves is the movement of particles in the medium through which the wave travels. Potential energy is the stored energy, which in waves is due to the position or configuration of particles in the wave. For example, in a sound wave, particles oscillate, storing energy due to their positions (potential energy) and moving (kinetic energy).
The main advantage of solar energy is: A. It is low in cost. B. It can be used all the time. C. It has very little pollution. D. It is free.
C. Solar energy's whole purpose it to reduce pollution in the air that fossil feuls do not. The answer cannot be A. B. or D. because 1. it is expensive 2. it can only be used during the daytime. It is a SOLAR panel. and 3. like is said earlier it is not free.
C it has very little pollution
Which of the following is a FALSE statement about reactions?
A. Mass can’t be created or destroyed in a chemical reaction
B. Compounds that form have different properties than the ‘old’ reactants.
C. Atoms are rearranged in a reaction and joincto form new molecules
D. When a reaction gets cold, that means energy is destroyed
D is absolutely false. Energy cannot be destroyed. It can only be transferred.
during which phase of mitosis do the chromosomes become visible with a microscope?
A. crotokinesid
B. prophase
C. Anaphase
D. Telphase
Prophase,
Prior to that, the chromosomes were long strands of DNA material called 'chromatin'. During Prophase, the chromatin curls up into tightly wound shapes called chromosomes.
During the Prophase phase of Mitosis, the chromosomes condense and become visible under a microscope.
Explanation:The phase of mitosis during which the chromosomes become visible when viewed under a microscope is the Prophase. Mitosis is the process of cell division. It has several phases: Interphase, Prophase, Metaphase, Anaphase, and Telophase. In Prophase, the chromosomes condense and become visible under a microscope. They appear as two identical sister chromatids joined in the center by a structure called a centromere.
Learn more about Mitosis here:https://brainly.com/question/31626745
#SPJ6
What caused some family lines of Siamese cats to change their appearance from the classic to the modern shape?
A.
an increase in genetic diversity
B.
adaptation
C.
natural selection
D.
artificial selection
Answer:
A. an increase in genetic diversity
Explanation:
Genetic diversity is the degree of gene variety within a single species (animal or plant). It corresponds to the total number of genetic characteristics in the genetic composition of species or subspecies. Genetic diversity is one of the main aspects of our planet's biodiversity, such as populations and ecosystems.
In the case of Siamese cats, genetic diversity has caused some lineages to change their appearance from classic to modern. This occurred by crossing Siamese cats with cats of other breeds, creating a wide genetic variety that resulted in the change in appearance of these cats.
Answer:
D. artificial selection
Explanation:
I did it and got it right .
which item below does not contain lipids a.beeswax b.cellular membranes c.cooking oil d.table sugar
b.cellular membranes is the answer