Improvements in harvesting systems include all of the following advances EXCEPT trees grow at faster rates than they did in previous decades.
Harvesting systems have seen a lot of improvements over the years. Trees can now be cut closer to the ground, allowing for more efficient harvesting. This is especially useful in areas where the trees are densely packed, as it allows for more efficient removal of the forest.
In addition, trees can now be lifted using machines instead of manually. This makes it faster and easier for harvesters to move large amounts of timber in a short amount of time. Trees can also be transported using much smaller equipment, reducing the amount of fuel and manpower needed.
These improvements have allowed for much more efficient and effective harvesting of timber, allowing harvesters to collect more timber in less time with less resources. However, despite these advances, trees still grow at a slower rate than they did in previous decades.
Therefore, correct option is D.
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the primary substrate used for energy production changes from fatty acids to glycogen at approximately what percentage of maximal heart rate?
A High-intensity exercise takes up to approximately 80-85% VO2 max of the energy that is largely obtained from plasma glucose and muscle glycogen. The pattern changes with time and intensity.
Even if the intensity of the exercise remained constant, the duration matters. As the time is prolonged, so does the contribution of fats as the energy substrate even with low/high intensity. With increasing intensity, Carbohydrates dominate fats as a substrate as fatty acids expenditure of energy decreases. Muscle glycogen and plasma glucose contribute to carbohydrates being the primary source of fueling the body. Carbohydrate metabolism has two times better prompt energy transfer capacity compared to that of fatty acids.
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how to get rid of garter snakes without killing them
To get rid of garter snakes without killing them, there are a few methods you can try are Remove attractants, Install snake barriers and Modify the environment.
1. Remove attractants: Garter snakes are attracted to areas with abundant food sources like insects, rodents, and amphibians. Eliminating these attractants, such as removing piles of debris or sealing cracks and gaps in your home, can help discourage snakes from entering your property.
2. Modify the environment: Making changes to your yard or garden can make it less hospitable to garter snakes. Trim tall grass, remove clutter, and keep vegetation away from the foundation of your house to minimize hiding places for snakes.
3. Install snake barriers: Installing physical barriers, such as snake-proof fences or mesh barriers, can help prevent snakes from entering specific areas. These barriers should be buried at least six inches deep and extend above ground to deter snakes from climbing over them.
Remember, it's important to identify the type of snake you are dealing with, as garter snakes are generally harmless. If you are unsure about their identification or need assistance, it's recommended to contact a professional wildlife control service.
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Compare the characteristics of the structures involved in gaseous exchange in humans and in flowering plants. you must state the name of each of the structures.
Humans have specialized respiratory organs called lungs for gaseous exchange, while flowering plants have tiny openings on their leaves called stomata. Both structures serve the purpose of facilitating the exchange of gases, but they differ in their location, structure, and mechanism.
In humans, the respiratory system consists of the lungs, bronchi, bronchioles, and alveoli. The primary site of gaseous exchange is the alveoli, which are small air sacs located at the ends of bronchioles within the lungs. The alveoli have thin walls and are surrounded by a network of capillaries, allowing for efficient diffusion of oxygen into the bloodstream and removal of carbon dioxide.
In flowering plants, gaseous exchange occurs through specialized structures called stomata, which are tiny openings found on the surface of leaves and stems. Stomata are surrounded by guard cells that control their opening and closing. When stomata are open, gases can diffuse in and out of the plant. This allows for the exchange of oxygen and carbon dioxide needed for photosynthesis and respiration.
While both structures facilitate gaseous exchange, there are significant differences between lungs and stomata. Lungs are internal organs located within the chest cavity, whereas stomata are external structures on the surfaces of plant organs. Lungs have a complex structure with a vast surface area for efficient gas exchange, whereas stomata are simple openings. Additionally, the mechanism of gaseous exchange in humans involves the inhalation and exhalation of air, while in plants, it occurs passively through diffusion.
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Defining Heat
What is heat?
O Heat is the energy needed to change the temperature of 1 g of a substance by 1°
O Heat is the average kinetic energy of the particles of a substance.
O Heat is the total energy of a substance due to the movement of its particles.
O Heat is the energy that flows between two substances of different temperatures.
describe how nucleotides form the double helix. include all necessary parts, including how the backbone is formed and the nucleotide binding rules
Nucleotides form the double helix in DNA through the assembly of three components. The sugar and phosphate groups create the backbone of the double helix, the nucleotide binding rules: adenine (A) with thymine (T) and cytosine (C) with guanine (G).
While the nitrogenous bases form the rungs. The backbone is formed by covalent bonds between the sugar of one nucleotide and the phosphate group of the adjacent nucleotide. The three components are a sugar molecule (deoxyribose), a phosphate group, and a nitrogenous base
This creates a repeating sugar-phosphate chain. The nitrogenous bases (adenine, thymine, cytosine, and guanine) project inward and pair according to. These base pairs are held together by hydrogen bonds, which stabilize the double helix structure.
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A homozygous black bird (BB) is crossed with a homozygous white bird (WW). The offspring are all bluish-gray (BW). This is an example of ______ inheritance.
A case of imperfect dominance inheritance is this. When there is incomplete dominance in inheritance, the heterozygous phenotype falls in the middle of the two homozygous phenotypes.
What colour are the progeny when a black chicken and a white chicken are crossed?The feather colour of the chicken in question is comparable to the colour of the Mirabilis jalapa flower. As neither of these alleles may predominate over the other, the black colour is represented by allele B and the white colour by allele W.
Which genes, respectively, are homozygous dominant, homozygous recessive, and heterozygous?An organism is considered to be homozygous dominant or homozygous recessive if it possesses two copies of the same dominant allele or two copies of the same recessive allele.
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The four parts of a seed include all of the following, except _____.
a. seed
b. embryo
c. cotyledon
d. epidermis
e. endosperm
f. coat
3. Marilyn is doing an experiment in which she is growing plants in three different types
of soil. Each week she records the height of the plants. In this investigation, the
height of the plants is the
Answer:
14
Explanation:
mark as BRAINLIST answer
What is the main difference between the way a fern and an orange tree reproduce?
Answer:
Ferns- reproduce through spores
Orange tree's- Reproduce by grafting
Explanation:
( :
A.The resident time would be zero because carbon is released as soon
B. The resident time will depend on where the organism lives because it might be influenced by cellular respiration
C.The resident time will decrease because plants will be taking in carbon dioxide to use for photosynthesis
D. The resident time will increase because there will be a buildup of carbon in the atmosphere
If the input and output of carbon is balanced in the carbon cycle the resident time would be zero because carbon is released as soon.
When its stay in the atmosphere is done, where does the carbon go?
The average amount of time a CO2 molecule spends in the atmosphere before being absorbed by the oceans or terrestrial biosphere is known as the residence time (RT) of CO2 in the atmosphere.
What is the purpose of residence time?
The quality of the final result depends on home time. The residence time distribution is important if you have a selected process that needs to be terminated at a specific time. Less time spent reacting by chemicals results in lower conversion and a large quantity of reactants at the output.
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Need Now!!!!!! Which statement is true concerning all organisms? A. All organisms respond to their environment. B.All organisms are made of many cells. C. All organisms obtain energy from other organisms. D.All of these statements are true.
Crossing over produces new combinations of alleles among random alignment of paired chromosomes at metaphase l produces them among chromosomes. chromosomes; a. homologous, homologous b. homologous, nonhomologous c. nonhomologous, nonhomologous d. nonhomologous, homologous e. None of the above.
Crossing over produces new combinations of alleles among homologous chromosomes, while random alignment of paired chromosomes at metaphase I produces them among nonhomologous chromosomes. So the answer is b. homologous, nonhomologous.
Crossing over occurs during meiosis I, specifically during prophase I, when homologous chromosomes pair up and exchange genetic information. This exchange of genetic material between the homologous chromosomes results in new combinations of alleles. Nonhomologous chromosomes cannot undergo crossing over because they do not have a corresponding partner to exchange genetic material with. Therefore, options b, c, d, and e are incorrect.
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1 433 Quiz: Quick! Cenozoic
Question 4 of 10
Around
years ago, the first ancestors of homo sapiens appeared on
OA 1 million
OB. 1.8 billion
OC. 20,000
OD. 65 million
SUBMIT
The Cenozoic era was 65 million years ago."Recent life" means from the Cenozoic 66 million years ago to the present. Plants and animals such as dinosaurs most closely resemble today's species in this era. Times of the Cenozoic Period are parted into much more modest parts known as Ages, so you will see considerably more signs in this Time.
Cenozoic signs are shaded yellow. Mammals lived during the Cenozoic Era, which began with the dinosaur extinction and continues to this day. Mass annihilation of cold-blooded animals set out open doors for new life to flourish.
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What is the velocity of the ball just before it hits the ground
Answer:
Conclusion: The magnitude of the velocity of the ball is 26.3 m/s for the parabolic motion just before it hits the ground and this greater than the 17.1 m/s for the velocity of the ball that falls straight downward
4. Koalas are herbivores that eat leaves from
eucalyptus trees. Before a joey (a baby koala) can
begin to eat leaves, the baby must ingest "pap," a
paste of partially digested leaves from the mother's
intestines. Why do you think this must happen
before the joey can digest the leaves?
Answer:
sorry i dont knwo
Joey of Koalas feed on their mother's milk before they can ingest pap.
Who are Koalas?Koalas are arboreal marsupials native to Australia. They are one of the mammals who give birth to the young ones who remain in their mother's lower belly.
What is pap?It is a special substance produces by their mother that look like droppings and acts like probiotics.
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What are the functions of the cells resulting from a double fertilization event?.
How does soil erosion affect streams and rivers?
Explanation:
The effects of soil erosion go beyond the loss of fertile land. It has led to increased pollution and sedimentation in streams and rivers, clogging these waterways and causing declines in fish and other species. And degraded lands are also often less able to hold onto water, which can worsen flooding.
Which word best describes the rock’s grain shape? jagged oval round smooth.
The word that best describes the rock's grain shape is jagged.
What do you mean by the Rock's grain shape?
It significantly defines the structural arrangement of a granular mass within a rock.
In some rocks, the grain shape results from the shapes of crystals that form the rock. While in some other rocks, the grain shape results from the fragments of other rocks that can be considered as round, smooth, and sometimes jagged.
Therefore, the word that best describes the rock's grain shape is jagged.
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Answer: A
Explanation i just took the test
How will the ice water mix with the salty water? Write your hypothesis below.
Answer:
See below.
Explanation:
The actual reason that the application of salt causes ice to melt is that a solution of water and dissolved salt has a lower freezing point than pure water. Ice in contact with salty water therefore melts, creating more liquid water, which dissolves more salt, thereby causing more ice to melt, and so on.
Answer: I think that the ice will go slower because salt slows down the rate of which Its melt, so the ice would last longer
Explanation:
ASSIGNMENTS
COURSES
Assignment - 5.Project Water Conservation
Attempt 1 of 1
WIR ITED
1
i
SECTION 1 OF 1
QUESTION 1
Directions
1. Use the library, or the Internet, to research water conservation.
2. Create a brochure, poster, or three-paragraph report about water conservation.
Explain how water is wasted and ways people can conserve it. Be sure to include relevant facts and statistics.
3. After you complete your project, also answer the questions below.
Questions
1. How can you conserve water in the kitchen?
2. How can you conserve water in the bathroom?
3. How can you conserve water outside the home?
UPLOAD
Water conservation is the practice of using water in a responsible and sustainable way in order to reduce water usage and waste.
Which ways can water be conserved?Water conservation involves the adoption of behaviors and technologies that promote the efficient use of water resources. Water conservation is important because water is a finite resource and its availability is crucial for human survival, agricultural production, and economic development.
In the kitchen, you can conserve water by:
Only running the dishwasher and washing machine when they are full.Fixing any leaks in your sink or faucet.Using a basin or plug to wash dishes, rather than letting the water run continuously.Installing a low-flow faucet or aerator, which reduces the flow of water while still maintaining pressure.Using a broom instead of a hose to clean outdoor areas.In the bathroom, you can conserve water by:
Taking shorter showers, and installing a low-flow showerhead.Turning off the tap while you brush your teeth or shave.Fixing any leaks in your sink, shower, or toilet.Using a bucket to catch water while you wait for it to warm up, then using that water to flush the toilet or water plants.Installing a dual-flush toilet, which uses less water for liquid waste and more water for solid waste.Outside the home, you can conserve water by:
Planting native, drought-resistant plants in your yard.Using a broom instead of a hose to clean outdoor areas.Watering your lawn and plants early in the morning or late in the evening, when temperatures are cooler and there is less evaporation.Collecting rainwater in barrels and using it to water plants.Installing a drip irrigation system, which delivers water directly to the roots of plants and reduces evaporation.Find out more on water conservation here: https://brainly.com/question/10221255
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What would most likely happen to a population of plants if their environment experiences long-term climate change that results in a much hotter and drier environment? a. The plants would increase the number of seeds they make to improve their chances of reproducing. b. Individual plants would work hard to grow longer roots and thicker leaves. c. The plants that gather and store water most efficiently would survive to pass on those traits. d. All of the plants would die off before producing offspring.
This must be approached carefully as each species has different needs and requirements, not necessarily a warmer environment is detrimental or positive, nonetheless, organisms are always in constant adaptation, so those plants with a better capacity for adaptation and a wide pool of variation will survive, like is the case mentioned in option C, that is the correct answer.
where is the capsid found in a virus?
considering the function of red blood cells is to carry oxygen from the lungs through the circulatory system to the rest of the body, why did the patient’s oxygen levels fall? the patient:
The patient's oxygen levels may have fallen due to factors such as reduced oxygen intake, impaired oxygen-carrying capacity of red blood cells, inadequate circulation, or problems with oxygen exchange in the lungs.
Red blood cells play a crucial role in transporting oxygen from the lungs to the body tissues. If a patient's oxygen levels have fallen, there could be several underlying reasons.
One possibility is reduced oxygen intake, which can occur due to respiratory conditions like lung disease or airway obstruction. Impaired oxygen-carrying capacity of red blood cells can also lead to decreased oxygen levels.
This can be caused by conditions such as anemia or certain genetic disorders affecting hemoglobin production. Inadequate circulation, often seen in conditions like heart failure or shock, can limit the delivery of oxygen to tissues despite normal oxygen levels in the blood.
Lastly, problems with oxygen exchange in the lungs, such as pneumonia or lung damage, can hinder the transfer of oxygen from inhaled air to the bloodstream. Determining the specific cause requires a comprehensive evaluation by healthcare professionals to address and treat the underlying condition appropriately.
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The following chart describes several different parts of flowering plants.
A three-column table. Column 1 is labeled A with a row for male reproductive structure. Column 2 is labeled B with a row for female reproductive structure. Column 3 is labeled C with a row for composed of sepals and petals.
What is the correct label for column A?
seed
pistil
stamen
angiosperm
Answer:
D) Angiosperm
Explanation:
I hope this helps :) Tell me if I am wrong
Create a food chain with any type of organism you would like. Make sure to include a producer, primary consumer, secondary consumer, and decomposer.
In the forest, there is a diverse food chain that sustains various organisms. At the bottom of the chain are the producers, which in this case are the trees. They use photosynthesis to create their food and oxygen, providing a crucial foundation for the food chain.
Moving up the chain, we have the primary consumers, which are the herbivores that feed on the tree's leaves and fruits. The primary consumers in this food chain are the deer, who graze and browse on the trees throughout the forest.
Next in line are the secondary consumers, which are the carnivores that feed on the herbivores. In this food chain, the secondary consumers are the wolves, who hunt the deer for their sustenance.
Finally, we have the decomposers, which play a crucial role in breaking down dead organisms and waste into nutrients that can be used by the producers. In this food chain, the decomposers are the fungi and bacteria that break down the dead leaves and decomposing bodies of the deer and wolves, returning nutrients to the soil for the producers to use once again.
78. optomotor control of course and altitude in drosophila melanogaster is correlated with distinct activities of at least three pairs of flight steering muscles
The optomotor control of course and altitude in Drosophila melanogaster is correlated with distinct activities of at least three pairs of flight steering muscles.
These muscles work together to allow the fly to navigate its environment with precision.
1. Optomotor control: Drosophila melanogaster uses its vision to control its flight course and altitude. The optomotor system allows the fly to respond to visual stimuli and make adjustments in its flight path.
2. Flight steering muscles: Drosophila melanogaster has specific muscles that are responsible for controlling its flight movements. At least three pairs of flight steering muscles play a role in regulating the fly's course and altitude.
3. Distinct activities: Each pair of flight steering muscles has different functions and actions. These distinct activities contribute to the fly's ability to control its direction and height during flight.
The optomotor control of course and altitude in Drosophila melanogaster is achieved through the coordinated activities of at least three pairs of flight steering muscles. These muscles work together to allow the fly to navigate its environment with precision.
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how are aquaporins helpful in osmosis?
Answer:
Water moves in and out of cells by osmosis through the cell membrane. ... Aquaporins selectively conduct water molecules in and out of cells, while preventing the passage of ions and other solutes.
Explanation:
yw
How have modern advancements allowed this modern-day scientist to do research in a way that Darwin couldn’t?
Modern advancements have enabled this modern-day scientist to conduct research in a manner that Charles Darwin couldn't. These advancements have revolutionized various aspects of scientific investigation, providing scientists with unprecedented tools and opportunities for discovery.
1. Technological Innovations: The development of advanced laboratory equipment and tools has significantly enhanced the scientist's ability to analyze and manipulate biological samples. From high-resolution microscopes to gene sequencing machines, these advancements allow for a more detailed examination of organisms and their genetic makeup.
2. Computational Power: The availability of powerful computers and sophisticated algorithms has transformed the field of data analysis. Modern scientists can process vast amounts of genetic data, run complex simulations, and perform intricate statistical analyses. This computational power allows for more precise and comprehensive investigations, enabling them to uncover patterns and relationships that Darwin could only dream of.
3. Collaborative Research: The advent of the internet and digital communication has facilitated global collaboration among scientists. They can share data, exchange ideas, and work together on projects regardless of geographical barriers. This collaborative approach leads to a collective accumulation of knowledge and accelerates the pace of scientific discovery.
4. Access to Information: The digital age has made a wealth of scientific literature and research readily accessible. Scientists today can access an extensive database of previous studies, allowing them to build upon existing knowledge and make more informed hypotheses. Darwin, on the other hand, had limited access to scientific literature and relied mostly on firsthand observations.
5. Interdisciplinary Approaches: Modern scientists have the advantage of interdisciplinary collaboration, combining knowledge and techniques from multiple fields. By integrating biology, physics, chemistry, and other disciplines, researchers can approach problems from different angles, leading to deeper insights and innovative solutions.
In summary, modern advancements in technology, computation, collaboration, and access to information have empowered today's scientists to conduct research in ways that were unimaginable during Darwin's time. These advancements have expanded the scope of investigation, increased precision, and accelerated the pace of scientific discovery.
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What is the role of cyclins in a cell?
Answer:
Control of cell transition from one phase of the cell cycle to another
Explanation:
Control of cell transition from one phase of the cell cycle to another is not the only role of cyclin in the cell.
The role of cyclin C and H in the processes of transcription regulation is shown.
Cyclin H, together with the transcription factor TFIIH, plays a role in the phosphorylation of the CTD-tail of RNA polymerase II during the transcription process.
Cyclin L participates in the processes of primary transcript processing.
What is the ONLY sex carriers of colorblindness can be?