The subspecies of tiger on the brink of extinction and being conserved by conservationists in northwest Thailand is the Indochinese tiger.
Indochinese tigers are a subspecies of the tiger species and is also known as the Corbett’s tiger. They are found in Cambodia, China, Laos, Malaysia, Myanmar, Thailand, and Vietnam, with the majority of the population being in Thailand. This subspecies of tiger has been on the brink of extinction for quite some time now due to habitat loss, illegal poaching, and encroachment by humans. Due to this, conservationists in northwest Thailand are working hard to conserve the Indochinese tiger, which is essential to the ecosystem and biodiversity of the region.The conservation efforts of these conservationists involve anti-poaching patrols, habitat restoration, community outreach, and education. These conservation efforts are important as the Indochinese tiger plays a vital role in the ecosystem by being the apex predator and helping in maintaining the balance in the ecosystem. The conservation of this subspecies is also vital in maintaining the biodiversity of the region.
Thus, Indochinese tigers are the subspecies of tiger on the brink of extinction, and they are being conserved by conservationists in northwest Thailand. The conservation efforts are essential in maintaining the balance of the ecosystem and the biodiversity of the region.
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how does norepinephrine inhibit smooth muscle action in airways, but is able to stimulate contractions in most other smooth muscles of the body?
Epinephrine and norepinephrine increase the charge of contraction of the smooth muscle of Ciona intestinalis.
Norepinephrine, also referred to as noradrenaline, the substance is released predominantly from the ends of sympathetic nerve fibers and acts to boom the pressure of skeletal muscle contraction and the fee and pressure of contraction of the heart.
Norepinephrine, produced through the adrenal medulla, is a stress hormone that increases blood stress, heart rate, and glucose from energy stores; within the kidneys, it will purpose constriction of the clean muscular tissues, resulting in reduced or inhibited go with flow to the nephrons.
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two mechanisms of genetic change, and explain how each affects genetic variation.
Genetic variety is brought about through DNA mutation, which modifies the genes of people within a population. As new people enter a population carrying various gene combinations.
Describe DNA.
Describe DNA. Deoxyribonucleic acid, or DNA. It includes units known as nucleotides, which are biological building blocks. For most other organisms in addition to humans, DNA is an essential chemical. Our genes and genetic material, which make us distinct, are both contained in our DNA.
Where can you find DNA?
DNA is located inside the nucleus, a specific region of the cell, in eukaryotic species. Each DNA molecule needs to be neatly packaged because cells are very small and organisms have several DNA molecules per cell. This container
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6a. Fossil fuel burning contributes the most to global warming because: 1. It adds CO2 to the earth's atmosphere It adds hydrogen to the earth's atmosphere 6b. "subsidy" from governments for fossil fu
Answer:
Explanation: option 1 . adds CO2 to the earth's atmosphere is the correct answer.
since fossil fules are rich in carbon dioxide wich is a green house gas .
effects the atmosphere and causes global warming.
When the lens becomes more spherical, the focal point moves {{c1::closer to the lens}}
The shape of a lens determines the way it refracts light. When a lens becomes more spherical, the curvature of the lens increases. This causes the light passing through the lens to bend more sharply, resulting in a change in the focal point.
Specifically, when a lens becomes more spherical, the focal point moves closer to the lens. This means that the point at which the light passing through the lens converges and forms a clear image moves closer to the surface of the lens. This can have implications for the performance of the lens in optical systems, as changes in the shape of the lens can affect the clarity and sharpness of the image that is formed.
When the lens becomes more spherical, the curvature of the lens increases. This results in a higher degree of light bending as it passes through the lens.
As the lens becomes more spherical, its refractive power increases due to the increased curvature. Consequently, the light converging within the lens focuses at a point that is closer to the lens. This shift in the focal point allows for the correction of certain vision issues, such as nearsightedness.
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I need a cytoskeleton pick up line!
Answer:
Call me a cytoskeleton because I'll provide you with all the support you need and cause some movement inside you
Explanation:
it’s not mine so I can’t take credit but I hope this works and is what you are looking for.
You are probably
familiar with titles that historians have given to specific periods in history such as Pax Romana, the Renaissance, and the Victorian Era What title would you give to each of the three periods of U.S. environmental policy discussed in this lesson? Explain your choices.
For the three periods of U.S. environmental policy discussed in this lesson, I would assign the following titles:
Environmental Awakening: This title represents the initial phase of environmental policy in the United States, which emerged in the mid-19th century and continued into the early 20th century. During this period, there was a growing recognition of the importance of environmental conservation and protection. Key events such as the establishment of national parks and the formation of organizations like the Sierra Club reflected a growing awareness of the need to preserve natural resources and protect the environment for future generations.Environmental Revolution: This title characterizes the era of environmental policy that began in the 1960s and extended into the 1970s. It was a time of significant policy changes and heightened public awareness of environmental issues. Key developments during this period include the establishment of the Environmental Protection Agency (EPA), the passage of landmark legislation such as the Clean Air Act and Clean Water Act, and the rise of the environmental movement. The term "revolution" highlights the transformative nature of the policy shifts and the substantial impact they had on environmental protection.Sustainable Stewardship: This title encapsulates the contemporary period of U.S. environmental policy, which encompasses the late 20th century to the present day. During this phase, there has been an increasing emphasis on sustainable practices, long-term planning, and a holistic approach to environmental management. Efforts to address climate change, promote renewable energy, and foster sustainable development reflect the focus on balancing environmental protection with economic growth and social well-being.To know more about ,environmental policy, click here https://brainly.com/question/11214287
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Wheeler DA, Ally A, Balasundaram M, et al. Comprehensive and integrative genomic characterization of hepatocellular car- cinoma.
The given article titled "Comprehensive and integrative genomic characterization of hepatocellular carcinoma" is written by Wheeler DA, Ally A, Balasundaram M, et al.
In the article, the authors present a thorough and comprehensive analysis of genomic information for hepatocellular carcinoma (HCC), which is a common type of liver cancer.
The authors describe the use of a variety of genomic technologies to analyze different aspects of the cancer, including mutations, copy number variations, gene expression, and epigenetic modifications. The article includes detailed results from these analyses, as well as discussions of the implications of these findings for the understanding of HCC and the development of new treatments. Overall, the study represents an important contribution to the field of cancer genomics, particularly in the context of HCC.
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HELPP me please I’ll give brainliest if two people answer!!!!
The purpose of meiosis is to
A. Produce cells that each have a unique set of genetic material
B. Produce cells that are genetically identical to one another.
C. Create genetically variation by introducing mutations.
D. Repair and replace damaged cells.
Answer:
B. Produce cells that are genetically identical to one another
Answer:
B
Explanation:
HeLPPP
How can we stop carbon dioxide to the ocean to not affect pH levels?
Answer:
Because of human-driven increased levels of carbon dioxide in the atmosphere, there is more CO2 dissolving into the ocean. The ocean's average pH is now around 8.1 , which is basic (or alkaline), but as the ocean continues to absorb more CO2, the pH decreases and the ocean becomes more acidic.
Hope This Helps
Answer:
Carbon dioxide (chemical formula CO2) is a chemical compound occurring as an acidic colorless gas with a density about 53% higher than that of dry air. Carbon dioxide molecules consist of a carbon atom covalently double bonded to two oxygen atoms. It occurs naturally in Earth's atmosphere as a trace gas. The current concentration is about 0.04% (412 ppm) by volume, having risen from pre-industrial levels of 280 ppm.[9][10] Natural sources include volcanoes, forest fires, hot springs, and geysers, and it is freed from carbonate rocks by dissolution in water and acids. Because carbon dioxide is soluble in water, it occurs naturally in groundwater, rivers and lakes, ice caps, glaciers, and seawater. It is present in deposits of petroleum and natural gas. Carbon dioxide has a sharp and acidic odor and generates the taste of soda water in the mouth,[11] but at normally encountered concentrations it is odorless.[1]
Explanation:
hope that helps
PLEASE HELP ASAP.
Rabbits are very popular domesticated animals, so popular that there are over 300 breeds of domesticated rabbits in the world. You attend a rabbit show and notice that all of the breeds vary in many characteristics, such as size, color, and fur length. You notice that there is weight information on the cages of all rabbit individuals at the show and decide to jot down data for two specific rabbit breeds (in pounds):
Breed A: 10, 8, 7, 10, 9, 9, 10, 9
Breed B: 10, 12, 14, 13, 10, 15, 11, 12
In three to five sentences, 1) calculate the average weights of the two rabbit breed groups, 2) describe some factors that could contribute to the different weights seen within breeds, and 3) describe how you would track and find the growth rate of the two rabbit breeds during an investigation.
Answer:
Average of breed a: 9 pounds, average of breed b: 12.125
Explanation:
10+8+7+10+9+9+10+9 = 72
72/8 = 9 pounds
10+12+14+13+10+15+11+12 = 97
97/8 = 12.125 pounds
Regardless of whether an organism is an animal, a plant, a fungus, or an algal cell, all zygotes are __________ and are formed during the __________ of two __________ gametes.
Answer:
diploid; fertilization; haploid
Explanation:
Imagine that four genes on a single chromosome in a mutant phenotype of Drosophila cross over at half the normal rate as in the wild-type phenotype. How, if at all, would genetic maps of that chromosome differ between this mutant and the wild-type fly
We know that frequency of recombination is proportional with the distance between the genes on the chromosome. Therefore when the recombination rate is higher that means the distance between the genes on the chromosome is bigger. If the recombination rate is lower that means the genes are closer to each other on the chromosome. In this case the cross over rate is half the normal rate in the wild-type. That means that on the genetic map the distance between the two genes on the wild type will be twice bigger than the genes of the mutated Drosophila.
perfrom a monohybrid cross between two parents heterzygous for straight hair. Straighy hair is dominant to curly, which is recessive. What percentage of their offspring will have straight hair? Curly hair? Identifty the genotypic ratio for their offspring
Much appriciated in advance :)
Answer:
Percentage of offspring with straight hair: 75%
Percentage of offspring with curly hair: 25%
Genotypic ratio: 1:2:1
Explanation:
In a monohybrid cross between two parents heterozygous (carrying one dominant and one recessive allele) for straight hair, where straight hair is dominant (S) and curly hair is recessive (s), the genotypes of the parents can be represented as Ss.
To determine the percentage of their offspring with straight hair and curly hair, we can use Punnett square analysis.
The Punnett square for the monohybrid cross between the parents would look like this:
S s
S SS Ss
s Ss ss
From the Punnett square, we can see that there are four possible genotypes for the offspring: SS, Ss, Ss, and ss.
The genotypes SS and Ss correspond to individuals with straight hair, while ss corresponds to individuals with curly hair.
So, the percentage of their offspring with straight hair would be 75% (3 out of 4 possible genotypes), and the percentage with curly hair would be 25% (1 out of 4 possible genotypes).
The genotypic ratio for their offspring would be 1:2:1, meaning that for every four offspring, one would have the genotype SS (homozygous dominant for straight hair), two would have the genotype Ss (heterozygous for straight hair), and one would have the genotype ss (homozygous recessive for curly hair).
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What type of organism is an antlion? (Producer, Herbivore, Carnivore, Omnivore)
Antlions are an insect under the order of Net-Winged insects, under the family of Myrmeleontidae. They dig pits to trap passing ants and other insect larvae, like caterpillars. They are carnivorous; more specifically, they are insectivores, in that they eat insects.
a patient with blunt traumatic brain injury has bruising behind the ears
Bruising behind the ears in blunt traumatic brain injury indicates Battle's sign, implying a skull base fracture. Urgent medical attention is required to address potential brain damage and complications.
Bruising behind the ears in a patient with blunt traumatic brain injury can be a significant finding. It suggests the presence of Battle's sign, which is associated with a skull base fracture or injury. Battle's sign occurs when blood collects behind the ears due to bleeding from the fractured bones or injured blood vessels near the base of the skull.
The presence of Battle's sign indicates a more severe head injury and suggests that the force of the trauma was significant enough to cause the skull base fracture. It is essential to recognize this sign and promptly seek medical attention as it may indicate potential complications such as brain injury, intracranial bleeding, or other associated injuries. Immediate medical evaluation and management are crucial to assess and treat any potential brain damage or complications resulting from the traumatic brain injury.
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the cycling of materials such as carbon, water, and other nutrients are mainly dependent upon soil-dwelling organisms. which pair of organisms shown are decomposers? responses fungi and bacteria fungi and bacteria bacteria and grass bacteria and grass fungi and mice fungi and mice mice and grass
The pair of organisms that are decomposers are fungi and bacteria.
The cycling of materials such as carbon, water, and other nutrients in an ecosystem is primarily dependent upon soil-dwelling organisms, specifically decomposers. Decomposers are organisms that break down dead organic matter and recycle the nutrients back into the soil. The two main groups of decomposers in soil are fungi and bacteria. These micro organisms play a crucial role in maintaining the balance of the ecosystem by breaking down dead plant and animal matter and returning the nutrients to the soil, making them organisms available to other living organisms. Decomposers are essential to the health of the soil and the entire ecosystem and without them, dead matter would accumulate and the cycle of life would be disrupted.
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The complete Question is:
The cycling of materials such as carbon, water, and other nutrients are mainly dependent upon soil-dwelling organisms. Which pair of organisms shown are decomposers?
An _______. _______
is an interconnected network for delivering
electricity from suppliers to customers.
Fill in blanks
Answer:
An electrical grid or power grid is an interconnected network for delivering
electricity from suppliers to customers
Why does having a genetically diverse population make a species more likely
to survive a change to the environment?
A. They are more likely to have harmful mutations.
B. They are more likely to reach carrying capacity.
C. They are more likely to become an invasive species.
D. They are more likely to have some individuals adapted for survival.
I really need help on this
Answer:
all have Aa
Explanation:
since it's the first generation
Use the drop-down menus to label the parts of a nucleotide.
Label A
Label B
Label C
Label D
Label E
Label F
Answer:
A and F are phosphate groups.
B and E are sugars.
C and D are nitrogenous bases.
Explanation:
Nucleotides are the molecules responsible for composing DNA and RNA. They are formed by three units: a phosphate group, a sugar molecule and a nitrogenous base.
The sugar molecule is a pentose, which means that it is a molecule formed by 5 carbons. These collections are represented by geometrical figures such as the letters "B" and "E" shown in the figure above, where each tip represents a carbon.
The nitrogenous bases are molecules that are named adenine (A) and guanine (G) and the pyrimidine bases cytosine (C), uracil (U) and thymine (T).
The phosphate group, in turn, is a molecule derived from phosphoric acid and is the only one that does not vary in each nucleotide.
if it helped uh please mark me a brainliest :)Projections of loose connective tissue from the dermis, which extend upward between the adjacent ridges of the epidermis, are called.
Projections of loose connective tissue from the dermis, which extend upward between the adjacent ridges of the epidermis, are called dermal papillae.
It is made up of loose dense connective tissue in the papillary portion of the dermis. Its finger-like extensions, known as papillae, which reach toward the epidermis as well as comprise terminal connections of blood capillaries, gave rise to its name.
Of the two epidermal layers, the papillary layer would be the thinnest. It is primarily made up of collagen fires that are loosely organized.
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HELP ASAP
No animal is as creative as people.
True
False
Answer:
I believe it is false.
Explanation:
Other apes are creative too.
Why can I hear my self blink sometimes?
Which statement describes correctly why cells are small?
-when cells are small, the movement of food and waste can be efficiently handled by the cell membrane.
-when cells are small, they can easily work together to form tissue.
-when cells are small, their internal parts can support the cell membrane.
-when cells are small, they can adapt their shape more easily to fulfill their specific function.
How does evolution lead to both biodiversity and commonalities among life?
Answer:
its D
Explanation:
just took the test
What canwe do to decrease our disruption of the nitrogen Cycle?
Answer:
We can use less pollutants.
Explanation:
Gracias a una investigación internacional se ha averiguado que las actividades humanas causan estragos en los bosques tropicales al alterar el ciclo de nitrógeno normal. Los descubrimientos, publicados en Science, proporcionaron las primeras pruebas de efectos a largo plazo por contaminación de nitrógeno en árboles tropicales. Los científicos, de Austria, Canadá, Alemania y Panamá, trabajaron en dos emplazamientos remotos del Observatorio Terrestre Global del Instituto Smithsonian en Panamá y Tailandia. «La contaminación atmosférica fertiliza los bosques con uno de los nutrientes más importantes para el crecimiento», afirmó S. Joseph Wright del Instituto Smithsonian de Investigación Tropical en Panamá. «Comparamos el nitrógeno que contenían hojas de especímenes secos recogidas en 1968 con el de muestras de hojas de 2007. La concentración de nitrógeno foliar y la proporción de isótopos de nitrógeno tanto pesados como ligeros ha aumentado en los últimos 40 años del mismo modo a como lo hicieron en un experimento anterior en el que se abonó el suelo del bosque. » El nitrógeno se origina en el interior de las estrellas gracias a temperatura y presión elevadas. En condiciones normales es incoloro, insípido e inodoro, y poco propenso a reaccionar con otras sustancias. En la atmósfera flota más del 75% del nitrógeno, que además es un componente esencial de las proteínas. Uno de los cambios que «activan» el nitrógeno viene producido por ciertas bacterias colonizadoras de raíces vegetales que extraen nitrógeno de la atmósfera y lo que significa o fijan en una forma útil para el crecimiento vegetal. Cuando las bacterias ya no necesitan el nitrógeno la planta lo absorbe, para luego pasar a los animales. La fijación del nitrógeno se define mediante el proceso de Haber, que convierte el proceso de nitrógeno gaseoso en amoníaco, un ingrediente común en los abonos. La fijación de nitrógeno por medios artificiales ha aumentado la cantidad de emisiones de nitrógeno reactivo en un 100%. Según los investigadores, el nitrógeno presenta dos formas o isótopos, átomos con la misma
Why were giant planets close to their stars (often called Hot Jupiters) the first ones to be discovered? Select any/all correct answers. a.They are the most numerous planets
b. It is easiest to find them in spectra because they are massive
c. It is easiest to find them in lightcurves because they are largest d.It is easiest to find them in because they are close to their star e.It is easiest to find them in images because they are brightest
f. By pure coincidence gBecause they are the most massive, they are the first to explode as supernovae hBecause they are the most massive, they formed first
The correct answers are:
b. It is easiest to find them in spectra because they are massive.
c. It is easiest to find them in lightcurves because they are largest.
d. It is easiest to find them in because they are close to their star.
e. It is easiest to find them in images because they are brightest.
The discovery of giant planets close to their stars, often referred to as Hot Jupiters, can be attributed to several factors.
The initial detection methods employed in exoplanet research played a significant role in the discovery of Hot Jupiters. The most successful techniques, such as the radial velocity and transit methods, were particularly effective in identifying these close-in gas giants.
b. Giant planets close to their stars exert a significant gravitational pull, causing their parent stars to wobble.
This motion is detected through the radial velocity method, which measures the Doppler shift in the star's spectrum. Since Hot Jupiters are massive, their gravitational effect on the star is more pronounced, making them easier to detect in spectra.
c. Hot Jupiters, due to their large size, can cause noticeable dimming of their parent stars when they pass in front of them. This phenomenon, known as a transit, is detected by monitoring the lightcurves of stars. The substantial size of Hot Jupiters makes them more likely to produce detectable variations in brightness.
d. The proximity of Hot Jupiters to their stars is another contributing factor to their discovery. Their short orbital periods and close-in orbits make them more likely to transit in front of their stars, increasing the chances of their detection through transit observations.
e. Hot Jupiters are also relatively bright objects due to their large size and close proximity to their parent stars. This makes them more easily detectable in images taken during surveys or direct imaging techniques.
In conclusion, the early discovery of Hot Jupiters can be attributed to a combination of their massive size, close proximity to their stars, and the methods used for their detection, including spectroscopy, transit observations, and imaging.
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trait d is homologous in all of the taxa except mosses. blanktarget 1 of 6 magnolias only have trait c. blanktarget 2 of 6 the common ancestor marked by the dot had all five traits. blanktarget 3 of 6 trait b is homologous in pines, cedars, and cacao. blanktarget 4 of 6 trait e is homologous in magnolias, roses, and cacao. blanktarget 5 of 6 trait c occurs only in magnolias
Trait D is homologous in all, with the exception of mosses, all taxa share homology for trait D. blank target 1 of 6 magnolias only have trait c. blank target 2 of 6 the common ancestor marked by the dot had all five traits.
With the exception of mosses, all taxa share homology for trait D.Cacao, cedar, and pine all have comparable traits to trait B.Only characteristic C is present in magnolias.The common ancestor indicated by the dot possessed all five characteristics.Cacao, roses, and magnolias have a trait E homolog.Only magnolias exhibit Trait C.The complete question is attached:
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to
which particle is nab-paclitaxel bound, allowing it to use the
body's own transport systems
Nab-paclitaxel is bound to albumin, which allows it to use the body's own transport systems.
What is nab-paclitaxel?Nab-paclitaxel is a form of chemotherapy that is used to treat certain types of cancer, such as breast cancer, non-small cell lung cancer, and pancreatic cancer. Nab-paclitaxel works by interfering with the ability of cancer cells to divide and grow. It is known as a taxane drug because it is derived from the bark of the Pacific yew tree.
How does nab-paclitaxel work?Nab-paclitaxel is bound to a protein called albumin, which allows it to use the body's own transport systems. Albumin is a protein that is produced by the liver and is found in blood plasma. It is responsible for transporting a variety of substances throughout the body, including hormones, fatty acids, and drugs. Nab-paclitaxel is designed to bind to albumin, which allows it to circulate through the body and reach the cancer cells more efficiently than other forms of paclitaxel.
What are the benefits of nab-paclitaxel?Nab-paclitaxel has several benefits over other forms of chemotherapy. One of the main advantages is that it can be administered at a higher dose than other forms of paclitaxel. This means that it can be more effective in killing cancer cells. In addition, because it is bound to albumin, it has a lower risk of causing allergic reactions. Finally, it has a longer half-life than other forms of paclitaxel, which means that it can remain in the body for a longer period of time and continue to fight cancer cells.
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