You need to find out why the GBR water is inhibiting (stopping) photosynthesis in the algae. The three major parts of photosynthesis are PSI, PSII and the Calvin cycle. The database has provided 3 things that could be inhibiting photosynthesis: high sea temperatures, paraquat, and diuron.

Answers

Answer 1

Explanation:

If the temperature increases then that will decrease the sugar but not the ATP and NADPH. So I predict that diuron will inhibit the photosynthesis because if photosystem II is infered with it then photosynthesis wouldn't work.And also, because paraquat will lower the NADPH and sugar but not ATP. Hence Diuron is the only choice left.

Related Questions

How is the relationship between a fish and a sea anemone commensal?
Neither the fish nor the sea anemone benefits.
The fish benefits, and the sea anemone does not.
The fish and sea anemone both benefit.
The fish benefits, and the sea anemone is harmed.

Answers

Explanation:

The symbiotic relationship between an anemone (Heteractis magnifica) and a clownfish (Amphiron ocellaris) is a classic example of two organisms benefiting the other; the anemone provides the clownfish with protection and shelter, while the clownfish provides the anemone nutrients in the form of waste while also scaring ..

Answer:

the fish benefits but the sea aneneme does not. The aneneme is not harmed though.

Explanation:

I have taken the test

how does image recognition affect mitosis?

Answers

The goal of mitosis image/sequence classification is to detect if a mitotic event occurs in the sequence.

What do you mean by mitosis?

In cell biology, mitosis is a part of the cell cycle in which replicated chromosomes are separated into two new nuclei. Cell division by mitosis gives rise to genetically identical cells in which the total number of chromosomes is maintained. Therefore, mitosis is also known as equational division.

The process of mitosis generates new cells that are genetically identical to each other. Mitosis helps organisms grow in size and repair damaged tissue.

Mitosis is important for three main reasons: development and growth cell replacement and asexual reproduction.

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I don’t know how to do this

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The normal human cell contains a single pair of chromosome Option B.

This is because in the human evolutionary lineage two monkey chromosomes fused at the telomere to create the human chromosome 2. As a result, he has one less pair of human chromosomes. A gamete is a haploid cell containing 23 chromosomes, each chromosome being one of a pair of chromosomes present in a diploid cell.

The number of chromosomes in one set is denoted as n, also known as the haploid number. An abnormal chromosome 22 containing part of chromosome 9 and a fusion gene is commonly known as the Philadelphia chromosome. Translocations are acquired throughout life and are present only in abnormal blood cells. This type of genetic change, called a somatic mutation, is not inherited.

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The table represents the transcription of a short peptide sequence in a human cell.
DNA: TTG CTG TGT GAG GCA GAA
RNA: AAC GAC ACA CUC CGU CUU
Protein (peptide sequence: ?
What is the expected gene product of the given nucleotide sequence when it is engineered in a bacterial plasmid?
1. Asn Asp Thr Leu Arg Leu
2. Leu Leu Cys Glu Ala Glu
3. Lys Gln Arg Asp Ala Glu
4. Phe Val Ser Leu Arg Leu

Answers

Answer:

Explanation:

use the chart with the condons being translated to amino acids

Igneous rock that forms from fava at or above Earth's surface:
a. organic rock
b. clastic rock
c. intrusive rock
d. extrusive rock
PLZ HELP

Answers

extrusive rock duhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhhh

Answer:

Extrusive rock

Explanation:

there you go :)

Can someone help me !

Answers

the answer is C because the chloroplasts help catch the suns energy in order for the cell to have energy. the mitochondria converts the energy into fuel for the cell.

please try to give brainliest because i am trying to reach the next rank.

thanks!!

what types of energy are in a battery-powered radio?
what types of energy are in a hydropower dam?
what types of energy are in using an unplugged iphone?

Answers

In a battery-powered radio, the energy is in the form of chemical potential energy stored in the battery, which is converted into electrical energy to power the radio's circuitry and speakers.

In a hydropower dam, the energy is in the form of kinetic energy of the moving water, which is converted into electrical energy by turbines that spin generators.

Using an unplugged iPhone does not involve any energy, as the phone is not in use and is not consuming or producing any form of energy.

What is energy?

Energy is a fundamental property of matter and can exist in many forms, including kinetic energy (the energy of motion), potential energy (stored energy), thermal energy (the energy of heat), electrical energy (the energy of charged particles), electromagnetic energy (the energy of electromagnetic waves), and nuclear energy (the energy stored in the nuclei of atoms). Energy is essential for all physical processes and is conserved, meaning it can be neither created nor destroyed, only converted from one form to another.

Energy can be converted from one form to another. For example, in a hydropower dam, the energy is in the form of kinetic energy of the moving water, which is converted into electrical energy by turbines that spin generators.

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Teukaryotes, a gene is made of which of these.
A- ATP
B- DNA
C- RNA
D- ALL of these
E- DNA and RNA
F- DNA and Protein

Answers

i’m pretty sure it’s D

The brain and spinal cord are part of the _______ nervous system. The electrical charges that act as nervous signals are called _______. Jellyfish do not have a brain. Instead their nervous system is called a _______. After nervous systems began to develop in bilaterally symmetric animals, some developed ventral, or front, nerve cords, while chordates developed _______ nerve cords. Skeletons that allow for movement by using muscles and squeezing liquid to change the body shape are called _______ skeletons. _______ do not grow with arthropods, and so occasionally must be shed and regrown from chitin. Muscles move endo- and exoskeletons by _______. _______ is the joining of two gametes called sperm and egg. A fish that lays her eggs in a cluster is initiating _______ fertilization. _______ are an adaptation by reptiles to allow for reproduction and embryo development on land. Describe three different strategies used by three different animals to thermoregulate. If you see a snake coiled up in a sunny patch of grass, what can you probably conclude about the type of thermoregulator it is. Why?

Answers

The brain and spinal cord are part of the central nervous system.

The electrical charges that act as nervous signals are called action potentials or nerve impulses.

Jellyfish do not have a brain. Instead, their nervous system is called a nerve net.

After nervous systems began to develop in bilaterally symmetric animals, some developed ventral nerve cords, while chordates developed dorsal nerve cords.

Skeletons that allow for movement by using muscles and squeezing liquid to change the body shape are called hydrostatic skeletons.

Exoskeletons do not grow with arthropods, and so occasionally must be shed and regrown from chitin.

Muscles move endo- and exoskeletons by contracting and relaxing.

Fertilization is the joining of two gametes called sperm and egg.

A fish that lays her eggs in a cluster is initiating cluster or mass fertilization.

Amniotic eggs are an adaptation by reptiles to allow for reproduction and embryo development on land.

Describe three different strategies used by three different animals to thermoregulate.

Elephants: Elephants thermoregulate by using their large ears as cooling devices. They flap their ears to increase surface area and enhance heat loss through evaporative cooling.Desert Lizards: Desert lizards employ behavioral thermoregulation by basking in the sun to absorb heat and warming their bodies. They also retreat to shade or burrows to avoid excessive heat when needed.Penguins: Penguins have a unique thermoregulation strategy. They huddle together in large groups to conserve body heat and shield themselves from the cold Antarctic winds, effectively reducing heat loss and maintaining body temperature.

If you see a snake coiled up in a sunny patch of grass, what can you probably conclude about the type of thermoregulator it is. Why?

If you see a snake coiled up in a sunny patch of grass, you can probably conclude that the snake is an ectotherm. Ectotherms rely on external heat sources, such as the sun, to regulate their body temperature. By basking in the sun, the snake absorbs heat, which helps raise its body temperature to a suitable level for proper physiological functioning.

Answer:

1. central

2. action potential

3. nerve net

4. dorsal

5. hydrostatic

6. Exoskeletons

7. contraction/contracting

8. Fertilization

9. external fertilization

10. Eggs

11. Animals with fur thermoregulate by panting. Winged birds will flap against their mouths/heads to dissipate heat. Humans will produce sweat to evaporatively cool. Polar bears have developed blubber. Bears drop body temperatures during hibernation.

12. Seeing a snake using the warmth of the sun leads us to conclude that it is likely a thermo conformer that cannot produce its own body heat.

Formation of enterocelous?

Answers

Enterocoelous refers to the condition in which the coelom develops from pouches "pinched" off of the digestive system, whereas Schizocoelous refers to the condition in which the body cavity is formed by the splitting of the mesoderm during embryonic development.

What procedure does the coelom of the enterocoelous and schizocoelous designs follow?

Unlike Schizocoelous, where the capsule is created either by breaking the capsule or by pouches "pinched" off of the digestive tract, Enterocoelous is an illness in which the coelom originates from pouches "pinched" off of the digestive system.

A method for how certain animal embryos develop is known as schizocoelous or schizocoelic. When secondary heart cavities coeloms are created by breaking a solid mass of pair with polished nickel hardware embryonic tissue, the schizocoely process takes place.

What is the formation of the coleom for the enterocoelous and schizocoelous plan?

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Genetics Problem Solving Chapter 25

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The problem involved a cross between homozygous purple and homozygous white pea plants, where purple is dominant. The Punnett square showed that the probability of the offspring having purple flowers is 3/4 or 0.75, which is a 75% chance.

The genotype of the homozygous purple-flowered pea plant is PP and the genotype of the homozygous white-flowered pea plant is pp. When these two plants are crossed, all of the F1 generation plants will be heterozygous (Pp) for flower color because they inherit one allele from each parent.

To determine the probability of the offspring having purple flowers, we can use a Punnett square

Each box represents a possible genotype combination of the offspring. The probability of an offspring inheriting the dominant P allele is 3/4, while the probability of inheriting the recessive p allele is 1/4. Therefore, the probability of the offspring having purple flowers is 3/4 or 0.75.

Thus, there is a 75% chance that the offspring of this cross will have purple flowers.

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--The given question is incomplete, the complete question is given

" Genetics Problem Solving Chapter 25

In pea plants, flower color is determined by a single gene with two alleles: the dominant allele for purple flowers (P) and the recessive allele for white flowers (p). A homozygous purple-flowered pea plant is crossed with a homozygous white-flowered pea plant.

What is the probability that the offspring will have purple flowers?"--

30 POINTS HELP ASAP PLEASE Air in the atmosphere continuously moves by convection. At the equator, air rises; at the poles, air sinks. This occurs because—

the air at the equator is warmer and less dense and the air at the poles is cooler and more dense
the air at the equator is warmer and less dense and the air at the poles is cooler and more dense

the air at the equator is cooler and more dense and the air at the poles is warmer and less dense
the air at the equator is cooler and more dense and the air at the poles is warmer and less dense

the tilt of the Earth on its axis causes day and night
the tilt of the Earth on its axis causes day and night

the air at the equator and poles are moved by the rotation of the Earth

Answers

Answer:

The air at the equator is warmer and less dense and the air at the polls is cooler and more dense

Explanation:

air at the equator is constantly warm, has denser air, and barely cools and the polar regions are cooler therefore that means it is dense

. In the picture below, in which direction will water move?

into the cell
out of the cell

Answers

Answer: into the cell

Explanation:

Calibri Light
20
BI U OY Av AO ... Ev Evv
Ąy Styles P Tags
Question: Who will win the race? The tortoise or the hare?
Background Knowledge: There is a tortoise named Bertie that is the fastest in the world
according to the Guinness Book of World Records. His top speed is 0.28 m/s. In this race, he
will compete against a Brown Hare.
Brown Hares look like ordinary rabbits but their rear feet are much larger. This allows
them to run much faster than rabbits. For short distances hares can reach a maximum speed
of 22 m/s.
Calendar
Predict: The hare bragged to all the other animals about how fast it could run and laughed at
the tortoise because it moved so slowly. Tired of being bullied by the hare, the tortoise
challenged him to a 100-m race.
1. Solve for the time it will take for each racer to cross the finish line based on the background
knowledge about their top speed: (show your units in your work)
Hare:
Tortoise:
2. Who should win the race? The tortoise or the hare? Use quantitative evidence from your
calculations to support your prediction.
Apol
He
I
Type here to search

Answers

When converted to a household measurement, 9 kilograms is approximately equal to a

Myoglobin transfers oxygen obtained from hemoglobin to mitochondrial proteins involved in the catabolism of metabolic fuels to produce energy for the muscle cell. What can you conclude about the structures of these mitochondrial proteins?

Answers

Answer:

Explanation:

Mitochondria is a double membrane bound organelle that is located in most eukaryotic organisms and it has a number of different shapes.

A mitochondrion has a outer and inner membranes made up of phospholipid bilayers and proteins which have different properties. Because of the double membraned organization, mitochondria have five distinct parts:

Outer mitochondrial membrane

Intermembrane space which is the space between the outer and inner membranes

Inner mitochondrial membrane,

the cristae space which is formed by the folding in of the inner membrane and

matrix which is the space within the inner membrane.

Mitochondria has a complex structure that allows for all the activities carried out by it this includes,Energy conversion, Pyruvate and the citric acid cycle, NADH and FADH2 which are the electron transport chain, Heat production and Storage of calcium.

true/false. pattern where phenotypes of both homozygous parents are produced in heterozygous offspring so that both alleles for a gene are equally expressed.

Answers

The given statement is false. Because the pattern where phenotypes of both homozygous parents are produced in heterozygous offspring so that both alleles for a gene are equally expressed is known as codominance.

In codominance, neither allele is dominant or recessive, and both are expressed equally in the phenotype of the heterozygous individual.

An example of codominance is the ABO blood group system in humans, where the A and B alleles are codominant and both are expressed in the phenotype of individuals with the AB blood type. In contrast, in incomplete dominance, the phenotype of the heterozygous individual is an intermediate between the two homozygous parents.

An example of incomplete dominance is the pink flowers produced by a cross between a red-flowered plant and a white-flowered plant in which neither allele is dominant and the resulting phenotype is a blend of the two.

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please help the questions are in the file!!!!

Answers

Answer:

i cant see it

Explanation:

Answer:

1 niche

2 biotic factors

3 abiotic factors

4 speicies

5 ecosystem

6 ecology

7 parasitim

8 mutualism

9 commenolism

10 symbiotic relationships

Explanation:

BRAINLIEST AND 20 POINTS!!! FIRST CORRECT ANSWER

Which of the following describes erosion caused by glaciers?
It forms big ice chunks.
It changes the temperature.
It happens quickly.
It takes a long time.

Answers

Answer:

The 4th option.

Explanation:

Erosion from glaciers takes a long time because glaciers move very slowly across the land. For example, The Appalachian Mountains in the U.S. used to be really tall but slowly overtime, glaciers rounded them off.

Which of the following is involved in generating changes in the hair cell receptor potential when the stereocilia bend? a high concentration of K in perilymph b. equilibrium potential of -80 mV for Kions c. ion channels on the tips of the stereocilia d. opening of Na channels e none of the above

Answers

A high concentration of k in perilymph b

14.
List of Terms:
A) Asia
B) Africa
Europe
North America
America
South
Middle East
3启面正西至395
1
15
G
Atlantic Ocean
H) Pacific Ocean
D
Indian Ocean
Southern Ocean
Mediterranean
Sea
16
18.
GLOBAL MAP
20
21.
19
17
22.
23.
24
25

Answers

Answer:

Explanation:

Can you take a picture of the assignment and post it

which of the following is an example of a producer

Answers

Answer: What are the choices? Producers are plants that take energy from the sun :)

Which is the best reason for John to bring snacks to his study sessions?

to make his study sessions enjoyable
to avoid leaving to get food
to avoid taking breaks
to ensure he has enough caffeine

Answers

Answer:

I would assume so that he has enough caffeine (you can't study without some energy)

Explanation:

describe two observations of water that provide evidence that water molecules are attracted to one another

Answers

Answer:

Polarity causes water molecules to become attached to each other. Cohesion is also know as the attachment of 2 of the same substance

In a fluorescence recovery after photobleaching (FRAP) experiment, a fluorescently tagged membrane protein, A, shows very little recovery of fluorescence ten minutes after photobleaching, while membrane protein B shows a rapid increase in fluorescence after bleaching, recovering nearly 80% of its original fluorescent signal by ten minutes. Based on this information, which of the following statements can be made?
A. Proteins A and B interact with each other in a complex
B. Protein A is easily denatured,
C. Protein Bis diffusing in a more fluid membrane.
D. Protein Ahas faster mobility in the membrane.

Answers

Answer:

The correct answer is option C. Protein Bis diffusing in a more fluid membrane.

Explanation:

Fluorescence recovery after photobleaching or FRAP is a technique used to examine the portability of fluorescent particles with the help of fluorescence microscopy that have been utilized since the mid-70s to evaluate the dispersion or movements of molecules in the cell membranes of the cell.

Fluorescence Recovery After Photobleaching (FRAP) is a strategy for deciding the energy of dispersion in living cells (typically) utilizing fluorescence microscopy.

In the given experiment:

The diffusion coefficient of GFP vary, based on the localization of the protein

Protein B is freely diffusing, due to which recovery is very high compared to protein A.

Protein which is less diffusing shows a slower and less rate of recovery.

True or False. In both wet years and dry years, urban water use far exceeds agricultural water use in California.

Answers

The answer is false.

Is crick and Watson a type of genetic test

Answers

No, "Crick and Watson" is not a type of genetic test. Crick and Watson refer to James D. Watson and Francis Crick, who were scientists involved in the discovery of the structure of DNA. They proposed the double-helix structure of DNA in 1953, which provided the foundation for understanding genetic information and its role in heredity.

Genetic tests, on the other hand, are laboratory tests that analyze an individual's DNA or genes to provide information about their genetic makeup, potential genetic disorders, or predispositions to certain conditions.

These tests can be used for various purposes, such as diagnosing genetic disorders, predicting the risk of developing certain diseases, determining carrier status for genetic conditions, or providing ancestry and genealogical information.

While Crick and Watson made significant contributions to the field of genetics, they are not directly associated with genetic testing. Genetic tests are based on scientific advancements and technologies developed after their groundbreaking discovery of the DNA structure.

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evolutionary significance of bryophytes

Answers

The bryophytes, which include mosses, liverworts, and hornworts, have significant evolutionary significance in the plant kingdom despite their relatively small size and simple structure, they played a crucial role in the colonization of terrestrial environments and the subsequent evolution of higher plants.

Here are some key evolutionary significance of bryophytes:

Adaptation to land: Bryophytes are considered some of the earliest land plants.

They were the first plants to transition from aquatic to terrestrial habitats, paving the way for the colonization of land by other plant groups.

They developed strategies to overcome challenges such as desiccation, limited nutrients, and anchorage to the soil.

Moisture retention: Bryophytes have adaptations that enable them to retain moisture.

They possess specialized structures, such as rhizoids and mucilage, that help absorb and retain water.

This ability to retain water and survive in relatively dry environments was an important adaptation for the conquest of land.

Soil formation: Bryophytes, especially mosses, contribute to soil formation.

They can grow on bare rocks and soil, where their rhizoids aid in weathering and breaking down substrates.

Their decomposed remains also contribute organic matter to the soil, enriching its fertility.

Habitat creation: Bryophytes provide habitat and microenvironments for other organisms.

Their dense mats or cushions create shelter, moisture, and temperature buffering for a variety of organisms, including insects, small invertebrates, and microorganisms.

They contribute to the overall biodiversity and ecosystem functioning.

Reproductive strategies: Bryophytes have unique reproductive strategies. They produce spores that can disperse and colonize new habitats.

Their reproductive structures, such as gametophores and sporophytes, exhibit various adaptations that allowed for successful reproduction in terrestrial environments.

Ecological indicators: Bryophytes are sensitive to environmental changes, making them valuable ecological indicators.

Their presence, abundance, and diversity can indicate environmental conditions such as air quality, moisture levels, and habitat disturbance.

Monitoring bryophytes can provide insights into the health and integrity of ecosystems.

Overall, bryophytes played a crucial role in the evolution and colonization of land by plants.

Their adaptations, ecological roles, and evolutionary history make them important subjects of study for understanding plant evolution, ecosystem dynamics, and the colonization of terrestrial environments.

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Here are some key evolutionary significance of bryophytes:

Adaptation to land: Bryophytes are considered some of the earliest land plants.

They were the first plants to transition from aquatic to terrestrial habitats, paving the way for the colonization of land by other plant groups.