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Directions: Read the following passage and answer the questions given after it. [SSC Sub. Ins.-2018]The ocean will not look the same color in the future.Essentially, climate change will make the blues of the ocean bluer and the greens greener. Scientists from MIT. Boston, figured this out by creating a global model that simulates the growth of a tiny creature that lives in the oceans and affects the color we see. Their research was published in the journal Nature Communications.The ocean looks blue or green to us because of a combination of how sunlight interacts with water molecules and with whatever else lives in that water.The molecules in water absorb all but the blue part of the spectrum of sunlight, and the water reflects that blue color back. That’s the color we see.The water looks greener when it has more phytoplankton, tiny, microscopic organisms that, like plants, can use chlorophyll to capture mostly the blue portions of the spectrum of sunlight.They then use photosynthesis to create the chemical energy they need to live. When there are more of these creatures in the water absorbing sunlight, they make the water look greener. Conversely, if there are fewer phytoplankton, the water looks bluer.The creatures’ growth is dependent on how much sunlight, carbon dioxide and nutrients are around. Climate change is altering the ocean currents, meaning there will be fewer nutrients for phytoplankton to feed on in some areas, so there will be a decline in their number in those regions.Since the 1990s, satellites have taken regular measurements of how much chlorophyll is in the ocean. Those levels can change because of weather events or because of climate change.The study predicts that the blues will intensify, most likely in subtropical regions where phytoplankton will decrease. These are areas near the equator like Bermuda and the Bahamas that are already quite low in phytoplankton.Regions where there are a lot of nutrients, like in the Southern Ocean or parts of the North Atlantic, will see even faster-growing phytoplankton because those waters are Warming with climate change. Those waters will look greener.Climate change will bring a color change to half of the world’s oceans by the end of the 21st century, the study says. That’s bad on several levels: For one, phytoplankton remove about as much carbon dioxide from the air as plants and help regulate our climate, research shows. They are also key to other animals’ survival.” Phytoplankton are at the base, and if the base changes, it endangers everything else along the food web, going far enough to the polar bears or tuna or just about anything that you want to eat or love to see in pictures, “said Stephanie Dutkiewicz, a principal research scientist in MIT.Q.Which statement is not true according to the passage?a)Phytoplankton has a key role in the survival of other animals.b)By the end of 21st century the colour of ocean waters will change.c)More blue colour in the ocean will affect the climate change.d)In subtropical regions phytoplankton will decrease.Correct answer is option 'C'. Can you explain this answer? for SSC CGL 2024 is part of SSC CGL preparation. The Question and answers have been prepared according to the SSC CGL exam syllabus. Information about Directions: Read the following passage and answer the questions given after it. [SSC Sub. Ins.-2018]The ocean will not look the same color in the future.Essentially, climate change will make the blues of the ocean bluer and the greens greener. Scientists from MIT. Boston, figured this out by creating a global model that simulates the growth of a tiny creature that lives in the oceans and affects the color we see. Their research was published in the journal Nature Communications.The ocean looks blue or green to us because of a combination of how sunlight interacts with water molecules and with whatever else lives in that water.The molecules in water absorb all but the blue part of the spectrum of sunlight, and the water reflects that blue color back. That’s the color we see.The water looks greener when it has more phytoplankton, tiny, microscopic organisms that, like plants, can use chlorophyll to capture mostly the blue portions of the spectrum of sunlight.They then use photosynthesis to create the chemical energy they need to live. When there are more of these creatures in the water absorbing sunlight, they make the water look greener. Conversely, if there are fewer phytoplankton, the water looks bluer.The creatures’ growth is dependent on how much sunlight, carbon dioxide and nutrients are around. Climate change is altering the ocean currents, meaning there will be fewer nutrients for phytoplankton to feed on in some areas, so there will be a decline in their number in those regions.Since the 1990s, satellites have taken regular measurements of how much chlorophyll is in the ocean. Those levels can change because of weather events or because of climate change.The study predicts that the blues will intensify, most likely in subtropical regions where phytoplankton will decrease. These are areas near the equator like Bermuda and the Bahamas that are already quite low in phytoplankton.Regions where there are a lot of nutrients, like in the Southern Ocean or parts of the North Atlantic, will see even faster-growing phytoplankton because those waters are Warming with climate change. Those waters will look greener.Climate change will bring a color change to half of the world’s oceans by the end of the 21st century, the study says. That’s bad on several levels: For one, phytoplankton remove about as much carbon dioxide from the air as plants and help regulate our climate, research shows. They are also key to other animals’ survival.” Phytoplankton are at the base, and if the base changes, it endangers everything else along the food web, going far enough to the polar bears or tuna or just about anything that you want to eat or love to see in pictures, “said Stephanie Dutkiewicz, a principal research scientist in MIT.Q.Which statement is not true according to the passage?a)Phytoplankton has a key role in the survival of other animals.b)By the end of 21st century the colour of ocean waters will change.c)More blue colour in the ocean will affect the climate change.d)In subtropical regions phytoplankton will decrease.Correct answer is option 'C'. Can you explain this answer? covers all topics & solutions for SSC CGL 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for Directions: Read the following passage and answer the questions given after it. [SSC Sub. Ins.-2018]The ocean will not look the same color in the future.Essentially, climate change will make the blues of the ocean bluer and the greens greener. Scientists from MIT. Boston, figured this out by creating a global model that simulates the growth of a tiny creature that lives in the oceans and affects the color we see. Their research was published in the journal Nature Communications.The ocean looks blue or green to us because of a combination of how sunlight interacts with water molecules and with whatever else lives in that water.The molecules in water absorb all but the blue part of the spectrum of sunlight, and the water reflects that blue color back. That’s the color we see.The water looks greener when it has more phytoplankton, tiny, microscopic organisms that, like plants, can use chlorophyll to capture mostly the blue portions of the spectrum of sunlight.They then use photosynthesis to create the chemical energy they need to live. When there are more of these creatures in the water absorbing sunlight, they make the water look greener. Conversely, if there are fewer phytoplankton, the water looks bluer.The creatures’ growth is dependent on how much sunlight, carbon dioxide and nutrients are around. Climate change is altering the ocean currents, meaning there will be fewer nutrients for phytoplankton to feed on in some areas, so there will be a decline in their number in those regions.Since the 1990s, satellites have taken regular measurements of how much chlorophyll is in the ocean. Those levels can change because of weather events or because of climate change.The study predicts that the blues will intensify, most likely in subtropical regions where phytoplankton will decrease. These are areas near the equator like Bermuda and the Bahamas that are already quite low in phytoplankton.Regions where there are a lot of nutrients, like in the Southern Ocean or parts of the North Atlantic, will see even faster-growing phytoplankton because those waters are Warming with climate change. Those waters will look greener.Climate change will bring a color change to half of the world’s oceans by the end of the 21st century, the study says. That’s bad on several levels: For one, phytoplankton remove about as much carbon dioxide from the air as plants and help regulate our climate, research shows. They are also key to other animals’ survival.” Phytoplankton are at the base, and if the base changes, it endangers everything else along the food web, going far enough to the polar bears or tuna or just about anything that you want to eat or love to see in pictures, “said Stephanie Dutkiewicz, a principal research scientist in MIT.Q.Which statement is not true according to the passage?a)Phytoplankton has a key role in the survival of other animals.b)By the end of 21st century the colour of ocean waters will change.c)More blue colour in the ocean will affect the climate change.d)In subtropical regions phytoplankton will decrease.Correct answer is option 'C'. Can you explain this answer?.

Solutions for Directions: Read the following passage and answer the questions given after it. [SSC Sub. Ins.-2018]The ocean will not look the same color in the future.Essentially, climate change will make the blues of the ocean bluer and the greens greener. Scientists from MIT. Boston, figured this out by creating a global model that simulates the growth of a tiny creature that lives in the oceans and affects the color we see. Their research was published in the journal Nature Communications.The ocean looks blue or green to us because of a combination of how sunlight interacts with water molecules and with whatever else lives in that water.The molecules in water absorb all but the blue part of the spectrum of sunlight, and the water reflects that blue color back. That’s the color we see.The water looks greener when it has more phytoplankton, tiny, microscopic organisms that, like plants, can use chlorophyll to capture mostly the blue portions of the spectrum of sunlight.They then use photosynthesis to create the chemical energy they need to live. When there are more of these creatures in the water absorbing sunlight, they make the water look greener. Conversely, if there are fewer phytoplankton, the water looks bluer.The creatures’ growth is dependent on how much sunlight, carbon dioxide and nutrients are around. Climate change is altering the ocean currents, meaning there will be fewer nutrients for phytoplankton to feed on in some areas, so there will be a decline in their number in those regions.Since the 1990s, satellites have taken regular measurements of how much chlorophyll is in the ocean. Those levels can change because of weather events or because of climate change.The study predicts that the blues will intensify, most likely in subtropical regions where phytoplankton will decrease. These are areas near the equator like Bermuda and the Bahamas that are already quite low in phytoplankton.Regions where there are a lot of nutrients, like in the Southern Ocean or parts of the North Atlantic, will see even faster-growing phytoplankton because those waters are Warming with climate change. Those waters will look greener.Climate change will bring a color change to half of the world’s oceans by the end of the 21st century, the study says. That’s bad on several levels: For one, phytoplankton remove about as much carbon dioxide from the air as plants and help regulate our climate, research shows. They are also key to other animals’ survival.” Phytoplankton are at the base, and if the base changes, it endangers everything else along the food web, going far enough to the polar bears or tuna or just about anything that you want to eat or love to see in pictures, “said Stephanie Dutkiewicz, a principal research scientist in MIT.Q.Which statement is not true according to the passage?a)Phytoplankton has a key role in the survival of other animals.b)By the end of 21st century the colour of ocean waters will change.c)More blue colour in the ocean will affect the climate change.d)In subtropical regions phytoplankton will decrease.Correct answer is option 'C'. Can you explain this answer? in English & in Hindi are available as part of our courses for SSC CGL. Download more important topics, notes, lectures and mock test series for SSC CGL Exam by signing up for free.

Here you can find the meaning of Directions: Read the following passage and answer the questions given after it. [SSC Sub. Ins.-2018]The ocean will not look the same color in the future.Essentially, climate change will make the blues of the ocean bluer and the greens greener. Scientists from MIT. Boston, figured this out by creating a global model that simulates the growth of a tiny creature that lives in the oceans and affects the color we see. Their research was published in the journal Nature Communications.The ocean looks blue or green to us because of a combination of how sunlight interacts with water molecules and with whatever else lives in that water.The molecules in water absorb all but the blue part of the spectrum of sunlight, and the water reflects that blue color back. That’s the color we see.The water looks greener when it has more phytoplankton, tiny, microscopic organisms that, like plants, can use chlorophyll to capture mostly the blue portions of the spectrum of sunlight.They then use photosynthesis to create the chemical energy they need to live. When there are more of these creatures in the water absorbing sunlight, they make the water look greener. Conversely, if there are fewer phytoplankton, the water looks bluer.The creatures’ growth is dependent on how much sunlight, carbon dioxide and nutrients are around. Climate change is altering the ocean currents, meaning there will be fewer nutrients for phytoplankton to feed on in some areas, so there will be a decline in their number in those regions.Since the 1990s, satellites have taken regular measurements of how much chlorophyll is in the ocean. Those levels can change because of weather events or because of climate change.The study predicts that the blues will intensify, most likely in subtropical regions where phytoplankton will decrease. These are areas near the equator like Bermuda and the Bahamas that are already quite low in phytoplankton.Regions where there are a lot of nutrients, like in the Southern Ocean or parts of the North Atlantic, will see even faster-growing phytoplankton because those waters are Warming with climate change. Those waters will look greener.Climate change will bring a color change to half of the world’s oceans by the end of the 21st century, the study says. That’s bad on several levels: For one, phytoplankton remove about as much carbon dioxide from the air as plants and help regulate our climate, research shows. They are also key to other animals’ survival.” Phytoplankton are at the base, and if the base changes, it endangers everything else along the food web, going far enough to the polar bears or tuna or just about anything that you want to eat or love to see in pictures, “said Stephanie Dutkiewicz, a principal research scientist in MIT.Q.Which statement is not true according to the passage?a)Phytoplankton has a key role in the survival of other animals.b)By the end of 21st century the colour of ocean waters will change.c)More blue colour in the ocean will affect the climate change.d)In subtropical regions phytoplankton will decrease.Correct answer is option 'C'. Can you explain this answer? defined & explained in the simplest way possible. Besides giving the explanation of Directions: Read the following passage and answer the questions given after it. [SSC Sub. Ins.-2018]The ocean will not look the same color in the future.Essentially, climate change will make the blues of the ocean bluer and the greens greener. Scientists from MIT. Boston, figured this out by creating a global model that simulates the growth of a tiny creature that lives in the oceans and affects the color we see. Their research was published in the journal Nature Communications.The ocean looks blue or green to us because of a combination of how sunlight interacts with water molecules and with whatever else lives in that water.The molecules in water absorb all but the blue part of the spectrum of sunlight, and the water reflects that blue color back. That’s the color we see.The water looks greener when it has more phytoplankton, tiny, microscopic organisms that, like plants, can use chlorophyll to capture mostly the blue portions of the spectrum of sunlight.They then use photosynthesis to create the chemical energy they need to live. When there are more of these creatures in the water absorbing sunlight, they make the water look greener. Conversely, if there are fewer phytoplankton, the water looks bluer.The creatures’ growth is dependent on how much sunlight, carbon dioxide and nutrients are around. Climate change is altering the ocean currents, meaning there will be fewer nutrients for phytoplankton to feed on in some areas, so there will be a decline in their number in those regions.Since the 1990s, satellites have taken regular measurements of how much chlorophyll is in the ocean. Those levels can change because of weather events or because of climate change.The study predicts that the blues will intensify, most likely in subtropical regions where phytoplankton will decrease. These are areas near the equator like Bermuda and the Bahamas that are already quite low in phytoplankton.Regions where there are a lot of nutrients, like in the Southern Ocean or parts of the North Atlantic, will see even faster-growing phytoplankton because those waters are Warming with climate change. Those waters will look greener.Climate change will bring a color change to half of the world’s oceans by the end of the 21st century, the study says. That’s bad on several levels: For one, phytoplankton remove about as much carbon dioxide from the air as plants and help regulate our climate, research shows. They are also key to other animals’ survival.” Phytoplankton are at the base, and if the base changes, it endangers everything else along the food web, going far enough to the polar bears or tuna or just about anything that you want to eat or love to see in pictures, “said Stephanie Dutkiewicz, a principal research scientist in MIT.Q.Which statement is not true according to the passage?a)Phytoplankton has a key role in the survival of other animals.b)By the end of 21st century the colour of ocean waters will change.c)More blue colour in the ocean will affect the climate change.d)In subtropical regions phytoplankton will decrease.Correct answer is option 'C'. Can you explain this answer?, a detailed solution for Directions: Read the following passage and answer the questions given after it. [SSC Sub. Ins.-2018]The ocean will not look the same color in the future.Essentially, climate change will make the blues of the ocean bluer and the greens greener. Scientists from MIT. Boston, figured this out by creating a global model that simulates the growth of a tiny creature that lives in the oceans and affects the color we see. Their research was published in the journal Nature Communications.The ocean looks blue or green to us because of a combination of how sunlight interacts with water molecules and with whatever else lives in that water.The molecules in water absorb all but the blue part of the spectrum of sunlight, and the water reflects that blue color back. That’s the color we see.The water looks greener when it has more phytoplankton, tiny, microscopic organisms that, like plants, can use chlorophyll to capture mostly the blue portions of the spectrum of sunlight.They then use photosynthesis to create the chemical energy they need to live. When there are more of these creatures in the water absorbing sunlight, they make the water look greener. Conversely, if there are fewer phytoplankton, the water looks bluer.The creatures’ growth is dependent on how much sunlight, carbon dioxide and nutrients are around. Climate change is altering the ocean currents, meaning there will be fewer nutrients for phytoplankton to feed on in some areas, so there will be a decline in their number in those regions.Since the 1990s, satellites have taken regular measurements of how much chlorophyll is in the ocean. Those levels can change because of weather events or because of climate change.The study predicts that the blues will intensify, most likely in subtropical regions where phytoplankton will decrease. These are areas near the equator like Bermuda and the Bahamas that are already quite low in phytoplankton.Regions where there are a lot of nutrients, like in the Southern Ocean or parts of the North Atlantic, will see even faster-growing phytoplankton because those waters are Warming with climate change. Those waters will look greener.Climate change will bring a color change to half of the world’s oceans by the end of the 21st century, the study says. That’s bad on several levels: For one, phytoplankton remove about as much carbon dioxide from the air as plants and help regulate our climate, research shows. They are also key to other animals’ survival.” Phytoplankton are at the base, and if the base changes, it endangers everything else along the food web, going far enough to the polar bears or tuna or just about anything that you want to eat or love to see in pictures, “said Stephanie Dutkiewicz, a principal research scientist in MIT.Q.Which statement is not true according to the passage?a)Phytoplankton has a key role in the survival of other animals.b)By the end of 21st century the colour of ocean waters will change.c)More blue colour in the ocean will affect the climate change.d)In subtropical regions phytoplankton will decrease.Correct answer is option 'C'. Can you explain this answer? has been provided alongside types of Directions: Read the following passage and answer the questions given after it. [SSC Sub. Ins.-2018]The ocean will not look the same color in the future.Essentially, climate change will make the blues of the ocean bluer and the greens greener. Scientists from MIT. Boston, figured this out by creating a global model that simulates the growth of a tiny creature that lives in the oceans and affects the color we see. Their research was published in the journal Nature Communications.The ocean looks blue or green to us because of a combination of how sunlight interacts with water molecules and with whatever else lives in that water.The molecules in water absorb all but the blue part of the spectrum of sunlight, and the water reflects that blue color back. That’s the color we see.The water looks greener when it has more phytoplankton, tiny, microscopic organisms that, like plants, can use chlorophyll to capture mostly the blue portions of the spectrum of sunlight.They then use photosynthesis to create the chemical energy they need to live. When there are more of these creatures in the water absorbing sunlight, they make the water look greener. Conversely, if there are fewer phytoplankton, the water looks bluer.The creatures’ growth is dependent on how much sunlight, carbon dioxide and nutrients are around. Climate change is altering the ocean currents, meaning there will be fewer nutrients for phytoplankton to feed on in some areas, so there will be a decline in their number in those regions.Since the 1990s, satellites have taken regular measurements of how much chlorophyll is in the ocean. Those levels can change because of weather events or because of climate change.The study predicts that the blues will intensify, most likely in subtropical regions where phytoplankton will decrease. These are areas near the equator like Bermuda and the Bahamas that are already quite low in phytoplankton.Regions where there are a lot of nutrients, like in the Southern Ocean or parts of the North Atlantic, will see even faster-growing phytoplankton because those waters are Warming with climate change. Those waters will look greener.Climate change will bring a color change to half of the world’s oceans by the end of the 21st century, the study says. That’s bad on several levels: For one, phytoplankton remove about as much carbon dioxide from the air as plants and help regulate our climate, research shows. They are also key to other animals’ survival.” Phytoplankton are at the base, and if the base changes, it endangers everything else along the food web, going far enough to the polar bears or tuna or just about anything that you want to eat or love to see in pictures, “said Stephanie Dutkiewicz, a principal research scientist in MIT.Q.Which statement is not true according to the passage?a)Phytoplankton has a key role in the survival of other animals.b)By the end of 21st century the colour of ocean waters will change.c)More blue colour in the ocean will affect the climate change.d)In subtropical regions phytoplankton will decrease.Correct answer is option 'C'. Can you explain this answer? theory, EduRev gives you an ample number of questions to practice Directions: Read the following passage and answer the questions given after it. [SSC Sub. Ins.-2018]The ocean will not look the same color in the future.Essentially, climate change will make the blues of the ocean bluer and the greens greener. Scientists from MIT. Boston, figured this out by creating a global model that simulates the growth of a tiny creature that lives in the oceans and affects the color we see. Their research was published in the journal Nature Communications.The ocean looks blue or green to us because of a combination of how sunlight interacts with water molecules and with whatever else lives in that water.The molecules in water absorb all but the blue part of the spectrum of sunlight, and the water reflects that blue color back. That’s the color we see.The water looks greener when it has more phytoplankton, tiny, microscopic organisms that, like plants, can use chlorophyll to capture mostly the blue portions of the spectrum of sunlight.They then use photosynthesis to create the chemical energy they need to live. When there are more of these creatures in the water absorbing sunlight, they make the water look greener. Conversely, if there are fewer phytoplankton, the water looks bluer.The creatures’ growth is dependent on how much sunlight, carbon dioxide and nutrients are around. Climate change is altering the ocean currents, meaning there will be fewer nutrients for phytoplankton to feed on in some areas, so there will be a decline in their number in those regions.Since the 1990s, satellites have taken regular measurements of how much chlorophyll is in the ocean. Those levels can change because of weather events or because of climate change.The study predicts that the blues will intensify, most likely in subtropical regions where phytoplankton will decrease. These are areas near the equator like Bermuda and the Bahamas that are already quite low in phytoplankton.Regions where there are a lot of nutrients, like in the Southern Ocean or parts of the North Atlantic, will see even faster-growing phytoplankton because those waters are Warming with climate change. Those waters will look greener.Climate change will bring a color change to half of the world’s oceans by the end of the 21st century, the study says. That’s bad on several levels: For one, phytoplankton remove about as much carbon dioxide from the air as plants and help regulate our climate, research shows. They are also key to other animals’ survival.” Phytoplankton are at the base, and if the base changes, it endangers everything else along the food web, going far enough to the polar bears or tuna or just about anything that you want to eat or love to see in pictures, “said Stephanie Dutkiewicz, a principal research scientist in MIT.Q.Which statement is not true according to the passage?a)Phytoplankton has a key role in the survival of other animals.b)By the end of 21st century the colour of ocean waters will change.c)More blue colour in the ocean will affect the climate change.d)In subtropical regions phytoplankton will decrease.Correct answer is option 'C'. Can you explain this answer? tests, examples and also practice SSC CGL tests.