Deficiency of which element leads to dark green colouration of leaves?a)Sodiumb)Phosphorusc)Potassiumd)None of the aboveCorrect answer is option 'B'. Can you explain this answer?

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ACT Exam > ACT Questions > Deficiency of which element leads to dark gre...

Deficiency of which element leads to dark green colouration of leaves?

a)
Sodium
b)
Phosphorus
c)
Potassium
d)
None of the above

Correct answer is option 'B'. Can you explain this answer?

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Deficiency of which element leads to dark green colouration of leaves?...

Deficiency of phosphorus in plants can result in change in color of the leaves. The leaves turn dark green. This is because deficiency of phosphorus can lead to formation of carbohydrate in excess which turns the leaves dark green or even pale in some cases.

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Deficiency of which element leads to dark green colouration of leaves?...

Phosphorus deficiency causing dark green colouration of leaves
Phosphorus is an essential nutrient for plant growth and development, playing a crucial role in energy transfer, photosynthesis, and respiration. When plants lack an adequate amount of phosphorus, they exhibit certain symptoms, one of which is the dark green colouration of leaves.

Reason for dark green leaves
- Phosphorus deficiency can lead to dark green leaves due to its impact on chlorophyll production. Chlorophyll is responsible for the green colour in plants, and phosphorus deficiency can disrupt the synthesis of chlorophyll, resulting in darker green leaves.

Symptoms of phosphorus deficiency
- In addition to dark green leaves, other symptoms of phosphorus deficiency include stunted growth, reduced flowering, and poor fruit development. Plants may also exhibit purplish discolouration on leaves.

Important role of phosphorus
- Phosphorus is crucial for the overall health and vitality of plants. It helps in root development, nutrient uptake, and overall plant metabolism. Therefore, ensuring an adequate supply of phosphorus is essential for optimal plant growth.
In conclusion, a deficiency of phosphorus can lead to dark green colouration of leaves in plants due to its impact on chlorophyll production and overall plant health. It is important to address phosphorus deficiency through proper fertilization and soil management practices to maintain healthy and vibrant plant growth.

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Directions: Read the passages and choose the best answer to each question.PassageA number of different chemical elements are essential for the survival and growth of plants. The macronutrients— those nutrients required in the greatest quantity—are nitrogen, phosphorus, and potassium. These macronutrients are only available in the soil and generally come from the decay of other plants. To enrich the soil and make more of these essential nutrients available, many people use fertilizers to supply plants with the nutrients they need to grow faster. Two botanists discuss whether inorganic or organic fertilizers are most optimal for plant growth.Botanist 1In addition to carbon, hydrogen, and oxygen available in the water and the air, and other micronutrients, such as sulfur, calcium, and magnesium, plants also need the macronutrients nitrogen, phosphorus, and potassium to thrive. The best way to supply the soil, and thus the plants, with the proper macronutrients is to apply organic fertilizers, as opposed to commercial inorganic fertilizers. Organic nutrients include cow, poultry, horse, and sheep manures.Green manure—a crop that is grown for a speciﬁc period of time, then plowed and incorporated into the soil—and compost can also be used. Organic fertilization mimics the natural breakdown of organic material into nutrients for which the plants can use. In other words, organic fertilizer provides a naturally slow release of nutrients as the organic material breaks down in the soil, reducing the likelihood of over-fertilization. Organic fertilizers also improve soil structure in the long term and improve the ability of sandy soils to hold water, which is immensely important in arid climates. Commercial inorganic fertilizers, on the other hand, are often applied too heavily, damaging the roots of the plants. Inorganic fertilizers can also cause chemical imbalances in the soil because they can build up a toxic concentration of salts in the soil.Botanist 2Plant growth and survival depends on an adequate supply of essential nutrients that cannot always be found in the soil. Inorganic commercial fertilizers have many beneﬁts over organic fertilizers. The elements in inorganic fertilizers have been thoroughly measured and tested, insuring that each application provides the appropriate amount ofnutrients to the plants, as opposed to the highly variable, and often unknown, nutrient content of organic fertilizers.Organic fertilizers are usually lower in nutrient content than inorganic fertilizers, requiring more of the organic material to be applied to achieve the same level of nutrient delivery acquired from the application of smaller amounts of inorganic material. In addition, characteristics of organic fertilizer require application well in advance of need to ensure that the materials have broken down and can be used by the plant. Inorganic fertilizers, however, once applied, offer immediate availability of nutrients to plants for use.The likelihood of nitrogen depletion is another disadvantage of organic fertilizers. Organic material can cause a temporary depletion of nitrogen in the soil and therefore in the plants that depend on it. Inorganic fertilizer use does not present this problem.Q.Which of the following can be inferred from Botanist 2’s viewpoint about organic fertilizers?

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Directions: Read the passages and choose the best answer to each question.PassageA number of different chemical elements are essential for the survival and growth of plants. The macronutrients— those nutrients required in the greatest quantity—are nitrogen, phosphorus, and potassium. These macronutrients are only available in the soil and generally come from the decay of other plants. To enrich the soil and make more of these essential nutrients available, many people use fertilizers to supply plants with the nutrients they need to grow faster. Two botanists discuss whether inorganic or organic fertilizers are most optimal for plant growth.Botanist 1In addition to carbon, hydrogen, and oxygen available in the water and the air, and other micronutrients, such as sulfur, calcium, and magnesium, plants also need the macronutrients nitrogen, phosphorus, and potassium to thrive. The best way to supply the soil, and thus the plants, with the proper macronutrients is to apply organic fertilizers, as opposed to commercial inorganic fertilizers. Organic nutrients include cow, poultry, horse, and sheep manures.Green manure—a crop that is grown for a speciﬁc period of time, then plowed and incorporated into the soil—and compost can also be used. Organic fertilization mimics the natural breakdown of organic material into nutrients for which the plants can use. In other words, organic fertilizer provides a naturally slow release of nutrients as the organic material breaks down in the soil, reducing the likelihood of over-fertilization. Organic fertilizers also improve soil structure in the long term and improve the ability of sandy soils to hold water, which is immensely important in arid climates. Commercial inorganic fertilizers, on the other hand, are often applied too heavily, damaging the roots of the plants. Inorganic fertilizers can also cause chemical imbalances in the soil because they can build up a toxic concentration of salts in the soil.Botanist 2Plant growth and survival depends on an adequate supply of essential nutrients that cannot always be found in the soil. Inorganic commercial fertilizers have many beneﬁts over organic fertilizers. The elements in inorganic fertilizers have been thoroughly measured and tested, insuring that each application provides the appropriate amount ofnutrients to the plants, as opposed to the highly variable, and often unknown, nutrient content of organic fertilizers.Organic fertilizers are usually lower in nutrient content than inorganic fertilizers, requiring more of the organic material to be applied to achieve the same level of nutrient delivery acquired from the application of smaller amounts of inorganic material. In addition, characteristics of organic fertilizer require application well in advance of need to ensure that the materials have broken down and can be used by the plant. Inorganic fertilizers, however, once applied, offer immediate availability of nutrients to plants for use.The likelihood of nitrogen depletion is another disadvantage of organic fertilizers. Organic material can cause a temporary depletion of nitrogen in the soil and therefore in the plants that depend on it. Inorganic fertilizer use does not present this problem.Q.According to the passage, plants need the most of which of the following to grow and survive?

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Directions: Read the passages and choose the best answer to each question.PassageA number of different chemical elements are essential for the survival and growth of plants. The macronutrients— those nutrients required in the greatest quantity—are nitrogen, phosphorus, and potassium. These macronutrients are only available in the soil and generally come from the decay of other plants. To enrich the soil and make more of these essential nutrients available, many people use fertilizers to supply plants with the nutrients they need to grow faster. Two botanists discuss whether inorganic or organic fertilizers are most optimal for plant growth.Botanist 1In addition to carbon, hydrogen, and oxygen available in the water and the air, and other micronutrients, such as sulfur, calcium, and magnesium, plants also need the macronutrients nitrogen, phosphorus, and potassium to thrive. The best way to supply the soil, and thus the plants, with the proper macronutrients is to apply organic fertilizers, as opposed to commercial inorganic fertilizers. Organic nutrients include cow, poultry, horse, and sheep manures.Green manure—a crop that is grown for a speciﬁc period of time, then plowed and incorporated into the soil—and compost can also be used. Organic fertilization mimics the natural breakdown of organic material into nutrients for which the plants can use. In other words, organic fertilizer provides a naturally slow release of nutrients as the organic material breaks down in the soil, reducing the likelihood of over-fertilization. Organic fertilizers also improve soil structure in the long term and improve the ability of sandy soils to hold water, which is immensely important in arid climates. Commercial inorganic fertilizers, on the other hand, are often applied too heavily, damaging the roots of the plants. Inorganic fertilizers can also cause chemical imbalances in the soil because they can build up a toxic concentration of salts in the soil.Botanist 2Plant growth and survival depends on an adequate supply of essential nutrients that cannot always be found in the soil. Inorganic commercial fertilizers have many beneﬁts over organic fertilizers. The elements in inorganic fertilizers have been thoroughly measured and tested, insuring that each application provides the appropriate amount ofnutrients to the plants, as opposed to the highly variable, and often unknown, nutrient content of organic fertilizers.Organic fertilizers are usually lower in nutrient content than inorganic fertilizers, requiring more of the organic material to be applied to achieve the same level of nutrient delivery acquired from the application of smaller amounts of inorganic material. In addition, characteristics of organic fertilizer require application well in advance of need to ensure that the materials have broken down and can be used by the plant. Inorganic fertilizers, however, once applied, offer immediate availability of nutrients to plants for use.The likelihood of nitrogen depletion is another disadvantage of organic fertilizers. Organic material can cause a temporary depletion of nitrogen in the soil and therefore in the plants that depend on it. Inorganic fertilizer use does not present this problem.Q.According to Botanist 1, all of the following are true of organic fertilizer EXCEPT

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