What is the primary objective of Nitrogen Use Efficiency (NUE) in agriculture?a)Measuring the amount of nitrogen absorbed by plantsb)Evaluating the ratio of crop yield to nitrogen absorbedc)Assessing the environmental impact of nitrogen fertilizersd)Quantifying the total nitrogen content in soilCorrect answer is option 'B'. Can you explain this answer?

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What is the primary objective of Nitrogen Use Efficiency (NUE) in agriculture?

a)
Measuring the amount of nitrogen absorbed by plants
b)
Evaluating the ratio of crop yield to nitrogen absorbed
c)
Assessing the environmental impact of nitrogen fertilizers
d)
Quantifying the total nitrogen content in soil

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

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What is the primary objective of Nitrogen Use Efficiency (NUE) in agr...

The primary objective of Nitrogen Use Efficiency (NUE) in agriculture is to evaluate the ratio of crop yield to the amount of nitrogen absorbed from the soil or fixed from the atmosphere. NUE measures how effectively a plant utilizes applied or naturally fixed nitrogen to produce biomass, which is crucial for sustainable agricultural practices. Achieving high NUE levels can help reduce fertilizer costs, minimize environmental pollution, and enhance overall agricultural productivity.

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What is the primary objective of Nitrogen Use Efficiency (NUE) in agr...

Nitrogen Use Efficiency (NUE) Explained
Nitrogen Use Efficiency (NUE) is a crucial metric in agricultural practices aimed at optimizing nitrogen usage to enhance crop productivity while minimizing environmental impacts. The primary objective of NUE is effectively captured in option 'B': evaluating the ratio of crop yield to nitrogen absorbed.

Key Aspects of NUE

Understanding NUE: NUE measures how efficiently plants utilize nitrogen fertilizers to produce biomass or yield. A higher NUE indicates that a crop is producing more yield per unit of nitrogen absorbed.
Importance for Agriculture: Efficient nitrogen use is vital for sustainable agriculture. It helps farmers maximize crop yields while minimizing excess nitrogen application, reducing costs and environmental risks.
Balancing Fertilizer Use: By focusing on NUE, farmers can avoid over-fertilization, which often leads to nitrogen leaching into water bodies, causing pollution and eutrophication.
Enhancing Crop Management: NUE data enables farmers to make informed decisions regarding crop rotation, fertilizer application rates, and timing, ultimately leading to improved soil health and productivity.

Conclusion
In summary, while nitrogen absorption, environmental impacts, and soil nitrogen content are important aspects of nitrogen management, the evaluation of the ratio of crop yield to nitrogen absorbed (option 'B') is the primary objective of NUE in agriculture. This focus aids in creating a more sustainable agricultural system that meets food production needs without compromising environmental integrity.

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Passage -1The law in many parts of the world increasingly restricts the discharge of agricultural slurry into watercourses. The simplest and often the most economically sound practice returns the material to the land as semisolid manure or as sprayed slurry. This dilutes its concentration in the environment to what might have occurred III a more primitive and sustainable type of agriculture and converts pollutant into fertilizer. Soil microorganisms decompose the organic components of sewage and slurry and most of the mineral nutrients become available to be absorbed again by the vegetation.The excess input of nutrients, both nitrogen and phosphorus - based, from agricultural runoff (and human sewag e) has caused many healthy oligotrophic lakes (low nutrient concentrations, low plant productivity with abundant water weeds, and clear water) to change to eutrophic condition where high nutrient inputs lead to high phytoplankton productivity (sometimes dominated by bloomforming toxic species). This makes the water turbid, eliminates large plants and, in the worst situations, leads to anoxia and fish kills; so called cultural eutrophication. Thus, important ecosystem services are lost, including the provisioning service of wild-caught fish and the cultural services associated with recreation.The process of cultural eutrophication of lakes has been understood for some time. But only recently did scientists notice huge dead zones in the oceans near river outlets, particularly those draining large catchment areas such as the Mississippi in North America and the Yangtze in China. The nutrient-enriched water flows through streams, rivers and lakes, and eventually to the estuary and ocean where the ecological impact may be huge, killing virtually all invertebrates and fish in areas up to 70,000 km2 in extent. More than 150 sea areas worldwide are now regularly starved of oxygen as a result of decomposition of algal blooms, fuelled particularly by nitrogen from agricultural runoff of fertilizers and sewage from large cities. Oceanic dead zones are typically associated withindustrialized nations and usually lie off- countries that subsidize their agriculture, encouraging farmers to increase productivity and use more fertilizer.Q.What is the central theme of this passage?

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Passage -1The law in many parts of the world increasingly restricts the discharge of agricultural slurry into watercourses. The simplest and often the most economically sound practice returns the material to the land as semisolid manure or as sprayed slurry. This dilutes its concentration in the environment to what might have occurred III a more primitive and sustainable type of agriculture and converts pollutant into fertilizer. Soil microorganisms decompose the organic components of sewage and slurry and most of the mineral nutrients become available to be absorbed again by the vegetation.The excess input of nutrients, both nitrogen and phosphorus - based, from agricultural runoff (and human sewag e) has caused many healthy oligotrophic lakes (low nutrient concentrations, low plant productivity with abundant water weeds, and clear water) to change to eutrophic condition where high nutrient inputs lead to high phytoplankton productivity (sometimes dominated by bloomforming toxic species). This makes the water turbid, eliminates large plants and, in the worst situations, leads to anoxia and fish kills; so called cultural eutrophication. Thus, important ecosystem services are lost, including the provisioning service of wild-caught fish and the cultural services associated with recreation.The process of cultural eutrophication of lakes has been understood for some time. But only recently did scientists notice huge dead zones in the oceans near river outlets, particularly those draining large catchment areas such as the Mississippi in North America and the Yangtze in China. The nutrient-enriched water flows through streams, rivers and lakes, and eventually to the estuary and ocean where the ecological impact may be huge, killing virtually all invertebrates and fish in areas up to 70,000 km2 in extent. More than 150 sea areas worldwide are now regularly starved of oxygen as a result of decomposition of algal blooms, fuelled particularly by nitrogen from agricultural runoff of fertilizers and sewage from large cities. Oceanic dead zones are typically associated withindustrialized nations and usually lie off- countries that subsidize their agriculture, encouraging farmers to increase productivity and use more fertilizer.Q.The passage refers to the conversion of pollutant to fertilizer. What is pollutant and what is fertilizer in this context?

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Passage -1The law in many parts of the world increasingly restricts the discharge of agricultural slurry into watercourses. The simplest and often the most economically sound practice returns the material to the land as semisolid manure or as sprayed slurry. This dilutes its concentration in the environment to what might have occurred III a more primitive and sustainable type of agriculture and converts pollutant into fertilizer. Soil microorganisms decompose the organic components of sewage and slurry and most of the mineral nutrients become available to be absorbed again by the vegetation.The excess input of nutrients, both nitrogen and phosphorus - based, from agricultural runoff (and human sewag e) has caused many healthy oligotrophic lakes (low nutrient concentrations, low plant productivity with abundant water weeds, and clear water) to change to eutrophic condition where high nutrient inputs lead to high phytoplankton productivity (sometimes dominated by bloomforming toxic species). This makes the water turbid, eliminates large plants and, in the worst situations, leads to anoxia and fish kills; so called cultural eutrophication. Thus, important ecosystem services are lost, including the provisioning service of wild-caught fish and the cultural services associated with recreation.The process of cultural eutrophication of lakes has been understood for some time. But only recently did scientists notice huge dead zones in the oceans near river outlets, particularly those draining large catchment areas such as the Mississippi in North America and the Yangtze in China. The nutrient-enriched water flows through streams, rivers and lakes, and eventually to the estuary and ocean where the ecological impact may be huge, killing virtually all invertebrates and fish in areas up to 70,000 km2 in extent. More than 150 sea areas worldwide are now regularly starved of oxygen as a result of decomposition of algal blooms, fuelled particularly by nitrogen from agricultural runoff of fertilizers and sewage from large cities. Oceanic dead zones are typically associated withindustrialized nations and usually lie off- countries that subsidize their agriculture, encouraging farmers to increase productivity and use more fertilizer.Q.According to the passage, what are the effects of indiscriminate use of fertilizers?1. Addition of pollutants to the soil and water.2. Destruction decomposer of microorganisms in soil.3. Nutrient enrichment of water bodies.4. Creation of algal blooms.

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Passage -1The law in many parts of the world increasingly restricts the discharge of agricultural slurry into watercourses. The simplest and often the most economically sound practice returns the material to the land as semisolid manure or as sprayed slurry. This dilutes its concentration in the environment to what might have occurred III a more primitive and sustainable type of agriculture and converts pollutant into fertilizer. Soil microorganisms decompose the organic components of sewage and slurry and most of the mineral nutrients become available to be absorbed again by the vegetation.The excess input of nutrients, both nitrogen and phosphorus - based, from agricultural runoff (and human sewag e) has caused many healthy oligotrophic lakes (low nutrient concentrations, low plant productivity with abundant water weeds, and clear water) to change to eutrophic condition where high nutrient inputs lead to high phytoplankton productivity (sometimes dominated by bloomforming toxic species). This makes the water turbid, eliminates large plants and, in the worst situations, leads to anoxia and fish kills; so called cultural eutrophication. Thus, important ecosystem services are lost, including the provisioning service of wild-caught fish and the cultural services associated with recreation.The process of cultural eutrophication of lakes has been understood for some time. But only recently did scientists notice huge dead zones in the oceans near river outlets, particularly those draining large catchment areas such as the Mississippi in North America and the Yangtze in China. The nutrient-enriched water flows through streams, rivers and lakes, and eventually to the estuary and ocean where the ecological impact may be huge, killing virtually all invertebrates and fish in areas up to 70,000 km2 in extent. More than 150 sea areas worldwide are now regularly starved of oxygen as a result of decomposition of algal blooms, fuelled particularly by nitrogen from agricultural runoff of fertilizers and sewage from large cities. Oceanic dead zones are typically associated withindustrialized nations and usually lie off- countries that subsidize their agriculture, encouraging farmers to increase productivity and use more fertilizer.Q.What is/are the characteristics of a water body with cultural eutrophication?1. Loss of ecosystem services2. Loss of flora and fauna3. Loss of mineral nutrients

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Directions for the following 7 (seven) items: Read the following two passages and answer the items that follow each passage. Your answers to these items should be based on the passages only.Passage -1The law in many parts of the world increasingly restricts the discharge of agricultural slurry into watercourses. The simplest and often the most economically sound practice returns the material to the land as semisolid manure or as sprayed slurry. This dilutes its concentration in the environment to what might have occurred III a more primitive and sustainable type of agriculture and converts pollutant into fertilizer. Soil microorganisms decompose the organic components of sewage and slurry and most of the mineral nutrients become available to be absorbed again by the vegetation.The excess input of nutrients, both nitrogen and phosphorus - based, from agricultural runoff (and human sewag e) has caused many healthy oligotrophic lakes (low nutrient concentrations, low plant productivity with abundant water weeds, and clear water) to change to eutrophic condition where high nutrient inputs lead to high phytoplankton productivity (sometimes dominated by bloomforming toxic species). This makes the water turbid, eliminates large plants and, in the worst situations, leads to anoxia and fish kills; so called cultural eutrophication. Thus, important ecosystem services are lost, including the provisioning service of wild-caught fish and the cultural services associated with recreation.The process of cultural eutrophication of lakes has been understood for some time. But only recently did scientists notice huge dead zones in the oceans near river outlets, particularly those draining large catchment areas such as the Mississippi in North America and the Yangtze in China. The nutrient-enriched water flows through streams, rivers and lakes, and eventually to the estuary and ocean where the ecological impact may be huge, killing virtually all invertebrates and fish in areas up to 70,000 km2 in extent. More than 150 sea areas worldwide are now regularly starved of oxygen as a result of decomposition of algal blooms, fuelled particularly by nitrogen from agricultural runoff of fertilizers and sewage from large cities. Oceanic dead zones are typically associated withindustrialized nations and usually lie off- countries that subsidize their agriculture, encouraging farmers to increase productivity and use more fertilizer.Q.According to the passage, why should the discharge of agricultural slurry into watercourses be restricted?1. Losing nutrients in this way is not a good practice economically.2. Watercourses do not contain the microorganisms that can decompose organic components of agricultural slurry.3. The discharge may lead to the eutrophication of water bodies.

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What is the primary objective of Nitrogen Use Efficiency (NUE) in agriculture?a)Measuring the amount of nitrogen absorbed by plantsb)Evaluating the ratio of crop yield to nitrogen absorbedc)Assessing the environmental impact of nitrogen fertilizersd)Quantifying the total nitrogen content in soilCorrect answer is option 'B'. Can you explain this answer?

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What is the primary objective of Nitrogen Use Efficiency (NUE) in agriculture?a)Measuring the amount of nitrogen absorbed by plantsb)Evaluating the ratio of crop yield to nitrogen absorbedc)Assessing the environmental impact of nitrogen fertilizersd)Quantifying the total nitrogen content in soilCorrect answer is option 'B'. Can you explain this answer? for UPSC 2025 is part of UPSC preparation. The Question and answers have been prepared according to the UPSC exam syllabus. Information about What is the primary objective of Nitrogen Use Efficiency (NUE) in agriculture?a)Measuring the amount of nitrogen absorbed by plantsb)Evaluating the ratio of crop yield to nitrogen absorbedc)Assessing the environmental impact of nitrogen fertilizersd)Quantifying the total nitrogen content in soilCorrect answer is option 'B'. Can you explain this answer? covers all topics & solutions for UPSC 2025 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for What is the primary objective of Nitrogen Use Efficiency (NUE) in agriculture?a)Measuring the amount of nitrogen absorbed by plantsb)Evaluating the ratio of crop yield to nitrogen absorbedc)Assessing the environmental impact of nitrogen fertilizersd)Quantifying the total nitrogen content in soilCorrect answer is option 'B'. Can you explain this answer?.

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