UPSC Exam  >  UPSC Notes  >  Agriculture Optional Notes for UPSC  >  Integrated Nutrient Management

Integrated Nutrient Management | Agriculture Optional Notes for UPSC PDF Download

Introduction

"Integrated nutrient management" denotes the strategy of effectively harnessing all available resources, including organic, inorganic, and biological elements, in a well-coordinated approach to sustain soil fertility and ensure the optimal supply of nutrients to plants, thereby supporting the desired level of productivity.

What are Nutrients & Nutrient Management?

Nutrients

  • Nutrients are substances essential for the survival, growth, and reproduction of organisms.
  • They fall into two categories: macronutrients, required in large quantities, and micronutrients, needed in smaller amounts.
  • Water provides hydrogen, while gases like carbon dioxide and oxygen come from the air.
  • Soil supplies thirteen additional macronutrients and micronutrients, including iron, copper, zinc, chlorine, boron, manganese, calcium, magnesium, potassium, nitrogen, and phosphorous.
  • A lack of these nutrients hinders plant growth, impairs their life cycle, functions, and disease resistance.
  • Soil fertility can be enhanced by adding nutrients through manure and fertilizers.

Nutrient Management

  • Nutrient management involves efficiently using crops to increase yield while maintaining a balance between soil nutrient levels and crop requirements.
  • Optimal crop yield is achieved when nutrients are provided in the right amount and at the appropriate time.
  • Using too few nutrients limits yield, while excessive use can harm the crop.
  • Unused nutrients can leach into nearby surface water or groundwater.

What is Integrated Nutrient Management (INM)?

  • Integrated Nutrient Management (INM):
    • INM is a technique used to maintain soil fertility and plant nutrient supply at an optimal level, ensuring the desired crop output.
    • The primary goal of INM is to enhance crop productivity while also preserving soil fertility for future generations by utilizing both natural and artificial soil nutrients.
    • INM involves the application of both chemical and organic fertilizers to boost crop productivity.
  • Diversified Approach:
    • Instead of focusing on individual crops, INM aims to maximize nutrient sources across various cropping systems or rotations.
    • This encourages farmers to engage in long-term planning and consider the environmental impact of their practices.
  • Factors Influencing INM:
    • INM relies on several factors, including the proper application and conservation of nutrients, as well as the dissemination of knowledge about INM practices to farmers and researchers.
  • Methods to Enhance Plant Nutrients:
    • Techniques such as terracing, alley cropping, conservation tillage, intercropping, and crop rotation are employed to increase plant nutrients.
  • Sustainability:
    • INM is a socially, environmentally, and economically viable approach to managing nutrient resources for sustainable agricultural practices.

Integrated Nutrient Management - Components

  • On-site Resource Generation: Generating resources on-site involves the recycling of agricultural residues, animal dung, and similar materials.
  • Mobilisation of Off-site Nutrient Resources: When off-site nutrient resources need to be utilized, external sources of chemical nutrients are added.
  • Resources Integration: Effective integration is necessary for chemical nutrient forms and other management elements that enhance productivity to work in harmony with on-site resource production of nutrients and energy.
  • Resources Management: The integrated nutrient supply system entails holistic management of the entire farming system. This includes using chemicals to transform plant, animal, and poultry resources into food grains and other food products.

Integrated Nutrient Management - Advantages

  • Enhanced Soil Health: Integrated Nutrient Management (INM) improves the physical characteristics of soil, including its texture, porosity, water retention, drainage, and aeration, resulting in healthier soil.
  • Increased Crop Yield: INM fosters greater nutrient uptake and well-balanced crop nutrition, leading to improved plant growth and higher agricultural yields.
  • Environmental Advantages: INM minimizes the loss of nutrients to groundwater, surface water, and the atmosphere, thereby slowing down the degradation of soil, water, and ecosystems.
  • Effective Farm Waste Utilization: INM encourages the use of agricultural waste as both organic manure and a source of nutrients for crops.
  • Cost Reduction: INM helps reduce production costs as some organic sources of nutrients are readily available at low prices.
  • Prudent Chemical Fertilizer Use: INM addresses the problem of excessive artificial fertilizer use in Indian agriculture, promoting the judicious application of chemical fertilizers.

Integrated Nutrient Management - Limitations

  • Knowledge Gap: Farmers often lack the necessary knowledge to apply fertilizers in a balanced ratio.
  • Financial Constraints: Many farmers, especially in rural areas, face financial limitations, making it challenging to afford fertilizers and manure, which are vital for Integrated Nutrient Management (INM).
  • Land Degradation: Land degradation resulting from intense cultivation and over-exploitation, exacerbated by the growing population, is a major challenge for implementing INM.
  • Monsoon Variability: The unpredictability of the monsoon, which is crucial for Indian agriculture, is seen as a significant hindrance to fertilizer usage. Water scarcity during drought-prone seasons poses a substantial risk to soil fertility and productivity.
  • Small Land Holdings: The majority of Indian farmers have small land holdings due to land fragmentation, making it impractical to implement INM on a large scale.
  • Limitations of Biofertilizers: The utilization of biofertilizers is constrained to specific crops and regions, has a short shelf life, requires careful handling, and faces other challenges that hinder efficient use and dissemination.

Moreover, due to the living or latent organisms they contain, the quality of biofertilizers reaching farmers may be low, making marketing difficult.

Conclusion

Integrated Nutrient Management is an environmentally sustainable agricultural approach. It not only enhances crop productivity but also contributes to the restoration of biological systems, water resources, and soil health. To encourage the adoption of INM in India, extension organizations need to raise awareness among farmers about the detrimental effects of neglecting organic practices, including deteriorating soil health, unsustainable crop yields, and environmental pollution.

The document Integrated Nutrient Management | Agriculture Optional Notes for UPSC is a part of the UPSC Course Agriculture Optional Notes for UPSC.
All you need of UPSC at this link: UPSC
210 docs

Top Courses for UPSC

210 docs
Download as PDF
Explore Courses for UPSC exam

Top Courses for UPSC

Signup for Free!
Signup to see your scores go up within 7 days! Learn & Practice with 1000+ FREE Notes, Videos & Tests.
10M+ students study on EduRev
Related Searches

study material

,

Exam

,

past year papers

,

Integrated Nutrient Management | Agriculture Optional Notes for UPSC

,

Previous Year Questions with Solutions

,

Integrated Nutrient Management | Agriculture Optional Notes for UPSC

,

pdf

,

video lectures

,

Extra Questions

,

Viva Questions

,

Objective type Questions

,

shortcuts and tricks

,

Free

,

Integrated Nutrient Management | Agriculture Optional Notes for UPSC

,

Sample Paper

,

practice quizzes

,

Important questions

,

Summary

,

MCQs

,

ppt

,

mock tests for examination

,

Semester Notes

;