|| Shree Mumba Devi Prasanna ||


AGMARKNET
16 Nov 2024
Wheat : Wheat Max Price: 2612 Min Price: 2612   |   Maize : Deshi Red Max Price: 4000 Min Price: 3500   |   Maize : Yellow Max Price: 2308 Min Price: 1870   |   Black Gram (Urd Beans)(Whole) : Urda/Urd Max Price: 5755 Min Price: 3750   |   Groundnut : Big (With Shell) Max Price: 8000 Min Price: 7500   |   Banana : Besrai Max Price: 5000 Min Price: 2800   |   Onion : Bellary Max Price: 7000 Min Price: 5000   |   Potato : (Red Nanital) Max Price: 4500 Min Price: 4200   |   Garlic : Average Max Price: 36000 Min Price: 34000   |   Cauliflower : Ranchi Max Price: 4000 Min Price: 3500   |   Brinjal : Round Max Price: 5000 Min Price: 4000   |   Coriander(Leaves) : I Sort Max Price: 3500 Min Price: 2600   |   Papaya : Papaya Max Price: 4000 Min Price: 2800   |   Tomato : Deshi Max Price: 3000 Min Price: 2000   |   Cluster beans : Cluster Beans Max Price: 3600 Min Price: 3400   |   Bitter gourd : Bitter Gourd Max Price: 7000 Min Price: 3800   |   Bottle gourd : Bottle Gourd Max Price: 4000 Min Price: 1200   |   Ashgourd : Gouard Max Price: 2600 Min Price: 1700   |   Pumpkin : Pumpkin Max Price: 2500 Min Price: 1200   |   Bhindi(Ladies Finger) : Bhindi Max Price: 3600 Min Price: 3400   |   Amaranthus : Amaranthus Max Price: 4500 Min Price: 1200   |   Green Chilli : Green Chilly Max Price: 2800 Min Price: 2600   |   Banana - Green : Banana - Green Max Price: 3500 Min Price: 2600   |   Beans : Beans (Whole) Max Price: 5000 Min Price: 4800   |   Tapioca : Tapioca Max Price: 4000 Min Price: 2800   |   Ginger(Green) : Green Ginger Max Price: 7000 Min Price: 6000   |   Coconut : Coconut Max Price: 4400 Min Price: 2500   |   Sweet Potato : Hosur Red Max Price: 7000 Min Price: 6500   |   Carrot : Pusakesar Max Price: 9000 Min Price: 6000   |   Cabbage : Cabbage Max Price: 3000 Min Price: 2500   |   Snakeguard : Snakeguard Max Price: 4000 Min Price: 3200   |   Beetroot : Beetroot Max Price: 7000 Min Price: 5000   |   Cucumbar(Kheera) : Cucumbar Max Price: 3000 Min Price: 2500   |   Ridgeguard(Tori) : Ridgeguard(Tori) Max Price: 6500 Min Price: 6000   |   Raddish : Raddish Max Price: 5000 Min Price: 3000   |   Thondekai : Thondekai Max Price: 4000 Min Price: 3500   |   Green Avare (W) : Avare (W) Max Price: 8000 Min Price: 5600   |   Chow Chow : Chow Chow Max Price: 4000 Min Price: 3500   |   Drumstick : Drumstick Max Price: 4500 Min Price: 4200   |   Mango (Raw-Ripe) : Mango - Raw-Ripe Max Price: 5000 Min Price: 4000   |   Knool Khol : Knool Khol Max Price: 7000 Min Price: 6000   |   Guava : Guava Alahabad Max Price: 5000 Min Price: 4500   |   Tender Coconut : Tender Coconut Max Price: 4000 Min Price: 3500   |   Elephant Yam (Suran) : Elephant Yam (Suran) Max Price: 9000 Min Price: 7000   |   Yam (Ratalu) : Yam (Ratalu) Max Price: 8000 Min Price: 7000   |   Lemon : Lemon Max Price: 8000 Min Price: 7000   |   Amla(Nelli Kai) : Amla Max Price: 9000 Min Price: 8500   |   Onion Green : Onion Green Max Price: 6000 Min Price: 5500   |   Mint(Pudina) : Mint(Pudina) Max Price: 3600 Min Price: 2500   |  

Soybean


Water Woes: Sustainable Irrigation Practices for a Water-Scarce Nation

Water Woes: Sustainable Irrigation Practices for a Water-Scarce Nation

Water scarcity is a growing concern in India, a nation that is home to nearly 1.4 billion people and relies heavily on agriculture, which consumes about 80% of the country’s water resources.

Share with : Facebook Whatsapp Twitter Linkedin

MUMBAI, 5 November 2024: Water scarcity is a growing concern in India, a nation that is home to nearly 1.4 billion people and relies heavily on agriculture, which consumes about 80% of the country’s water resources.

The increasing frequency of droughts, erratic monsoons, and depleting groundwater levels have exacerbated the water crisis, making it imperative to adopt sustainable irrigation practices. These practices not only conserve water but also enhance agricultural productivity, ensuring food security for the country.

The Water Crisis in India

India's water crisis is multifaceted, involving issues of availability, distribution, and quality. Key factors contributing to the crisis include:

  1. Over-extraction of Groundwater: India is the world's largest user of groundwater, accounting for about 25% of global extraction. This over-reliance has led to a significant decline in groundwater levels, especially in states like Punjab, Haryana, and Uttar Pradesh.
  2. Inefficient Irrigation Practices: Traditional flood irrigation methods are widely used in Indian agriculture, leading to significant water wastage. These methods are not efficient in water use and often result in waterlogging and soil degradation.
  3. Climate Change: Changing weather patterns, including irregular monsoons and increased temperatures, are impacting water availability. Droughts and heatwaves are becoming more frequent, stressing the already scarce water resources.
  4. Pollution: Industrial discharge, agricultural runoff, and domestic sewage are contaminating water bodies, making it unsuitable for irrigation and other uses.

Sustainable Irrigation Practices

To address the water crisis, it is essential to adopt sustainable irrigation practices that optimize water use, enhance crop yields, and protect the environment. Here are some of the key practices:

  1. Drip Irrigation

Drip irrigation is a micro-irrigation system that delivers water directly to the root zone of plants through a network of pipes, valves, and emitters. This method reduces water wastage by minimizing evaporation and runoff, ensuring that water is used efficiently. Drip irrigation is particularly beneficial for water-intensive crops like sugarcane, cotton, and vegetables.

  1. Sprinkler Irrigation

Sprinkler irrigation systems distribute water through a network of pipes and spray heads, simulating natural rainfall. This method is more efficient than traditional flood irrigation, as it reduces water loss due to evaporation and runoff. Sprinkler systems are suitable for a variety of crops and can be used on uneven terrain.

  1. Rainwater Harvesting

Rainwater harvesting involves collecting and storing rainwater for agricultural use. This practice can significantly reduce dependence on groundwater and surface water sources. Techniques include building check dams, percolation tanks, and farm ponds to capture and store rainwater, which can then be used for irrigation during dry periods.

  1. Soil Moisture Management

Managing soil moisture effectively is crucial for sustainable irrigation. Techniques such as mulching, cover cropping, and conservation tillage help retain soil moisture, reducing the need for frequent irrigation. Additionally, using soil moisture sensors can provide real-time data on soil water content, enabling farmers to irrigate only when necessary.

  1. Use of Treated Wastewater

Recycling and reusing treated wastewater for irrigation can alleviate pressure on freshwater resources. Treated wastewater from urban areas and industries can be used for irrigation, provided it meets safety standards. This practice not only conserves water but also helps manage wastewater effectively.

  1. Adopting Drought-Resistant Crops

Growing drought-resistant and water-efficient crop varieties can help reduce water consumption in agriculture. Research and development in crop breeding have led to the creation of crop varieties that require less water and are more resilient to drought conditions.

Technological Innovations

Technology plays a vital role in promoting sustainable irrigation practices. Here are some innovations that are making a difference:

  1. Smart Irrigation Systems

Smart irrigation systems use sensors, weather data, and IoT (Internet of Things) technology to automate and optimize irrigation schedules. These systems monitor soil moisture, weather conditions, and crop requirements, ensuring precise water application. Smart irrigation reduces water usage, prevents overwatering, and enhances crop yields.

  1. GIS and Remote Sensing

Geographic Information Systems (GIS) and remote sensing technologies provide valuable data on soil health, water availability, and crop conditions. This information helps in planning and managing irrigation more effectively. For instance, satellite imagery can identify areas with water stress, allowing targeted irrigation interventions.

  1. Mobile Apps and Decision Support Tools

Mobile apps and decision support tools provide farmers with real-time information on weather forecasts, soil moisture levels, and irrigation schedules. These tools help farmers make informed decisions about when and how much to irrigate, optimizing water use and improving crop management.

Government Initiatives and Policies

The Indian government has launched several initiatives to promote sustainable irrigation practices:

  1. Pradhan Mantri Krishi Sinchayee Yojana (PMKSY)

Launched in 2015, PMKSY aims to enhance water use efficiency in agriculture by promoting micro-irrigation, rainwater harvesting, and watershed development. The program provides financial assistance and subsidies to farmers for adopting efficient irrigation systems.

  1. Per Drop More Crop

A component of PMKSY, the Per Drop More Crop initiative focuses on promoting drip and sprinkler irrigation systems. It provides incentives and support to farmers for adopting these technologies, aiming to increase water use efficiency and agricultural productivity.

  1. National Mission for Sustainable Agriculture (NMSA)

NMSA promotes sustainable agricultural practices, including efficient water management and conservation. It encourages the adoption of advanced irrigation technologies and practices to ensure the sustainable use of water resources.

Community and Farmer-Led Initiatives

In addition to government efforts, community and farmer-led initiatives are playing a crucial role in promoting sustainable irrigation:

  1. Water User Associations (WUAs)

WUAs are community-based organizations that manage local water resources and irrigation systems. These associations promote collective action and efficient water use, ensuring that water is distributed equitably and used sustainably.

  1. Farmer Field Schools

Farmer Field Schools provide training and education to farmers on sustainable agricultural practices, including efficient irrigation techniques. These schools promote knowledge sharing and capacity building, enabling farmers to adopt and implement sustainable practices.

Sustainable irrigation practices are essential for addressing India's water crisis and ensuring food security. By adopting efficient irrigation methods, leveraging technology, and promoting community participation, India can optimize its water use and enhance agricultural productivity.

Government initiatives, combined with farmer-led efforts and technological innovations, are paving the way for a more sustainable and resilient agricultural sector. As water scarcity continues to pose a significant challenge, sustainable irrigation practices will be crucial in securing a water-efficient and food-secure future for the nation.

Image credit: apureinstrument.com


© Copyright 2024 Agriculture Times. All rights reserved. Republication or redistribution of Agriculture Times content, including by framing or similar means, is expressly prohibited without the prior written consent.

Support our venture and help farming commmunity in India. If you want us the work better FUND US. For as little as INR 10, you can support2.jpg the AgriTimes™ and it only takes a minute. Thank you.

Partners