Tag: rainwater harvesting

Major steps taken by Government for Water Conservation and Rainwater Harvesting to reduce Water Stress in the country

 Water conservation through rainwater harvesting is one of the foremost priorities of the Government, stated Union Minister of State for Jal Shakti, Shri Rajbhushan Choudhary, while giving a written reply to a question in Rajya Sabha today. Major steps taken by the Government for water conservation and rainwater harvesting to reduce water stress in the country are as follows:

  1. Government of India has been implementing a scheme namely Mahatma Gandhi National Rural Employment Guarantee Scheme (MGNREGS) which inter-alia includes water conservation and water harvesting structures.
  2. Financial assistance is given to various States under 15th Finance Commission tied grants which can be inter-alia utilized for rainwater harvesting.
  3. The Ministry of Jal Shakti has been implementing Jal Shakti Abhiyan (JSA) since 2019 on an annual basis. In the current year, Ministry of Jal Shakti is implementing Jal Shakti Abhiyan: Catch the Rain (JSA: CTR) 2024, 5th in the series of JSAs, in all the districts (rural as well as urban) of the country. JSA: CTR is a convergence of various Central Government schemes and funds like MGNREGS, Atal Mission for Rejuvenation and Urban Transformation (AMRUT), Per Drop More Crop, Repair, Renovation and Restoration Components under the Pradhan Mantri Krishi Sinchai Yojana (PMKSY), Compensatory Afforestation Fund Management and Planning Authority (CAMPA), Finance Commission grants, State Government schemes, Corporate Social Responsibility (CSR) funds etc. One of the major interventions undertaken under the campaign includes constructions and repair or rainwater harvesting structures including rooftop and water harvesting structures.
  4. Atal Mission for Rejuvenation and Urban Transformation (AMRUT) 2.0 has provisions for harvesting the rainwater through storm water drains into water body (which is not receiving sewage/effluent). Through preparation of ‘Aquifer Management Plan’ cities targets to strategize groundwater recharge augmentation by developing a roadmap for improving rain water harvesting within city limits. Through IEC campaign, awareness is created about practices for water conservation like rainwater harvesting.
  5. Ministry of Housing & Urban Affairs has formulated guidelines for the States to adopt measures suitable to local conditions, such as Unified Building Bye Laws (UBBL) of Delhi, 2016, Model Building Bye Laws (MBBL), 2016 and Urban and Regional Development Plan Formulation and Implementation (URDPFI) Guidelines, 2014 with adequate focus on requirement of rainwater harvesting and water conservation measures.
  6. Government of India is implementing Atal Bhujal Yojana, in 8,213 water stressed Gram Panchayats (GPs) in 80 districts of 7 States, viz., Haryana, Gujarat, Karnataka, Madhya Pradesh, Maharashtra, Rajasthan and Uttar Pradesh. The scheme marks a paradigm shift from groundwater development to groundwater management.
  7. Government of India has been implementing “Pradhan Mantri Krishi Sinchai Yojana (PMKSY)” with an aim to enhance physical access of water on farm and expand cultivable area under assured irrigation, improve on farm water use efficiency, introduce sustainable water conservation practices etc. PMKSY has three components/ schemes namely Har Khet Ko Pani (HKKP), Repair, Renovation & Restoration (RRR) Scheme of Water Bodies and Surface Minor irrigation (SMI) Scheme.
  8. The Ministry of Jal Shakti has set up the Bureau of Water Use Efficiency (BWUE) under the National Water Mission on 20.10.2022, to act as a facilitator for promotion of improving water use efficiency across various sectors namely irrigation, drinking water supply, power generation, industries, etc. in the country.
  9. Mission Amrit Sarovar was implemented in the recent times with provisions for creation/rejuvenation of at least 75 Amrit Sarovars in every district of the country with the purpose to harvest and conserve water.
  10. Central Ground Water Board (CGWB) has completed the National Aquifer Mapping (NAQUIM) Project in the entire mappable area of about 25 lakh sq. km. which has been shared with the respective State agencies for implementation. The management plans include various water conservation measures through recharge structures.
  11. CGWB has also prepared a Master Plan for Artificial Recharge to Groundwater- 2020 in consultation with States/UTs which is a macro level plan indicating various structures for the different terrain conditions of the country including estimated cost. The Master Plan has provisions for construction of about 1.42 crore Rain water harvesting and artificial recharge structures in the country to harness 185 Billion Cubic Metre (BCM) of monsoon rainfall.
  12. CGWB, under Ground Water Management and Regulation Scheme, has also implemented several successful artificial recharge projects in the country for demonstrative purpose which enable the State Governments to replicate the same in suitable hydro-geological conditions.
  13. National Water Policy (2012) has been formulated by Department of Water Resources, RD & GR, which inter-alia advocates rainwater harvesting and conservation of water and also highlights the need for augmenting the availability of water through direct use of rainfall.
  14. Department of Land Resources (DoLR) implements Watershed Development Component of Pradhan Mantri Krishi Sinchai Yojana (WDC-PMKSY) for the development of rainfed and degraded lands in the country. The activities undertaken, inter-alia, include ridge area treatment, drainage line treatment, soil and moisture conservation, rainwater harvesting, nursery raising, pasture development, livelihoods for asset-less persons etc. WDC-PMKSY, through these interventions, seeks to ensure sustainable development through improved natural resource management and better resilience of farmers to climate change.

Water is a State subject and the Central Government supplements the efforts of the States through technical and financial support, the Minister added.

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Action Plan to Conserve Rain Water

 Water being a State subject, the responsibility of formulation of action plan to save and conserve rain water primarily lies with the State Governments. Central Government supplements the efforts of States through providing technical and financial assistance. However, Ministry of Jal Shakti has been implementing “Jal Shakti Abhiyan: Catch the Rain” (JSA:CTR) -2023 campaign, the fourth in the series of JSAs, which was launched by Hon’ble President on 04.03.2023 in all districts (rural as well as urban areas) of the country for implementation during 04th March, 2023 to 30th November, 2023 with the theme “Source Sustainability for Drinking Water”. One of the focused interventions of the campaign is water conservation and rainwater harvesting. The campaign offers a major opportunity in leveraging convergence and working towards a greater vision of water conservation. 

Central Ground Water Board (CGWB) has prepared a Master Plan for Artificial Recharge to Groundwater- 2020 in consultation with States/UTs which is a macro level plan indicating various structures for the different terrain conditions of the country including estimated cost. The Master Plan has provisions for the construction of about 1.42 crore rain water harvesting and artificial recharge structures in the country to harness 185 Billion Cubic Metre (BCM) of monsoon rainfall.

Ministry of Housing & Urban Affairs has formulated guidelines for the guidance of the States for their adoption suiting to local conditions. Adequate focus has been given on requirement of rainwater harvesting and water conservation measures in Model Building Bye Laws (MBBL), 2016 and Urban and Regional Development Plan Formulation and Implementation (URDPFI) Guidelines, 2014. 

National Mission for Clean Ganga (NMCG) under Department of Water Resources, River Development & Ganga Rejuvenation, Ministry of Jal Shakti, in partnership with Indo-European Water Partnership has developed a National Framework for the reuse of treated waste water. The framework is meant to develop suitable market and business models for reuse of treated waste water. The framework identifies agriculture as a potential area where reuse of treated water can be explored. The framework envisages and promotes adoption of safer irrigation practices towards use of treated water by farmers in peri-urban and rural areas.

Central Pollution Control Board has formulated and implemented charters for major industrial sectors namely Pulp & Paper, Sugar, Distillery, Textile and Tannery located in Ganga main stem states for adoption of cleaner technology, upgradation of process technology and Effluent Treatment Plant (ETP) system resulting in reduction in specific fresh water consumption and waste water discharge through recycling and reuse of waste water in the process.

National Water Policy-2012 mandates recycle and reuse of water as general norm and advocates treatment to specified standards before reuse of waste water. It recommends properly planned tariff system to incentivize reuse of treated water in various sectors including industries and agriculture. 

In Atal Mission for Rejuvenation and Urban Transformation (AMRUT 2.0), Ministry of Housing & Urban Affairs supports treated water recycling and reuse projects for the non-drinking water needs of industries & agricultural purposes. Reuse of treated used water, tertiary treatment with end-to-end reuse plan (preferably in Public-Private Partnership mode), provision/augmentation and rehabilitation of sewerage systems with end-to-end treatment and reuse, identifying the bulk users of recycled used water and facilitating sale of used water to potential users etc. are admissible elements under AMRUT 2.0 water supply projects.

This information was given by the Minister of State for Jal ShaktiShri Bishweswar Tudu in a written reply in Rajya Sabha today.

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PERMACULTURE-ETHICS,PRINCIPLES,METHODS

BY DAKSHITA NAITHANI

INTRODUCTION TO PERMACULTURE:

Permaculture is a method of design in agriculture that emphasises whole-systems thinking and the use of or stimulation of natural patterns.

Bill Mollison, a senior lecturer in Environmental Psychology at the University of Tasmania, and David Holmgren, a graduate student in the Department of Environmental Design at the Tasmanian College of Advanced Education, coined the term.

These principles are being applied in a growing variety of industries.

HISTORY:

Permaculture as we know it now was created in the 1970s t happened approximately a decade after the world became aware of the risks of pesticides like DDT and the damage they represented to humanity and the environment.

Because it was created for the development of long – term (in other words, permanent) systems, the phrase was coined from a combination of the words “permanent” and “agricultural.”

It was one of the first agricultural systems to recognise that local actions might have drastic implications.

 Holmgren is credited for popularising permaculture but it’s worth mentioning that various books on topics like agroforestry and forest farming have been around since the 1930s or earlier.

3 ETHICS:

Permaculture has 3 core tenants:

•             Care for the earth. To put it another way, assist all living systems in continuing to exist and multiply. But a healthy world is required for existence, it is important to understand the principles of nature and how it functions.

•             Care for the people. Allow people to have access to the resources they require to live. Members of the community who are in need of assistance are supported by the community (e.g. after someone dies, help build homes).

•             Fair share. We should take only what we require and reinvest any excess. Any surplus can be used to assist satisfy the other two basic tenets. This involves reintroducing waste products into the system so that they can be reused.

PRINCIPLES:

All sustainable community design initiatives should use Permaculture concepts.

They are the most important rules for putting it into practise. They may aid in improving and protecting the land, ecosystem, and people, as well as maximising efficiency and productivity.

These principles promote innovation while maximising outcomes. Every location, every circumstance, and every family is unique. As a result, each project’s plans, procedures, plants, animals, and building materials may differ. Even yet, the same principles apply to any location and endeavour, big or little.

1. Observe and Interact

2. Catch and Store Energy

3. Obtain a Yield

4. Apply Self-regulation and Accept Feedback

5. Use and Value Renewable Resources and Services

6. Produce No Waste

7. Design From Patterns to Details

8. Integrate Rather Than Segregate

9. Use Small and Slow Solutions

10. Use and Value Diversity

11. Use Edges and Value The Marginal

12. Creatively Use and Respond to Change

BENEFITS OF PERMACULTURE:

Reduced water usage

Wastewater and rainfall are used in permaculture. This is useful for homes, but for farms with larger areas, it becomes a more cost effective and efficient means of watering the produce.

Reduced waste

Nothing is thrown away. Garden waste, leaves, table scraps, and other waste products are composted or fed to animals as food. Some people go beyond and utilise compost toilets to fully live a zero-waste lifestyle. Permaculture is only sustainable if it makes use of leftovers.

Economically feasible

It is cost effective since pesticides are not required, and most systems require minimal upkeep. All you have to do is water the plants and mulch them once in a while.

Less pollution

Permaculture is a more natural manner of growing food, tractors and other powered agricultural equipment are rarely used.

Improved values

You’ll automatically acquire more ethical and good principles like consuming little, just using what you need, minimising pollution, and helping others if you practise.

More self-sufficiency

A farmer or gardener who practises permaculture may grow a broader range of crops on their property. It allows you to be self-sufficient by allowing you to grow whatever you desire or need to eat.

Applicable to existing systems

 Agricultural systems and lands that already exist can be converted to principles. Permaculture may be practised on a big or small scale wherever that you can normally grow food.

COMMON METHODS OF PERMACULTURE:

1) Agroforestry

Agroforestry is a technique that incorporates trees, shrubs, animals, and crops. The term is derived from a blend of agriculture and forestry. These two apparently disparate professions collaborate to produce systems that are more resilient, healthy, lucrative, and productive. Forestry farming, which is a permaculture technique also falls under the category of agroforestry. However, the main concept is to construct your food forest using a seven-layered method. A canopy layer, a low tree layer, a shrub layer, a herbaceous layer, a rhizosphere, a ground cover layer, and a vertical layer are all included. Silvopastoral and silvoarable are two other agroforestry systems.

2) Hügelkultur

Hügelkultur is a German word that means “hill culture.” It’s a method of burying huge volumes of wood in order to increase the soil’s ability to retain water. This rotting wood behaves like an absorbent, soaking up water from the ground.  Plant materials which behave as a compost are usually placed on top of the mound and decomposed into the soil. A Hügelkultur mound generally lasts 5 to 6 years until the wood rots completely and the procedure must be repeated.

3) Harvesting Rainwater and Grey water

Instead of letting rainwater wash from the property, you may collect it and store it for later use. Roofs gather the majority of rainwater. Eaves troughs, which collect and transport water away from buildings, are likely already installed on your farm’s homes, barns, and other structures. To collect rainwater, just connect a big tank to your downspout and catch the water rather than having it seep into the ground and go to waste. Storm water harvesting is another way to collect water. It is distinct from rainwater harvesting in that it collects runoff from creeks, drains, and other waterways rather than from rooftops. Grey water is a last source of reusable water on the farm. This is water that is used in the house or on the farm for things like bathing and doing laundry.  Because grey water includes detergents, it cannot be used for drinking, but it may be utilised for irrigation purposes and other reasons.

4) Cell Grazing

Grazing is commonly seen as a negative activity that, if not carried out appropriately, has the potential to harm the ecosystem in various ways. Allowing animals to overgraze a region can have severe repercussions, and this is true. Cell grazing is the favoured approach in permaculture. This entails moving herds of animals between fields, pastures, or woodlands on a regular basis. The disruptions created by grazing animals, when done correctly, can actually improve the ecosystem and allow plants to recover more quickly. It also keeps an eye on how animals interact with the land. Plants require appropriate time to rest between each grazing and therefore it’s critical that a region receives a rest time after being grazed.

5) Sheet Mulching

Mulching is simply any protective layer placed on top of the soil to retain water and prevent weed development and is used by many farmers and gardeners. A variety of materials such as wood chips, cardboard, plastic, stones, and are frequently employed. Sheet mulching is an organic no-dig technique that aims to imitate natural soil building in forests, namely how leaves cover the ground. Sheet mulching is most often done with alternating layers of “green” and “brown” materials. Fallen leaves, shredded paper and cardboard, pine needles, wood chips, and straw are examples of brown materials. Manure, grass clippings, worm casings, vegetable scraps, hay, coffee grounds, and compost are examples of green materials. It’s possible to utilise 5 to 10 layers of materials. Sheet mulching adds nutrients and minerals to the soil, inhibits weed development, regulates weather and protects against frost, reduces erosion and evaporation, and absorbs rainwater.

6) Natural Building

Natural building is a more environmentally friendly alternative to purchasing materials from your local hardware shop or lumber yard. You should try to employ as much recycled materials as possible in a system. There are a lot of renewable resources on the land that you may employ in your next construction project. Most people ignore clay, pebbles, wood, reeds, straw, and sand, which are all easily available materials. Tires, which are less natural, can also be utilised for building. This is a fantastic method to recycle old tyres that would otherwise be thrown away or burned. Similarly, instead of purchasing new windows, discarded glass windows are frequently repurposed.

7) No-Till or Minimum-Till Farming

The goal of no-till farming is to leave the soil untouched. The soil is left undisturbed rather than being broken up before planting. This helps to keep water in the soil, keeps carbon from leaving the soil, increases soil quality, and lowers the quantity of weed seeds that are brought closer to the surface to germinate. The soil is disturbed by conventional agriculture methods. This allows carbon dioxide to enter the atmosphere while also over oxygenating the soil. Loosening the soil in this way can cause erosion and nutrient runoff, as well as obliterate important fungal networks. Tilling can be reduced or even removed altogether for some systems with the right approaches.

8) Intercropping and Companion Planting

Intercropping is the planting of more than one two plant species in the same region that mutually benefit one another. Companion planting, for example, involves growing strong-scented plants and herbs such as basil, oregano alongside primary. Many of these companion plants with powerful smells are repulsive to pests. Not only that, but some of them really help the plants they’re partnered with to grow and taste better. Others help to loosen the soil or provide additional advantages. While many plants get along well when grown together, there are some who don’t because they demand the same nutrients or for other reasons.

9) Market Gardening

Market gardening is an intriguing shift away from conventional style of agriculture, which is carried out on huge swaths of land far out in the nation, to smaller plots of land, even in metropolitan areas sometimes. Market gardeners, as the name implies, sell their vegetables at farmer’s markets, however some may also supply restaurants and grocery shops directly.

Cash crops are aggressively produced on a small scale in market gardening (usually less than an acre of land.) While cultivating on as little as a quarter acre of land, a market gardener may earn up to $100,000 each year.

Chennai’s water crisis- Natural or man made?

Chennai, the capital city and heartthrob of Tamil Nadu observed ZERO DAY on 19th June, 2019 when there was no water left in all the four reservoir tanks built in the city. Chennai is a city located on southeast coast of India serving as a gateway to the magnificent South India with the Bay of Bengal surrounding it on one side, the city is intersected by three rivers. How come that the city which has “abundant of water bodies” becomes dry. Read this blog to know how the water crisis in Chennai is a result of man’s selfish actions and is a warning giving a hint of what the nature holds for us in future if we degrade it.

Causes of water scarcity in Chennai

Chennai is situated on the south east coast of India and receives majority of its rain during winters because being situated on the south east coast, it lies on the leeward side of the Western Ghats preventing the south west monsoon winds which originates in the Arabian sea on the west coast of India to shed its rain there during summers when generally rest of the country experiences monsoon. Thus it gets majority of its rain from retreating southwest monsoon winds and northeast winds during the months of December and January. The rest of the months the city has to rely on occasional rains and mainly on the reserved water which is scarce in Chennai.

Owing to Urbanisation and construction on the bodies which once were the catchment and flood relief basins, the space required to hold the rains is now blocked. The very suitable example being the very famous IT corridor of Chennai which is built on 230 square kilometers of marshland , has reduced the area of the places to hold the precipitation which occurs during its monsoon. Moreover with the rise in the number of Industries , the water bodies in Chennai are highly polluted. Though the industrialization resulted in Chennai being called “The Deteroit of India” due to the vast automobile sector established there housing the scions such as the Tata motors, the neglection of the authorities in maintaining the precious water bodies resulted to Chennai experiencing the ZERO DAY.

Chennai receives rain on an average of 54 days per year with a minimum average of 140 centimeters of rainfall which is enough for the survival if the water is properly harvested but it is the inability to collect and reserve the rain water which led to the MAN MADE water crisis. Between 1893 and 2017 the area covered by the water bodies is reduced from 12.6 square kilometers to 3.2 square kilometers. As reported by The Diplomat, NITI Aayog  predicted in June that 21 Indian cities would run out of groundwater in 2020. A report by the London-based risk analytics firm Verisk Maplecroft named Chennai as facing an “extreme risk” of water stress, saying its present crisis “could be the new normal for tens of millions of people” in India’s urban centers.

Since there is no enough reserved water for the heat days which comes in June and the water remaining in the water bodies is either too saline or too polluted to be fit for use, Chennai has to rely on the tanks which carry water from hundreds of kilometers far away to satisfy its water needs. As suggested by the various reports , there is 85 percent decline in Chennai’s groundwater levels.

Actions taken by the Government to prevent

  • Chief Minister of Tamil Nadu Edappadi Palaniswami , after that dreadful day in June 2019, announced a public program including maximum participation of women covering everything from rainwater harvesting to water saving and recycling to the protection of water bodies and a massive study on how to clean the polluted rivers. Until the research and the plan is completed , the government decided the construction of desalination plants in the city which though costly will help in a great way to solve Chennai’s water problems until the natural water bodies are restored, by desalining the sea water making it fit for domestic and industrial use. The plan is however still in the initial process as there are many protests regarding how it will cause environmental damages and intense loss to the local fisheries.
  • The past always comes to the rescue. Supported by the Asian Infrastructure Investment Bank and the Dutch Government , the Greater Chennai Corporation has started an initiative called “the city of 1000 tanks” which aims at restoring the tanks near the temples and making it the reservoirs for storing the rain water just like in the past and building new tanks too surrounded by green slopes to help catch the rainwater and increase the groundwater level.

The state of Tamil Nadu of which Chennai is the capital has predicted in its climate action plan that the annual temperature of the city will raise by 3.1 degree celsius by 2100 from its original level of what it was in 1983 and 2000s with the annual rainfall falling by 9%.Further , the little rainfall which the city experience in June and September which was enough to refill the reservoirs and maintain the growth of crops will decrease while the winter rainfall will increase causing more floods and droughts.

The condition which Chennai is facing can be taken as a threat issued by nature to not degrade it else the consequences can be severe. The day is not too far when the rest of the world may also experience what Chennai is , if the present practice continues and that day will lead to our downfall.