In the absence of holistic strategies, the urban issues may get induced to the resource-constrained rural areas.
In the recent past, about 75 per cent of the Mahatma Gandhi National Rural Employment Guarantee Act (MGNREGA) funds were utilised for water conservation efforts. They complement the Jal Shakti Abhiyan (JSA) launched in 2019, a comprehensive programme covering rainwater harvesting, river rejuvenation, along with safe drinking water supply and sanitation.
Over time, it has evolved from a rural livelihood generation programme to asset creation and natural resource management. Hence, the success of the programme must be gauged through tangible benefits rather than several workdays. Otherwise, it will be only “filling and digging holes”, which lacks the sustainability aspect.
Today’s rural India has several toilets and road networks. Drinking water connection to each household is on the anvil. These are the early signs of urbanisation.
In the absence of holistic strategies, the urban issues may get induced to the resource-constrained rural areas. For example, wastewater management, groundwater depletion and flooding are serious concerns when climate change has put south-east Asia under alarming water stress, including both flooding and drought.
Conventional wastewater treatment facilities are unviable for rural set up as they are costly to build, consume significant amounts of electricity and need advanced technical support for operation and maintenance.
There are three highly sustainable treatment methods recommended for developing countries, constructed wetlands (CW), sludge or waste stabilisation ponds (WSP) and up-flow anaerobic sludge blanket and soil aquifer treatment. The first two require no electricity and promoted by Samarthya, the technical training manual of the scheme.
The constructed wetland has been implemented successfully in the semi-arid-tropic Kothapally village of Telangana, while East Kolkata wetlands are time-tested for waste stabilisation ponds, promoting pisciculture. But both options need special care to prevent flooding during the monsoon season. Reusing greywater from the kitchen or other household activities can reduce their loading.
Despite ample rainfall and natural water bodies, 256 Indian districts have very low or low groundwater availability. People in these districts are digging deeper, leading to many problems ranging from arsenic contamination to intensified earthquake vulnerability because of the reduced pore pressure in earth strata.
JSA aims for groundwater recharge through various means. However, comparing the reported extent of work done with realised impact, the program has grossly turned out to be a ‘number game and has failed to solve the actual issues.
Technically, JSA suffers from the conventional concept that traditional water bodies and trapping water where it falls can work. Groundwater recharge can occur by direct percolation of surface water at water availability or dedicated charging locations due to aquifers arrangements.
The first process depends on the soil type and is ineffective if more open areas get paved or lose their natural vegetation cover. Hence, treating open areas with ‘rain garden’ (aboriginal vegetation that not only captures surface run-off and rain but purifies the same through the root system before sending it to groundwater reserve), soft paving for pedestrian traffic, and all possible means for rainwater harvesting at building level may be looked upon.
For the second issue, a geological survey with modern techniques such as ground-penetrating radar for aquifer location is preferred rather than relying blindly on traditional water bodies. Accordingly, MGNREGA projects can be planned.
Poor groundwater recharge and growing intensity of rainfall often lead to pluvial flooding. Unlike the traditionally known riverine flood, each monsoon occurs whenever heavy rain makes an established watercourse overflow an otherwise dry land.
Usually witnessed in urban areas and hence commonly called ‘urban flood’, pluvial flood happens without much warning and can occur in rural areas, even where there is no water-body or recent history of flooding. Its growing intensity and frequency attribute to climate change and unplanned anthropogenic interventions.
For example, the specification of rural road construction under MGNREGA has side drains but no mention of box culverts to allow water passage at strategic points. It may act as bunds or embankments for free flow of water to the low-lying areas.
Similarly, trapezoidal irrigation canals are laid with proper gradient as per contour lines, but their relative slope at junction points are unclear. Compared to a precast concrete channel requiring regular cleaning and adequate scouring velocity, earthen canals with suitable vegetation to prevent soil subsidence through their root network are more sustainable.
Similarly, establishing interconnectivity of waterbodies can be of a greater priority for preventing pluvial flood.
Source From : DownToEarth