Why in news ?
Policy shift in conservation
- J&K government shelved the ₹416.72-crore Dal restoration plan (approved 2009) and proposed an in-situ conservation approach, allowing dwellers to continue living on the lake.
- The earlier plan targeted relocation of ~9,000 families, but only 1,808 families were rehabilitated in 17 years, achieving about 27% of intended conservation outcomes.
Relevance
- GS III (Environment): Wetland degradation, eutrophication, urban ecology, conservation policy.
- GS I (Geography): Lakes, catchment impacts, land-use change.
Practice question
- What is eutrophication and how does it affect urban lakes like Dal?(250 Words)
Basics and static context
Location and physical features
- Dal Lake is an urban freshwater lake in Srinagar, Jammu & Kashmir, fed by springs and channels from the Zabarwan range, historically covering ~22–25 sq km including marshes and floating gardens.
- It is divided into basins like Gagribal, Lokut Dal, Bod Dal and Nigeen, with interconnected channels; shallow depth and slow flushing make it naturally vulnerable to pollution accumulation.
Ecological and economic significance
- Dal Lake supports tourism, fisheries, lotus cultivation and houseboat livelihoods, forming a key part of Kashmir’s economy and cultural identity.
- It functions as an urban ecological buffer, moderating microclimate, supporting biodiversity, and storing floodwaters in the Jhelum basin.
Environmental pressures
Sewage and pollution load
- Untreated sewage from households, hotels and houseboats enters the lake through point and non-point sources; SKUAST (2022) flagged “extreme pollution loads” and deteriorating water quality.
- High organic load raises BOD and nutrient levels, accelerating eutrophication, a pattern also observed in other urban lakes like Bengaluru’s Bellandur.
Eutrophication and weed growth
- Excess nitrogen and phosphorus from sewage and fertilisers cause algal blooms and macrophyte overgrowth, choking open water and reducing dissolved oxygen for fish.
- Proliferation of weeds like Eichhornia (water hyacinth) reduces water spread and impedes navigation and recreation.
Catchment degradation
- Deforestation, grazing and agriculture in the catchment increase silt and nutrient inflow, shrinking effective water area and altering lake morphology.
- Land use change in the Zabarwan foothills has increased runoff and sedimentation, a common driver of lake ageing.
Encroachment and population pressure
- Expansion of settlements, houseboats and floating gardens (raad) leads to encroachment and solid waste generation, converting water areas into marshy land.
- Urban lakes worldwide show similar stress where shoreline regulation is weak, e.g., Dal-like pressures on Nainital Lake.
Reduced inflows and circulation
- Blocked or reduced inflows and internal channels lower water circulation and flushing, concentrating pollutants and accelerating stagnation.
- Hydrological fragmentation disrupts natural self-cleansing capacity of the lake.
Invasive species and biodiversity loss
- SKUAST noted invasive plants and animals altering native biodiversity; invasive macrophytes outcompete native flora and change habitat structure.
- Biodiversity simplification reduces ecological resilience and fisheries productivity.
