Hill or City Urban Planning Cannot Be An Afterthought : Daily Current Affairs

Date: 15/02/2023

Relevance: GS-3: Disaster and Disaster Management.

Key Phrases: Poor urban planning, Urban master plans, Disaster Management Framework, Blue Infra Areas, Flood-resilient Architecture, Tapovan Vishnugad Dam, National Institute of Disaster Management, Simulation Capacity to Determine Flooding Hotspots

Context:

  • There is a continued rise in extreme weather events like landslides, avalanches, heatwaves and urban flooding with climate change and the impact is being worsened by poor urban planning.

Key Highlights:

  • On December 24, 2009, a tunnel boring machine in Joshimath, Uttarakhand, hit an aquifer about three kilometers from Selang village resulting in the loss of nearly 800 liters of water per second.
  • Soon after, groundwater sources began drying up even as the water flow reduced but never stopped. Meanwhile, Joshimath has no system to manage wastewater.
  • Instead, the large-scale use of the soak-pit mechanism could exacerbate land sinking.
  • Ongoing infrastructure projects, the Tapovan Vishnugad dam and the Helang-Marwari bypass road may also worsen the situation.

Challenges of Hilly Urban India:

  • Land subsidence incidents in hilly urban India are becoming increasingly common.
  • An estimated 12.6% of India’s land area is prone to landslides, especially in Sikkim, West Bengal and Uttarakhand which is being made worse by the Urban policy according to the National Institute of Disaster Management.
  • Construction in such a landscape is often driven by building bye-laws that ignore local geological and environmental factors.
  • Consequently, land use planning in India’s Himalayan towns and the Western Ghats is often ill-conceived, adding to slope instability.
  • As a result, landslide vulnerability has risen, made worse by tunnelling construction that is weakening rock formations.

Seismic Zones of India:

  • The Bureau of Indian Standards (BIS) has grouped the country into four seismic zones viz. zones V, IV, III and II.
  • Zone V has the highest level of seismicity whereas Zone II is associated with the lowest level of seismicity.
    • Zone V (very severe intensity zone): Parts of Jammu and Kashmir (Kashmir valley); Western part of Himachal Pradesh; Eastern part of Uttarakhand, Kutch in Gujarat; part of Northern Bihar; all northeastern states of India and the Andaman & Nicobar Islands.
    • Zone IV (severe intensity zone): Ladakh; Remaining parts of Jammu & Kashmir, Himachal Pradesh and Uttarakhand; Some parts of Haryana, Parts of Punjab; Delhi; Sikkim; the northern part of Uttar Pradesh; small portions of Bihar and West Bengal; parts of Gujarat and small portions of Maharashtra near the west coast and small part of western Rajasthan.
    • Zone III (moderate intensity zone): Kerala; Goa; Lakshadweep islands; parts of Uttar Pradesh and Haryana; remaining parts of Gujarat and Punjab; parts of West Bengal, western Rajasthan, Madhya Pradesh; remaining part of Bihar; northern parts of Jharkhand and Chhattisgarh; parts of Maharashtra, Odisha, Andhra Pradesh, Telangana, Tamil Nadu and Karnataka.
    • Zone II (low intensity zone): Remaining parts of Rajasthan, Uttar Pradesh, Gujarat, Haryana, Madhya Pradesh, Maharashtra, Odisha, Andhra Pradesh, Telangana, Karnataka and Tamil Nadu.

Enhancing Urban Resilience:

  • Acquiring credible data is the first step toward enhancing urban resilience with regard to land subsidence.
  • The overall landslide risk needs to be mapped at the granular level.
    • The Geological Survey of India has conducted a national mapping exercise (1:50,000 scale, with each centimeter denoting approximately 0.5 km).
    • Urban policymakers need to take this further, with additional detail and localisation (1:1,000 scale).
  • Areas with high landslide risk should not be allowed to expand large infrastructure.
  • There must be a push to reduce human interventions and adhere to carrying capacity.
  • Further, any site development in hazardous zones needs assessment by a geologist (with respect to soil suitability and slope stability) and an evaluation of its potential impact on buildings that are nearby.
  • It may need corrective measures (retention walls), with steps to prohibit construction in hazardous areas.

BEST PRACTICES:

  • Gangtok:
    • In Gangtok, Sikkim, the Amrita Vishwa Vidyapeetham has helped set up a real-time landslide monitoring and early warning system, with sensors assessing the impact of rainfall infiltration, water movement and slope instability.
  • Aizawl:
    • Aizawl, Mizoram, is in ‘Seismic Zone V’, and built on very steep slopes.
    • An earthquake with a magnitude greater than 7 on the Richter scale would easily trigger over 1,000 landslides and cause large-scale damage to buildings but the city has developed a landslide action plan (with a push to reach 1:500 scale), with updated regulations to guide construction activities in hazardous zones.
    • The city’s landslide policy committee is cross-disciplinary in nature, seeking inputs from civic society and university students, with a push to continually update risk zones.

Rising Urban Flood Risks :

  • Dombivli, Maharashtra:
    • In August 2019, Palava City (Phase I and II) in Dombivli experienced heavy flooding, leaving residents stranded.
    • Seasonal rain is now increasing in intensity, and the reason for the flooding being the township built on the floodplains of the Mothali river.
    • When planned townships are approved, with a distinct lack of concern for natural hazards, such incidents are bound to occur.
  • Panjim, Goa:
    • Floods in Panjim in July 2021 led to local rivers swelling and homes being flooded, leaving urban settlements along the Mandovi affected. Again, urban planning was the issue.
    • The city, built on marshlands, was once home to mangroves and fertile fields, which helped bolster its flood resilience.
  • Delhi:
    • An estimated 9,350 households live in the Yamuna floodplains while the UN Intergovernmental Panel on Climate Change report of March 2022 has highlighted the risk Kolkata faces due to a rise in sea levels.
    • The combination of poor urban planning and climate change will mean that many of India’s cities could face devastating flooding.

Measures for Flood-proofing India’s cities:

  • Urban planners will have to step back from filling up water bodies, canals and drains and focus, instead, on enhancing sewerage and stormwater drain networks.
  • Existing sewerage networks need to be reworked and expanded to enable wastewater drainage in low-lying urban geographies.
  • Rivers that overflow need to be desilted regularly along with a push for coastal walls in areas at risk from sea rise.
  • Greater spending on flood-resilient architecture (river embankments, flood shelters in coastal areas and flood warning systems) is necessary.
  • Protecting “blue infra” areas, i.e., places that act as natural sponges for absorbing surface runoff, allowing groundwater to be recharged, is a must.
  • As rainfall patterns and intensity change, urban authorities will need to invest in simulation capacity to determine flooding hotspots and flood risk maps.

Looking Ahead:

  • Urban India does not have to embrace such risks. Instead, cities need to incorporate environmental planning and enhance natural open spaces.
  • Urban master plans need to consider the impact of climate change and extreme weather; Bengaluru needs to think of 125 mm per hour peak rainfall in the future, as against the current 75 mm.
  • Urban authorities in India should assess and update disaster risk and preparedness planning. Early warning systems will also be critical.
  • Finally, each city needs to have a disaster management framework in place, with large arterial roads that allow people and goods to move freely.

Source: The Hindu

Mains Question:

Q. Poor Urban planning is leading to the worsening of the impacts of changing weather events as well as climate change. In this context, discuss measures to tackle urban flooding and landslides. (150 words).