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Current Affairs – July 12, 2026

{GS3 – Agri} Agricultural Mechanisation in India **

  • Context (PIB): Sub-Mission on Agricultural Mechanisation is accelerating India’s transition toward automated farming by mitigating severe land fragmentation through subsidised access to machinery.

Sub-Mission on Agricultural Mechanisation (SMAM)

  • SMAM is a Centrally Sponsored Scheme launched in 2014-15 to make farm machinery accessible and affordable, particularly for small and marginal farmers.
  • Parent Scheme: Rashtriya Krishi Vikas Yojana under the Ministry of Agriculture and Farmers Welfare.
  • Target: To increase India’s average farm power availability from the current baseline of 2.5 kW/ha to the national strategic target of 4.0 kW/ha by 2030.
  • Funding Pattern: 60:40 Centre-to-state ratio for general states, 90:10 for Himalayan and Northeastern states, and 100% central funding for Union Territories.
  • Executive Body: State Agriculture Departments release all financial assistance mandatorily through the Direct Benefit Transfer portal.
  • Benefits: It offers 40% to 80% subsidies for purchasing agricultural equipment and funds Custom Hiring Centres (CHCs) to allow farmers to rent machinery.
  • Priority: Small farmers, women, SC/ST categories, and Forest Rights Act patta holders receive a 50% subsidy for machinery procurement. Other categories receive 40%.
  • CHC: Rural entrepreneurs and FPOs receive 40% financial assistance for projects up to ₹250 Lakhs to establish high-capacity custom hiring centres (CHC). Self-Help Groups (SHGs) receive 80% support for projects up to ₹30 Lakhs to set up village-level farm machinery banks.
  • Drone: Institutional bodies receive a 100% grant of up to 10 Lakhs to demonstrate drone technologies for precision agriculture.

Significance of Farm Mechanisation in India

  • Cropping Intensity: Mechanical harvesters shorten the turnaround time between seasons, enabling smallholders to shift from single-crop subsistence to multi-crop commercial production.
  • Labour Substitution: The contraction of the agricultural workforce to 43% forces rural farms to adopt machinery for time-critical peak-season harvesting.
  • Resource Efficiency: Laser land levelling maintains precise field slopes that improve irrigation efficiency by 25% and reduce groundwater pumping across arid basins.
  • Scale Adaptation: Custom Hiring Centres offset the scale barrier posed by India’s 1.08-hectare average landholdings by providing marginal farmers with access to rental machinery.
  • Gender Ergonomics: A rural female labour force participation rate of 47.6% necessitates the use of lightweight machinery to reduce physical drudgery in manual operations.

Structural Bottlenecks in Mechanisation Transition

  • Scale Constraint: The fragmentation of 86% of Indian landholdings below 2 hectares makes large-scale machinery, such as combine harvesters, economically unviable for individual ownership.
  • Liquidity Barrier: SMAM mandate, which requires farmers to pay the full machinery cost upfront before claiming the Direct Benefit Transfer subsidy, excludes capital-starved households.
  • Peak Mismatch: Custom Hiring Centres face narrow 15-day harvest windows during which simultaneous machinery demand outstrips fleet supply, forcing marginal farmers to manual labour.
  • Infrastructure Deficit: Erratic three-phase rural electricity supply undermines the operational viability of stationary electrically powered processing machinery, such as advanced threshers and sorters.
  • Soil Compaction: Repeated deployment of heavy tractors without deep-tillage implements creates subsurface hardpans that restrict root penetration and reduce long-term yields.

Current State of Indian Farm Mechanisation

  • Adoption Deficit: India’s overall agricultural mechanisation level stands at 47%, trailing peer agrarian economies like China at 60% and Brazil at 75%.
    • Parliamentary Standing Committee recommended achieving 75–80% farm mechanisation within less than 25 years.
  • Operational Skew: Seedbed preparation achieved 70% mechanisation across major crops, but harvesting and weeding remain below 34% nationally.
  • Regional Asymmetry: Farm power availability exhibits extreme geographic disparity, peaking at 6 kW/ha in Punjab while dropping to 0.7 kW/ha in Mizoram.
  • Crop-Type Imbalance: Mechanisation is concentrated in the rice-wheat belt, leaving sectors like horticulture, cotton picking, and sugarcane harvesting heavily reliant on manual labour.

{GS3 – DM} Urban Flood Management in India **

  • Context (IE): July 2026 Mumbai floods exposed systemic failures in urban flood mitigation across major Indian cities, highlighting their acute vulnerability to a changing climate.

Current Landscape of Urban Flooding in India

  • Macro Vulnerability: Flood vulnerability across 40 million hectares of Indian landmass threatens the 600 million people projected to inhabit urban centres by 2036.
  • Drainage Deficit: Over 70% of Indian urban areas lack scientifically designed stormwater drainage networks to manage high-intensity monsoon runoff.
  • Impermeability Multiplier: Every 1% increase in an Indian city’s impervious concrete surface area drives a 3.3% increase in flood magnitude.
  • Demographic Exposure: An estimated 40 million urban residents face direct vulnerability to severe monsoon flooding across Indian cities.
  • Economic Loss: Pluvial urban flooding causes an estimated $4 billion in annual economic losses, projected to reach $5 billion by 2030.

Factors Driving Urban Flooding in India

  • Flood Amplification: Urbanisation-induced catchment changes increase flood peaks by up to and runoff volumes by up to 6× relative to rural baselines.
  • Precipitation Volatility: Extreme rainfall events exceeding 150 mm per day tripled in central and western India between 1950 and 2015.
  • Surface Concretisation: India’s built-up urban area has doubled since 2000, eliminating natural drainage systems that once absorbed monsoon runoff.
  • Planning Deficit: Nearly 65% of India’s 7,933 urban settlements lack master plans, leaving the majority to expand unchecked into flood-prone areas.
  • Capacity Mismatch: Legacy municipal stormwater drains, designed to handle only 25 mm of rainfall per hour, routinely collapse during intense modern downpours.
  • Slum Exposure: India records the world’s highest exposure to urban flooding in slums, with over 158 million dwellers in flood-prone areas without protection.

Government Initiatives for Urban Flooding

  • Mitigation Financing: Urban Flood Risk Management Programme (UFRMP) has approved ₹3,076 crore to build flood-resilient infrastructure and early warning systems across 7 vulnerable metro cities.
  • Drainage Upgradation: Atal Mission for Rejuvenation and Urban Transformation (AMRUT) funds the construction of municipal stormwater drainage networks to eliminate chronic urban waterlogging.
  • Building Mandates: Model Building Bye Laws 2016 require the installation of rainwater harvesting systems on all urban plots exceeding 100 sq. m.
  • Waste Control: Swachh Bharat Mission-Urban enforces scientific solid waste management to prevent unsegregated waste from clogging municipal stormwater drainage networks.
  • Aquifer Recharge: Mission Amrit Sarovar constructs or rejuvenates 75 water bodies in each district to harvest monsoon runoff and replenish depleted groundwater reserves.
  • Alert Integration: iFLOWS delivers ward-level urban inundation forecasts up to 72 hours in advance using hydrodynamic modelling for vulnerable metros.

Way Forward

  • Sponge Infrastructure: Adopt China’s ‘Sponge City’ model by installing permeable pavements and rain gardens to absorb surface runoff into urban aquifers.
  • Network Segregation: Decouple municipal stormwater networks from sewage lines to prevent sludge bottlenecks and maintain maximum carrying capacity during extreme downpours.
  • Floodplain Parks: Replicate Brazil’s Curitiba model by preserving natural river floodplains as dual-purpose public parks that safely accommodate peak monsoon floodwaters.
  • Climate Financing: Issue municipal green bonds to fund the capital-intensive acquisition of high-capacity pumping stations and the structural expansion of drainage networks.
  • Floodplain Restoration: Implement the Dutch ‘Room for the River’ approach by retreating from encroached embankments to safely accommodate peak monsoon swells.
  • Blue-Green Infrastructure: Follow Singapore’s spatial resilience model by integrating reservoirs and constructed wetlands into city master plans to naturally detain excess stormwater.

Read More> Urban Flooding in India | Monsoon Paradox and Rising Disasters

{Prelims – Envi} Hindu Kush Himalaya (HKH) Region

  • Context (DTE): ICIMOD’s Hindu Kush Himalaya (HKH) Monsoon Outlook 2026 forecasts below-normal rainfall and above-normal temperatures across India, Nepal, Bhutan, and Pakistan driven by El Niño.

  • International Centre for Integrated Mountain Development (ICIMOD), headquartered in Kathmandu and founded in 1983, is a regional intergovernmental organisation focused on sustainable development, environmental conservation, and climate resilience in the HKH region.
  • The HKH region is an ecologically fragile mountain system spanning 3,500 km across 8 countries: Afghanistan, Bangladesh, Bhutan, China, India, Myanmar, Nepal, and Pakistan.
  • Recognised as the “Third Pole,” the region contains the largest volume of frozen water on Earth outside the Arctic and Antarctic polar ice caps.
  • It is the world’s most important ‘water tower’, supporting 10 major river basins including the Ganges, Brahmaputra, Indus, Mekong, and Yangtze.
  • Significance: The region supplies water to nearly a quarter of the global population, includes 4 of the 36 biodiversity hotspots, and is home to thousands of endemic species.

Climate Risks in HKH

  • Warming: The region warms almost 3 times faster than the global average, accelerating glacier retreat.
  • Monsoon Paradox: Seasonal rainfall is declining or becoming erratic, while short-duration events (cloudbursts) are increasing flash floods and infrastructure failures.
  • Cascading Disasters: Glacier retreat expands proglacial lakes, raising risks of GLOFs and landslides while threatening water supply and hydropower projects.

Read More > HKH Region

{Prelims – IR} Geneva Conventions Act, 1960

  • Context (TH): Hind Rajab Foundation filed a criminal complaint with Indian authorities under the Geneva Conventions Act, 1960, demanding the arrest of Israeli reservist Eitan Gilboa vacationing on the ‘Hummus Trail’ in Himachal Pradesh.
  • Gilboa, a member of Israel’s 271st Combat Engineering Battalion, was accused of systematically demolishing civilian blocks at Khan Younis and Rafah in Gaza.
  • Section 3 of the 1960 Act makes grave breaches punishable under universal jurisdiction; wilful killing of a protected person attracts death or life imprisonment, and all other breaches up to 14 years.
    • Section 4 allows India to try anyone found on its territory for offences under the Act, regardless of where the crime was committed.
  • Article 146 of the Fourth Geneva Convention requires signatory nations to search for and prosecute individuals accused of ‘grave breaches,’ regardless of nationality or location of the offence.
  • Geneva Conventions: Four international treaties establishing legal standards for humane treatment in armed conflict. They protect individuals not, or no longer, participating in hostilities, including civilians, medics, aid workers, prisoners of war, and wounded soldiers.
  • Hummus Trail: A backpacking route spanning Kasol, Manali, Goa, Pushkar, Rishikesh, and Hampi, traditionally taken by young Israelis as part of Tiul HaGadol, the post-military service travel tradition.

{Prelims – S&T} Pinaka Long Range Guided Rocket (LRGR-120) *

  • Context (PIB): DRDO conducted a successful flight test of the Pinaka Long Range Guided Rocket (LRGR) at the Integrated Test Range (ITR), Chandipur.
  • LRGR-120 is an indigenously developed, precision-guided rocket for the Pinaka multi-barrel rocket launcher (MBRL) system, designed to replace Russian-origin BM-21 Grad systems.
  • Range: Up to 120 km; more than three times the 37.5 km of the original Pinaka Mark I.
  • Guidance System: It combines an Inertial Navigation System (INS) with India’s NavIC (IRNSS) satellite network for precision navigation.
  • LRGR-120 can be fired from existing in-service Pinaka launchers, whose high mobility allows a salvo to be fired and the position to be relocated before enemy radar can retaliate.

{Prelims – Sci} Oxytocin

  • Context (IE): WHO has sought information from India regarding reports linking suspected spurious oxytocin to maternal deaths.
  • Oxytocin is a neuropeptide hormone synthesised in the hypothalamus and released into the bloodstream by the posterior pituitary gland. Often called the “love hormone,” it acts as a chemical messenger in the central nervous system, aiding childbirth, lactation, and social bonding.
  • Synthetic oxytocin is a vital obstetric drug used to prevent uterine atony (failure of the uterus to contract) and uncontrolled bleeding.
  • Administering oxytocin to cattle is a cognizable offence under Section 12 of Prevention of Cruelty to Animals Act; unauthorised manufacture or sale is prohibited under Section 18(a) of Drugs and Cosmetics Act, 1940.

{Prelims – Misc} One Liners

  • DM – Flash Floods in Chenab Valley (DTE): Flash floods in J&K’s Chenab Valley stall Kwar hydroelectric project highlighted the vulnerability of Himalayan region. Kwar project is located on the Chenab River in Kishtwar.
  • S&T – Drishti-10 (TH): Indian Navy’s Drishti-10 Uncrewed Aerial Vehicle (UAV) crashed in Gujarat. It is the Indian variant of the Israel’s Hermes 900, a combat-proven MALE UAV designed for long-endurance intelligence, surveillance, and reconnaissance (ISR) missions. It is manufactured in India by Adani Defence and Aerospace.
  • S&T – Meta’s Muse Image (TH): Meta’s new AI image generation tool, Muse Image, has triggered widespread criticism for allowing users to incorporate other people’s Instagram photos into AI-generated content without explicit consent.