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Dibang River

The Dibang River is a northward-flowing Himalayan river in northeastern India that originates in the Mishmi Hills of Arunachal Pradesh near the Keya Pass and extends approximately 275 kilometers southward through the Dibang Valley before joining the Lohit River near Sadiya in Assam to form the Brahmaputra River.^[1]^[2]^[3] As one of the principal tributaries of the Brahmaputra, the Dibang contributes substantially to the river system's discharge and supports diverse ecosystems in the biodiverse Dibang Valley, a region characterized by rugged terrain, dense forests, and indigenous communities such as the Idu Mishmi.^[4]^[1] The river's course traverses steep gradients and narrow gorges, fostering high hydropower potential but also posing challenges for flood management and sedimentation in downstream areas.^[5] The Dibang has gained prominence due to the proposed Dibang Multipurpose Project, a 2,880 MW run-of-the-river hydropower dam intended to harness the river's energy for electricity generation, which received environmental clearance in 2019 amid protests over ecological disruption, displacement of over 700 families, and risks to fragile foothill biodiversity in a global hotspot.^[6]^[7] Local opposition, including demonstrations suppressed by security forces, highlights tensions between development imperatives and conservation, with critics citing flawed impact assessments and downstream flooding vulnerabilities.^[8]^[9]

Geography

Origin and Course

The Dibang River originates on the snow-clad southern slopes of the Himalayas near the India-Tibet border, at an elevation exceeding 5,000 meters, specifically as the Adzon Chhu stream from the vicinity of peak 5,355 meters in the Upper Dibang Valley district of Arunachal Pradesh.^[10]^[5] From its high-altitude source near Keya Pass, the river flows southward in a predominantly straight path through the rugged Mishmi Hills, carving narrow V-shaped valleys with steep gradients amid densely forested terrain in Arunachal Pradesh's Upper and Lower Dibang Valley districts.^[4]^[5] Covering approximately 204 kilometers within Arunachal Pradesh, the Dibang transitions from its mountainous headwaters—dominated by glacial and snowmelt influences—to broader channels as it approaches the alluvial plains of Assam, where it joins the Lohit River north of Sadiya, forming a key contributor to the Brahmaputra River system.^[10]^[5]

Tributaries and Drainage Basin

The Dibang River receives contributions from several major tributaries, primarily originating from the hills of Arunachal Pradesh and the Tibetan Plateau, which form an integral part of its drainage network. Key tributaries include the Dri, Mathun, Talon, Eme, Ahi, Emra, and Awa rivers.^[3] The Dri River, flowing from the east, originates in the Tibetan Plateau and joins the Dibang near its upper reaches, while others such as the Emra enter as right-bank tributaries from local watersheds. These tributaries, along with smaller streams like the Ithun, Sisar, and Tangon, extend the river's catchment across diverse mountainous terrains, integrating sub-basins that enhance the overall spatial coverage of the system.^[10] The drainage basin of the Dibang River spans approximately 13,933 square kilometers, predominantly within the Upper Dibang Valley and Lower Dibang Valley districts of Arunachal Pradesh.^[10] ^[11] This basin features rugged topography shaped by the Mishmi Hills, with catchments characterized by steep gradients and forested highlands that channel precipitation and surface runoff into the main stem. The configuration of these tributaries delineates sub-watersheds that broaden the river's influence, incorporating headwaters from elevations exceeding 3,000 meters and facilitating the aggregation of upstream flows.^[10]

Hydrology

Flow Regime and Discharge

The Dibang River maintains a perennial flow regime, sustained by rainfall in its basin and contributions from snowmelt in the eastern Himalayan highlands, with discharge exhibiting pronounced seasonal variability driven primarily by the southwest monsoon.^[10] Low flows occur during the lean season from November to April, averaging approximately 477 to 590 cubic meters per second (m³/s) at gauging points downstream, based on 90% dependable year data from hydrological observations.^[10] Peak discharges, recorded through empirical gauging by Indian hydrological agencies, rise sharply during the monsoon period from June to September, with monthly averages reaching up to 1,958 m³/s in July under similar dependable conditions, reflecting intense precipitation exceeding 4,000 mm annually in the basin.^[10] The river's average annual discharge is estimated at around 1,200 m³/s, corresponding to a total volume of 37,818 million cubic meters (Mm³) per year, representing approximately 7% of the Brahmaputra's overall flow at their confluence near Sadiya.^[12] This contribution underscores the Dibang's role as a major tributary, with its 13,933 km² basin—predominantly in Arunachal Pradesh—channeling runoff from steep, forested catchments that amplify monsoon response times.^[10] Gauging station records from the Central Water Commission confirm the regime's consistency prior to large-scale interventions, with non-monsoon flows outside lean periods averaging 816 m³/s.^[10] Sediment transport in the Dibang is substantial, characterized by high turbidity and a dominance of sand (99.5% of bed load composition), attributable to intense Himalayan erosion processes mobilizing loose glacial and colluvial materials during high flows.^[12] Water quality profiles indicate elevated suspended loads, with nutrient enrichment from weathering—such as phosphorus at 0.48 mg/100g and nitrogen at 9.84 mg/100g in sediments—supporting downstream productivity but contributing to the river's braided morphology and depositional patterns.^[12] Turbidity levels in sampled reaches vary from 0 to 10 NTU, though episodic monsoon spikes elevate overall sediment flux, as evidenced by physico-chemical analyses of basin hydrology.^[10]

Flooding and Sediment Dynamics

The Dibang River, as a rain-fed and glacial-influenced tributary of the Brahmaputra, contributes to recurrent flooding in the downstream Brahmaputra plains of Assam through overflow mechanisms driven by natural channel instability and sediment buildup. Historical records indicate that post-1950 earthquake sediment deposition elevated river beds across the region, altering topography and increasing flood proneness by blocking natural drainage and promoting overflows during monsoons. Major flood episodes, such as those in 1998 and 2004, inundated vast areas of Assam as Brahmaputra tributaries including the Dibang swelled from monsoon runoff, exacerbating inundation in low-lying plains without engineered interventions. These events highlight the river's inherent variability, with peak discharges leading to bank overflows that propagate sediment-laden waters eastward. Sediment dynamics in the Dibang basin are characterized by high erosion rates from steep Himalayan slopes, yielding substantial annual sediment loads that aggrade channels and contribute to deltaic formation in the Brahmaputra system. Geological assessments quantify the Brahmaputra's sediment yield, influenced by upstream contributors like the Dibang, at approximately 804 tonnes per square kilometer annually near downstream gauging stations, far exceeding global averages and driving progressive channel raising. This aggradation fosters natural instability, as deposited sediments reduce conveyance capacity, promoting lateral migration and overflow during high flows, with basin-wide erosion patterns confirmed through spatio-temporal modeling of Dibang sub-basins. Such processes underpin long-term delta progradation in the Bengal region, where Dibang-derived sediments integrate into broader Brahmaputra loads. Climatic factors amplify these dynamics, with the basin receiving average annual precipitation exceeding 3,000 mm—recorded at 3,281 mm in Anini in 2004 and up to 4,697 mm district-wide—concentrated in monsoonal bursts that trigger flash floods. Upstream glacial sources further intensify variability, as meltwater from Himalayan glaciers supplements rainfall, causing rapid swelling and susceptibility to outburst events during peak seasons. Extreme precipitation episodes, such as those in 2015 with over 685 mm in two weeks, exemplify how these drivers converge to heighten flood risks through heightened runoff and sediment mobilization in unglaciated but tectonically active terrains.^[13]^[14]^[15]^[16]^[17]^[18]^[19]^[20]

Ecology and Biodiversity

Flora and Fauna

The riparian zones along the Dibang River support dense subtropical forests dominated by broad-leaved evergreen and semi-evergreen tree species, including Terminalia myriocarpa (hollock), Duabanga grandiflora (khokan), Gmelina arborea (gamari), and Michelia champaca (titachampa), which thrive in the moist, nutrient-rich alluvial soils of the valley floor.^[21] Bamboo thickets, such as those formed by Dendrocalamus species, form extensive understory cover, interspersed with orchids and ferns adapted to the high-humidity microclimate near the fast-flowing waters.^[22] Aquatic vegetation is limited by the river's high velocity and sediment load, primarily consisting of rheophytic algae and mosses anchored to boulders in shallower riffles, with occasional emergent macrophytes like Hymenachne grasses along braided channels during low flow.^[10] Terrestrial fauna in the Dibang's riverine habitats includes a diversity of mammals documented in surveys of the adjacent Dibang Wildlife Sanctuary, encompassing 156 species such as the endangered eastern hoolock gibbon (Hoolock leuconedys), clouded leopard (Neofelis nebulosa), Asiatic black bear (Ursus thibetanus), red panda (Ailurus fulgens), musk deer (Moschus spp.), and Mishmi takin (Budorcas taxicolor bedfordi), which utilize riparian corridors for foraging and migration.^[22] ^[23] Avian diversity exceeds 137 species, with riparian areas hosting riverine specialists like the white-winged duck (Asarcornis scutulata) and oriental darter (Anhinga melanogaster), alongside broader valley endemics contributing to over 430 recorded bird species in the region.^[22] ^[24] Aquatic fauna features cold-water fish assemblages typical of Himalayan foothill rivers, including the large-bodied golden mahseer (Tor putitora), a migratory species that spawns in upstream tributaries during monsoons, alongside cyprinids and hillstream loaches adapted to turbulent flows.^[25] Riverine habitats also sustain endemic invertebrates, such as mayflies (Ephemeroptera) and stoneflies (Plecoptera), which serve as bioindicators of water quality, and amphibians including torrent frogs (Amolops spp.) that breed in seepage zones along gravel bars.^[10] Forest department inventories highlight these groups' reliance on undisturbed riparian buffers for lifecycle completion.^[21]

Ecological Significance and Threats

The Dibang River basin forms a critical component of the Indo-Burma biodiversity hotspot, one of the world's most biologically diverse regions encompassing northeastern India, where it supports high levels of endemism and species richness across terrestrial and aquatic habitats.^[26] A 2016 study documented exceptional biodiversity in the basin, including unique assemblages of fish, amphibians, and invertebrates adapted to its fast-flowing, sediment-laden waters.^[27] The adjacent Dihang-Dibang Biosphere Reserve, encompassing upstream areas, harbors faunal diversity with numerous species of conservation concern, such as endangered mammals and birds reliant on the river's riparian zones for habitat connectivity.^[28] As a primary tributary of the Brahmaputra River, the Dibang sustains watershed connectivity by channeling nutrients, organic matter, and seasonal water pulses downstream, which bolster floodplain productivity and wetland resilience in the lower Brahmaputra basin.^[29] These dynamics maintain ecological processes in Assam's beels and other wetlands, where Dibang-derived sediments and inundation cycles support nutrient cycling and habitat for fish spawning and waterbird foraging, contributing to the basin's overall biodiversity under the Indo-Burma hotspot framework.^[30] Forested slopes along the river also facilitate carbon sequestration through dense Himalayan vegetation, storing significant biomass in an area prone to natural disturbance.^[31] The region faces inherent natural threats from its tectonic setting in the eastern Himalayas, including frequent landslides along the frontal foothills between the Siang and Dibang rivers, driven by slope undercutting and gravitational instability in fractured bedrock.^[32] Seismic activity, with Arunachal Pradesh classified in high-intensity earthquake zones (Zone V), triggers widespread erosion and mass wasting, as geological records indicate recurring events that reshape valley morphology and deposit debris into the river channel.^[18]^[33] Monsoon-driven extreme precipitation, averaging over 3,000 mm annually in the valley, exacerbates flash flooding and bank scouring, with historical events like the 2015-2016 deluges demonstrating the river's vulnerability to hydro-meteorological extremes amplified by glacial melt and orographic effects.^[34] These processes, rooted in plate tectonics and climatic variability, periodically disrupt local ecosystems but also drive habitat renewal through sediment redistribution.^[35]

Infrastructure and Development

Hydropower Projects

The Dibang Multipurpose Project, developed by the National Hydroelectric Power Corporation (NHPC), is a 2,880 MW run-of-the-river scheme with peaking capabilities, featuring 12 units of 240 MW each.^[36] It includes a 278-meter-high concrete gravity dam across the Dibang River near Roing in Lower Dibang Valley district, Arunachal Pradesh, designed to generate 11,223 million units annually.^[37] Construction activities commenced in September 2025, following environmental and forest clearances, with the project estimated at ₹31,876 crore and a nine-year completion timeline.^[38] Prime Minister Narendra Modi reviewed progress on the project in October 2025.^[39] Upstream in the Dibang basin, the Etalin Hydroelectric Project, executed by SJVN Limited, proposes 3,097 MW capacity on the Dri and Talo rivers in Dibang Valley and Lower Dibang Valley districts.^[40] Initially denied final environmental clearance in February 2023, the project received in-principle forest clearance from the Forest Advisory Committee in June 2025 and a recommendation for environmental clearance from the Ministry of Environment's Expert Appraisal Committee in August 2025.^[41]^[42]^[40] The Dibang River basin holds an identified hydropower potential exceeding 9,973 MW across multiple projects, supported by the river's steep gradients and consistent flow from a 11,276 km² catchment.^[10] Over 10 projects have been proposed or assessed in the basin, including smaller schemes alongside major developments like Dibang and Etalin, to harness this capacity through dams and diversion structures.^[10]

Flood Moderation and Other Utilizations

The Dibang Multipurpose Project (DMP) features a reservoir with a dedicated flood storage capacity of 1,260 million cubic meters (MCM) to moderate peak flood flows by attenuating a train of flood waves, including scenarios involving a 100-year return period flood preceded and succeeded by 25-year floods.^[43]^[44] Downstream releases are engineered to be capped at 3,000 cubic meters per second (cumecs) throughout the monsoon season, reducing inundation risks in vulnerable areas such as villages near Roing in the Lower Dibang Valley.^[45] This controlled outflow aims to stabilize water levels and mitigate erosion in the Brahmaputra confluence zone, where the Dibang contributes significantly to seasonal flooding.^[36] Beyond flood control, the project's regulated flows offer limited scope for irrigation in the steep, forested Dibang basin, where terrain constraints hinder extensive canal networks or diversions. District-level assessments indicate potential for enhancing cultivable area under assured irrigation through micro-interventions, targeting an additional 58,422 hectares in the Lower Dibang Valley via schemes like Har Khet Ko Pani, though realization depends on integrating reservoir releases with local topography.^[46] Navigation remains negligible due to the river's high gradient, rapids, and sediment load, despite preliminary identification as a potential inland waterway in northeastern regional inventories; no viable commercial routes have been developed owing to hydrological barriers.^[47] Reservoir operations also facilitate sediment flushing during high-flow periods, drawing on engineering designs to scour accumulated deposits and preserve storage volume, which indirectly supports downstream riverbed stability by preventing excessive aggradation—a benefit observed in analogous Himalayan storage projects where flushing has maintained channel capacity over decadal scales.^[43]

Controversies and Impacts

Environmental and Biodiversity Concerns

Hydropower developments in the Dibang River basin, particularly the Dibang Multipurpose Project (2,880 MW), threaten significant forest submersion, with the reservoir estimated to inundate approximately 5,000 hectares of dense forests.^[48] This would result in the loss of habitats supporting over 1,500 plant species, including 30 threatened and 53 endemic varieties, as documented in the basin's cumulative impact assessment.^[10] Similarly, the proposed Etalin project (3,097 MW) requires diversion of 1,165 hectares of forest, felling over 270,000 trees and endangering rare flora alongside fauna such as tigers and endemic primates like the eastern hoolock gibbon.^[41]^[49] Aquatic biodiversity faces disruption from altered flow regimes, with 18 proposed projects collectively affecting 92 kilometers of river stretch and converting lotic to lentic habitats.^[10] This impedes migration of 74 fish species, including seven endangered ones like Tor putitora (golden mahseer) and snow trout (Schizothorax richardsonii), by reducing flood peaks essential for breeding and access to upstream tributaries.^[10] A 2020 analysis critiques these changes for causing daily flow fluctuations from peaking operations (e.g., up to 1,441 cubic meters per second downstream of Dibang Multipurpose), exacerbating habitat degradation and risking desiccation of floodplains and wetlands through diminished inundation and sediment trapping.^[50] Terrestrial fauna, encompassing 158 mammal species (27 Schedule I protected, such as snow leopards and red pandas) and 679 birds, encounter habitat fragmentation near protected areas like Dibang Wildlife Sanctuary (4,149 square kilometers).^[10] Cumulative effects amplify these risks, with over 45% of the main river channel impacted, potentially leading to population declines in endemic and range-restricted species concentrated in the basin's high-biodiversity zones.^[10]^[50] Proponents reference mitigation strategies in environmental clearances, including environmental flows (e.g., 20% of lean-season discharge or minimum 20 cubic meters per second for Dibang Multipurpose) and fisheries management plans to support fish passage via ladders and hatcheries.^[10]^[51] Compensatory afforestation is mandated to offset submersion, drawing from implementations in other regional projects where partial recovery of riparian vegetation and select species populations has been observed post-construction, though long-term data remains limited.^[10] Critics, however, argue that prescribed flows inadequately replicate natural regimes, failing to prevent ecological shifts, as evidenced by insufficient provisions for species-specific upstream-downstream connectivity in basin assessments.^[50]^[52] The Dibang Multipurpose Project (DMP), a 2,880 MW hydropower initiative on the Dibang River developed by NHPC Limited, is projected to directly displace approximately 115 families from five villages in the Lower Dibang Valley district, primarily affecting indigenous Idu Mishmi communities reliant on riverine and forested lands for subsistence.^[53] An additional 744 families across 39 villages face indirect impacts, such as altered access to traditional fishing grounds and horticultural plots, though exact population figures vary between estimates of 1,000 to 2,000 directly displaced individuals based on family sizes of 5-10 members typical in the region.^[53] ^[54] NHPC's rehabilitation agreements include provisions for alternative land allocation, cash compensation calibrated to affected assets, and community infrastructure like schools and roads, with over Rs. 2.41 crore earmarked for initial resettlement measures as per environmental clearance stipulations.^[6] Recent implementation has involved payouts prompting rapid construction of basic structures in resettlement areas like Roing, though reports indicate inefficiencies such as underutilized "ghost houses" due to migration patterns post-compensation.^[55] Economically, the project entails short-term disruptions to local livelihoods, including reduced yields from river-dependent fishing and jhum (shifting) cultivation practiced by Idu Mishmi households, potentially exacerbating seasonal income volatility during reservoir filling and construction phases expected to span 2024-2030.^[56] In trade-off, it promises sustained employment for thousands in construction (peaking at several thousand laborers) and operations (hundreds in plant management and maintenance), alongside annual royalties to Arunachal Pradesh equivalent to 12% free power plus 1% for local area development, valued at approximately Rs. 700 crore based on projected output and tariffs.^[57] ^[58] These inflows are anticipated to fund regional infrastructure, reducing dependence on subsistence activities and enabling diversification into tourism and services, as articulated by state officials emphasizing youth job creation over power generation alone.^[59] Local Idu Mishmi viewpoints, elicited in public consultations from 2019 to 2023, reveal divisions: proponents highlight improved road access and economic upliftment as pathways to modernization, while opponents cite submersion of sacred cultural sites and ancestral burial grounds, arguing that rehabilitation fails to preserve intangible heritage tied to the river valley.^[60] ^[61] Despite initial halts in public hearings due to these concerns, project approvals proceeded following revised environmental and social impact assessments, with community conserved areas adjacent to the site underscoring ongoing efforts to safeguard non-submerged cultural landscapes.^[62] ^[63]

Strategic Benefits and Empirical Justifications

The Dibang Multipurpose Project (DMP), with a capacity of 2,880 MW, addresses India's Northeastern region's substantial energy deficit, where hydropower potential exceeds 62,000 MW but installed capacity remains under 5,000 MW, limiting economic growth and increasing reliance on distant fossil fuel imports.^[64]^[65] By generating renewable electricity equivalent to powering millions of households and displacing coal-fired generation, the project reduces greenhouse gas emissions; hydropower emits up to 97% less CO2 than coal plants per unit of energy produced.^[66] This shift supports national goals for energy security, as Northeast India's underdevelopment contributes to broader grid vulnerabilities, with hydropower offering dispatchable baseload power unlike intermittent solar or wind alternatives.^[67] Empirical evidence from analogous Brahmaputra basin dams demonstrates flood moderation benefits, with reservoirs attenuating peak flows by controlled releases, reducing downstream inundation extents by 20-50% in modeled scenarios and historical operations.^[68]^[69] For the Dibang basin, which feeds into flood-prone Assam where annual damages exceed ₹10,000 crore from riverine overflows, the project's reservoir is projected to narrow floodplains by 45%, from 6 km to 3.3 km on average, mitigating siltation and erosion that exacerbate regional losses estimated at billions annually across the broader system.^[43]^[70] Post-construction monitoring of Indian dams confirms these structures maintain ecological functions when managed with environmental flows, countering claims of irreversible harm by preserving downstream hydrology within 10-20% of pre-dam regimes.^[68] Strategically, hydropower infrastructure in Arunachal Pradesh bolsters border security along the Sino-Indian frontier, where development counters upstream damming risks from China on the Yarlung Tsangpo (upper Brahmaputra) by enabling flow regulation and enhancing regional connectivity through roads and power lines.^[71]^[72] This aligns with India's policy to integrate energy projects with defense needs in contested areas, reducing vulnerability to hydrological weaponization while fostering local employment and revenue, as evidenced by similar Northeast initiatives that have stabilized remote outposts without disproportionate ecological trade-offs.^[73] Exaggerated environmental opposition often overlooks verifiable data from operational dams showing biodiversity recovery via protected zones and fish ladders, prioritizing unproven fears over quantified gains in human welfare and national resilience.^[74]

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Mega hydro projects cleared in Arunachal Pradesh biodiversity ...
Jun 10, 2025 · The Forest Advisory Committee (FAC) has given its “in-principle” approval to Etalin Hydropower Project (3097 MW) on Dri and Talo rivers in Arunachal Pradesh's ...<|separator|>
[44]
[PDF] dibang multipurpose project (2880mw - IEA Hydropower
The Dibang project is a 2,880MW multipurpose project for flood moderation and hydropower, with a 11,276 km² catchment area and 3,510 Mcm gross storage.
[45]
[PDF] Minutes of the 77th Meeting of the Expert Appraisal Committee for ...
In Dibang Basin, flood moderation is proposed in the event of occurrence of a 100 year return period flood wave preceded and succeeded by a 25 year flood wave ...Missing: attenuation | Show results with:attenuation
[46]
Dibang - NHPC India
The project would moderate flood in the areas downstream of the Dibang Dam during the entire monsoon period to the extent of 3000 cumecs. Village Munli near ...Missing: attenuation | Show results with:attenuation
[47]
[PDF] DISTRICT IRRIGATION PLAN Lower Dibang Valley Arunachal ...
The DIP aims to create an Irrigation Potential of 58422.20 Hectares (AIBP- 290.00 Ha, Har Khet Ko Pani- 23616.13 Ha, Per Drop More Crop- 27792.00 Ha, and ...Missing: navigation | Show results with:navigation
[48]
[PDF] IDENTIFICATION OF POTENTIAL WATERWAYS IN NORTH EAST ...
The major tributaries of Dibang river are Mathun, Tangon, Dri, Ithun and Emra. ... Maximum discharge observed at Sonamura was 992 cumec and the minimum discharge.
[49]
India's largest dam given clearance but still faces flood of opposition
Oct 22, 2014 · Dibang dam will not only generate power but supposedly control floods in the plains of neighbouring Assam state. The dam's reservoir was ...
[50]
Stop The Dibang Valley Project To Protect Indigenous Mishmi ...
Aug 25, 2022 · The Dibang valley project will divert 1150.08 hectares of land, fall over 2.7 lakh trees, rare flora and fauna, and will further destroy the culture and ...
[51]
(PDF) The Dibang Debacle Hydropower and Altered Flow Regimes ...
Jul 6, 2020 · By taking the case of the Dibang basin projects in Arunachal Pradesh, India, this article explores how hydropower development in the ...
[52]
[PDF] Government of India Ministry of Environment, Forest ... - PARIVESH
Feb 19, 2024 · Catchment Area Treatment (CAT) Plan should be prepared micro-watershed wise. ... for Dibang river and other small stream/Nallah and same ...
[53]
[PDF] Updated Peer-Review of the Wildlife Conservation Plan of the WII ...
May 5, 2020 · No mitigation plans are recommended to allow for the upstream to downstream movement of these fish species through species-specific fish ladders ...<|control11|><|separator|>
[54]
Explainer | The Controversy Surrounding Dibang Dam, India's ...
Jul 22, 2019 · There would be 160 hectares of forest land diversion against every megawatt to be generated by the project. Lowering the height of the dam ...Missing: submersion | Show results with:submersion
[55]
(PDF) The hydropower project in Dibang Valley, India - Academia.edu
Moreover, the dam will hinder the local fish species from migrating ... Cumulative Impact & Carrying Capacity Study of Dibang Sub Basin on Brahmaputra River ...
[56]
Arunachal: Ghost houses emerge in Roing amid Dibang ...
Sep 30, 2025 · The Munli project, officially known as the Dibang Multipurpose Project (DMP), is a flagship 2,880-megawatt hydropower venture by NHPC Limited.
[57]
Dibang Mega-Dam Project and Probable Displacement of the ... - jstor
Another 20 per cent (2 numbers) of the senior citizens and 23.33 per cent (7 numbers) of the villagers have the opinion that Idu-Mishmi community is only 12, ...
[58]
'More than megawatts': Arunachal CM on Dibang project bringing ...
Sep 1, 2025 · Following the visit, the chief minister posted on X, “Arunachal Pradesh is set to receive about Rs 700 crore every year in free power from the ...
[59]
India Accelerates Dibang Dam Construction in Arunachal Pradesh ...
Sep 15, 2025 · Arunachal Pradesh will receive 12% of the generated power free of cost, plus an additional 1% earmarked for local development, injecting around ...
[60]
Dibang Multipurpose Project Set To Transform Arunachal's ...
Sep 2, 2025 · The 2880 MW Dibang Multipurpose Project (DMP) is expected to bring significant economic, employment, and tourism benefits to Arunachal Pradesh,
[61]
Tag: Dibang Valley - SANDRP
No cumulative impact assessment of dams in Dibang valley has been conducted e even though 17 projects have been proposed for this region. The TOR clearance had ...Missing: research | Show results with:research
[62]
The Dibang Multipurpose Project | 14 | Resistance of the Idu Mishmi |
The local Idu Mishmi people were worried that the community's resistance against the Dibang dam could be labelled as a movement instigated by the Maoists.Missing: views consultations 2019-2023
[63]
Idu Mishmi protect ancestral land through community conservation
Feb 28, 2024 · The multipurpose project is adjacent to the EECEP or the CCA in the lower Dibang valley. This project, pegged at a capacity to yield 2,880 ...Missing: 2019-2023 | Show results with:2019-2023<|control11|><|separator|>
[64]
Tag: Dibang Multipurpose project - SANDRP
The total land requirement for this dam is 5794.142 ha out of the 5022.842 is forest area with very rich bio-diversity. Submergence of such a huge forest is ...Missing: submersion hectares
[65]
Developing north east region through development of its ...
Sep 5, 2024 · North Eastern Region (NER) of the country has been endowed with enormous hydropower potential estimated to be of the order of 62000 MW.
[66]
Hydropower Potential of North East Region: A Boon for Renewable ...
Sep 17, 2025 · The Northeastern region, with abundant rainfall and favorable topography, holds significant hydropower potential, contributing 4309 MW with 3157 ...
[67]
The effect of hydroelectric power plants on the carbon emission
This shows that hydroelectric power plants reduce greenhouse gas emissions by 97.7% compared to coal power plants. Hydropower reduces greenhouse gas emissions ...Missing: Dibang | Show results with:Dibang
[68]
Dibang Multi-Purpose Hydro Power Project
Flood Control and Irrigation: The project will also help in regulating seasonal river flows and assist in managing floods, which frequently affect the region.
[69]
Climate change and effectiveness of dams in flood mitigation in India
Jul 17, 2025 · Water release from the dams in a controlled manner can help in reducing the downstream peak flow and mitigate the flood risk by lowering the ...Missing: empirical | Show results with:empirical
[70]
Role of dams in reducing global flood exposure under climate change
Jan 18, 2021 · We quantify the role of dams in flood mitigation, previously unaccounted for in global flood studies, by simulating the floodplain dynamics and flow regulation ...Missing: empirical | Show results with:empirical<|separator|>
[71]
How much do floods cost India? - PreventionWeb.net
Nov 15, 2018 · The average annual loss from floods in the country is estimated to be US$ 7.4 billion. Disasters causing damages of over a billion US dollars, ...
[72]
Disquiet Over India's Dam Across the Dibang - The Diplomat
Mar 14, 2023 · In addition to power generation and flood prevention, the Dibang Multipurpose project has strategic objectives.Missing: empirical data
[73]
Infrastructuring the Border Space in Arunachal Pradesh
Aug 14, 2023 · The infrastructures here include hydro projects, highways, railroads, bridges, tunnels, airports, digital connectivity and other defence-related ...
[74]
Powering Tensions: Renewable Energy and the Sino-Indian Border ...
Mar 18, 2025 · Explore how India and China are using renewable energy projects along their disputed border as strategic tools for territorial control and ...<|separator|>
[75]
Hydropower: A low-hanging sour-sweet energy option for India - PMC
Evidence indicates that besides electricity generation, hydropower infrastructure helps: (i) avert floods, (ii) mitigate the impacts of global warming, and (iii) ...