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Annals of Biological Research, 2012, 3 (6):2953-2957 (http://scholarsresearchlibrary.com/archive.html)

Scholars Research Library ISSN 0976-1233 CODEN (USA): ABRNBW Annals of Biological Research, 2012, 3 (6):2953-2957 (http://scholarsresearchlibrary.com/archive.html)

Lower Subansiri Hydroelectric Power Project and future of the SubansiriISSN 0976-1233 River Ecosystem CODEN (USA): ABRNBW

Ranjit Dutta* and Sarada Kanta Sarma Lower Subansiri Hydroelectric Power Project and future of the Subansiri Department of Botany,River Gauhati Ecosystem University, Guwahati, , ______Ranjit Dutta* and Sarada Kanta Sarma ABSTRACT

The 2000 MW LowerDepartment Subansiri Hydroelectric of Botany, PowerGauhati Pro ject,University, proposed Guwahati,to come up at Assam, Gerukamukh, India Assam pose a ______real threat to the freshwater biodiversity of the downstream of Subansiri river______basin by the regulation of the river through diversion, impoundment and reducing water discharge to the downstream. This paper reports on the ABSTRACTpresent biodiversity status of the Subansiri river along with the loopholes of the Environment Impact Assessment of this hydroelectric project prepared by the Water and Power Consultancy Services (WAPCOS) and the ongoing Theviolations 2000 MW of Lower environment Subansiri and forestHydroelectric laws by Power the Na tionalProject, Hydroelectric proposed to Power come Corporationup at Gerukamukh, (NHPC) Assam during pose the a realdifferent threat phasesto the offreshwater construction biodiversity of this hydroelect of the dricownstream project. of Subansiri river basin by the regulation of the river through diversion, impoundment and reducing water discharge to the downstream. This paper reports on the presentKeywords: biodiversity Biodiversity, status dam,of the hydroelectric Subansiri river project along and with Suban thesiri loopholes river downstream. of the Environment Impact Assessment of this______hydroelectric project prepared by the Water and Power Consultancy______Services (WAPCOS) and the ongoi ng violations of environment and forest laws by the National Hydroelectric Power Corporation (NHPC) during the different phases of construction of this hydroelectINTRODUCTIONric project.

Keywords:Globally, thereBiodiversity, are more dam,than 45,000hydroelectric large dams project in over and 150Suban countriessiri river [1] downstream. and it is estimated that another 1,500 or so are currently under construction, nearly 400 of which are over 60 meter high [2]. Large dams have caused ______considerable environmental damages and a major cause of the decline of freshwater______biodiversity in recent decades. Sixty percent of the world’s largest rivers are already severely fragmented by dams. World Resources Institute developed an analysis of dams on a river basinINTRODUCTION scale, using the level of river fragmentation and flow regulation at the river basin level [3]. The indicator assessed 227 of the major river basins in the world and showed that 37 Globally,percent there of the are large more rivers than are45,000 strongly large affecteddams in bovery fragmentation 150 countries and [1] alteredand it is flows, estimated 23 percent that ano arether m oderately1,500 or so areaffected, currently and under 40 percent construction, are unaffected. nearly This 400 has of p layed which a aremajor over role 60 in the meter rapid high decline [2]. in Large freshwat damser biodiversity have caus ed considerableworldwide. environmentalNow a day, most damages dam construction and a major has caus shiefted of fromthe decline the developed of freshwater to the developingbiodiversity world, in rece wintth decades. some Sixtycountries percent such of as the China world’s and Indialargest implementing rivers are alrlargeadye dam severely construction fragmented program. by While dams. water World and Resources energy needs Institute in developeddeveloping an countriesanalysis areof damsreal and on needa river to bebasin addres scalsed,e, usingthe risk the to level river ofecosystems river fragmentation is acute and andsome flow unique regulation species at theand river habitats basin are level threatened. [3]. The indicator assessed 227 of the major river basins in the world and showed that 37 percent of the large rivers are strongly affected by fragmentation and altered flows, 23 percent are moderately affected,The environmental and 40 percent impacts are unaffected.of dam are well This documente has playedd. aWith major changes role in in the both rapid upstream decline and in downstream freshwater hydbiodiversityrology worldwide.dam affect Now the a freshwater day, most ecosystems dam construction along the has rive shir fted and from as far the as developed its estuaries to [4,the 5,developing 6, 7]. People world, are wi equallyth some countriesvulnerable, such not as onlyChina those and whoIndia are implementing displaced by largdames, dam but constructionalso those who program. depend Whileon these water freshwater and energy ecosystems needs in developingfor their livelihoods. countries are The real people and needaffected to be by addres dams sed,still thedo notrisk necessarily to river ecosystems benefit directly is acute and and often some remain unique without species andaccess habitats to power are threatened. and clean water. While the obvious and often irreversible impacts of large impoundments are well recognized, there is also growing awareness of the pivotal role of the flow regime as a key driver of ecology of Therivers environmental and their associated impacts floodplainof dam are wetlands well documente [5, 8]. d. With changes in both upstream and downstream hydrology dam affect the freshwater ecosystems along the river and as far as its estuaries [4, 5, 6, 7]. People are equally vulnerable,The Northeast not onlyof India those has who been are identified displaced as Indiaby dam’s ‘futures, but alsopowerhouse’. those who In depend2001, the on Central these freshwaterElectricity Authorityecosystems (CEA), India has identified 168 large hydroelectric projects with a potential of 63,328 MW in the for their livelihoods. The people affected by dams still do not necessarily benefit directly and often remain without basin. This includes 22 projects having potential of 15,191 MW in the Subansiri river basin. access to power and clean water. While the obvious and often irreversible impacts of large impoundments are well recognized, there is also growing awareness of the pivotal role of the flow regime as a key driver of ecology of rivers and their associated floodplain wetlands [5, 8]. 2953 Scholars Research Library The Northeast of India has been identified as India’s ‘future powerhouse’. In 2001, the Central Electricity Authority (CEA), India has identified 168 large hydroelectric projects with a potential of 63,328 MW in the Brahmaputra river basin. This includes 22 projects having potential of 15,191 MW in the Subansiri river basin.

2953 Scholars Research Library Ranjit Dutta et al Annals of Biological Research, 2012, 3 (6):2953-2957 ______The 2000 MW Lower Subansiri hydroelectric power Project, proposed to come up at Gerukamukh of Assam- Arunachal border is the first large hydroelectric project to be constructed in the Subansiri river basin. In this paper an attempt has been made to assess the present environmental and biodiversity status of the Subansiri river before being regulated by the project. This paper also reports on the loopholes of the Environment Impact Assessment [9] report of this hydroelectric power project prepared by the Water and Power Consultancy Services (WAPCOS) and the repeated and ongoing violations of environment and forest laws by the National Hydroelectric Power Corporation (NHPC) during the different phases of construction of this project.

MATERIALS AND METHODS

Study area: The river Subansiri continue its journey through the Himalayan range inside Indian territory in the North Eastern part for 200 km and enters into the plains of Assam through a gorge near Gerukamukh of . Its total length is 520 km and drains a basin of 37,000 square km. Total length of the river within Assam is about 130 km which flows through the Dhemaji, Lakhimpur and Jorhat districts of Assam in between 26o50/ - 27o35 / N and 93o41/ - 94o23/ E. For a systematic monitoring and study, the downstream (from the proposed dam site to the confluence with the river Brahmaputra) of Subansiri river have been divided into four site namely Chawaldhowa (270 26/ N and 940 15 / E; Altitude 76 MSL), Khabolu ghat (270 03/ N and 940 07/ E, Altitude 65 MSL), Dhunaguri ghat (270 00/ N and 940 01/ E, Altitude 64 MSL) and Jamuguri ghat (260 50/ N and 930 48/ E, Altitude 59 MSL) to cover as much possible area of the river (Figure I).

Planktonic Study: The qualitative analysis of the planktons was done with the help of literatures [10, 11, 12].

Riparian and aquatic flora: Floristic diversity of the river and the riparian zones were assessed according to the conventional herbarium techniques [13]. Collected materials were identified with the help of standard literatures [14, 15, 16].

Environmental issues: Different environmental issues like EIA report, violation of environmental laws etc. have been studied with the help of literatures and field surveys during different months of the year 2009-2011.

2954 Scholars Research Library Ranjit Dutta et al Annals of Biological Research, 2012, 3 (6):2953-2957 ______

Figure I. Location maps of the study area in the Subansiri river ecosystem (From wikimapia.com).

RESULTS AND DISCUSSION

Ecological condition of the habitats provided by the Subansiri river ecosystem is determined on the basis of their biodiversity status. During our study a large number of plants and animals species were recorded (Table I).

Table I. Habitat and biodiversity status of the downstream of Subansiri river (2009- 2011)

Sl no Parameters Observation A Biodiversity 1 Phytoplanktons (No of species) 48 2 Zooplankton (No of species) 23 3 Macrophytes (No of species) 71 B Habitats provided by the river 1. Downstream 130 (Approx.) 2. Flood plain/Riparian wetlands (Numbers) 98 3. Oxbow (Numbers) 5-6 4. Meandering cut off (Numbers) 3-5 5. Riparian zone Both the sides of the downstream 6. Micro habitat Small woody debris (SWD) and Large woody debris (LWD)

Downstream of the Subansiri river also provides diverse habitat such as river course, static water bodies (wetlands and meandering cut-off) and the riparian zones, where varied aquatic and terrestrial floras and faunas are survive. Large and small woody debris in its downstream also provides many microhabitats for living biota.

Environmental Issues A comprehensive Environment Impact Assessment (EIA) is utmost necessary in the downstream from the dam site of any proposed hydroelectric project. The existing environmental scenario with respect to different aspects, which might be adversely affected due to the construction and operation of any proposed project, should be derived through an appropriate and in-depth EIA study. An EIA study was conducted to understand the impact of the power project on various facets of environment in the downstream of Subansiri River [9]. The EAI report, through which the NHPC got the clearance from the Ministry of Environment and Forest, Govt. of India, possesses many loopholes in respect to the downstream [17]. It becomes evident that no sufficient and detailed study was done in the entire downstream during the preparation of the report. Detailed mention about the probable impacts upon the downstream river health, rare and endangered species, physical resource, people’s livelihood and the options for mitigation etc. did not find place in the report.

2955 Scholars Research Library Ranjit Dutta et al Annals of Biological Research, 2012, 3 (6):2953-2957 ______The EIA report contains insufficient records on terrestrial and aquatic flora, phytoplanktons, fish diversity, riparian flora, zooplanktons, avian fauna, floodplain crops, people’s lively hood etc. besides healthy habitats controlled by the unregulated Subansiri river. The reports itself claimed to have their survey done only up to a distance of 07 km (Koyala Nallah) down from the dam site, and there is no information beyond this distance. However, the total downstream flood plain of the river Subansiri from the dam site to its confluence with the mighty river Brahmaputra is approximately 130 km, which water physico- chemical properties are suitable for aquatic organisms [18] and it is very rich in aquatic macrophytes (Table I). Interestingly no report on the IUCN red listed dolphin Platanista gangetica Roxb. has been made in the report, but still the river provides a good habitat for this animal [19].

Habitat diversity: At present, the unregulated Subansiri river provides diverse habitat in its downstream. Out of which the riparian wetlands are the most ecologically and economically important. Here, the wetlands are a complex system of marshlands, floodplains and interconnected drainage lines which are regulated by the seasonal floods of the Subansiri river. The flora and fauna in the wetlands are extremely diverse [18]. These are the live gene bank of fishes and the chief habitats of some migratory birds.

Biodiversity: The project is in a region which has been recognized as a global biodiversity hotspot. For the construction activities of the project at least 4000 hectares of forests will be used by the NHPC [9]. It lies in the midst of contiguous forests comprising Kakoi, Dulung and Subansiri Reserve Forests in Assam and Tale Valley Sanctuary, Tale Reserve Forest and Panir Reserve Forest of . The Dulung and Subansiri Reserve Forests together constitute the ‘Subansiri Important Bird Area’, a site of global significance for bird conservation identified as per international criteria developed by Birdlife International. The river Subansiri has rich fish diversity and is one of the important rivers in India for the long term conservation of the endangered golden mahseer [20].

Flood control: The NHPC, Construction Company of the Lower Subansiri hydroelectric power project claims that a flood cushion of 15 m will be provided in the monsoon period which will only achieve partial flood moderation. According to them flood moderation can be achieved by the integrated operation of Upper Subansiri, Middle Subansiri and Lower Subansiri mega hydroelectric projects. If one were keep aside the serious concerns about the efficacy and desirability of this large dam to achieving flood management in the Subansiri river basin. This is because the Lower Subansiri hydroelectric project has received clearance from the Ministry of Environment and Forest on the condition that no dams will be built in the upstream of the Subansiri river.

Violation of Environmental laws: Since 2001, when the project only had permission to conduct survey and investigations, NHPC has repeatedly committed serious violations of both the Forest (Conservation) Act, (1980) and the Environment Impact Assessment notification, (1994). In 2001 and 2002, both the Assam Government and the regional office of the Ministry of Environment & Forests (MoEF) have brought up this issue with NHPC and the Government of India. Violations include extensive collection of boulders, stone, gravel, sand and earth from the riverbed, massive construction activities for project housing and construction of roads on the left bank of river, planting of gravel crusher adjacent to the river, barrier of an elephant corridor with fencing in the Subansiri Reserve Forest, dumping of muck and debris in the river etc. The MoEF took a strong stand in the early stages (2001 and 2002) but now it has subsequently been quiet on the issue, although violations have been brought to their notice.

CONCLUSION

Dam technologies have improved over time. In the recent years, a large dam can be more eco-friendly than past projects. Proper site selection, such as avoiding building dams on the main stream of a river system and better dam design can play significant roles in minimizing impacts of large dam. Fish passes (where effective), the use of hydrological data (when available) to improve the replication of natural stream flow and also emphasis on appropriate temperature and oxygenation of water released to the downstream can significantly improve the operation of large dams. Unfortunately, the lack of sound hydrological and biological data for many regions of the world can lead to unreliable predictions and inadequate mitigation measures. There is an urgent need to apply an integrated river basin management approach to better balance between social, economic and environmental factors. The World Commission of Dam has recommended a practical and fair path to follow. It is now the turn of governments, developers and financiers to implement and comply with the WCD recommendations and conserve freshwater habitats and species for future generations.

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REFERENCES

[1] World Commission on Dams, WCD. Dams and Development: A new Framework for Decision-making. Report of the World Commission on Dams. WCD, Cape Town, South Africa, 2000. [2] IJHD, International Journal of Hydropower and Dams. World Atlas and Industry Guide, 2004. [3] C. Revenga, J. Brunner, N. Henninger, K. Kassem, and R. Payne. Pilot Analysis of Global Ecosystems: Freshwater Systems. World Resources Institute, Washington, DC, USA, 2000. [4] R. L. Vannote, G. W. Minshall, K. W. Cummins, J. R. Sedell, and C. E. Cushing, Can. J. Fish. & Aquat. Sc., 1980, 37, 130-137. [5] W. J. Junk, P. B. Dayley, and R. E. Sparks, In: Dodge, D.P. (ed.). Proceeding of the international large dam Symposium. d Canadian Special Publication of Fisheries & Aquatic Science; 106; Ottawa, 1989, 110-127. [6] M. P. McCartney, C. Sullivan and M. C. Acreman, Ecosystem Impact of Large Dam. WCD Thematic Review: II-1, 2000, 1-80. [7] G. Bergcamp, M. P. McCartney, P. Dugan, J. McNelly and M. C. Acreman, Dam Ecosystem Function and Environmental Restoration. WCD Thematic Review: Env. Issue, 2000. [8] N. L. Poff, J. D. Allan, M. B. Bain, J. R. Karr, K. L. Prestagaard, B. D. Richter, R. E. Sparks, and J. C. Stromberg, BioScience, 1997, 47, 769-784. [9] EIA Report, EIA report for Lower Subansiri project. WAPCOS, Water and Power Consultancy Services, India, 2003. [10] J. B. Lackey, The manipulation and counting of river plankton and changes in some organism due to formalin preservation. Publ. Health Deptt., 1983. [11] J. G. Needham and P. R. Needham, A guide to study of freshwater biology. Holden day Inc. San Francisco, 1966, 108. [12] W. T. Edmonson, A manual on methods for measuring production in aquatic Environment. Academic Press, New York, 1974. [13] S. K. Jain and R. R. Rao, A handbook of field and Herbarium methods. Today & Tomorrow Printers & Publishers, New Delhi, 1976. [14] U. N. Kanjilal, P. C. Kanjilal and A. Das. Flora of Assam. Govt. of Assam, India. I-IV, 1934-40. [15] A C. Dutta, Dictionary of Economic and Medicinal Plants. Assam Printing Works: Jorhat, Assam, India, 1985. [16] C. D. K. Cook, Aquatic and Wetlands plants of India. Oxford University Press, 1996. [17] N. Vagholikar and M. F. Ahmed, The Ecologist Asia. 2003, 11(1), 25-32. [18] D. Baruah, Present Environmental and Biodiversity Status of the Down Stream of Subansiri River Basin, Riparian Zone and Forest: A Pre-impact Assessment of the 2000 MW Lower Subansiri Dam, Final Technical Report, UGC, Govt. of India, 2011. [19] D. Baruah, L.P. Hazarika, B. Bakalial, S. Borah, R. Dutta, and S. P. Biswas, The Environmentalist. 2012, 32(1), 85-90. [20] L. P. Hazarika, S. Borah, B. Bakalial and S. P. Biswas, Biodiversity, Ecology and conservation of Rivers and streams of . Akansha Publication, New Delhi. 2011, 151-168.

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