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Subject: search.filters.subject.Environmental impactsStart date: 2011End date: 2018

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    Technical Report
    Environmental impact assessment for the proposed development of an agricultural island Dhurureha Thaa Atoll, Maldives
    (2017-09) Sandcays
    This report discusses the findings of a social and environmental impact study under the proposed development of agriculture on Dhururehaa, Thaa Atoll. The project is proposed by Mohamed Latheef. The proponent aims at developing Dhurureha as an agricultural island; providing job opportunities, reducing dependency on imported produce and ultimately working towards economic diversification and growth of Maldivian economy. The agricultural activities on Dhurureha will be carried out in greenhouses as a hydroponics system. A total of 12 greenhouses (100ft by 50ft each) is proposed to be built for growing tomato, capsicum, bell pepper and lettuce. Additionally, a 60m by 30m nursery will be built on the island. Access to the island is to be provided by dredging an access channel and a 200m jetty. Water requirement for the project is to be met by utilizing an RO plant. A suitable size diesel generator will be used throughout the project to meet power requirement. Staff facilities such as accommodation, mesh room, mosque and office building will also be constructed on the island. A cold storage, general storage and small packaging facility will also be constructed on the island during construction stage. A waste collection and management station will be established for using during construction phase and operational phase of the project At present, Dhurureha is an uninhabited island not used for any purpose. However, locals of the nearby communities use the island to collect coconuts, go on picnics and gather firewood. Alternatives to project components have been identified in the project document. These include alternative uses of the island such as for a tourist resort. However, upon closer analysis of these options, the proposed development of the island for agricultural purpose was found to be more viable based on the present circumstances under which the island has been leased. Therefore, the consultants propose exploring use of alternative renewable sources to the proposed fuel based energy generation. Environmental impacts were assessed for both the construction and operation phase of the project. Most of the environmental impacts of the project have been identified as minor negative with highly positive socio-economic impacts. The main negative impacts from the project include habitat loss from vegetation clearance, sedimentation and consequent impacts on marine wildlife health and waste generation during the operational phase. The mitigation measures outlined for these impacts include conserving mature trees to the greatest possible extent, relocating large live corals at the proposed access channel area and establishing dust control plans in addition to employing best-practice guidelines during the operational phase. The most positive socio-economic impacts related to the project are increase in job opportunities, reduction in prices of agricultural produce and increase of national revenue. It is inevitable that there would be some negative environmental impacts. However, most of the impacts of the proposed project are minor compared to the positive socio-economic benefits of the proposed system. Yet, monitoring to ensure the effectiveness of the proposed project would be necessary. Therefore, a monitoring component has been suggested which takes in to consideration, the most important elements that require regular checks. This monitoring component will be adhered to and will allow the assessment of changes due to construction and implementation of the proposed agriculture project. Monitoring is specifically focussed on employment opportunities, price changes in the market, direct and indirect economic ventures, ground and marine water quality, changes in the hydrodynamics of the project area as well as impacts on the reef or marine ecological area of importance. In conclusion, it appears justified from a technical and environmental point of view, to carry out the proposed project to develop Dhurureha as an agricultural island.
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    Technical Report
    Environmental impact assessment proposed milkfish aquaculture project Matu, Gaafu Alif Atoll
    (2017-07) Sandcays
    This report addresses the environmental concerns of the proposed milkfish (Chanos chanos) hatchery project in Ga. Matu. The project is proposed by Ministry of Fisheries and Agriculture. Concerns about live-bait availability over prolonged periods are being raised in recent years, especially in the southern atolls of Maldives. The development of aquaculture for selected bait species is seen as one possible measure to manage the live bait shortage currently faced by local fishermen. Cultured milkfish has been in use for the longlining industry in different parts of the world, and successfully piloted for the pole-and-line industry in Indonesia and Kiribati. Unlike most of the live bait species currently in use in the pole-and-line fishery, hatchery technology is well developed for milkfish. In addition, the relatively short duration to reach bait-size makes milkfish an ideal species for aquaculture development. Supplementing the tuna fishermen with cultured bait is expected to reduce the time spent on bait search, and in turn, result in increased effort directed to the tuna fishery. As live bait shortage is mostly reported from the southern atolls, the proposed hatchery site was selected from Gaafu Alif atoll, for logistical ease in distribution for the most needed areas can be made. The selected island, Matu from Ga. Atoll is 5.9 Ha small uninhabited island on the northern side of Ga.Atoll. The closest inhabited islands to the project site are Ga. Villingili and Kolamaafushi. The project aims to produce 100 tons of milkfish raised to the size of live bait used in the pole-and-line fishery. All required technical and support infrastructure will be constructed during the construction phase of the project. The operational phase will involve water circulation, feeding and rearing of cultured stock. In addition to hatchery, nursery and broodstock modules built on land, sea cages will be built for brood stock. Power will be provided for the project via diesel generators, while potable water will be provided via RO plants. Accommodation for staff and administrative buildings and waste management centre will also be constructed on the island. Access to the island will be provided via access channel and a jetty. The naturally deep lagoon will be used as a harbour during the project. Social and environmental concerns regarding the proposed project include: • Vegetation clearance during site preparation for construction of land infrastructures. This impact is considered minor negative as outmost care will be taken to reduce cutting down mature vegetation. Buildings will be adjusted as much as possible to reduce requirement of cutting or relocation of mature trees. When unavoidable, two plants for every tree cut will be planted on the island. • Sedimentation during excavation of access channel and construction of main jetty. This impact is considered as negligible as the excavation involved is very minor. Measures to reduce this impact such as working during calm weather and low-tide has been suggested as mitigation measures. • Minor impacts due to human activity in the area including littering both during construction and operational phases. • Increased nutrient loadings from faeces and uneaten food wastes, which will either dissolve or settle on the seabed beneath the cage. Since the water is deep and adequate currents exist, eutrophication is, however, unlikely. The proposed project is expected to be managed in conformity with local and international regulations and standards of relevance, especially environmental regulations and standards. Therefore, environmental impacts will be well managed, minimized and mitigated. Given that the project has major socio-economic benefits and some environmental benefits (potential to reduce pressure on wild populations of baitfish), it is recommended to allow the project to proceed as proposed. It is important to consider uncertainties and continue to monitor the project impacts and undertake appropriate mitigation measures in consultation with the EPA and other relevant government agencies. It is also necessary to undertake regular environmental monitoring activities.
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    Technical Report
    Environmental impact assessment proposed 13 storey building construction at M. Dhimyaath, Male’
    (2017-09) Jameel, Ahmed; Mohamed, Hamdhoon
    This report is based on the proposed 13 storey building construction at the residence, M. Dhimyaath in the capital city, Male’. The project is being developed and constructed by Dr. Mohamed Muizzu. He will be undertaking the construction works and project management including overseeing the EIA process. An Environmental Impact Assessment was necessary for the works outlined in this report as they fall under ‘Jadhuvalu R’ of the Environmental Impact Assessment Regulations 2012 of the Maldives. In addition to meeting the regulatory requirements, the report would further assist the proponent and important stakeholders to make decisions based on favorable environmental conditions with the main focus on sustainability. The project also adheres to several other rules and regulations in the Maldives and has obtained permit from the Ministry of Housing and Infrastructure to proceed. The area the project is proposed to be undertaken is a moderately built area in the heart of Male’, more towards the south western side. There is no natural terrestrial environment at site. The existing environment therefore was focused on the regional climate of Male’, and the traffic distribution, and noise pollution in the area. As could be seen from the data, this area does not encourage much traffic relative to the busier roads in Male’. There were several existing construction sites in the neighborhood. A general exterior overview of the existing structures in the area was also observed. It was found that most of the buildings in the area were in good condition. Older buildings were mostly single storey structures. Therefore, serious structural defects are expected to be at a minimum. However, the report recommends to undertake a structural defects inspection study of the buildings in the same block as the proposed site by civil engineering experts. The overall environmental impacts of the project have been assessed using frameworks found in literature. Since the development is undertaken in a moderately built area, the results indicate that the proposed project has neutral impact. However, there are some significant impacts on the environment during the construction phase of the project and these needs to be mitigated to avoid any significant damage to the environment. Significance of the impacts and mitigation measures have been provided based on previous similar projects undertaken in the Maldivian environment and based on literature. The main cause for concern regarding this project is the impact it will have on neighbours residing in this area. As such, several short-term impacts are envisaged including air pollution, noise pollution, aesthetic impacts, and safety concerns. As there are numerous high storey building projects being undertaken in Male’, there is no particular long term impact associated with this project. One significant impact specific to this project is the cumulative impact on the neighbourhood due to the sheer no. of construction projects that are simultaneously undertaken in the area. The impacts that do occur however can be easily mitigated to minimise and/or completely nullify them. The first mitigation measure proposed includes creating awareness among the construction staff and neighbours regarding the scope of the project. Other measures include properly demarcating the area, putting up dust screens, and taking other protective measures to ensure people residing and utilising the vicinity will not have to endure the impacts during the construction stage. Foundation protection measures are recommended and are provided as part of the project to prevent impact on neighbouring structures. Dewatering procedure also needs to be undertaken with care, details of which are given in the report. During the operation stage of the project, parking and waste management are issues of note. Alternatives, including the no project option and alternatives for some project components are also discussed. Regarding project design, a few alternatives are recommended such as providing a green area at the terrace, while the pros and cons of making a larger parking area is also discussed. An environmental monitoring program is provided at the end of the report, which provides details on the parameters to monitor on site, and the frequency in which it needs to be done. Estimated costs for the monitoring works are given. Implementation of the program is essential for the sustainable development of the project. In conclusion, it is discussed the impact such major housing projects have for the increasing population density in Male’, and how it can be prevented at a policy level. However, taking this project as a standalone development project in an already heavily built island city, it can be concluded that no significant long-term impacts are predicted. Therefore, it is recommended that the project go ahead as proposed with precautions and mitigation measures in place.
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    Technical Report
    Environmental impact assessment for the construction and setup of a sewerage system in Baarah Island, Haa Alif Atoll, Maldives
    (2017-09) Water Solutions
    This report discusses the findings of an environmental impact study undertaken by Water Solutions Pvt. Ltd in order to fulfill obligatory requirements of the National Environment Protection and Preservation Act, Law No. 4/93 for the proposed setup of the sewerage system (hereafter referred to as the project) in Baarah island, Haa Alifu Atoll, Maldives. The purpose of this EIA is to identify and minimize potential adverse environmental impacts related to this project and enhance the overall quality of the project. By examining the project location, the legal framework and the existing environmental components such as marine ecology and the socio-economic aspects, this EIA provides useful information regarding the extent, nature and the magnitude of impacts that are likely to occur. The EIA will also help to identify the long term socio-economic benefits to the community after implementing this project. It also provides a framework for future monitoring of the environment, so that changes can be monitored and corrective measures can be undertaken. The proposed project aims to establish a sewerage collection and disposal system in the island of Baarah in Haa Alifu Atoll. The concept designed for Barrah is a gravity type wastewater collection and disposal system. The existing systems are mainly based on septic tanks and small bore sewers. Without proper maintenance these systems are prone to damage and contamination of groundwater can occur. The contamination of the groundwater has occurred to the extent that it cannot be utilized for any potable use. Therefore, the current setup is not environmentally acceptable nor suitable. The sewerage system for Ha. Baarah will be a gravity sewerage system where sloping pipelines will allow waste water from the entire island to flow to three zonal pumping stations. The sewage will be pumped from the pumping station to the treatment plant where it will be treated and discharged via a sea outfall pipeline into the sea. The sewerage system will comprise of elements of a given specification for sewer mains, cleanouts, manholes, vents, pump stations, outfall pipeline and diffuser that will ensure a 30 year design flow The sewerage system therefore comprises of the following components: a) Household inspection chambers. b) A gravity sewerage reticulation network. c) Reticulation pumping stations and pressure main system. d) Construction of a sea outfall to discharge the sewage into deep sea. The proposed project will ensure that the groundwater of the island does not get contaminated through improper sanitation systems. It will also ensure that the surrounding marine environment will improve in terms of environmental quality and will ensure pollution from sewage does not occur on the near shore environments. The project is expected to bring several positive impacts on the environmental quality of the island and the surrounding reef. Particularly, the most significant benefit would be achieved through improvement in the bacteriological quality of the groundwater. The health benefits of the project are worthy of noting as the improvement in water quality are going to bring significant health benefits to the community. Environmental & social impacts and the mitigation measures Several environmental impacts of this proposed project have been examined through a number of processes. These include consultations with the project development team, field surveys, observations and assessment, and field experience gained from similar development projects implemented throughout the country. Potential positive and negative impacts on the environment have been considered. The assessment indicates environmental impacts, both during the construction and operation stage. During the construction period, impacts are likely to occur on the marine and terrestrial environment (groundwater). Most of the impacts during the construction period are impacts related to construction waste, dewatering, disruptions to the local traffic, dust emission, damage to the reef during sea outfall construction and noise. During the operational stage of this project, there will be both positive and negative impacts. Positive impacts include the improvement of the ground water quality of the island. Negative impacts include the increased in extraction of groundwater for toilet flushing that may increase the chances of groundwater salinization at a much accelerated rate. This project does foresee some negative impacts even during the construction stage but is geared towards improving the overall environmental quality of the island, most notably the environmental health. The project is presently planned to lay the sewer pipeline along the centre of the exiting road. During this process, dewatering and construction pose some challenges. Previous experience of sewer construction in the Maldives has indicated that excavation depths more than 3.5m are not recommended for conventional dewatering methods to avoid the risk of undermining and trench collapses as well as loss of structural integrity of the surrounding earth. For the purpose of the Baarah design, the maximum depth of excavation will not exceed 3.5m as per the Design criteria and technical specifications for conventional gravity sewerage systems guideline released by the Water and Sanitation Unit of the Environmental Protection Agency (Environmental Protection Agency, 2015). Strict reference to these criteria will be followed and necessary as the streets are very narrow and congested, leaving limited space for mechanical excavation between buildings for the installation of pipelines. The lack of an established land use plan for the island is also a draw back for Baarah. No land used plan means that future projections rely solely on population statistics rather than the land physically available for future development. The present design is based solely on the existing populated area, centrally located in the island. There are large areas of the island undeveloped and unzoned due to lack of a land use plan. Large areas of the island are used for agriculture and pilot projects have been established with aid agencies to try new agricultural technologies. The island is a potential hot spot for future tourism development due to the vase natural resources (beach, mangroves and thick forests and plenty of land). Different types of developments such as guesthouses and restaurants may require grease traps to prevent large influxes of unwanted material into the sewerage network. Therefore the present design of the system has not considered these future developments and in the event of such developments, the existing system will require upgrading. Requirements may need to be specified at a policy level to counter this issue. Therefore this is a potential risk factor in this project. Despite these shortcomings the project does not pose serious threats to the natural environment (marine and terrestrial) and will directly benefit the environment and the community, both in the short and long term. Minor negative impacts with varying significance will occur as the project is implemented. They include dewatering and localized salinization, disruption to public transport, dust emissions during pipe laying work and reef damage during the process of outfall construction. The pump stations have not been placed around the periphery of the island, instead are located within the population zone. This could pose the issue of foul odour in the event of a system failure whereby the foul odour abatement mechanism is affected. Incorporating the pump stations in the populated areas is a necessity and this design factor will enhance the functioning of the overall system. The project will benefit the community and the island in the long term. It is important to ensure that the project implementation is carried in a sustainable manner and in such the sewerage system can be maintained in a cost effective manner as and when required. It is therefore in the opinion of the consultant that the project does not foresee significant negative environmental impacts and should be allowed. Although the project will benefit the community, the proposed design has a number of disadvantages. Construction of pump stations underground on the streets is seen as a design issue that could have operational difficulties. Instead, the pump stations could be located within the residential block boundary with a small plot of land allocated for the pump station. Selection of sites can be focused on places such as mosque, symmetry and from other public buildings or plots of land. With the present design, a number of operational difficulties are anticipated. Experience from similar systems setup elsewhere in the Maldives have been studied and reviewed for this project. The reviews and experiences from these systems are not infavour of the present design and this is something that needs to be considered before undertaking the project. Sanitation systems must be both environmentally and socially friendly and acceptable. As important as the design is the operation and maintenance. Operation and maintenance should be viewed as a key sustainable aspect of similar projects. No matter how good a design is, the sustainability and acceptability will depend on how good the system functions in the operational period. With the pump stations being located on the road itself, there are a number of such difficulties which are equally as important as the engineering design aspects.
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    Technical Report
    Addendum 1 for environmental impact assessment of Hulhule-Hulhumale connecting link road development project in North Male‟, Atoll
    (2017-09) Water Solutions
    This report discusses the findings for the first addendum of the environmental impact assessment undertaken by Water Solutions Pvt. Ltd for undertaking the construction of the link road project between Hulhule-Hulhumale.. The project is proposed by Housing Development Corporation (HDC). The island of Hulhumale has been an important growth centre since its development. Presently, Hulhumale is the fastest growing urban centre and has residential as well as industrial developments to a scale that has never been experienced anywhere in the Maldives. Being close to Male‟ and the airport, Hulhumale has been attracting migrants from all over the Maldives. Construction of the Male‟ to Hulhule Bridge is presently the biggest infrastructure project of its kind under construction in Maldives. This project is very much tied with the present link road as this link road will provide direct connection of Hullhumale and the bridge, ultimately making the traffic flow from Hulhumale to Male‟. This road will be constructed on the east side of the existing land mass of Hulhule airport by reclaiming a small area further west of the existing island. The proposed road will consists of three zones. The details of the link road project is given in the Environmental Impact Assessment Report which is prepared by Water Solutions in August 2017 and the reason for the preparation of this first addendum report is due the change in location of sand burrow areas. In the Environmental Impact Assessment Report it was said that the sand will be obtained from the Hulhumale‟ phase 2, phase 1 and Maldives Airports Company Limited (MACL). However now that idea has been dropped out and it is now planned to obtain sand from the eastern side of Uthuru Thila Falhu and the bathymetry shows the depth varies between 40 to 60 meters approximately. The details of the geographic coordinates are given in the section project descriptions and Study Area. This lagoon has been used as a sand burrow area for previous similar projects and is estimated to dredge 410,000 cubic meters of sand from this location. The dredging project is subcontracted to the Dredging International (Cyprus) and it is estimated to complete the project in five to seven days. Environmental impacts were assessed and most of the environmental impacts of the project have been identified as resulting mainly from the coral reef damage caused by reclamation of additional land. Mitigation measures for the negative impacts have been identified and outlined in detail, especially sedimentation control methods. The most important mitigation measure is the use of bund walls in the fill areas. This EIA addendum was undertaken to assess the environmental impacts of the proposed dredging and reclamation to acquire more land for the link road construction project. Based on the assessment, it has been identified that the major impacts of the project will be felt on the marine environment during the dredging and discharging of sand. This EIA addendum report also highlights some of the studies and research work undertaken in similar environments, especially in Male‟، to understand the impacts of reclamation and construction works close to reef slope and how this knowledge can be transferred to similar environments based on the type of coastal protection methods in use. The mitigation measures are provided in the report with alternatives. It is vital to conduct the activities, during both project planning and construction phase, in line with mitigation measures emphasized in the report. Socio-economic impacts of the proposed project will be immense as direct land connection of Male‟ and Hulhumale would bring significant benefits to the general public. Connection of Hulhumale, Male‟ and the airport is a vital transportation link that would save time and money for more than 200,000 people residing in the greater Male‟ region. The environmental impacts of various projects that are currently being undertaken in the airport region have caused significant damage to reef in various areas. This project will also have its impacts, but the impacts will not be anything greater than to what the environment has already been subjected to. Therefore a comprehensive monitoring programme has been suggested which covers components of coastal and marine environment to assess how the critical components of this project will affect the environment and to what extent. It is important to follow this monitoring programme not only to comply with the regulation but also to ensure that the impacts are measures in realistic terms. Though some of the components of this project contravenes with the Dredging and reclamation regulation; the amendments brought to the regulation facilitates that this project could be implemented. Hulhule island is a special zone and Under clause 10 of the dredging and reclamation regulation, special projects are exempted. As the environmental consultants, it is our opinion that this project should be allowed to proceed as the environmental impacts of this project does not pose serious concerns to the natural environment. It is a project that has far greater socio-economic benefits than these limited environmental impacts.
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    Technical Report
    Environmental impact assessment for the reconstruction of Guraidhoo harbour, Thaa Atoll, Maldives
    (2016-04) Maldives Energy and Environmental Company
    The Ministry of Housing and Infrastructure requested the services of Maldives Energy and Environmental Company (MEECO) to provide an Environmental Impact Study (EIA) for the re-construction of harbour at Guraidhoo Island, Thaa Atoll. The assessment addresses specific key issues stated in the Terms of Reference (TOR) as agreed between EPA and the Proponent following the Scoping Meeting held on the matter. This EIA report was prepared for the fulfilment of the requirements of the Environmental Impact Assessment Regulations, 2012 with the purpose of conducting an assessment of possible impacts on biophysical and human environment arising from proposed development project. The project is proposed by Ministry of Housing and Infrastructure, Maldives. The proposed harbour reconstruction project include the following components; 1. Reconstruction of improved breakwaters for harbour basin and entrance channel; 2. Reconstruction of improved main quay wall and a side quay wall; 3. Maintenance dredging of the harbour; 4. Extension of the harbour basin; 5. Reclamation of small area of land by dredge sediment disposal; 6. Construction of revetments on a 14m section for the newly reclaimed land; 7. Installation of navigational lights. The present harbour facility at the Guraidhoo Island is greatly damaged and is not serving its intended function of providing safe access to the island and safe mooring of vessels. Additionally, the size of the harbour is identified as inadequate for the present need and expected economic growth of the island. The harbour forms a key part in many livelihood activities of the island and is frequently used by passenger and cargo vessels as well as vessels travelling to and from Laamu atoll. Hence, the improvement of harbour facility will greatly benefit the island community while also enabling future economic development at the island. The proposed project is not expected to cause any long term major irreversible environmental impacts, though few temporary impacts during the construction phase is expected. These impacts can be successfully mitigated by following the measures recommended in this EIA. The construction phase of the project is also expected to present several negative socio-cultural and economic impacts, which can also be mitigated by following measures presented in this EIA. Since the successful operation of the ice plant facility present at the island, after the reconstruction of the harbour is seen as a major economic benefit to island as well as protection of the private property of the business must be ensured when implementing the proposed project, it is highly recommended that the necessary relocation of the ice plant’s pump station and the pipeline is resolved before implementing the proposed project by following the proposed mitigation measures in this report. Overall, the project is expected to yield major positive impacts in socio-cultural and economic sector when the new harbour comes into operation. Based on the results of the assessments, this EIA study concludes that with the proposed mitigation in place, the project is justifiable, would be environmentally acceptable and could proceed in compliance with the relevant environmental legislations and regulations. In this EIA, the consultants have proposed an Environmental management plan to ensure that the construction phase of the project does not cause major unexpected impacts on the environment as well as to ensure that the proposed measures are working effectively to safeguard the environment.
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    Technical Report
    Environmental impact assessment for harbor extension works at Fares-Maathodaa, Gdh. Atoll
    (2016-04) Land and Marine Environmental Resources Group
    Background The non-technical summary outlines the findings of the Environmental Impact Assessment of the proposed harbour extension works at Fares-Maathodaa, Gaafu Dhaalu Atoll. The proponent of the proposed project is Ministry of Housing and Infrastructure. The total estimated cost of this project is USD 843,060. The proposed project involves extension of the existing facility (which lies on the northern side of the island) by addition of 61m (along its length) to the eastern side of the facility. The project also involves construction of the main quay wall along the extension area and a sand bund breakwater along the outer boundary. Dredged material sourced will be disposed along the shoreline to the east of extension area. Key impacts, mitigation measures and alternatives Impacts on the environment have been considered for the constructional phase and post constructional phase of the project. These impacts have been identified through interviews with the project management team, field data collection and surveys and are also based on past experience of consultant in similar development projects. Impact analysis was done using the Leopold matrix. The impacts identified are described according to their location, probability of impact, magnitude, significance and duration. Mitigation measures have also been identified for impacts which are irreversible in nature. Impact analysis showed that the main impact due to the project was during the construction phase, due to dredging activity. This impact was also anticipated to be of low effect due to the location (shallow intertidal area with seagrass beds) and scale of project (even though loss of seagrass beds from project site is a permanent impact). Overall, impacts identified were found to be of low effect and restricted to the project site, with temporary effects. Positive impact due to the project is the availability of a bigger and more planned area (dedicated area for unloading and passenger use) for use by the numerous vessels of the island and those who visit the island. Mitigation measures are discussed in the report for potential impacts, such as limiting dredging activity to low tide phase to reduce possible sedimentation impacts. Detailed mitigation measures are discussed in Section 11 of the report. Given the scope of the project and need alternative has only been considered for the material to be used for breakwater construction and location of extension. The no-project scenario which was also considered, is not feasible, given the scope of project and associated impacts on environment which are which are mainly of low effect and short term. The benefits on continuation of project outweigh the impacts and hence the no-project scenario is not considered a feasible option. The Consultant feels that the project is feasible with proper implementation of the mitigation measures proposed to minimize the impact on the environment. Stakeholder Consultation Stakeholder consultation was undertaken with Island Council regarding the concept drawing formulated by MHI. The council stated that they require a side quay wall to be included in the eastern side and if excess dredged material is available back filling areas where erosion is observed. Based on the stakeholder consultation, MHI agreed to change the concept design to include a side quay wall at the eastern side. The revised final drawing is provided in Appendix 5 of this report.
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    Technical Report
    Third addendum to the environmental impact assessment for the proposed Hulhulé-Malé bridge project
    (2016-05) CDE Consulting
    The purpose of this document is to assess the potential environmental impacts and mitigation measures for the proposed changes to the Hulhulé-Malé Bridge project. This document is an addendum to the original Environmental Impact Assessment (EIA) prepared for the Bridge project in November 2015. The proponent of this project is Ministry of Housing and Infrastructure. The addendum is prepared to address the need to use Gulhifalhu NE reef flat to temporarily store large steel structures (Steel Pipe Piles, and Steel Casings) of the bridge. The main rationale for selecting this lagoon is the short distance to the project site, availability of space, access to deep water and relatively calms sea conditions to safely store the structures. The pipes will be removed in 7-8 months. The main reason why the piles have to be stored is due to the difficulties in holding a chartered barge for a 7 month period to store the pipes. The study area of this project considers the proposed storage site in Gulhifalhu Lagoon and surrounding areas that are likely to be affected by the proposed changes. The site has been affected by past reclamation activities and human activities. The site is also earmarked for future reclamation. The proposed developments are generally in conformance to the laws and regulations of the Maldives. The key impacts from the proposed changes are on the marine water quality, marine biodiversity within the pipeline footprint, and health and safety risks to workers. A number of mitigation measures are proposed for the most significant impacts from the project. These include ensuring only licensed, well-qualified and experienced personnel operate vessels and machineries; undertaking unloading and loading works in calm sea conditions; ensuring strict health and safety measures are followed at site; and to place the pipe fully and perpendicular to the reef flat. Alternative site was assessed to store the steel structures, at Thilafushi Reef Flat, Hulhumale Reef flat and Hulhule reef. The Hulhumale’ site is not suitable due to flight path restrictions and proximity to resorts. Hulhule site does not have enough space and there is too much marine activity in the area. Thilafushi site is suitable but when compared to Gulhifalhu site the distance to bridge site is longer and is more exposed to SW monsoon conditions. All sites have similar environmental impacts. Thus, the proposed Gulhifalhu site was preferred. Gulhifalhu Investment Limited (GIL) and Environmental Protection Agency (EPA) were they key stakeholders consulted for this addendum. The key recommendations from GIL were to take all practical measures to avoid and minimize damage to the reef, and to ensure that the pipes do not block the entrance channel to Gulhifalhu located on the eastern side of the reef. The main recommendations by EPA were to plan all works according to approved EIA and addendums. If any additional components are required to properly follow the EIA procedure. All works conducted outside the scope of the approved EIA reports must be presented as an audit in this addendum. EPA also recommended assessment of Hulhulé site as an alternative for storage of the proposed steel structures. This report is prepared in accordance to the technical guidelines and EIA regulations, prepared by the Environmental Protection Agency (EPA), and the terms of reference issued by the EPA for this EIA addendum.
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    Technical Report
    Environmental impact assessment for the proposed water supply system in Vilufushi, Thaa Atoll
    (2016-07) CDE Consulting
    The purpose of this document is to fulfil the requirements to get necessary environmental clearance from the Environmental Protection Agency to install the proposed Water Production Supply System at Vilufushi, Thaa. Atoll. The proponent of this project is Ministry of Environment and Energy. The main rationale for the project is to improve the health condition and quality of life of residents of Th.Vilufushi by establishing a proper potable water supply system that will provide clean and safe water for the residents of Vilufushi. The project is intended at providing an integrated water supply system covering rainwater and desalinated water production and supply. The proposed project involves installation and establishment of two 6,500 litres/hour reverse osmosis plant systems that consist of construction of tube well to supply raw water for the RO plants, construction of elevated water storage tanks, construction of brine discharge outfall and house connections. Furthermore, the project aims at laying of separate pipe networks for water distribution, rainwater collection and rainwater treatment system. Duration of the project is approximately 18 months. Currently the island population sources water from shallow wells constructed at individual households or in public areas. This is supplemented by collection of rainwater. These methods provide inadequate quantity and unacceptable quality due to the over abstraction and the unreliability of rainwater harvesting. All project activities will be in conformance to the laws and regulations of the Maldives, and relevant international conventions that Maldives is party to. The key laws and regulations applicable to this project are: Environmental Protection and Preservation Act, Environmental Impact Assessment Regulation 2012, Desalination Systems Regulations, and Waste Management Regulation 2013. The existing condition of the island and the proposed RO plant site was assessed for this report. Assessments conducted include marine assessments at the proposed brine outfall and alternative outfall locations. Groundwater quality and baseline noise level measurements were also taken. The assessments showed that there is no marine protected or environmentally sensitive site in the area and locations proposed for brine outfall showed mostly dead rock and rubble. The assessment shows that the RO systems can be developed on the island with limited implications on the environment. The assessment shows that the proposed developments involve significant impacts on the marine environment due to brine outfall construction, brine discharge, ground excavation and operation of vehicles and machinery. The project also involves moderately significant health and safety risks due to equipment handling and pollution. However, the predicted impacts can be minimized considerably with the proposed mitigation measures. Significant impacts of operation stage include marine degradation due to brine discharge, increased GHG emissions due to RO plant and operation of pumps stations, and increased cost of living due to additional cost in purchasing water. The assessment shows that the proposed project has many positive impacts including improved quality and accessibility to potable water, protection of groundwater aquifer, reduction of water related disaster risk, and increased employment and business opportunities The alternatives evaluated for the project is the alternative brine outfall location. The “No Project” option has also been explored and this option is not deemed preferable, given the current condition of portable water. An alternative site for brine outfall on the southwest corner was also explored against the present option and the alternative option was recommended. Monitoring plan is designed to assess any changes to the coral reef environment of the island, ground and marine water quality as these are the key areas that will be impacted from this project. Monitoring costs is estimated at USD 5,000 per annum. The management plan for this project is designed to produce a framework for anticipated impacts, including practicable and achievable performance requirements and systems for monitoring, reporting and implementing corrective actions. In addition provide evidence of compliance to legislation, policies, guidelines and requirements of relevant authorities. Stakeholder consultations were held with Vilufushi Island council, FENAKA, Vilufushi public and Ministry of Housing and Infrastructure. A willingness-to-pay survey was also conducted during field assessments. Both Vilufushi Island Council and public highlighted the need for a potable water supply system on the island. Vilufushi public is also willing to pay for the service. Ministry of Housing and Infrastructure stated they have laid duct lines to facilitate pipeline installations. Since the roads are already sealed with asphalt the public and the Council would like to see the road resealed to the original state of the road. In conclusion, this project has been designed in conformance to the relevant laws and regulations of Maldives but requires final approval from EPA for the detailed drawings. The most significant impacts are expected to be short-term impacts for the construction phase. Operational stage impacts are mainly limited to brine outfall location and emission due to power generation. However, mitigation measures have been proposed to adequately minimise these significant impacts. Overall, the project will have positive impacts to the island community of Vilufushi.
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    Technical Report
    Environmental impact assessment for the establishment of a water bottling plant at State Electric Company Limited (STELCO)
    (2016-03) CDE Consulting
    The purpose of this document is to fulfil the requirements to get necessary environmental clearance from the Environmental Protection Agency (EPA) to carry out the proposed ‘Establishment of a Water Bottling Plant Project’ at State Electric Company (STELCO), Male’. The proponent of this project is State Electric Company Limited (STELCO). This project mainly involves establishing a bottling plant on STELCO’s main premise in Male’ city with a production capacity of 6000 bottles per day. A prefabricated building has been assembled on site to house the bottling plant. The project will be using the existing desalination plant at STELCO. All project activities are in conformance to the laws and regulations of the Maldives, and relevant international conventions that Maldives is party to. The key laws and regulations applicable to this project are Environmental Protection and Preservation Act, Environmental Impact Assessment Regulation 2012, Hygiene Regulation for Food Establishments 2014 and Waste Management Regulation 2013. The proposed site for the installation of the bottling plant is located on the main premises allocated to STELCO on the southern end of Male’. Proposed project activities do not require any major alterations to the terrestrial and marine environment. The most significant impact from this project is the increase in plastic waste. The proponent is looking into the prospects of a recycling venture for their bottles to mitigate this impact. This project will generate new jobs in Male’, which is a significant positive impact. The main alternatives assessed for the project are alternative bottling materials and alternative site for establishing the bottling plant. “No project” option has also been considered and given the economic and environmental factors the best option would be to proceed with the project. Stakeholder consultations were conducted with Environmental Protection Agency (EPA) and Maldives Food and Drug Authority (MFDA). EPA’s main concern was to get the desalination plant of STELCO registered at EPA before starting the bottling process. MFDA did not have any major concerns but advised to carryout the necessary water quality assessments. The Environmental Management Plan (EMP) for this project is designed to produce a framework for anticipated impacts, including practicable and achievable performance requirements and systems for monitoring, reporting and implementing corrective actions. In addition, provide evidence of compliance to legislation, policies, guidelines and requirements of relevant authorities. Monitoring plan is designed to assess any changes to the physical environment as well as operational aspects of the resort.