Our marine environment is deteriorating at an ever accelerating pace due to various local to global disturbances, mainly as a result of human activities.

Our team was founded to promote the marine environment and ensure its sustainability through environmental education, scientific activities, restoration measures and sound use. We believe in investing our resources and efforts on guiding, encouraging and engaging “ocean users and lovers”, notably divers, in the promotion of our oceans and their precious natural resources. Our purpose is to establish a wide range of activities in order to enhance environmental awareness and knowledge and develop the associated relevant skills.

Our major mission is to disseminate knowledge in order to bring the general public, and particularly divers and ‘ocean stakeholders’, closer to the fascinating ocean, its wonders, importance to human existence, and vulnerability to human impact. We believe that raising public awareness via education is a key to the sound conservation and maintenance of sustainable oceans. To address this mission, we dedicate our efforts to providing technical-scientific solutions for restoration and ocean resource enhancement, comprehensive training, and applied (research and conservation) projects.


Arie Willard – Dutch Industrial Designer noted in South East Asia for his enduring career. He branched out into export companies where he created a diverse range of furniture, lamps, classical, and whimsical statuettes, and gift items. Some of his clients were Budweiser, Walt Disney, Laurel & Hardy, Three Stooges, Popeye, Max Fleischer (Betty Boop) and Warner Brothers (Looney Tunes). Arie completed the design concept dubbed as The Crescent and Star, an ambitious 96 hectares sustainable man made Hotel, leisure concept in the Red Sea: aimed to have minimal ecological impact on the seabed and the environment.
Today, Arie designs Furniture and Lighting Systems, It’s his passion to bring to life concepts that push the boundaries of uniqueness and functionality.

Avigdor (AV) Abelson – Professor of Marine Biology; PADI Dive Instructor; CMAS Dive-Master and IANTD Technical Diver; Free-diving Dive Master (APNEA) and Yacht skipper (ASA).

“I am an enthusiastic marine ecologist, dedicating much of my time to promotion of marine environmental issues, through research, restoration and planning, working as a consultant for governmental and non-governmental organizations worldwide. My major goal is to halt the worrying degradation of marine ecosystems and their essential services to humans. Likewise, I am working on solutions for sustainable exploitation of the sea as a source of food and as an alternative livelihood basis for fishermen and other ocean stakeholders.”

Bill McGilton – Underwater Consultant; An American aerospace engineer (retired); Director of training for underwater ROV at Divers Institute of Technology; NAUI Instructor Director (active), PADE Instructor Director (retired), CMAS Director (active). Bill handles aspects of underwater activity including divers’ safety, surveying, deployment and data logging, ensuring that reef restoration and reed rehabilitation is effective use of the artificial coral units.

Miguel Carlos C. Aguas – The MCCA Industrial Corporation’s President and General Manager, ventured into the manufacture and export of his own unique designs. MCCA products are globally competitive in the wrought iron and glass-blowing industries. Among its products are indoor and outdoor furniture, decorative accessories such as candle holders, chairs, tables, mirrors, floor & wall lamps and the manufacture of eco-mer system.


The Eco-MER are module-based compounds assembled of two basic units that enable formation of diverse structural morphology of high architectural complexities. The two basic units are:

1. “Reef Modules” – reef-inspired structures, which imitate diverse natural coral-reef morphological patterns (see: Fig. 1 for some examples; it should be noted that we are working on developing new module shapes).

2. “Polygon modules” – Polygonal rugose structures (e.g. hexagons, pentagons etc.) with rough surfaces, which, on the one hand, provide carrying platforms for the “reef modules”, and, on the other hand, serve as the basic modular “building blocks” of the compound.


The Eco-MER elements are all made of marine concrete characterized by two advanced features, exclusive to Eco-MER units, and which tremendously advance their ecological features (i.e. better larval attachment, higher survival rates of coral recruits and wider niche range for higher species diversity of benthic species), beyond any other commercial ARs. First, a unique ingredient, serves as concrete additive that optimizes the chemo-physical traits of the structure (i.e. roughness and porosity), and a ‘Settlement-Enhancing Coating’ which significantly enhancing coral recruitment onto the Eco-MER units (Fig. 2). In addition, the ‘Polygon modules’ are patented (to be registered as a provisional patent) structures, which beyond serving as modular building blocks and carrying platforms, will provide wide substrates and shelters for enhanced recruitment of high-diversity of benthic sessile and motile species.


The polygonal basic structures are used to form diverse compound shapes, from simple hemispheres (dome shapes) to highly complexed, multi-layered (e.g. dodecahedral grids) and irregular constructions. The ‘Polygon Modules’ can be provided in various sizes, but for most uses we recommend small unit sizes (~60 cm longest dimension) that can be handled fairly easily by divers with minimal support of lifting bags.
The “reef modules” are a wide variety of shapes, which imitate the complex surfaces of fully-developed reef structures (Fig. 1). Despite the wide variety of the ‘reef module’ shapes, we try to keep them not larger than ~50cm in size (less than 50 kg) so that they can be handled by two divers.
Note: The exact structure design of the Eco-MER compound, as well as the sizes and shapes of ‘Polygon Modules’, should consider the local flow regime, depth, maximum wave height of regional extreme storms (risk assessment for 20 years), national/company safety requirements and the project goals (reef restoration, recreation, fishery etc.).

Note: The exact structure design of the Eco-MER compound, as well as the sizes and shapes of ‘Polygon Modules’, should consider the local flow regime, depth, maximum wave height of regional extreme storms (risk assessment for 20 years), national/company safety requirements and the project goals (reef restoration, recreation, fishery etc.).

Figure 1. A sample of some basic Eco-MER ‘Reef Modules’

Figure 2. Settlement-Enhancing Coating (SEC), showing diverse early-stage recruitments of stony corals, soft corals and crustose coralline algae (CCA; “positive” algae which induce settlement of corals). Frame scale 30 mm.

Figure 3. Eco-Mer dome concept.

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