Architectural firm Brooks + Scarpa recently unveiled its design concept for the new Miami Beach Aquatic Center and Park. Among two pools and thousands of square feet worth of retail and community space, the project will highlight local plants and trees with native landscaping. The project is one of three finalists for the new community area in Florida.
The community park will span three acres and will protect existing trees while adding a plethora of native plants to create its own microclimate. Additionally, the building’s green roof planters will harvest and treat stormwater, and all water runoff from the site will be directed to a system that will allow it to be reused for irrigation.
In a unique ecological setting like Florida, including native plants in landscape designers is an easy choice. Local plants are already adapted to the local climate and soil conditions and often do not require pesticides or as much irrigation (helping to prevent erosion). Plus, they are important for local pollinators like bees and hummingbirds.
In addition to the green planters, the building’s roof also features solar panels to provide an alternative energy source during peak electricity hours. Located just a block from the beach, the structure’s ocean-facing terraces provide sweeping views for community members to enjoy. There is a 50-meter competition pool and a 25-meter multipurpose pool as well as a fitness center to promote healthy lifestyles.
The architects hope that the center can become a “Community Living Room” for the local North Beach area, providing a central gathering space in a district that is already embracing walkability. There are spots to unwind but equal space to socialize with friends or shop thanks to the 10,000 square feet of retail. A 7,500-square-foot branch library welcomes students and community members to relax and learn. Tying the aquatic center and park together will be the parking lot, which is stacked to reduce its footprint and provide direct access to the lush green space.
Images via Brooks + Scarpa