City: Nantong

As an essential part of the Nantong Municipal Government’s plan to promote the local central innovation zone, the planning and design of Nantong Zilang Central Forest Park (Zilang Park) started at the end of 2016.

Located at the center of the zone, the park covers an area of 266 hectares, including 150 hectares of ecological habitat area and 116 hectares of water area with flood control and storage capacity. A 14-kilometer ecological greenway and a 20-kilometer biological corridor are planned on the site, which not only connects people with nature, but also improves biodiversity and stormwater management.

Moreover, the project brings great social benefits to the local area, including a rise in oxygen levels in the atmosphere, a drop in noise pollution and a reduction in urban heat island effect. The improved ecological infrastructure has also created new opportunities for social development. From 2019 to 2020, the central innovation zone achieved a substantial increase in the total number of tourists. The investment from high-tech companies increased 2.4 times on a year-on-year basis, effectively boosting local employment in Nantong.

Nantong’s geological location and natural environment initially brought challenges to the park’s design. The city is located in the Yangtze River Plain and suffers regular flooding due to its copious watercourses. It becomes worse at the onset of typhoons. Radical urbanization and contamination from the overuse of pesticide also contributed to the heavy destruction of watercourses.

To mitigate these long-standing problems, AECOM used the “Water-sensitive Design” approach. Since most of the existing watercourses were located south of the site, and the water systems on the two sides were segregated, rainwater could not be stored.

Based on this framework, a hydraulic model was designed to evaluate the water’s self-cleaning capacity. It shows that the theoretic self-cleaning period is within seven days but is estimated to take up to 15 days considering the Yangtze River current and the water quality of the inner course.

Our design team proposed a framework for an integrated and resilient waterbody, which connects consecutive channels and two artificial wetlands. The wetlands serve as eco-sponge filters to purify the water before entering the south lake. In addition, the team also applied a technology to restore microbe and aquatic creatures in creating a self-cleaning water system in the south lake. This technology activates microbe Plant Growth-Promoting Rhizobacteria (PGPR) reproduction by supplying needed nutrition, and stabilizes the ecological equilibrium, which is significant in the water self-cleaning system.

Set to be completed by the end of 2020, the park is now a cultural destination for people of all ages and plays a role in ecological education:

The north zone is designed to be a forest park surrounded by watercourses. The open lake and lawns provide a pleasant outdoor space while the various landforms and waterbody create wind corridors to improve regional micro-climate by decreasing temperature and carbon dioxide.

The middle zone is an artificial wetland, which is also a bio-diverse paradise. More than 60 kinds of native flowering plants and 40 native tree species were cultivated for different seasons. An ecological water forest was created, providing natural habitats for wild birds and insects, and showing visitors the process of wetland succession.

The south lake is regarded as a “bio-tank” which collects water from the whole region with a resilient function. It interconnects with a bio-system that is built on green areas and communities, such as stormwater collection gardens and water shed mitigation facilities.

 

Awards:

• 2020 IFLA AAPME Awards – Award of Excellence, Flood & Water Management

Working with the local government in Nantong, China, our team of urban planners, ecologists, economists and landscape designers transformed the city’s new Eco-corridor by reconnecting and reshaping the river and water systems and perfecting the green space network in the area.

They applied an infrastructure-oriented development (IOD) approach on the project, via construction of riverside wetland habitats and rainwater gardens, for example, which resulted in improved soil quality that protects native vegetation. The approach also led to the creation of recreation activities that helps promoting a healthier lifestyle for visitors and locals.

Located where the Yangtze River meets the Yellow Sea, the Eco-corridor stretches 7.5 miles from north to south, covering approximately 836 hectares of previously unused industrial areas. By providing a long-term drainage solution to the Yangtze River Delta, the rebuilt ecological zone is helping to recover the natural forest area and waterways that were previously damaged due to rapid industrialization, inappropriate agricultural practices and pollution. It is also mitigating and stabilizing existing pollutants found in the soil and water.

The team designed the Eco-corridor landscape to achieve these four goals:

1. Be effective in ecological water management: Now that the river network is connected, the water quality has been upgraded from Class V to IV. Various stormwater structures such as permeable paving, bioswales, raingardens, wetlands and green roofs were implemented to capture and treat run-off in addition to the larger system. After purification, treated water will be discharged to the Yangtze River.

2. Build an ecological corridor: Inspired by the concept in rural riverside wetland communities (e.g. reed or moss grass communities), our team created a riverside wet zone by using pine piles as the revetment, which not only effectively reduce the erosion of the water level on the sandy soil of the river bank, but could also be integrated with aquatic plants in the long-term providing a stable habitat for the plant and animal species live in the wetland.

3. Reconnect green space network: The Eco-corridor features “green” infrastructure that eliminates rain and flood and introduces a balanced ecological urban lifestyle to the citizens. The 8.6-mile greenway is now paved to accommodate cyclists, joggers and pedestrians while allowing access to emergency vehicles, and includes a continuous eco-cultural green ring that allows for a variety of recreational activities for people in all ages.

4. Promote urban development: A part of Nantong’s city development vision and strategy, the project’s ecological green belt around the city creates a catalyst for future sustainable development in the area. The increasing resident population, rising employment opportunities and stronger economic momentum created by the project make the Eco-corridor a model of balanced ecological lifestyle and economic sustainability in China.

Awards:

• HKIUD Urban Design Award 2019 – Merit
• IFLA Asia-Pac LA Award 2019 – Award of Excellence