Tan Phu Dong River Island, Vietnam
Description
Location
Sketch
Information about lithology/geochemistry:
The project area consists of weak, soft cohesive soils—clayey mud, silty clay, sandy mud—with low bearing capacity and high compressibility, typical of Mekong Delta coastal zones.
Main Description
- he demosite is located in the estuarine and coastal zone of the Mekong Delta, focusing on ecohydrological solutions for coastal protection, mangrove restoration, and climate resilience.
- Erosion prevention, storm moderation, and habitat provision are significantly improved through mangrove restoration and breakwaters. Maintained: Food provision, raw materials, and cultural services are sustainably supported by the restored ecosystem.
Enhance ecohydrological processes in novel ecosystem
YES
Apply complementary Ecohydrological processes in high impacted system
YES
This table presents the different categories of ecosystem services that ecosystem can provide, divided in:
Provisioning Services are ecosystem services that describe the material or energy outputs from ecosystems. They include food, water and other resources.
Food: Ecosystems provide the conditions for growing food. Food comes principally from managed agro-ecosystems but marine and freshwater systems or forests also provide food for human consumption. Wild foods from forests are often underestimated.
Raw materials: Ecosystems provide a great diversity of materials for construction and fuel including wood, biofuels and plant oils that are directly derived from wild and cultivated plant species.
Regulating Services are the services that ecosystems provide by acting as regulators eg. regulating the quality of air and soil or by providing flood and disease control.
Local climate and air quality: Trees provide shade whilst forests influence rainfall and water availability both locally and regionally. Trees or other plants also play an important role in regulating air quality by removing pollutants from the atmosphere.
Moderation of extreme events: Extreme weather events or natural hazards include floods, storms, tsunamis, avalanches and landslides. Ecosystems and living organisms create buffers against natural disasters, thereby preventing possible damage. For example, wetlands can soak up flood water whilst trees can stabilize slopes. Coral reefs and mangroves help protect coastlines from storm damage.
Erosion prevention and maintenance of soil fertility: Soil erosion is a key factor in the process of land degradation and desertification. Vegetation cover provides a vital regulating service by preventing soil erosion. Soil fertility is essential for plant growth and agriculture and well functioning ecosystems supply the soil with nutrients required to support plant growth.
Ecosystem services "that are necessary for the production of all other ecosystem services". These include services such as nutrient recycling, primary production and soil formation.
Cultural Services corresponds nonmaterial benefits people obtain from ecosystems through spiritual enrichment, cognitive development, reflection, recreation, and aesthetic experiences.
Recreation and mental and physical health: Walking and playing sports in green space is not only a good form of physical exercise but also lets people relax. The role that green space plays in maintaining mental and physical health is increasingly being recognized, despite difficulties of measurement.
Tourism: Ecosystems and biodiversity play an important role for many kinds of tourism which in turn provides considerable economic benefits and is a vital source of income for many countries. In 2008 global earnings from tourism summed up to US$ 944 billion. Cultural and eco-tourism can also educate people about the importance of biological diversity.
Aesthetic appreciation and inspiration for culture, art and design: Language, knowledge and the natural environment have been intimately related throughout human history. Biodiversity, ecosystems and natural landscapes have been the source of inspiration for much of our art, culture and increasingly for science.
Lifezones
Life zone
Polar
Nival
Dry Tundra
PPT(mm/yr): 1.0
T(ºc): 1.0
| Elevation of demosite: | meters above sea level |
| Humidity: | Semiparched |
| PETr (by year): |
EH Principles
Quantification of the hydrological processes at catchment scale and mapping the impacts
Distribution of ecosystems and their relevant processes (ex: metabolism=water and nutrient uptake and retention; biomass production)
Ecological engineering (integration, dual regulation and biotechnologies in catchment scale for enhancement of ecological potential)
ECOHYDROLOGY ENGINEERING SOLUTIONS
Porous Hollow Structure Breakwater (PHSB), multi-line defense systems integrating breakwaters, mangroves, and sea dykes.
Ecohydrological Infrastructure
Strategic planting of native mangrove species (Avicennia spp., Sonneratia spp.) for coastal stabilization and ecosystem restoration.
Phytotechnology
Major Issues
- Pollutants and Nutrients: Unregulated shrimp farming releases sludge, wastewater, and chemicals, degrading water quality and causing disease outbreaks in aquaculture
- Intensive land use: Expansion of aquaculture and salt-tolerant crops alters soil structure, reduces agricultural diversity, and increases pressure on water resources
- Floods: Increased rainfall, storm surges, and high tides overwhelm inadequate dike systems, inundating homes, roads, and farms, disrupting livelihoods
- Droughts: Saltwater intrusion exacerbated by sea-level rise and upstream changes reduces freshwater availability, affecting drinking water and agriculture
- Habitat loss: Coastal erosion and conversion of mangroves for aquaculture and development reduce critical habitats for biodiversity and natural protection
Expected Outcomes
Reduce coastal erosion and land loss by stabilizing shorelines with natural and engineered structures
Restore and expand mangrove ecosystems to enhance biodiversity and habitat quality
Increase community resilience to storms, flooding, and sea-level rise through nature-based solutions
Improve water quality and sediment retention in coastal and estuarine zones
Create a replicable model for sustainable coastal protection in the Mekong Delta and similar regions
Strengthen local capacity and knowledge in ecohydrology and climate adaptation
Latest Results
- Wave energy reduction of 50–70% behind PHSB structures
- Sediment accumulation increased by 0.8–1.08 meters over 5 years, expanding retention zones by ~81 hectares
- 11.2 hectares of mangrove forest restored at Con Cong coast
- Storm surge water levels reduced by 0.3 meters in adjacent inland areas
- Flood flow velocity slowed by approximately 50%
- Ongoing biodiversity recovery observed in new mangrove and intertidal habitats
Contacts
Le Xuan Tu
- xuantutl@gmail.com
- https://www.vawr.org.vn/cong-nghe-de-giam-song-phat-huy-hieu-qua-phong-chong-sat-lo-bobien
- Southern Institutes of Water Resources Research
- https://www.vawr.org.vn/cong-nghe-de-giam-song-phat-huy-hieu-qua-phong-chong-sat-lo-bobien
Social ecohydrological system
EH Objectives
EH Methodology
Catchment Ecohydrological sub-system
Objectives
Stakeholders
Catchment Sociological sub-system
Activities