Flood Control in High-Risk Area of the Yangtze River Basin
Xinyu is adopting an integrated approach to flood control and waste management that seeks to safeguard communities against warming temperatures and increased precipitation.
Xinyu is adopting an integrated approach to flood control and waste management that seeks to safeguard communities against warming temperatures and increased precipitation.
The project invests in climate-proof infrastructure to improve urban environments and climate resilience for the Bao Ninh peninsula and along the Co Co river. The aim is developing climate-proofing structures through improvements to stormwater and flood management, erosion prevention, and salinity control.
Improving the wetland and forest coverage and urban greenspace connectivity and therefore securing important biodiversity;
Providing recreation and educational facilities for local residents and visitors; Enhancing the health and wellbeing benefits gained through the use of the accessible trail built for well-being and recreation facilities.
The aims of the Green Lungs of the City Project are to build a big botanical garden for the city, create a forest-wetlands park and develop an agricultural park for citizens. GLCP uses urban forest and trees, as well as wetlands as Nature-based Solutions to promote the sustainable development of the city and to provide multiple ecosystem services for human beings in a highly urbanised area.
Objectives further include:
Dongpo Wetland Park aims to allow for the provision of connected multifunctional green spaces and to ensure the sustainable development of the city while retaining the original wetland environment.
It further aims to provide a new green and open leisure space for urban residents. The original wetland has been preserved with the aim to maintain regional biodiversity and to improve the water quality of the area.
Managing socio-ecological landscapes as natural carbon sinks and resources for adaptation is increasingly recognized as a necessary, efficient and relatively cost-effective strategy. Protected areas store 15 % of terrestrial carbon and supply ecosystem services for disaster reduction, water supply, food and public health, all of which enable community-based adaptation. Many natural and managed ecosystems can help reduce climate change impacts. But protected areas have advantages over other approaches to natural ecosystem management in terms of legal and governance clarity, capacity and...
PROAmazonia is an ambitious, five-year collaborative initiative to transform the agriculture and forestry sectors in the Amazon region to more sustainable management and production practices. It is an inclusive, cross-sectoral and multi-stakeholder initiative seeking a just transition to sustainable land-use practices to significantly reduce deforestation and restore degraded ecosystems, improve the livelihoods of some of the most impoverished communities in Ecuador, and establish viable economic markets for sustainably produced, deforestation-free products.
Water scarcity and low availability of water present a real obstacle to implement and maintain nature-based solutions such as urban agriculture and other peri-urban farming practices. The use of reclaimed water (i.e. treated wastewater) is an alternative water resource with many benefits associated.
Project introduction:
The Changyuanhe river is in Qixian, Jinzhong City, Shanxi Province, in North and Middle China and become the main axis of the project, both by its cultural and ecological important for the country. In the past, there were large areas of marsh wetlands along the river, which can regulate and enrich the ecological diversity with good water power. Today the contrast between the upstream natural area (which is still well preserved) and the downstream area (which is dry for four months of the year) is astonished. The project aims to afforest the 30km river...
The objective of the Demo is to assess the potential and impacts of a series of selected Nature Based Solutions (green and blue infrastructure) for the recovery of the groundwater levels and associated ecosystem services, and to generate adaptation capacity for the regional agriculture against more frequent droughts due to climate change.