A solution for restoration of critical wetlands and waterbird habitats in coastal deltaic systems

Loss of coastal wetland habitats has been directly linked to a decline in waterbird populations including migratory species, leading to calls to reverse this trend in part by restoring these habitats. However, distinct “sediment scarcity” has hindered coastal habitat restoration. Here, taking the Ya...

Full description

Saved in:
Bibliographic Details
Published in:Journal of environmental management 2022-01, Vol.302 (Pt A), p.113996-113996, Article 113996
Main Authors: Yuan, Lin, Liu, Dongyan, Tian, Bo, Yuan, Xiao, Bo, Shunqi, Ma, Qiang, Wu, Wei, Zhao, Zhiyuan, Zhang, Liquan, Keesing, John K.
Format: Article
Language:English
Subjects:
China
Coastal engineering
Coastal wetlands
Conservation of Natural Resources
Ecosystem
Habitat restoration
Rivers
Sediment
Waterbird
Wetland vegetation
Wetlands
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Loss of coastal wetland habitats has been directly linked to a decline in waterbird populations including migratory species, leading to calls to reverse this trend in part by restoring these habitats. However, distinct “sediment scarcity” has hindered coastal habitat restoration. Here, taking the Yangtze River Delta, China as an example, we put forward a feasible solution to solve the sediment shortage in habitat restoration so necessary to restore migratory waterbird numbers. Four biological indices including total wetland area, wetland vegetation area and waterbird species richness and abundance, were used to compare and assess the restorative efforts. Three solutions were adopted for the rehabilitation sites, including promoting sediment deposition and settlement through engineering intervention in Chongming Dongtan (CD) and Eastern Nanhui (EN), and using dredged sediments to nourish and create new habitats in Hengsha Eastern Shoal (HES). The mean wetland area increased 19.66 km2/yr in EN, 8.78 km2/yr in HES and 3.83 km2/yr in CD after rehabilitation. Along with the increase of wetlands and habitats, the abundance of waterbirds increased 1.3 times, 121 times and 1.5 times in EN, HES and CD, respectively. In contrast, in the site of Fengxian and Jinshan (FJ) where no any rehabilitation measure was taken after reclamation, the habitats were lost almost completely and the waterbird abundance dropped drastically. The comparison and assessment results demonstrate that proper coastal silting structures and ecological utilization of nearby dredged sediments are the feasible and effective solutions to retain sediments, restore coastal habitats and increase waterbird diversity and abundance. •Proper coastal silting structures retain sediments and promote habitat restoration.•Ecological utilization of nearby dredged sediments nourishes new coastal habitat.•Wetland and wetland vegetation area increase after sediments retaining or obtaining.•Waterbird species richness and abundance increase significantly after rehabilitation.•Restored coastal wetlands are a “living shoreline” providing ecological functions.
ISSN:0301-4797
1095-8630
DOI:10.1016/j.jenvman.2021.113996