4.7 Article

Long-Term Changes in the Unique and Largest Seagrass Meadows in the Bohai Sea (China) Using Satellite (1974-2019) and Sonar Data: Implication for Conservation and Restoration

Journal

REMOTE SENSING
Volume 13, Issue 5, Pages -

Publisher

MDPI
DOI: 10.3390/rs13050856

Keywords

seagrass; Zostera marina L.; remote sensing; reclamation; spatial and temporal changes

Funding

  1. National Key R&D Program of China [2019YFD0901300]
  2. National Science & Technology Basic Work Program [2015FY110600]
  3. Key Research Project of Frontier Sciences of CAS [QYZDB-SSW-DQC041-1]
  4. Taishan Scholars Program (Distinguished Taishan Scholars)

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Seagrass meadows in Caofeidian shoal harbor in the Bohai Sea of northern China were studied to evaluate the impact of sea reclamation activities using Landsat imagery. The study found that sea reclamation resulted in rapid changes in seagrass meadows, mainly due to physical damage, excessive sedimentation, and increased turbidity. However, sea reclamation also created artificial longshore bars that provided relatively sheltered conditions for seagrass growth, leading to a large increase in habitat since 2012.
Seagrass meadows play critical roles in supporting a high level of biodiversity but are continuously threatened by human activities, such as sea reclamation. In this study, we reported on a large seagrass (Zostera marina L.) meadow in Caofeidian shoal harbor in the Bohai Sea of northern China. We evaluated the environmental impact of sea reclamation activities using Landsat imagery (1974-2019) by mapping seagrass meadow distribution changes. ISODATA was adopted for the unsupervised classification and mapping of seagrass beds. The error matrix developed using the in situ data obtained from acoustic surveys for Landsat 8OLI image classification was 87.20% accurate. The maps showed rapidly increasing changes in seagrass meadows as the amount of reclaimed land increased. Some seagrass meadows experienced large-scale changes, and sea reclamation has been suggested as the main factor responsible for habitat loss, which results from physical damage, excessive sedimentation, and increased turbidity caused by reclamation. In addition, habitat degradation may have resulted from three storm surges induced by typhoons in 1992-1998. Fortunately, land reclamation, forming an artificial longshore bar, buffers seagrass meadows from wave actions, providing relatively sheltered conditions, which has allowed a large habitat increase since 2012. These were the largest eelgrass meadows (3,217.32 ha), with a peripheral area of similar to 100 km(2), in the Bohai Sea of northern China in 2019. However, the existing largest eelgrass beds in China are threatened by trawling, clam harvesting (especially clam sucking), channel dredging, and culture pond construction. Our work will help coastal managers monitor the environmental impacts of reclamation activities on seagrass meadows on a large spatio-temporal scale and will also provide information for seagrass restoration using artificial longshore bars.

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