Environmental changes in Ariake Sea of Japan and their relationships with Isahaya Bay reclamation

Jia, Rui; Lei, Huayang; Hino, Takenori; Arulrajah, Arul

doi:10.1016/j.marpolbul.2018.08.008

Cited by 22 publications

(7 citation statements)

References 46 publications

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“…2001; Jia et al . 2018). Sharpnose rays may have experienced a reduction in population size only surviving in restricted areas; however, once the glaciers retreated and sea level increased again, estuaries were reflooded providing optimal conditions for population expansion.…”

Section: Discussionmentioning

confidence: 99%

“…The different population expansion times among the various regions may be related to the variations in population size and the environmental conditions the populations were exposed to (e.g. the JP population has an extremely small area with the Ariake Sea covering only about 1700 km 2 ; Kitamura et al 2001;Jia et al 2018). Sharpnose rays may have experienced a reduction in population size only surviving in restricted areas; however, once the glaciers retreated and sea level increased again, estuaries were reflooded providing optimal conditions for population expansion.…”

Section: Demographic Historymentioning

confidence: 99%

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Insights into genetic variation and demographic history of sharpnose rays: examinations of three species of Telatrygon (Elasmobranchii, Dasyatidae) from the Indo‐West Pacific

Shi

Zhang

et al. 2022

Integr. Zool.

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Coastal and demersal chondrichthyans (sharks, rays, and skates) are expected to exhibit high levels of genetic differentiation in areas of complex geomorphology. Population genetic studies investigating the extent to which demographic history shapes the genetic structure of these fishes are rare. Here, we combined mitochondrial DNA (Cytb and ND2) and 8 nuclear microsatellite loci from 244 individuals to examine the population genetic structure and demographic history of the 3 Indo-West Pacific species of sharpnose rays (Telatrygon zugei, Telatrygon biasa, and Trygon crozieri). High levels of genetic variation both within and between species were identified. Phylogenetic analysis partitioned haplotypes into 2 lineages supporting divergence of T. zugei from T. crozieri and T. biasa during the Pleistocene. Furthermore, microsatellite-based clustering analyses identified 4 genetic groups (i.e. T. zugei from Japan, T. zugei from coastal China, T. biasa from Gulf of Thailand, and T. crozieri from the Andaman Sea). Measurements of genetic differentiation also support these 4 groups. Additionally, Pleistocene demographic expansions were examined in all genetic groups. The climate oscillations and current hydrologic cycles in the Indo-West Pacific appear to coincide with the hypothesis regarding speciation and the observed demographic history trends of the sharpnose rays. Considering the species group has, until recently, been thought to be one species, these results are critical for defining management units and guiding conservation efforts to preserve stingray biodiversity.

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Section: Discussionmentioning

confidence: 99%

Section: Demographic Historymentioning

confidence: 99%

Insights into genetic variation and demographic history of sharpnose rays: examinations of three species of Telatrygon (Elasmobranchii, Dasyatidae) from the Indo‐West Pacific

Shi

Zhang

et al. 2022

Integr. Zool.

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“…The unique hydrodynamics in this region and remote sediment supply in the estuarine delta， which brings abundant tidal flat resources to the coastal area of Jiangsu Province [1], which provide valuable ecosystem services, including protecting the shoreline from erosion, providing buffer zones and habitats for migratory birds, and increasing carbon storage and sequestration [2][3][4][5] In recent years, a series of tidal flat reclamation projects in coastal zone have been implemented to develop and utilize tidal flat resources for its value in in hydrology, geology, ecology and environment [6]. The construction of tidal flat reclamation project not only improves the coastal economy, alleviates the conflict between development and nature, and maintains the dynamic balance of the total cultivated land area, but also has a certain impact on the coastal environment, the tidal range in Jiangsu has been changed obviously after reclamation [7]; the reclamation in Jakarta Bay does not change surface current patterns significantly, but resulting in a decrease in flow velocity [8]; the implementation of the Isahaya Bay reclamation project resulted in a decrease in the tidal prism in Isahaya Bay and subsequently caused a decrease in the tidal current in the area [9]; Rusdiansyah used FVCOM calculate that the tidal prism is reduced by about 20% during both spring tides and neap tides [10]. Therefore, balancing the ecological costs and economic benefits of reclamation projects is necessary.…”

Section: Introductionmentioning

confidence: 99%

Anthropogenic Influences on the Hydrodynamic and Tidal Discharge in Tongzhou Bay, Nantong, China

Chen

Zhou

Kong

2023

J. Phys.: Conf. Ser.

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In this study, we determined the variations of tidal flow field and tidal prism caused by human activities in Tongzhou bay and using MIKE 21 hydrodynamic model as analyzing tool. After the human activities, the hydrodynamic in sea area alongshore engineering is changed, the most obvious changes can reach over 0.1m/s; the tidal discharge decreases caused by the land accretion leading to the shrink of the area of Nantong near-shore waters, there is up to 12% reduction after planned reclamation during one spring tide period.

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“…Because of reclamation activities, coastlines can change dramatically, which greatly affects marine ecology, environmental systems, and economic systems. Many countries such as the Netherlands [4], Japan [5], Korea [6,7], and Indonesia [8], and several megacities such as Mumbai (India), Karachi (Pakistan), Rio de Janeiro (Brazil), and Lima (Peru) [9] had reclamation projects in the past to extend the land area for city expansion or agricultural development. In China, reclamation projects have occurred in recent years, and the coastline has changed significantly in the past four decades [10][11][12].…”

Section: Introductionmentioning

confidence: 99%

Tracking of Land Reclamation Activities Using Landsat Observations—An Example in Shanghai and Hangzhou Bay

et al. 2022

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At present, reclamation—changing ocean areas into inland land cover type for human usage—is one of the major methods for expanding land area around the world to alleviate the problem of land shortage. Thus, reclamation activities play an important role in land area extension. In recent years, reclamation projects have been active in eastern China. However, research on how to determine the initiation of reclamation activity remains very limited. Thus, a method of tracking reclamation activities was proposed in this study to analyze the coastline change due to human activities in Shanghai Lingang New City and Hangzhou Bay area. First, the reclamation area was extracted and separated into sea filling and sea enclosing. Next, the “SEDIMENT” signal track method and the “Eight-Neighborhood” morphological method were used to track dissimilar reclamation types. The historical reclamation activities (including start time and end time) over the recent 30 years were also tracked and obtained. Experimental results indicated that the time tracker accuracy of reclamation activity can reach 83.8%. Thus, this study can provide a reference for tracking coastline change.

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Environmental changes in Ariake Sea of Japan and their relationships with Isahaya Bay reclamation

Cited by 22 publications

References 46 publications

Insights into genetic variation and demographic history of sharpnose rays: examinations of three species of Telatrygon (Elasmobranchii, Dasyatidae) from the Indo‐West Pacific

Insights into genetic variation and demographic history of sharpnose rays: examinations of three species of Telatrygon (Elasmobranchii, Dasyatidae) from the Indo‐West Pacific

Anthropogenic Influences on the Hydrodynamic and Tidal Discharge in Tongzhou Bay, Nantong, China

Tracking of Land Reclamation Activities Using Landsat Observations—An Example in Shanghai and Hangzhou Bay

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