Editorial - (2021) Volume 11, Issue 9

Hong Kong's Marine Ecosystem over the Last 100 Years
Vasudevan Subramanyan*
 
Central Electrochemical Research Institute, India
 
*Correspondence: Senior Principal Scientist. Vasudevan Subramanyan, Central Electrochemical Research Institute, India, Email:

Received: 03-Sep-2021 Published: 13-Sep-2021, DOI: 10.35248/2252-5211.21.11.426

The skyscrapers and urban development that have made Hong Kong the "Pearl" have also generated pollutants that affect the marine species that live in Hong Kong's coastal waters. Ongoing climate change and dams along the Pearl River have also altered these coastal ecosystems. However, it is largely unknown in what ways they are altered, because we lack information about baseline conditions back then. "What were marine environments and organisms like in Hong Kong, say, 50 -- 100 years ago, when human activity was much more limited? How were they different from what we see today?"

Fortunately, young fossils can help to provide the answers. Researchers used tens of thousands of small fossil shells preserved in sediment on the seafloor to reconstruct Hong Kong's marine ecosystem over the last ~50 -- 100 years. Using sophisticated biodiversity measures recently developed by co-lead author, Researcher discovered that climate and metal pollution have played major roles in shaping present-day marine communities in Hong Kong. The finding has recently been published in Anthropocene.

"Climate change, specifically weakening of the East Asian Summer Monsoon, has resulted in less rain and less discharge of freshwater from the Pearl River and this has substantially impacted marine life in Hong Kong's eastern waters. In addition, metal pollution from wastewater and the antifouling paints used on ships have greatly altered marine communities in the central part of Hong Kong, such as Victoria Harbour"

Significant Impact on Rare Species

"Hong Kong's eastern waters are much less polluted than the central and western waters. However, these ecosystems are also much more sensitive to climate change. Future anthropogenic warming may reduce global ocean circulation and this may enhance the East Asian Summer Monsoon. So, organisms in Hong Kong's eastern waters may be confronted by enhanced discharge from the Pearl River and resulting lower salinity, higher turbidity, and muddier environments in the near future. Our research indicates that these environmental changes will especially affect rare species. Most species in tropical and subtropical places like Hong Kong are rare, so the anticipated changes may have a profound impact," researcher explained.

Hong Kong is one of the largest coastal cities in the world and has one of the world's busiest ports. Metal pollution, most likely generated from wastewater and the antifouling paints used on ships, has affected marine life in Victoria Harbour, which is surrounded by Tsim Sha Tsui and Causeway Bay (two of the biggest downtowns). "Hong Kong's western waters of the Pearl River estuary is resistant and resilient from climatic and anthropogenic changes rather surprisingly. It is also surprising that eutrophication and deoxygenation did not show any substantial effect on Hong Kong's marine ecosystem in our study. This may be because the Pearl River estuary and South China Sea in general are naturally rich in organic matter and nutrients from mega rivers and high precipitation, and also deoxygenation in Hong Kong is not too serious compared to other urbanised sea areas such as Chesapeake bay next to Washington DC, Tokyo Bay next to Tokyo, and Baltic Sea surrounded by many European cities".

"Hong Kong remains 'The Pearl' even in the sea, as these regions continue to harbour tremendously diverse marine life, but our research has shown that climate and human activities have changed our local marine ecosystem substantially in just 50 -100 years. Underwater change is more difficult to see, compared with deforestation or other modifications of the land".

Yet, small fossils can reveal the history of underwater change over past decades, centuries, or longer. "Empty shells on the seafloor allow us to 'time travel' to past marine ecosystems and determine the ways in which natural and anthropogenic environmental change have shaped marine communities".

Citation: Subramanyan V (2021) Hong Kong's Marine Ecosystem over the Last 100 Years. Int J Waste Resour 11: 426.

Copyright: ©2021 Subramanyan V. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.