The ocean is an important inventory of anthropogenic mercury(Hg),yet the history of anthropogenic Hg accumulation in the ocean remains largely unexplored.Deep-sea corals are an emerging archive of past ocean chemistry...The ocean is an important inventory of anthropogenic mercury(Hg),yet the history of anthropogenic Hg accumulation in the ocean remains largely unexplored.Deep-sea corals are an emerging archive of past ocean chemistry,which take in sinking or suspended particulate organic matter as their food sources.Such organic matter would exchange Hg with the local seawater before being consumed by the deepsea corals.As such,the organics preserved in the coral skeleton may record the Hg evolution of the ambient seawater during the time of coral growth.Here,we report the first data on Hg concentrations variability of a deep-sea proteinaceous coral in the oligotrophic North Pacific at the water depth of 1249 m,in attempt to understand the transfer of anthropogenic Hg into the deep Pacific ocean over the last seven centuries.We find that the Hg concentrations of different coral growth layers have remained relatively constant albeit with considerable short-term variability through time.The overall stable Hg concentration of the last seven centuries recorded in our sample suggests that anthropogenic pollution is not yet a clearly resolvable component in the deep oligotrophic North Pacific waters,in agreement with rece nt estimation from modelling works and observational studies of modern seawater profiles.As there is hardly an unambiguous way to separate anthropogenic Hg from the natural background based on recent seawater profiles,our historical data provide valuable information helping to understand the oceanic cycle of Hg through time.展开更多
Exploring the mysteries of life is an eternal frontier of science. Containing complex and diverse organisms on the surface of the Earth is one of the most crucial characteristics that distinguish the Earth from other ...Exploring the mysteries of life is an eternal frontier of science. Containing complex and diverse organisms on the surface of the Earth is one of the most crucial characteristics that distinguish the Earth from other planets in the Solar system. Almost all animals, plants, and fungi that can be seen with the naked eye belong to eukaryotes。展开更多
基金the National Natural Science Foundation of China (Nos.41822603,41991325,41930533)the Strategic Priority Research Program of Chinese Academy of Sciences (No.XDB40010200)+1 种基金the Fundamental Research Funds for the Central Universities (No.0206-14380125)the Frontiers Science Center for Critical Earth Material Cycling Fund (No.DLTD2102)。
文摘The ocean is an important inventory of anthropogenic mercury(Hg),yet the history of anthropogenic Hg accumulation in the ocean remains largely unexplored.Deep-sea corals are an emerging archive of past ocean chemistry,which take in sinking or suspended particulate organic matter as their food sources.Such organic matter would exchange Hg with the local seawater before being consumed by the deepsea corals.As such,the organics preserved in the coral skeleton may record the Hg evolution of the ambient seawater during the time of coral growth.Here,we report the first data on Hg concentrations variability of a deep-sea proteinaceous coral in the oligotrophic North Pacific at the water depth of 1249 m,in attempt to understand the transfer of anthropogenic Hg into the deep Pacific ocean over the last seven centuries.We find that the Hg concentrations of different coral growth layers have remained relatively constant albeit with considerable short-term variability through time.The overall stable Hg concentration of the last seven centuries recorded in our sample suggests that anthropogenic pollution is not yet a clearly resolvable component in the deep oligotrophic North Pacific waters,in agreement with rece nt estimation from modelling works and observational studies of modern seawater profiles.As there is hardly an unambiguous way to separate anthropogenic Hg from the natural background based on recent seawater profiles,our historical data provide valuable information helping to understand the oceanic cycle of Hg through time.
基金supported by the National Natural Science Foundation of China (Nos.42225303 and 41872125)the National Key Research and Development Program of China (Nos.2022YFF0800300 and 2021YFA0718200)。
文摘Exploring the mysteries of life is an eternal frontier of science. Containing complex and diverse organisms on the surface of the Earth is one of the most crucial characteristics that distinguish the Earth from other planets in the Solar system. Almost all animals, plants, and fungi that can be seen with the naked eye belong to eukaryotes。
