Nicholas E. Ray, Jannik Martens, Marco Ajmar, Tommaso Tesi, Evgeniy Yakushev, Ivan Gangnus, Jens Strauss, Lutz Schirrmeister, Igor Semiletov, Birgit Wild
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引用次数: 0
摘要
海洋中硅(Si)的供应在调节生物地球化学和生态过程中发挥着重要作用。北冰洋的硅预算似乎是平衡的,输入与输出相当,但目前还不清楚不断变化的气候会如何加剧这种平衡。在这项研究中,我们重点研究了北冰洋沿岸地区和大陆架沉积物中的硅循环,以更好地制约北冰洋的硅预算。我们首次估算了沿海叶多玛沉积物侵蚀产生的无定形硅(ASi)负荷(30-90 Gmol yr-1),其速率与河流产生的颗粒硅负荷(10-90 Gmol yr-1)相当。我们发现大陆架表层沉积物 ASi 与有机物含量之间存在正相关关系。将这些值与已公布的北极大陆架沉积物特性和埋藏率相结合,我们估计每年有 70 Gmol Si 埋藏在北极大陆架上,相当于北冰洋所有硅输入量的 4.5%。在拉普捷夫海和东西伯利亚海受主要河流影响的大陆架区域,沿巡航横断面沉积物溶解硅通量随距离河口的距离增加而增加。据我们估计,北极陆架沉积物每年回收的溶解硅(680 Gmol Si)大约是来自河流的溶解硅(340-500 Gmol Si)的两倍。
The Role of Coastal Yedoma Deposits and Continental Shelf Sediments in the Arctic Ocean Silicon Cycle
The availability of silicon (Si) in the ocean plays an important role in regulating biogeochemical and ecological processes. The Si budget of the Arctic Ocean appears balanced, with inputs equivalent to outputs, though it is unclear how a changing climate might aggravate this balance. In this study, we focus on Si cycling in Arctic coastal areas and continental shelf sediments to better constrain the Arctic Ocean Si budget. We provide the first estimate of amorphous Si (ASi) loading from erosion of coastal Yedoma deposits (30–90 Gmol yr−1), demonstrating comparable rates to particulate Si loading from rivers (10–90 Gmol yr−1). We found a positive relationship between surface sediment ASi and organic matter content on continental shelves. Combining these values with published Arctic shelf sediment properties and burial rates we estimate 70 Gmol Si yr−1 is buried on Arctic continental shelves, equivalent to 4.5% of all Si inputs to the Arctic Ocean. Sediment dissolved Si fluxes increased with distance from river mouths along cruise transects of shelf regions influenced by major rivers in the Laptev and East Siberian seas. On an annual basis, we estimate that Arctic shelf sediments recycle approximately up to twice as much DSi (680 Gmol Si) as is loaded from rivers (340–500 Gmol Si).
期刊介绍:
Global Biogeochemical Cycles (GBC) features research on regional to global biogeochemical interactions, as well as more local studies that demonstrate fundamental implications for biogeochemical processing at regional or global scales. Published papers draw on a wide array of methods and knowledge and extend in time from the deep geologic past to recent historical and potential future interactions. This broad scope includes studies that elucidate human activities as interactive components of biogeochemical cycles and physical Earth Systems including climate. Authors are required to make their work accessible to a broad interdisciplinary range of scientists.
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