Biogeochemical cycling of sedimentary organic carbon and benthic nutrient fluxes in the semi-enclosed Jinhae Bay, Korea: insights into benthic-pelagic coupling

IF 2.8 2区生物学 Q1 MARINE & FRESHWATER BIOLOGY Frontiers in Marine Science Pub Date : 2025-01-22 DOI:10.3389/fmars.2024.1521036

Sung-Uk An, Kyung-Tae Kim, Sung-Han Kim, Ju-Wook Baek, Hyun-Jeong Jeong, Chul-In Sun, Jin Young Choi, Sokjin Hong, Dae In Lee, Jae Seong Lee

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Abstract

The mineralization of organic matter at the sediment plays a crucial role in ecosystem functioning by facilitating the biogeochemical cycling of carbon and nutrients. This process not only supports nutrient availability for primary production but also regulates the long-term storage of carbon within sediments. To understand the biogeochemical processes associated with organic matter mineralization and nutrient regeneration, we estimated total and diffusive sediment oxygen uptake rates, benthic nutrient fluxes, and organic carbon (OC) budgets at four sites in the semi-enclosed Jinhae Bay (JB). The total oxygen uptake (TOU) rates ranged from 38.4 to 49.6 mmol O2 m–2 d–1, and diffusive oxygen uptake (DOU) rates ranged from 12.3 ± 1.8 to 15.1 ± 1.4 mmol O2 m–2 d–1. The average ratio of TOU : DOU ranged from 3.12 to 3.28 over JB, which suggests significant benthic faunal activities in JB sediments. The vertical flux of organic carbon ranged from 45.5 ± 7.0 to 93.0 ± 25.3 mmol C m-2 d–1, and mainly consisted of biodeposits associated with aquaculture activities. The burial flux into the sediment ranged from 3.96 ± 1.00 to 7.17 ± 1.64 mmol C m–2 d–1, and burial efficiencies were 4.25 to 15.8%, which indicated that deposited organic carbon was either mineralized in surface sediment before burial or laterally transferred by resuspension. The benthic nutrient fluxes at four sites ranged from 1.50 to 2.07 mmol m–2 d–1 for nitrogen, from 0.02 to 0.05 mmol m–2 d–1 for phosphate, and from 6.72 to 9.11 mmol m–2 d–1 for silicate. The benthic nitrogen and phosphate fluxes accounted for 82.1 to 149% and 23.1 to 57.6%, respectively, of the required levels for primary production in the water column. Our results suggest that OC oxidation in the JB sediment may significantly contribute to the biogeochemical OC cycles and tight benthic–pelagic coupling associated with nutrient regeneration.

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韩国镇海半封闭海域沉积有机碳和底栖营养物通量的生物地球化学循环：对底-上层耦合的认识

沉积物中有机质的矿化作用通过促进碳和养分的生物地球化学循环在生态系统功能中起着至关重要的作用。这一过程不仅支持初级生产的养分利用率，而且还调节沉积物中碳的长期储存。为了了解与有机质矿化和养分再生相关的生物地球化学过程，我们在半封闭的镇海湾（JB）的四个地点估算了总吸氧速率和扩散吸氧速率、底栖生物养分通量和有机碳（OC）收支。总摄氧量（TOU）为38.4 ~ 49.6 mmol O2 m-2 d-1，弥漫性摄氧量（DOU）为12.3±1.8 ~ 15.1±1.4 mmol O2 m-2 d-1。在JB上，TOU: DOU的平均比值为3.12 ~ 3.28，表明JB沉积物中有明显的底栖动物活动。有机碳垂直通量范围为45.5±7.0 ~ 93.0±25.3 mmol C m-2 d-1，主要由与水产养殖活动相关的生物沉积物组成。沉积物的埋藏通量为3.96±1.00 ~ 7.17±1.64 mmol C m-2 d-1，埋藏效率为4.25 ~ 15.8%，表明沉积的有机碳要么在埋藏前在表层沉积物中矿化，要么通过再悬浮进行横向转移。4个地点底栖生物养分通量的变化范围为：氮为1.50 ~ 2.07 mmol m-2 d-1，磷酸盐为0.02 ~ 0.05 mmol m-2 d-1，硅酸盐为6.72 ~ 9.11 mmol m-2 d-1。底栖生物氮和磷酸盐通量分别占水柱初级生产所需水平的82.1 ~ 149%和23.1 ~ 57.6%。结果表明，JB沉积物中的OC氧化可能对生物地球化学OC循环和与养分再生相关的底-上层紧密耦合起着重要作用。

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来源期刊

Frontiers in Marine Science Agricultural and Biological Sciences-Aquatic Science

CiteScore

5.10

自引率

16.20%

发文量

2443

审稿时长

14 weeks

期刊介绍： Frontiers in Marine Science publishes rigorously peer-reviewed research that advances our understanding of all aspects of the environment, biology, ecosystem functioning and human interactions with the oceans. Field Chief Editor Carlos M. Duarte at King Abdullah University of Science and Technology Thuwal is supported by an outstanding Editorial Board of international researchers. This multidisciplinary open-access journal is at the forefront of disseminating and communicating scientific knowledge and impactful discoveries to researchers, academics, policy makers and the public worldwide. With the human population predicted to reach 9 billion people by 2050, it is clear that traditional land resources will not suffice to meet the demand for food or energy, required to support high-quality livelihoods. As a result, the oceans are emerging as a source of untapped assets, with new innovative industries, such as aquaculture, marine biotechnology, marine energy and deep-sea mining growing rapidly under a new era characterized by rapid growth of a blue, ocean-based economy. The sustainability of the blue economy is closely dependent on our knowledge about how to mitigate the impacts of the multiple pressures on the ocean ecosystem associated with the increased scale and diversification of industry operations in the ocean and global human pressures on the environment. Therefore, Frontiers in Marine Science particularly welcomes the communication of research outcomes addressing ocean-based solutions for the emerging challenges, including improved forecasting and observational capacities, understanding biodiversity and ecosystem problems, locally and globally, effective management strategies to maintain ocean health, and an improved capacity to sustainably derive resources from the oceans.