Annual Review of Marine Science Using Noble Gases to Assess the Ocean’s Carbon Pumps

Roberta C. Hamme; David P. Nicholson; William J. Jenkins; Steven R. Emerson

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Annual Review of Marine Science Using Noble Gases to Assess the Ocean’s Carbon Pumps

机译：海洋科学的年度审查利用惰性气体评估海洋碳泵

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Natural mechanisms in the ocean, both physical and biological, concentrate carbon in the deep ocean, resulting in lower atmospheric carbon dioxide. The signals of these carbon pumps overlap to create the observed carbon distribution in the ocean, making the individual impact of each pump difficult to disentangle. Noble gases have the potential to directly quantify the physical carbon solubility pump and to indirectly improve estimates of the biological organic carbon pump. Noble gases are biologically inert, can be precisely measured, and span a range of physical properties. We present dissolved neon, argon, and krypton data spanning the Atlantic, Southern, Pacific, and Arctic Oceans. Comparisons between deep-ocean observations and models of varying complexity enable the rates of processes that control the carbon solubility pump to be quantified and thus provide an important metric for ocean model skill. Noble gases also provide a powerful means of assessing air–sea gas exchange parameterizations.

机译：海洋中的自然机制，深海的物理和生物，浓缩碳，导致大气二氧化碳较低。这些碳泵的信号重叠以在海洋中产生观察到的碳分布，使得每个泵难以解开的各个泵。惰性气体具有直接量化物理碳溶解度泵并间接地改善生物有机碳泵的估计。惰性气体是生物惰性的，可以精确测量，跨越一系列物理性质。我们展示了跨越大西洋，南部，太平洋和北极海洋的溶解霓虹灯，氩气和氪数据。深海观测和不同复杂性模型之间的比较使得能够控制碳溶解度泵的过程率，从而为海洋模型技能提供重要的指标。惰性气体还提供了一种有力的方法来评估空中海运燃气交换参数化。

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《Annual review of marine science》 |2019年第1期|共29页
作者
Roberta C. Hamme; David P. Nicholson; William J. Jenkins; Steven R. Emerson;
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作者单位

School of Earth and Ocean Sciences University of Victoria Victoria British Columbia V8W 2Y2 Canada;

Marine Chemistry and Geochemistry Department Woods Hole Oceanographic Institution Woods Hole Massachusetts 02540 USA;

Marine Chemistry and Geochemistry Department Woods Hole Oceanographic Institution Woods Hole Massachusetts 02540 USA;

School of Oceanography University of Washington Seattle Washington 98195 USA;

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原文格式 PDF
正文语种 eng
中图分类海洋学;
关键词
Using Noble Gases; Assess the Ocean’s; Carbon Pumps;

机译：使用惰性气体;评估海洋;碳泵;

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专利

1. Annual Review of Marine Science Using Noble Gases to Assess the Ocean’s Carbon Pumps [J] . Roberta C. Hamme, David P. Nicholson, William J. Jenkins, Annual review of marine science . 2019,第1期

机译：海洋科学的年度审查利用惰性气体评估海洋碳泵
2. Annual Review of Marine Science The Water Mass Transformation Framework for Ocean Physics and Biogeochemistry [J] . Sjoerd Groeskamp, Stephen M. Griffies, Daniele Iudicone, Annual review of marine science . 2019,第1期

机译：海洋科学的年度审查海洋物理与生物地球化学水质转型框架
3. Annual Review of Marine Science Biologically Generated Mixing in the Ocean [J] . Eric Kunze Annual review of marine science . 2019,第1期

机译：海洋科学的年度审查生物科学在海洋中混合
4. NOAA NATIONAL CENTERS FOR COASTAL OCEAN SCIENCE- BIOGEOGRAPHY PROGRAM: INTEGRATION OF ECOLOGY AND GIS TO ASSESS IMPACTS OF CLIMATE CHANGE ON LIVING MARINE RESOURCES [C] . Mark E. Monaco Solutions to Coastal Disasters Conference Feb 24-27, 2002 San Diego, California . 2002

机译：NOAA国家海洋科学中心-生物地理计划：整合生态学和GIS来评估气候变化对海洋生物资源的影响
5. Ultra-low field magnetic resonance using optically pumped noble gases and SQUID detection. [D] . Wong-Foy, Annjoe Golangco. 2001

机译：使用光泵浦稀有气体和SQUID检测的超低场磁共振。
6. Oceanic acidification affects marine carbon pump and triggers extended marine oxygen holes [O] . Matthias Hofmann, Hans-Joachim Schellnhuber 2009

机译：海洋酸化影响船用碳泵并触发扩大的船用氧气孔
7. Oceanic acidification affects marine carbon pump and triggers extended marine oxygen holes [O] . Hofmann, Matthias, Schellnhuber, Hans-Joachim 2009

机译：海洋酸化影响船用碳泵并触发扩大的船用氧气孔

Annual Review of Marine Science Using Noble Gases to Assess the Ocean’s Carbon Pumps

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