The black carbon cycle and its role in the Earth system

碳循环 环境科学 地球系统科学 自行车 生物质燃烧 全球变暖 气候变化 地球科学 化石燃料 大气碳循环 全球变化 碳通量 海洋学 地质学 生态学 地理 生态系统 气象学 气溶胶 生物 考古
作者
Alysha I. Coppola,Sasha Wagner,Sinikka T. Lennartz,Michael Seidel,Nicholas Ward,Thorsten Dittmar,Cristina Santín,Matthew W. Jones
出处
期刊:Nature Reviews Earth & Environment [Nature Portfolio]
卷期号:3 (8): 516-532 被引量:213
标识
DOI:10.1038/s43017-022-00316-6
摘要

Black carbon (BC) is produced by incomplete combustion of biomass by wildfires and burning of fossil fuels. BC is environmentally persistent over centuries to millennia, sequestering carbon in marine and terrestrial environments. However, its production, storage and dynamics, and therefore its role in the broader carbon cycling during global change, are poorly understood. In this Review, we discuss BC cycling across the land-to-ocean continuum. Wildfires are the main source of BC, producing 128 ± 84 teragrams per year. Negative climate–BC feedbacks could arise as wildfire increases with anthropogenic warming, producing more BC, which in turn will sequester carbon, but the magnitude of these effects are unknown. Most BC is stored in terrestrial systems with some transported to the ocean via rivers and the atmosphere. However, the oceanic BC budget is not balanced, with known BC removal fluxes exceeding BC inputs. We demonstrate these observed inconsistencies using a simple ocean box model, which highlights key areas of future research. Measurements of BC mineralization and export rates along the land-to-ocean continuum and quantification of previously unexplored sources of oceanic BC are needed to close the global BC budget. Black carbon is produced by wildfire and fossil fuel burning, and persists in the environment over centuries to millennia. This Review describes black carbon sources and budgets, discusses its transport along the land-to-ocean continuum and highlights its enigmatic cycling in the ocean.
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