Constraints and Drivers of Dissolved Fluxes of Pyrogenic Carbon in Soil and Freshwater Systems: A Global Review and Meta-Analysis

IF 5.4 2区 地球科学 Q1 ENVIRONMENTAL SCIENCES
R. B. Abney, M. E. Barnes, A. Moss, F. Santos
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引用次数: 0

Abstract

Pyrogenic carbon (PyC) is a significant component of the global soil carbon pool due to its longer environmental persistence than other soil organic matter components. Despite PyC's persistence in soil, recent work has indicated that it is susceptible to loss processes such as mineralization and leaching, with the significance and magnitude of these largely unknown at the hillslope and watershed scales. We present a review of the work concerning dissolved PyC transport in soil and freshwater. Our analysis found that the primary environmental controls on dissolved PyC (dPyC) transport are the formation conditions and quality of the PyC itself, with longer and higher temperature charring conditions leading to less transport of dPyC. While correlations between dPyC and dissolved organic carbon in rivers and other pools are frequently reported, the slope of these correlations was pool-dependent (i.e., soil-water, precipitation, lakes, streams, rivers), suggesting site-specific environmental controls. However, the lack of consistency in analytical techniques and sample preparation remains a major challenge to quantifying environmental controls on dPyC fluxes. We propose that future research should focus on the following: (a) consistency in methodological approaches, (b) more quantitative measures of dPyC in pools and fluxes from soils to streams, (c) turnover times of dPyC in soils and aquatic systems, and (d) improved understanding of how mechanisms controlling the fate of dPyC in dynamic post-fire landscapes interact. With more refined quantitative information about the controls on dPyC transport at the hillslope and landscape scale, we can increase the accuracy and utility of global carbon models.

Abstract Image

土壤和淡水系统中热原碳溶解通量的制约因素和驱动因素:全球综述与元分析
气态碳(PyC)是全球土壤碳库的重要组成部分,因为它比其他土壤有机质成分在环境中的持久性更长。尽管 PyC 在土壤中具有持久性,但最近的研究表明,它很容易受到矿化和淋溶等损失过程的影响,而在山坡和流域尺度上,这些损失过程的重要性和规模在很大程度上是未知的。我们回顾了有关土壤和淡水中溶解 PyC 迁移的工作。我们的分析发现,溶解 PyC(dPyC)迁移的主要环境控制因素是 PyC 本身的形成条件和质量,炭化时间越长、温度越高,dPyC 的迁移量就越少。虽然经常有报告称河流和其他水池中的 dPyC 与溶解有机碳之间存在相关性,但这些相关性的斜率取决于水池(即土壤-水、降水、湖泊、溪流、河流),这表明存在特定地点的环境控制。然而,分析技术和样品制备缺乏一致性仍然是量化环境对 dPyC 通量控制的主要挑战。我们建议未来的研究应侧重于以下方面:(a) 方法的一致性;(b) 更量化地测量 dPyC 在池中的含量以及从土壤到溪流的通量;(c) dPyC 在土壤和水生系统中的周转时间;(d) 进一步了解控制 dPyC 在火灾后动态景观中归宿的机制是如何相互作用的。有了关于山坡和景观尺度上 dPyC 迁移控制的更精细的定量信息,我们就能提高全球碳模型的准确性和实用性。
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来源期刊
Global Biogeochemical Cycles
Global Biogeochemical Cycles 环境科学-地球科学综合
CiteScore
8.90
自引率
7.70%
发文量
141
审稿时长
8-16 weeks
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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