Synergistic warming- and catchment-driven mid-Holocene cyanobacterial development: Pigment evidence from shallow eutrophic Lake Mayinghai on the Chinese Loess Plateau

Zhang, Xiaosen; Su, Ling; Zhang, Jingyue; Shen, Zebang; Zhang, Shengrui; Xu, Qinghai; Liu, Jianbao

doi:10.3389/feart.2022.984420

Front. Earth Sci.

2023

DOI: 10.3389/feart.2022.984420

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Synergistic warming- and catchment-driven mid-Holocene cyanobacterial development: Pigment evidence from shallow eutrophic Lake Mayinghai on the Chinese Loess Plateau

Xiaosen Zhang

Ling Su²,

Jingyue Zhang³

et al.

Abstract: The current lake environmental problem of harmful cyanobacterial blooms cannot be mitigated effectively despite numerous eutrophication control strategies, and climate warming may have been considered as a potential key driver. However, it is still unclear how climate change and associated natural processes influence cyanobacterial development. Here we use a sedimentary pigment record from a remote, alpine, small and eutrophic lake (Lake Mayinghai) on the Chinese Loess Plateau and take the mid-Holocene as an a… Show more

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2024

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Distribution and Preservation of Total Organic Carbon and Total Inorganic Carbon in Pipahai Lake over the Past Century

Zhen,

Xu,

Gao

2024

Water

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Carbon burial patterns in lakes and their dynamic changes significantly impact terrestrial carbon sink fluxes and global carbon budgets. In this study, multi-indicator analysis of sediment core samples (P1, P2, and P3) from Pipahai Lake was conducted. Integrating the chronological sequences of 210Pb and 137Cs, we identified the historical changes and spatial characteristics of total organic carbon (TOC) and inorganic carbon (TIC) burial in Pipahai Lake since 1884. The results show that the TOC content was higher than that of the TIC. They exhibited an increasing trend with decreasing depth. Linear regression results indicated that the variation of TOC is less directly affected by precipitation (R = 0.39) and temperature (R = 0.58), while temperature may have a greater impact on TOC. From 1884 to 1995, nutrients were not the primary factor influencing changes in TOC. The synchronous variation in TIC and TOC contents reflects a higher contribution of external inputs to carbon burial in the Pipahai Lake basin. After 1996, nutrients may have begun to affect variations in TOC. The TOC primarily originates from distal aeolian transport or autochthonous sources, though human activity has played a role in its evolution. The TIC content is controlled by the TOC content and autochthonous sources. This study will contribute to the understanding of the carbon cycling dynamics and their influencing mechanisms in a high-altitude lake ecosystem.

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Distribution and Preservation of Total Organic Carbon and Total Inorganic Carbon in Pipahai Lake over the Past Century

Zhen,

Xu,

Gao

2024

Water

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Synergistic warming- and catchment-driven mid-Holocene cyanobacterial development: Pigment evidence from shallow eutrophic Lake Mayinghai on the Chinese Loess Plateau

Cited by 1 publication

References 76 publications

Distribution and Preservation of Total Organic Carbon and Total Inorganic Carbon in Pipahai Lake over the Past Century

Distribution and Preservation of Total Organic Carbon and Total Inorganic Carbon in Pipahai Lake over the Past Century

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