Siliceous algae response to the “Great Acceleration” of the mid-20th century in Crawford Lake (Ontario, Canada): A potential candidate for the Anthropocene GSSP

Cale A. C. Gushulak, M. Marshall, B. Cumming, Brendan M. Llew-Williams, R. Timothy Patterson, F. M. McCarthy
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引用次数: 5

Abstract

Diatom and chrysophyte assemblages from varved sediments of meromictic Crawford Lake, Ontario record major environmental changes resulting from spatially broadening anthropogenic environmental stressors related to the “Great Acceleration” in the mid-20th century. Biannual assessment of diatom and chrysophyte assemblages over the last ~200 years allowed for rate of change analysis between adjacent samples that increased substantially during the mid-20th century, concurrent with significant generalized additive model trends. Changes in diatom and chrysophyte assemblages were likely driven by multiple anthropogenic stressors including local forestry harvesting, agriculture, and milling activities, acidic deposition from regional industrial processes, and anthropogenic climate warming. Novel siliceous algal assemblages now exist in Crawford Lake, likely related to the complexities of the above mentioned local and regional stressors. The major assemblage changes at the proposed base of the Anthropocene Epoch detected in this study support the laminated sequence from Crawford Lake as a strong potential candidate for the Anthropocene GSSP.
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克劳福德湖(加拿大安大略省)硅藻对20世纪中期“大加速”的响应:人类世GSSP的潜在候选者
20世纪中期,与“大加速”相关的人为环境压力空间扩大导致了加拿大安大略省克劳福德湖不同沉积物中的硅藻和绿藻组合的重大变化。在过去200年里,对硅藻和绿藻组合进行了两年一次的评估,以分析在20世纪中期显著增加的相邻样品之间的变化率,同时具有显著的广义加性模式趋势。硅藻和绿藻组合的变化可能受到多种人为压力因素的驱动,包括当地林业采伐、农业和铣削活动、区域工业过程产生的酸性沉积以及人为气候变暖。克劳福德湖现在存在新的硅质藻组合,可能与上述局部和区域压力源的复杂性有关。本研究检测到的人类世基底的主要组合变化支持了克劳福德湖层状层序作为人类世GSSP的强大候选序列。
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