Carbon cycling through plant and fungal herbarium specimens tracks the Suess effect over more than a century of environmental change

IF 1.9 3区 环境科学与生态学 Q3 ECOLOGY
Talia Michaud , Erik Hobbie , Peter Kennedy
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Abstract

Although the anthropogenic decline in atmospheric carbon stable isotope ratios (δ13C) over the last 150 years (termed the Suess effect) is well-studied, how different terrestrial trophic levels and modes reflect this decline remains unresolved. To evaluate the Suess effect as an opportunistic tracer of terrestrial forest carbon cycling, this study analyzed the δ13C in herbarium specimens collected in Minnesota, USA from 1877 to 2019. Our results suggest that both broadleaf trees and ectomycorrhizal fungi relied on recent photosynthate to produce leaves and sporocarps, while saprotrophic fungi on average used carbon fixed from the atmosphere 32–55 years ago for sporocarp construction. The δ13C values of saprotrophic fungal collections were also sensitive to the age of their plant carbon substrate, with sporocarps of twig specialists tracking changes in atmospheric δ13C more closely than saprotrophs growing on logs. Collectively, this study indicates that natural history collections can quantitatively track carbon cycling among plants and fungi over time.

通过植物标本馆的植物和真菌标本追踪一个多世纪以来环境变化的苏斯效应的碳循环情况
尽管过去 150 年来大气碳稳定同位素比(δ13C)的人为下降(称为 "苏斯效应")已得到充分研究,但不同陆地营养级和模式如何反映这种下降仍未得到解决。为了评估作为陆地森林碳循环机会性示踪剂的 "绪斯效应",本研究分析了1877年至2019年在美国明尼苏达州采集的标本中的δ13C。我们的研究结果表明,阔叶树和外生菌根真菌都依赖于新近的光合作用来产生叶子和孢子体,而嗜吮吸真菌平均使用32-55年前从大气中固定的碳来建造孢子体。嗜树真菌采集的δ13C值对其植物碳基质的年龄也很敏感,树枝专家的孢子体比生长在原木上的嗜树真菌更密切地跟踪大气δ13C的变化。总之,这项研究表明,自然历史采集物可以定量跟踪植物和真菌随时间的碳循环。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Fungal Ecology
Fungal Ecology 环境科学-生态学
CiteScore
5.80
自引率
3.40%
发文量
51
审稿时长
3 months
期刊介绍: Fungal Ecology publishes investigations into all aspects of fungal ecology, including the following (not exclusive): population dynamics; adaptation; evolution; role in ecosystem functioning, nutrient cycling, decomposition, carbon allocation; ecophysiology; intra- and inter-specific mycelial interactions, fungus-plant (pathogens, mycorrhizas, lichens, endophytes), fungus-invertebrate and fungus-microbe interaction; genomics and (evolutionary) genetics; conservation and biodiversity; remote sensing; bioremediation and biodegradation; quantitative and computational aspects - modelling, indicators, complexity, informatics. The usual prerequisites for publication will be originality, clarity, and significance as relevant to a better understanding of the ecology of fungi.
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