Meike Katharina Heuck, Jeff R. Powell, Jarrod Kath, Christina Birnbaum, Adam Frew
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Efforts to classify AM fungi based on functional traits, such as the competitor, stress-tolerator, ruderal (C-S-R) framework, aim to address these gaps but face challenges due to the obligate symbiotic nature of the fungi. As the framework is still widely used, we evaluate its applicability in predicting global change impacts on AM fungal communities in agroecosystems. Chagnon's adaptation of the C-S-R framework for AM fungi aligns with some study outcomes (e.g., under the context of water limitation) but faces challenges when used in complex climate change scenarios, varying agricultural conditions and/or extreme climatic conditions. The reliance on a limited dataset to classify AM fungal families further limits accurate predictions of AM fungal community dynamics. 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引用次数: 0
摘要
丛枝菌根真菌(AM)通过与植物形成共生关系,在陆地生态系统中发挥着关键作用,并可减少对有害化肥和农药投入的依赖,增强植物抵御昆虫食草动物的能力,从而为可持续农业带来益处。尽管 AM 真菌具有重要的生态意义,但人们对 AM 真菌生态学认识的严重不足限制了对其在农业生态系统中应对全球变化的预测。然而,预测气候变化对兼性真菌的影响对于保持作物生产力和生态系统的稳定性非常重要。根据功能特征对AM真菌进行分类的努力,如竞争者、胁迫-调节剂、杂草(C-S-R)框架,旨在弥补这些差距,但由于真菌的强制性共生性质,这一努力面临着挑战。由于该框架仍在广泛使用,我们评估了它在预测全球变化对农业生态系统中AM真菌群落的影响方面的适用性。查格农对C-S-R框架的调整与一些研究结果(如在水分限制的情况下)相一致,但在复杂的气候变化情景、不同的农业条件和/或极端气候条件下使用时面临挑战。依靠有限的数据集对 AM 真菌科进行分类,进一步限制了对 AM 真菌群落动态的准确预测。收集性状数据可以帮助人们深入了解AM真菌,利用AM真菌数据库可以简化数据管理和分析,从而进一步明确AM真菌对环境变化的反应,指导生态系统管理实践。因此,尽管C-S-R框架前景广阔,但还需要更多的AM真菌性状数据来验证和提高其预测能力。总之,在设计基于生活史策略的实验和开发针对AM真菌的新框架之前,关键的第一步是全面了解它们的性状。
Evaluating the Usefulness of the C-S-R Framework for Understanding AM Fungal Responses to Climate Change in Agroecosystems
Arbuscular mycorrhizal (AM) fungi play a key role in terrestrial ecosystems by forming symbiotic relationships with plants and may confer benefits for sustainable agriculture, by reducing reliance on harmful fertiliser and pesticide inputs and enhancing plant resilience against insect herbivores. Despite their ecological importance, critical gaps in understanding AM fungal ecology limit predictions of their responses to global change in agroecosystems. However, predicting climate change impacts on AM fungi is important for maintaining crop productivity and ecosystem stability. Efforts to classify AM fungi based on functional traits, such as the competitor, stress-tolerator, ruderal (C-S-R) framework, aim to address these gaps but face challenges due to the obligate symbiotic nature of the fungi. As the framework is still widely used, we evaluate its applicability in predicting global change impacts on AM fungal communities in agroecosystems. Chagnon's adaptation of the C-S-R framework for AM fungi aligns with some study outcomes (e.g., under the context of water limitation) but faces challenges when used in complex climate change scenarios, varying agricultural conditions and/or extreme climatic conditions. The reliance on a limited dataset to classify AM fungal families further limits accurate predictions of AM fungal community dynamics. Trait data collection could support a nuanced understanding of AM fungi and leveraging AM fungal databases could streamline data management and analysis, enhancing efforts to clarify AM fungal responses to environmental change and guide ecosystem management practices. Thus, while the C-S-R framework holds promise, it requires additional AM fungal trait data for validation and improvement of its predictive power. Conclusively, before designing experiments based on life-history strategies and developing new frameworks tailored to AM fungi a critical first step is to gain a comprehensive understanding of their traits.
期刊介绍:
Global Change Biology is an environmental change journal committed to shaping the future and addressing the world's most pressing challenges, including sustainability, climate change, environmental protection, food and water safety, and global health.
Dedicated to fostering a profound understanding of the impacts of global change on biological systems and offering innovative solutions, the journal publishes a diverse range of content, including primary research articles, technical advances, research reviews, reports, opinions, perspectives, commentaries, and letters. Starting with the 2024 volume, Global Change Biology will transition to an online-only format, enhancing accessibility and contributing to the evolution of scholarly communication.
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