Daniel R . % % Lammel, Szymczak, Aleksandra % Bielcik,米洛斯岛% Rillig,马蒂亚斯·C·% D J生态学与进化领域2023% 雷竞技rebat% C % F % G英语% K真菌、温度压力、加热波,物种相互作用,生态% Q % 10.3389 R / W fevo.2022.1028136 % % L % M % P % 7% 8 2023 - 2月- 09年% 9原始研究% # % !真菌生长反应加热% * % < % T真菌生长响应循环加热事件是由物种相互作用调制% U //www.thespel.com/articles/10.3389/fevo.2022.1028136 % V 10% 0期刊文章% @ 2296 - 701 X %越来越热事件的雷竞技rebat频率会影响关键生物与生态系统功能有关。土壤腐生的真菌有重要的作用在碳和土壤养分循环,他们显然是受到热事件。单独的测试时,腐生的土壤真菌表现出各种各样的增长对一系列两个热事件的反应。然而,这些真菌在自然界中,很少独自成长。共存理论预言的多样性对压力的反应会影响物种相互作用和增长的结果。这意味着不同真菌的co-cultivation可能影响他们的生长响应热事件。为了测试循环热事件影响真菌生长在小综合社区,我们之前评估真菌在实验响应循环热事件两个和三个物种组成的小型社区。对真菌生长的,令人惊讶的是,大多数的反应无法预测的单独隔离的反应如何。在某些情况下,便利或观察竞争加剧。 For the three fungi growing together, results were also not predicted by the individual or pair responses. Both the heat events and the small communities influenced the growth of the fungi and growth properties emerged from the interactions among isolates and the heat stress. We show that not only do environmental conditions influence fungal interactions and growth rates but also that the co-cultivation of different fungi affects the fungal response to recurring heat events. These results indicate that more complex experimental designs are needed to better understand the effects of recurring heat events and climate change on soil fungi.