Barnard College, Columbia University, 3009 Broadway, New York, NY 10027, USA.
Microb Ecol. 2012 May;63(4):804-12. doi: 10.1007/s00248-011-9973-x. Epub 2011 Nov 12.
Plant diversity is considered one factor structuring soil fungal communities because the diversity of compounds in leaf litter might determine the extent of resource heterogeneity for decomposer communities. Lowland tropical rain forests have the highest plant diversity per area of any biome. Since fungi are responsible for much of the decomposition occurring in forest soils, understanding the factors that structure fungi in tropical forests may provide valuable insight for predicting changes in global carbon and nitrogen fluxes. To test the role of plant diversity in shaping fungal community structure and function, soil (0-20 cm) and leaf litter (O horizons) were collected from six established 1-ha forest census plots across a natural plant diversity gradient on the Isthmus of Panama. We used 454 pyrosequencing and phospholipid fatty acid analysis to evaluate correlations between microbial community composition, precipitation, soil nutrients, and plant richness. In soil, the number of fungal taxa increased significantly with increasing mean annual precipitation, but not with plant richness. There were no correlations between fungal communities in leaf litter and plant diversity or precipitation, and fungal communities were found to be compositionally distinct between soil and leaf litter. To directly test for effects of plant species richness on fungal diversity and function, we experimentally re-created litter diversity gradients in litter bags with 1, 25, and 50 species of litter. After 6 months, we found a significant effect of litter diversity on decomposition rate between one and 25 species of leaf litter. However, fungal richness did not track plant species richness. Although studies in a broader range of sites is required, these results suggest that precipitation may be a more important factor than plant diversity or soil nutrient status in structuring tropical forest soil fungal communities.
植物多样性被认为是土壤真菌群落结构的一个因素,因为叶凋落物中的化合物多样性可能决定了分解者群落资源异质性的程度。低地热带雨林的单位面积内拥有最高的植物多样性。由于真菌在森林土壤的分解中起着重要作用,因此了解影响热带森林真菌结构的因素可能为预测全球碳和氮通量的变化提供有价值的见解。为了测试植物多样性在塑造真菌群落结构和功能中的作用,我们从巴拿马地峡自然植物多样性梯度上的六个 1 公顷森林普查样地中收集了土壤(0-20 厘米)和叶凋落物(O 层)。我们使用 454 焦磷酸测序和磷脂脂肪酸分析来评估微生物群落组成、降水、土壤养分和植物丰富度之间的相关性。在土壤中,真菌分类群的数量随着年平均降水量的增加而显著增加,但与植物丰富度无关。叶凋落物中的真菌群落与植物多样性或降水之间没有相关性,并且发现土壤和叶凋落物中的真菌群落在组成上存在明显差异。为了直接测试植物物种丰富度对真菌多样性和功能的影响,我们在装有 1、25 和 50 种凋落物的凋落物袋中实验性地重新创造了凋落物多样性梯度。6 个月后,我们发现凋落物多样性对 1 到 25 种叶凋落物之间的分解速率有显著影响。然而,真菌丰富度并没有跟踪植物物种的丰富度。尽管需要在更广泛的地点进行研究,但这些结果表明,降水可能比植物多样性或土壤养分状况更能影响热带森林土壤真菌群落的结构。
