State Key Laboratory of Vegetation and Environmental Change, Institute of Botany, Chinese Academy of Sciences, Beijing, China.
Forest Nature Conservation, University of Göttingen, Göttingen, Germany.
Nat Ecol Evol. 2024 Nov;8(11):2037-2047. doi: 10.1038/s41559-024-02517-2. Epub 2024 Aug 29.
Ecosystem functioning depends on biodiversity at multiple trophic levels, yet relationships between multitrophic diversity and ecosystem multifunctionality have been poorly explored, with studies often focusing on individual trophic levels and functions and on specific ecosystem types. Here, we show that plant diversity can affect ecosystem functioning both directly and by affecting other trophic levels. Using data on 13 trophic groups and 13 ecosystem functions from two large biodiversity experiments-one representing temperate grasslands and the other subtropical forests-we found that plant diversity increases multifunctionality through elevated multitrophic diversity. Across both experiments, the association between multitrophic diversity and multifunctionality was stronger than the relationship between the diversity of individual trophic groups and multifunctionality. Our results also suggest that the role of multitrophic diversity is greater in forests than in grasslands. These findings imply that, to promote sustained ecosystem multifunctionality, conservation planning must consider the diversity of both plants and higher trophic levels.
生态系统功能取决于多个营养层次的生物多样性,但多营养多样性与生态系统多功能性之间的关系还未得到充分探索,研究往往集中在单个营养层次和功能以及特定生态系统类型上。在这里,我们表明植物多样性可以通过直接和影响其他营养层次来影响生态系统功能。利用来自两个大型生物多样性实验的数据——一个代表温带草原,另一个代表亚热带森林——我们发现植物多样性通过提高多营养多样性来增加多功能性。在这两个实验中,多营养多样性与多功能性之间的关联比个别营养群体多样性与多功能性之间的关系更强。我们的研究结果还表明,多营养多样性在森林中的作用大于在草原中的作用。这些发现意味着,为了促进生态系统多功能性的持续,保护规划必须考虑植物和更高营养层次的多样性。
