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Arthropod herbivores cause substantial economic costs that drive an increasing need to develop environmentally sustainable approaches to herbivore control. Increasing plant diversity is expected to limit herbivory by altering plant-herbivore and predator-herbivore interactions, but the simultaneous influence of these interactions on herbivore impacts remains unexplored. We compiled 487 arthropod food webs in two long-running grassland biodiversity experiments in Europe and North America to investigate whether and how increasing plant diversity can reduce the impacts of herbivores on plants. We show that plants lose just under half as much energy to arthropod herbivores when in high-diversity mixtures versus monocultures and reveal that plant diversity decreases effects of herbivores on plants by simultaneously benefiting predators and reducing average herbivore food quality. These findings demonstrate that conserving plant diversity is crucial for maintaining interactions in food webs that provide natural control of herbivore pests. 

The diversity of primary producers strongly affects the structure and diversity of species assemblages at other trophic levels. However, limited knowledge exists of how plant diversity effects at small spatial scales propagate to consumer communities at larger spatial scales. We assessed arthropod community β and γ‐diversity in response to experimentally manipulated plant community richness in two long‐term grassland biodiversity experiments (Jena, Germany and Cedar Creek, USA) replicated over two years. We calculated arthropod species turnover among all plot combinations (β‐diversity), and accumulated number of arthropod species occurring on (1) all pairwise plot combinations and (2) 40 randomly selected six‐plot combinations (γ‐diversity). The components of arthropod diversity were tested against two measures of plant diversity, namely average plant α‐diversity () and the average difference in plant α‐diversity between plots (ΔPSR). Whereas points to the overall importance of plant α‐diversity for arthropod community turnover and diversity on a larger scale, ΔPSR represents the role of habitat heterogeneity. We demonstrate that arthropod γ‐diversity is supported by high, homogeneous plant α‐diversity, despite lower arthropod β‐diversity among high‐ compared to low‐diversity plant communities. We also show that, in six‐plot combinations, average plant α‐diversity has a positive influence on arthropod γ‐diversity only when homogeneity in plant α‐diversity is also high. Varying heterogeneity in six‐plot combinations showed that combinations consisting solely of plots with an intermediate level of plant α‐diversity support a higher number of arthropod species compared to combinations that contain a mix of high‐ and low‐diversity plots. In fact, equal levels of arthropod diversity were found for six‐plot combinations with only intermediate or high plant α‐diversity, due to saturating benefits of local and larger‐scale plant diversity for higher trophic levels. Our results, alongside those of recent observational studies, strongly suggest that maintaining high α‐diversity in plant communities is important for conserving multiple components of arthropod diversity. As arthropods carry out a range of essential ecosystem functions, such as pollination and natural pest‐control, our findings provide crucial insight for effective planning of human‐dominated landscapes to maximize both ecological and economic benefits in grassland systems.