Abstract
Climate warming may disrupt trophic interactions, consequently influencing ecosystem functioning. Most studies have concentrated on the temperature-effects on plant-insect interactions at individual and population levels, with a particular emphasis on changes in phenology and distribution. Nevertheless, the available evidence from the community level is limited. A 3-year field manipulative experiment was performed to test potential responses of plant and insect communities, and plant-insect interactions, to elevated temperature in a meadow steppe. Warming increased the biomass of plant community and forbs, and decreased grass biomass, indicating a shift from grass-dominant to grass-forb mixed plant community. Reduced abundance of the insect community under warming, particularly the herbivorous insects, was attributed to lower abundance of Euchorthippus unicolor and a Cicadellidae species resulting from lower food availability and higher defensive herbivory. Lower herbivore abundance caused lower predator species richness because of reduced prey resources and contributed to an overall decrease in insect species richness. Interestingly, warming enhanced the positive relationship between insect and plant species richness, implying that the strength of the plant-insect interactions was altered by warming. Our results suggest that alterations to plant-insect interactions at a community level under climate warming in grasslands may be more important and complex than previously thought.
Highlights
Greater quantity of resources for insects, increasing their species richness and abundance[26,25]
Strong interannual variations were observed in the aboveground biomass (AGB) of the entire community, grasses, forbs, and Artemisia
The community AGB varied from 283.8 g/m2 in 2007, to 310.9 g/m2 in 2008 and 278.4 g/m2 in 2009, and grass AGB changed from 216.7 g/m2 in 2007, to 197.8 g/m2 in 2008 and 118.9 g/m2 in 2009 (Fig. 2D,E)
Summary
Greater quantity of resources for insects, increasing their species richness and abundance[26,25]. Elevated temperatures will stimulate the primary productivity of plant communities by directly enhancing photosynthesis[30], leading to increase canopy coverage and reduced light availability[31]. Warming may cause a decline in plant species richness, and rapid losses of plant species richness under climate warming have been widely observed[15,32]. Warming can change plant community composition[33], with shifts toward the declining dominance of competitive dominant grasses[16]. Such altered plant community characteristics may cascade to higher trophic levels. Decreased plant species richness may lead to reduced insect species richness, and increased plant biomass may cause enhanced insect abundance. Altered plant and insect communities may influence their interactions within a community context under warming
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