期刊
JOURNAL OF APPLIED ECOLOGY
卷 52, 期 3, 页码 726-734出版社
WILEY
DOI: 10.1111/1365-2664.12425
关键词
biodiversity-ecosystem function relationship; biomass; constructed ecosystem; ecosystem services; living roof; overyielding; plant communities; species richness; stormwater; urban ecology
资金
- NSERC Discovery grant
Constructed ecosystems such as green roofs often contain monocultures or low-diversity plant communities, but adding more plant species to these systems can increase ecosystem service provisioning. Mixture advantage, when species-rich treatments outperform the best monocultures, is desirable in constructed ecosystems due to the cost of increasing diversity. However, there have not been any studies in constructed ecosystems that have quantitatively compared mixtures with the best monocultures for multifunctionality, and there have been few studies that have examined how provision of ecosystem services changes over time as plant communities develop. In a green roof system, I predicted (i) that the mixture advantage would be stronger for ecosystem multifunctionality than for single ecosystem functions and (ii) that ecosystem service provisioning and complementarity in above-ground biomass would increase over time. Fifteen monocultures of plant species from five life-form groups (succulents, tall forbs, dwarf shrubs, creeping forbs, grasses) were compared with three-species mixtures of the same life-form and mixtures of species from three and five different life-forms in a modular green roof system. Indicators of ecosystem services including above-ground production, thermal regulation, stormwater retention, nutrient uptake and carbon sequestration and two indices of ecosystem multifunctionality were compared. Canopy density increased over time while substrate temperature decreased, suggesting higher provisioning of valuable ecosystem services. For single services, the positive relationship between planted species richness and ecosystem service grew stronger over time, but was consistently strong over time for multifunctionality. Quantile regression indicated a weak mixture advantage for several services including both multifunctionality indices. While the effects were small, different species optimized different functions, thus multifunctioning is enhanced in more diverse mixtures by combining species that maximize different functions. Tripartite partitioning of canopy density showed that overyielding and trait-independent complementarity fluctuated between years in response to shifts in species abundances, but dominance and trait-dependent complementarity increased over time.Synthesis and applications. This study provides the first evidence in a constructed ecosystem that mixtures can outperform the best monocultures for multiple ecosystem services. Mixtures of plant life-forms can improve green roof performance. The biodiversity-ecosystem function relationships observed in natural ecosystems can also occur in novel and highly simplified engineered ecosystems. This study provides the first evidence in a constructed ecosystem that mixtures can outperform the best monocultures for multiple ecosystem services. Mixtures of plant life-forms can improve green roof performance. The biodiversity-ecosystem function relationships observed in natural ecosystems can also occur in novel and highly simplified engineered ecosystems.
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