物种丰富度
物种均匀度
生物群落
生态学
乡土植物
生物多样性
入侵物种
引进物种
伽马多样性
空间生态学
植物群落
生物
物种多样性
植被(病理学)
地理
α多样性
生态系统
病理
医学
作者
Suzanne Lefebvre,Josiane Segar,Ingmar R. Staude
摘要
Abstract Aim Although non‐native and invasive plants often pose a significant threat to biodiversity, global‐scale studies have yet to conclusively demonstrate a systematic pattern of reduced native plant diversity in areas affected by these invasions. Here, we aim to explore the association of non‐native and invasive plants with the species richness and evenness of plant communities from the local to global scale. Location Global. Methods We use the world's largest vegetation plot repository—sPlot—to compare species richness and community evenness between invaded (by invasive or non‐natives) and native plots of equal size, paired within 32 km 2 grid cells distributed across all continents. Aggregating plots at the cell, biome and global level, we also quantified differences in gamma diversity at different spatial scales. Results We found that invaded plots had higher species richness and similar community evenness, a trend largely consistent across biomes. The higher total species richness was not the result of additional invasive or non‐native species, as the number of native species was also higher in invaded plots. These patterns persisted at larger spatial scales. Cell, biome and global gamma species richness of invaded plots were consistently higher than of native plots. All these patterns held regardless of whether the non‐native species in a plot were invasive or non‐invasive. Main Conclusions Our study reveals a globally consistent pattern: plant diversity, both total and native, is higher when invasive or non‐native plants are present, spanning spatial scales from local to global. Although we cannot infer causal effects, our results challenge the prevailing hypothesis that non‐native and invasive species universally depress plant diversity.
科研通智能强力驱动
Strongly Powered by AbleSci AI