资源互补效应对多样性-生产力关系的影响

许多有关物种多样性-生态系统功能关系的观察、理论和实验研究都表明, 在局域尺度范围内, 植物种多样性对生态系统生产力存在正效应。 然而, 对于促成这种关系的潜在生态学机制却缺乏足够的了解。 该实验利用9种一年生栽培牧草, 采用各物种单播及混播的方法, 构建不同多样性梯度的实验群落, 对物种多样性与生态系统生产力的关系及资源互补效应对系统生产力的影响进行了研究。 结果表明, 在一年生植物群落内,植物种多样性在一定程度内对系统生产力存在正效应, 物种多样性与生产力呈二次函数关系, 关系式为y = -98.449x² + 1 039.2 x - 42.407, (R² = 0.423 1)。 各物种在资源利用、生长速度和竞争能力等功能特征方面存在较大差异, 最高产物种和最低产物种间产量相差5.8倍。 在同一多样性梯度内, 不同物种组合的群落间生产力和互补效应也存在较大差异, 说明物种的成分对生态系统生产力也有重要影响。 同时,在混播群落中程度不同地存在着资源的互补性利用, 说明物种多样性对系统生产力有增强作用, 但相关分析表明, 互补效应和物种多样性间不存在显著相关关系。互补效应的4种计算方法所反映的资源互补程度有所不同, 每种方法各有利弊, 在对系统的多样性效应作用机制进行评价时, 应根据具体情况, 同时采用几种方法, 以利于对资源互补效应做出恰当的估测。     

Effects of trait plasticity on aboveground biomass production depend on species identity in experimental grasslands

Experimental studies with grassland species found a positive relationship between species richness and community biomass production, however the response of individual species was highly variable. The mechanisms behind these patterns are poorly understood. Here we studied aboveground biomass production and plasticity of growth characteristics of four legumes with similar morphology (Lotus corniculatus, Medicago lupulina, Onobrychis viciifolia, Trifolium hybridum) in experimental grasslands varying in species richness (1, 2, 4, 8, 16 and 60) and composition. We identified O. viciifolia and T. hybridum as species that reached higher biomass production in mixtures than expected from monoculture yields, while L. corniculatus and M. lupulina mostly had lower yields than expected. Variation of morphological traits across the species-richness gradient was lowest in the highly competitive O. viciifolia, but increased in the smaller species. The tall-growing O. viciifolia achieved higher biomass production by both, a higher number of plant individuals and an increase in mean mass per individual. Mean shoot number per individual remained constant, but individuals produced heavier shoots. The medium-sized T. hybridum also increased the number of plant individuals, but mean mass per individual did not respond to community species richness. The average mass per shoot was increased in mixtures, but the species developed less shoots per individual. Shoot length and stem weight ratio of T. hybridum increased with community species richness. Morphological changes in the less successful L. corniculatus and M. lupulina with a smaller growth stature were similarly directed as those of T. hybridum. The observed morphological changes are known as typical shade-avoidance mechanisms in dense vegetation. Our study shows that stress responses to changes in resource availability may be a mechanism to enforce higher aboveground biomass production of individual species in mixtures, but it depends on species identity whether trait plasticity is large enough to exceed stress-induced growth limitations.