State Key Laboratory of Lake Science and Environment, Nanjing Institute of Geography and Limnology, Chinese Academy of Sciences, Nanjing, China.
School of Geography and Environmental Science, University of Southampton, Southampton, UK.
Glob Chang Biol. 2019 Nov;25(11):3871-3882. doi: 10.1111/gcb.14776. Epub 2019 Aug 26.
Lake biodiversity is an incomplete indicator of exogenous forcing insofar as it ignores underlying deformations of community structure. Here, we seek a proxy for deformation in a network of diatom assemblages comprising 452 species in 273 lakes across China. We test predictions from network theory that nodes of similar type will tend to self-organize in an unstressed system to a positively skewed frequency distribution of nodal degree. The empirical data reveal shifts in the frequency distributions of species associations across regions, from positive skew in lakes in west China with a history of low human impacts, to predominantly negative skew amongst lakes in highly disturbed regions in east China. Skew values relate strongly to nutrient loading from agricultural activity and urbanization, as measured by total phosphorus in lake water. Reconstructions through time show that positive skew reduces with temporal intensification of human impacts in the lake and surrounding catchments, and rises as lakes recover from disturbance. Our study illustrates how network parameters can track the loss of aquatic assemblage structure in lakes associated with human pressures.
湖生物多样性是外在驱动力的不完整指标,因为它忽略了群落结构的潜在变形。在这里,我们在中国 273 个湖泊的 452 种硅藻组合网络中寻找变形的替代指标。我们检验了网络理论的预测,即相似类型的节点在不受压力的系统中倾向于自我组织,形成正偏态节点度频率分布。实证数据揭示了物种关联频率分布在区域间的变化,从历史上人类影响较小的中国西部湖泊的正偏,到中国东部高度受干扰地区湖泊的主要负偏。偏度值与农业活动和城市化引起的营养负荷密切相关,用湖水总磷来衡量。随着时间的推移进行重建表明,正偏度随着湖泊及其周围集水区人类活动的时间强化而降低,并且随着湖泊从干扰中恢复而增加。我们的研究说明了网络参数如何跟踪与人类压力相关的湖泊水生组合结构的丧失。
