生态学报2018,Vol.38Issue(4):1176-1182,7.DOI:10.5846/stxb201701200172
尕海湿地不同密度条件下垂穗披碱草根系分形结构
Fractal root systems of Elymus nutans under different density conditions in Gahai Wetland
摘要
Abstract
Fractal root systems affect the distribution pattern of root systems,and are important to understand the environmental adaption mechanism of roots under the habitation stress.The objective of this study was to examine the relationship between root fractal dimension and root fractal abundance of Elymus nutans in response to density in the northwest of China.The study site was located in Gahai Wetland,Gansu Province,China (102.08°-102.47° E,33.97°-34.32° N).The altitude of the study site is 3430-4300 m,whereas the average annual temperature is 2.3℃.Sixty samples (1 m × 1 m) were set up along the river bank to investigate the density of E.nutans in August 2016.Population density was categorized as high (Ⅰ,500-700 plant/m2),medium (Ⅱ,300-500 plant/m2),and low (Ⅲ,100-300 plant/m2).The density,height,coverage,and above-ground biomass of the plant communities were recorded from 1 m × 1 m grids in the three densities with six replications,The SC-900 Soil Compaction Meter was used to measure soil compaction in each grid with five replications.The XDB-12 Root Sampler was used to collect the roots of E.nutans,and samples from each grid were sieved completely to collect 60 roots,which were transferred to the laboratory.Afterward,the method of excavation of the whole root system was used to dig soil cores (30 cm × 30 cm × 50 cm) from six grids (30 cm × 30 cm) from the three density gradients.Then the sieve (mesh size=0.25 mm) was used to clean the soil core in the nearby river,and the roots were collected and transferred to the laboratory.Meanwhile,we adopted the method of stratifying the sampling (0-50 cm).In the laboratory,the root samples of E.nutans were scanned using Win-RHIZO to measure the root fractal dimension and fractal abundance,and the biomass was measured for different plots after being dried in an oven (at 105 ℃ for 12 h).Similarly,soil moisture content was measured by oven-drying (at 84 ℃ for 24 h).The results showed that as the population density changed from high-medium to low-medium,the coverage,height,above-ground biomass,and fractal dimensions of the plants displayed a pattern of steady decline,whereas below-ground biomass,root-shoot ratio,main root to lateral root ratio,fractal abundance of the population,and soil compaction increased.Root fractal dimension and root fractal abundance were negatively correlated (P<0.05)across the alpine wetland.A highly significantly negative correlation (P<0.01) was observed between root fractal dimension and root fractal abundance in the high density (Ⅰ) and low density (Ⅲ) wetlands of E.nutans population,whereas a less significant correlation (P < 0.05) was observed in the medium density (Ⅱ) wetlands.With the change in density,the root fractal dimension of E.nutans decreased whereas the root fractal abundance increased,which reflected the trade-off mechanism of different root traits.关键词
密度/根系构型/垂穗披碱草/分形维数/分形丰度/尕海湿地Key words
density/root architecture/Elymus nutans/fractal dimension/fractal abundance/Gahai Wetland引用本文复制引用
李雪萍,赵成章,任悦,张晶,雷蕾..尕海湿地不同密度条件下垂穗披碱草根系分形结构[J].生态学报,2018,38(4):1176-1182,7.基金项目
国家自然科学基金项目(41461013,91125014) (41461013,91125014)
甘肃省生态学重点学科基金项目 ()
