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Ecological adaptation of Reaumuria soongorica root systemarchitecture to arid environments
Authors:LiShan Shan  Yi Li  DongMei Geng  QiuLian Dong
Affiliation:College of Forestry, Gansu Agricultural University, Lanzhou, Gansu 730070, China;College of Forestry, Gansu Agricultural University, Lanzhou, Gansu 730070, China;College of Forestry, Gansu Agricultural University, Lanzhou, Gansu 730070, China;College of Forestry, Gansu Agricultural University, Lanzhou, Gansu 730070, China
Abstract:The architectural parameters of Reaumuria soongorica root system in different habitats of Gansu Province, China were analyzed to examine its ecological adaptability to arid environments. Results show that: (1) Topological indices of R. Soongorica root system are small in all habitats, and root branching pattern tends to be dichotomous. Also, the indices gradually increase in the Minqin windblown sand region and the Zhangye Gobi region in Hexi Corridor, which indicates that drought tends to produce herringbone-like root branching patterns. (2) Fractal dimension values of R. Soongorica root system are small and not obvious in the Minqin windblown sand region and the Zhangye Gobi region in Hexi Corridor, with values of 1.1778 and 1.1169, respectively. Fractal dimension values are relatively large in Jiuzhoutai semi-arid hilly and gully region of the Loess Plateau, which indicates that the R. Soongorica root system has better fractal characteristics in this region than in the other regions. (3) Total branching ratios of the R. Soongorica root system in arid regions of Hexi Corridor are smaller than that in the Jiuzhoutai semi-arid hilly and gully region of the Loess Plateau. This shows that root branching ability in the semi-arid region is stronger, and it decreases to some degree with increased drought. (4) The root connection lengths of R. soongorica root system are long in all habitats, but there are significant length differences between the different habitats. The root connection length at the Minqin windblown sand region is the longest. It is concluded that R. soongorica adapts to arid environments by decreasing root branching, decreasing root overlap and increasing root connection length, which makes its root branching pattern tend to be herringbone-like to reduce competition in root internal environment for nutrients and to enhance root absorption rate of nutrients, and ensure effective nutrition space. Thus the roots can absorb enough water and nutrients in resource-poor settings to ensure normal physiological requirements.
Keywords:topological indices   fractal dimension   fractal abundance   ecological adaptation   root architecture
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