Abstract
Frequent earthquakes, monsoon torrential rains and typhoons cause severe landslides and soil erosion in Taiwan. Hibiscus taiwanensis, Macaranga tanarius, and Mallotus paniculatus are major pioneer tree species appearing on landslide-scarred areas. Thus, these species can be used to restore the self-sustaining native vegetation on forest landslides, to control erosion, and to stabilize slope. However, their growth performance, root traits and biomechanical properties have not been well characterized. In this study, root system and root traits were investigated using the excavation method, and biomechanical tests were performed to determine the uprooting resistance, root tensile strength and Young’s modulus of 1-year-old Hibiscus taiwanensis, Macaranga tanarius, and Mallotus paniculatus seedlings. The results reveal that relative to H. taiwanensis, M. tanarius and M. paniculatus seedlings had significantly larger root collar diameter, longer taproot length, higher root biomass, higher root density, higher root length density, heavier root mass, larger external root surface area, higher root tissue density, larger root volume, longer total root length, and a higher root tip number. Additionally, the height of M. paniculatus seedlings was significantly higher than those of H. taiwanensis and M. tanarius. Furthermore, the uprooting resistance and root tensile strength of M. paniculatus seedlings was significantly higher than those of H. taiwanensis and M. tanarius. Young’s modulus of M. paniculatus and M. tanarius seedlings was also significantly higher than that of H. taiwanensis. These growth characteristics and biomechanical properties demonstrate M. paniculatus and M. tanarius are superior than H. taiwanensis, considering growth performance, root anchorage capability, tensile strength and Young’s modulus. Taken as a whole, the rank order for species selection of these pioneer species for reforestation comes as: M. paniculatus M. tanarius H. taiwanensis. These results, along with knowledge on vegetation dynamics following landslides, allow us to better evaluate the effect of selective removal management of pioneer species on the resilience and sustainability of landslides.
Highlights
Taiwan, a mountainous island, is one of the most vulnerable places to natural hazards on theEarth [1]
M. tanarius and M.and paniculatus were were categorized as VH(vertical and horizontal) type according to the root system categorized as VH- type according to the root system classificationclassification suggested suggested by Yen
Our findings demonstrate that M. tanarius and M. paniculatus seedlings with better growth performance than H. taiwanensis seedlings are more advantageous for soil bioengineering applications on landslide scars
Summary
A mountainous island, is one of the most vulnerable places to natural hazards on theEarth [1]. A mountainous island, is one of the most vulnerable places to natural hazards on the. Typhoons and earthquakes are the most serious and destructive hazards that cause many landslide disasters in forestland areas in Taiwan [2]. Landslide restoration and soil stabilization are major issues in forest ecosystem management. Forests 2020, 11, 179 are typical characteristics of forest landslides. Pioneer tree species play an important role in landslide restoration and soil conservation [3]. Successional reclamation can enhance natural successional processes for rehabilitation of drastically disturbed sites [4]. Soil bioengineering and successional reclamation can be applied to restore of self-sustaining native forest ecosystem [5]. In Hong Kong and Taiwan, soil bioengineering has been employed to enhance the stability of slopes [6,7]. Chou et al [8]
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
