无人机飞播参数优选与DSE浸种荞麦生态修复效应研究

Study on parameters optimization of unmanned aerial vehicle and ecological remediation of buckwheat stained with DSE

  • 摘要: 陕北矿区地势复杂多变、地形沉陷及地裂缝导致机械生态修复困难,基于北方天途八旋翼无人机,以荞麦为试验对象,研究了飞播参数对无人机飞播作业的影响,并探究了深色有隔内生真菌(DSE)浸种后无人机飞播荞麦生态修复效应。结果表明:飞播参数对荞麦种子有效幅宽与飞播均匀性有显著影响,获得无人机最优飞播参数为高转速、飞行高度2.5 m、飞行速度4 m/s、作业间距6 m;该飞播参数下荞麦DSE接菌区,其生长期株高、地径和地上生物量分别比对照区提高了11%、25%、49%;接种DSE可有效提高荞麦叶片叶色值和光合速率,促进荞麦根系生长,提高荞麦产量和品质,无人机飞播联合DSE浸种促生技术可为西部煤矿区复杂地形生态修复奠定技术基础。

     

    Abstract: The complex and changeable terrain, subsidence topography and land fissures of mining area in northern Shaanxi make it difficult for mechanical restoration of ecological environment. Based on M8A20A eight-rotor UAV platform, this study investigated the effects of the optimal parameters on aerial seeding, and the ecological restoration of buckwheat by DSE infection and aerial seeding. Results showed that the flight parameters had significant effects on the available width and uniformity of buckwheat seeds. The optimal parameters of aerial seeding includehigh speed, flight height of 2.5 m, flight speed of 4.0 m/s and operating distance of 6.0 m. Compared with the control group, plant height, ground diameter and above-ground biomass of the buckwheat infected with Dark Septate Endophytes(DSE)increased by 11%、25%、49%, respectively. In addition, the DSE infection could increase the SPADR and photosynthetic rate of buckwheat, promoting the root to grow and improving the yield and quality of buckwheat. This UAV aerial seeding combined with growth promotion of DSE infection could offer reference for ecological restoration of complex terrain in the western mining areas.

     

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