minirhizotron study
微根管研究
minirhizotron data
微根管数据
minirhizotron images
微根管图像
using minirhizotron
使用微根管
minirhizotron observations
微根管观测
minirhizotron equipment
微根管设备
minirhizotron technology
微根管技术
minirhizotron system
微根管系统
minirhizotron installation
微根管安装
minirhizotron cameras
微根管相机
scientists installed a minirhizotron tube to observe root growth underground.
科学家安装了一个微根管来观察地下的根系生长。
the minirhizotron imaging system captured high-resolution images of fungal associations.
微根管成像系统捕捉到了真菌共生的高分辨率图像。
we used a minirhizotron camera to monitor root turnover dynamics.
我们使用微根管摄像机监测根系周转动态。
minirhizotron data provides non-destructive estimates of fine root production.
微根管数据提供了细��产量的非破坏性估算。
the study compared drought effects using minirhizotron observations in wheat.
这项研究利用微根管观察比较了干旱对小麦的影响。
proper installation of the minirhotron tube prevents soil profile disturbance.
正确安装微根管可防止土壤剖面受到干扰。
researchers analyze video from the minirhizotron to classify root health.
研究人员分析微根管的视频以对根系健康状况进行分类。
minirhizotron technology allows repeated measurements of the same root system.
微根管技术允许对同一根系进行重复测量。
seasonal changes in root length were visible via the minirhizotron.
通过微根管可以观察到根长的季节性变化。
accessing deep soil layers requires careful minirhizotron placement during drilling.
要进入深层土壤,需要在钻孔过程中小心放置微根管。
the minirhizotron is an essential tool for modern root ecology studies.
微根管是���代根系生态学研究的重要工具。
digital minirhizotron images help quantify root biomass in forest ecosystems.
数字微根管图像有助于量化森林生态系统中的根系生物量。
minirhizotron study
微根管研究
minirhizotron data
微根管数据
minirhizotron images
微根管图像
using minirhizotron
使用微根管
minirhizotron observations
微根管观测
minirhizotron equipment
微根管设备
minirhizotron technology
微根管技术
minirhizotron system
微根管系统
minirhizotron installation
微根管安装
minirhizotron cameras
微根管相机
scientists installed a minirhizotron tube to observe root growth underground.
科学家安装了一个微根管来观察地下的根系生长。
the minirhizotron imaging system captured high-resolution images of fungal associations.
微根管成像系统捕捉到了真菌共生的高分辨率图像。
we used a minirhizotron camera to monitor root turnover dynamics.
我们使用微根管摄像机监测根系周转动态。
minirhizotron data provides non-destructive estimates of fine root production.
微根管数据提供了细��产量的非破坏性估算。
the study compared drought effects using minirhizotron observations in wheat.
这项研究利用微根管观察比较了干旱对小麦的影响。
proper installation of the minirhotron tube prevents soil profile disturbance.
正确安装微根管可防止土壤剖面受到干扰。
researchers analyze video from the minirhizotron to classify root health.
研究人员分析微根管的视频以对根系健康状况进行分类。
minirhizotron technology allows repeated measurements of the same root system.
微根管技术允许对同一根系进行重复测量。
seasonal changes in root length were visible via the minirhizotron.
通过微根管可以观察到根长的季节性变化。
accessing deep soil layers requires careful minirhizotron placement during drilling.
要进入深层土壤,需要在钻孔过程中小心放置微根管。
the minirhizotron is an essential tool for modern root ecology studies.
微根管是���代根系生态学研究的重要工具。
digital minirhizotron images help quantify root biomass in forest ecosystems.
数字微根管图像有助于量化森林生态系统中的根系生物量。
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