%0 Figure %A Wang, Heng %A Qian, Xiangjie %A Zhang, Lan %A Xu, Sailong %A Li, Haifeng %A Xia, Xiaojian %A Dai, Liankui %A Xu, Liang %A Yu, Jingquan %A Liu, Xu %D 2018 %T Image_2.TIF %U https://frontiersin.figshare.com/articles/figure/Image_2_TIF/6046892 %R 10.3389/fpls.2018.00407.s002 %2 https://frontiersin.figshare.com/ndownloader/files/10886966 %K chlorophyll fluorescence imaging %K multispectral imaging %K high throughput %K crop physiology %K drought %K nutrition deficiency %K plant disease %K monitoring system %X

We present a high throughput crop physiology condition monitoring system and corresponding monitoring method. The monitoring system can perform large-area chlorophyll fluorescence imaging and multispectral imaging. The monitoring method can determine the crop current condition continuously and non-destructively. We choose chlorophyll fluorescence parameters and relative reflectance of multispectral as the indicators of crop physiological status. Using tomato as experiment subject, the typical crop physiological stress, such as drought, nutrition deficiency and plant disease can be distinguished by the monitoring method. Furthermore, we have studied the correlation between the physiological indicators and the degree of stress. Besides realizing the continuous monitoring of crop physiology, the monitoring system and method provide the possibility of machine automatic diagnosis of the plant physiology.

Highlights: A newly designed high throughput crop physiology monitoring system and the corresponding monitoring method are described in this study. Different types of stress can induce distinct fluorescence and spectral characteristics, which can be used to evaluate the physiological status of plants.

%I Frontiers