The influence of root system on plant growth is unquestionable. However, due to its special growth environment and complex morphological structure, the root system makes traditional root measurement tools and measurement methods difficult to realize in-situ, rapid and non-destructive three-dimensional observation of plant roots. Accurate analysis, which has become a major technical bottleneck restricting the development of root morphology, root biology and other related fields. With the development of related technologies such as computer vision and image analysis, the root-based in-situ monitoring system based on this technology provides an effective method for the study of in-situ lossless plant roots.
Plant root system is an important organ for plants to obtain water, nutrients, etc. from the soil medium, and its growth and distribution in the soil space also directly affects the plant's ability to absorb nutrients and moisture, thereby affecting plant growth and yield, so at present Under the background of advancing science and technology to develop agriculture, it is particularly important and necessary to use the in-situ root monitoring system to carry out research on the in-situ state of plant roots.
In general, the measurement of plant roots includes the total root length of the plant; average root diameter; total root area; total root volume; apex count; bifurcation number; crossing number; distribution of root tip length; This is a complicated and cumbersome work. Without the help of the in-situ root monitoring system, it will greatly influence the in-depth development of root research.
The successful development of the in-situ root monitoring system is an important step forward in the observation of plant roots, providing feasibility for future research on the detection of plant root architecture at different growth stages, and with the further improvement of computer vision and image analysis technologies. With development, the technical level of the in-situ root-based monitoring system will be even higher, which will further promote the in-depth development of root research and provide important and powerful data support for achieving the goal of precision agriculture.
Plant root system is an important organ for plants to obtain water, nutrients, etc. from the soil medium, and its growth and distribution in the soil space also directly affects the plant's ability to absorb nutrients and moisture, thereby affecting plant growth and yield, so at present Under the background of advancing science and technology to develop agriculture, it is particularly important and necessary to use the in-situ root monitoring system to carry out research on the in-situ state of plant roots.
In general, the measurement of plant roots includes the total root length of the plant; average root diameter; total root area; total root volume; apex count; bifurcation number; crossing number; distribution of root tip length; This is a complicated and cumbersome work. Without the help of the in-situ root monitoring system, it will greatly influence the in-depth development of root research.
The successful development of the in-situ root monitoring system is an important step forward in the observation of plant roots, providing feasibility for future research on the detection of plant root architecture at different growth stages, and with the further improvement of computer vision and image analysis technologies. With development, the technical level of the in-situ root-based monitoring system will be even higher, which will further promote the in-depth development of root research and provide important and powerful data support for achieving the goal of precision agriculture.
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