Root and mycorrhiza development are key for plant performance and affect many ecosystem and biogeochemical processes. However, observing this hidden half of ecosystems is not easy, being covered in the soil. Minirhizotron systems are a qualitative and quantitative observation tool to study root and hyphal growth, longevity and distribution in situ or mesocosms experiments. The MR system is based on transparent glass or plastic tubes (MR-T) inserted tightly into manually or mechanically established holes. Subsequently a minirhizotron scanner, digital camera, a video camera or an endoscope is inserted into the tube in order to record images of roots and rhizosphere seen through the MR tube walls. The images are then recorded and processed by a control unit (handheld or laptop). Capture Full HD images of living roots and mycorrhizal hyphae in soil to monitor growth and behavior over multiple seasons with the VSI Minirhizotron systems!
Getting to the root of the matter!
The VSI minirhizotron camera systems are composed of modular units and specific features can be combined to highly customized devices -fitting both scientific needs and funding situation. Our minirhizotron cameras are available either as fixed- or variable-diameter systems for MR tubes of 5-10 cm inner diameter – allowing for continued use of available tubes and to easily upgrade older imaging systems. The imaging process can be completely automatized including tube recognition and imaging of pre-set or previously imaged locations, but systems with manual indexing ('Smucker handle') are also available. In any case, precision in terms of imaging quality and repeatability of imaging locations and ease-of-use is key. All imaging systems allow to capture Full HD images of selected areas (360°), easily allowing to adapt the size of the monitored MR-T surface to research needs and resources for image analyses. The minor image distortion of original images, caused by the curved tube surface, can be (automatically) corrected by the included software. Image size (standard: 20 x 20 mm) can be adjusted, allowing to align root length observations from MR-Ts to defined depth classes used in biomass sampling (e.g. 0-10 cm, 10-20 cm, ...) without resizing images. Imaging a depth gradient at a time, on predefined sides of the MR-T, is recommended when using angled MR-Ts -allowing for accurate soil depth determination. The minirhizotron imaging systems are either programmed and operated by a handheld or a laptop; both wireless (approx. 10 m radius for remote-control-release) and cable bound options are available. Devices are powered by Li-ion batteries (>10 h operation time @ 10-30°C) or power line (110-230V). Image naming follows the ICAP-scheme (ExpName_T001_L001_Date_Time_001_Op.jpg) to be compatible with analyses software world-wide (see below). In addition, a section number can be given instead of the operator name to distinguish multiple 'imaging transects' (depth in vertical MR-Ts, angle in horizontal MR-Ts) within the same MR tube.
- Full HD color images with live preview, 360°-imaging; picture size is dependent on tube diameter and software adjustable (for Bartz system-sized tubes, for example, the standard size is 20 x 20 mm)
- Versions for fixed- or variable minirhizotron tube (MR-T) diameter (di = 5-10 cm); inclination: vertical or angled, horizontal or even upslope (advanced version)
- Suitable MR tube lengths: 100 to 700 cm (omni wheel-type), 20-150 cm (gear rack- and indexing handle-type); tube wall thickness 1.5-6 mm (predefined to adjust focus accordingly)
- Manual ('Smucker' indexing handle-type) and/or fully automatic positioning and imaging; precision positioning systems; zero positioning manual (with adaptor) or automatically according to sensor readings; sensor preventing accidental instrument immersion in water-filled tubes
- Rechargeable battery (>10 h @ 10-30°C) and/or power-line (110V/220V) operated
- Operated with custom-made software interface on handheld (wireless) or laptop (cable), image capturing by remote-control-release optional
- Software: predefine experimental set-up and tube properties (e.g. protrusion); set imaging pattern or select images from first scan (e.g. to avoid gap areas) for each tube separately or homogeneously; live image preview; set automatic scanning intervals (device needs to remain in tube) e.g. for time-lapse movies; Image distortion caused by round tube surface can be software corrected
- Options: automatic tube recognition system, operation of six automatic camera system with one handheld to reduce waiting periods of the operator, UV light, ... we are willing to consider any special request
Ready-for-use minirhizotron sets: incl. imaging device of choice incl. all accessories (charger, cables, etc); handheld incl. software; MR tubes, 50 or 100 cm (incl. aboveground light protection and endcaps); matching soil coring set to install tubes; manual (English)
- MR imaging device: options see above
- Minirhizotron tubes (MR-T): Acrylic tubes (standard) of various diameters can be purchased, other materials are available upon request. In addition, we can cut MR-T to length. If you like to acquire your MR-T elsewhere, please inform us about the tube dimension (inner, outer diameter) when purchasing a MR camera.
- Tube refining: It is recommended to close your minirhizotron tubes on both sides to prevent water, dust and daylight to enter. We can supply (removable) end caps or produce all possible types of permanent seals (bottom only). If installed in non-temperate ecosystems, an extra insulation of the protruding MR-T part is recommended to minimize changes in soil temperature around tubes. Machine-readable tags glued to each tube can be used by certain devices for automatic tube detection.
- Soil coring set: To install the MR tubes in situ, a soil corer with a slightly smaller diameter is needed for tight installation. We can manufacture soil corer sets suitable to install the chosen MR-T type to a depth of approx. 1 m (depending on brawn ;) and soil skeleton of course). We currently do not offer mechanized/tractor-mountable drilling devices for deeper installation of MR tubes.
- Image analyses software: see below for some (free) options.