Beijing Eco-mind Technology Co., Ltd products
Eco-mind - RhizoPot in Situ Root Culture and Analysis System
The main function of the LK-1600 RhizoPot in situ root culture and analysis system is the dynamic observation and analysis of the phenotype of the micro-root system (fine roots and root hairs). The LK-1600 can acquire images of root systems at 1200 dpi and 4800 dpi, and can be used to analyze root system length, diameter, area, and other root system indicators and their dynamics, as well as to analyze the longevity of fine roots and root hairs. To improve efficiency and accuracy, the LK-1600 integrates automatic root image acquisition software, which allows presetting of image acquisition resolution, time, image saving and naming.
Eco-mind - Benchtop 3D Root Analyser
The LK-1200 Pro Benchtop 3D root analyzer is designed for rotational imaging after root washing and can continuously image and analyse a large number of plant roots in 2D and 3D, and can measure several hundred plant samples per day; it can continuously rotate and image the root system at different angles as required.
Eco-mind - Portable CO2/CH4/H2O soil respiration measurement system
he LK-2100 portable CO2/CH4/H2O soil respiration measurement system is mainly used for in-situ measurement of soil respiration rate, and can also be connected to a static chamber to measure community photosynthesis or net exchange (NEE). The measurement of gas flux usually includes the measurement of gas flux at the interface between plant leaves and atmosphere, the measurement of gas flux at the interface between soil surface and atmosphere, and the measurement of gas flux at the interface between ecosystem and atmosphere. The portable soil respiration measurement system consists of a main control module, a gas analysis module and a front-end sampling module.
Eco-mind - Portable CO2/H2O gas flux measurement system
With the extensive development of global change research, the measurement of gas flux has attracted more and more attention. The measurement of gas flux usually includes the measurement of gas flux at the interface between plant leaves and atmosphere, the measurement of gas flux at the interface between soil surface and atmosphere, and the measurement of gas flux at the interface between ecosystem and atmosphere. The main control module, gas analysis module and front-end sampling module of the portable gas flux measurement system.The main control module can integrate the analysis module, air pressure, temperature and humidity, GPS and other data, control the system operation status, and calculate the gas flux or respiratory rate according to customer requirements.
Eco-mind - Multi-channel automated subsurface-surface greenhouse gas
As global change research becomes more widespread, the measurement of gas fluxes is of increasing interest. Gas fluxes are usually measured at the plant leaf-atmosphere interface, at the soil surface-atmosphere interface and at the ecosystem-atmosphere interface. Because of the spatial heterogeneity of soils, soil respiration varies considerably even within the same soil type in the same block, and scientists need to conduct multi-dimensional studies in space, time and gas type to better explain the mechanisms underlying soil respiration. It can also be configured with a variety of gas isotope analysers and has excellent scalability to connect to 8, 16 or 24 channel respiration chambers or transparency chambers and soil profile gas sampling probes.
Eco-mind - Intelligent variable temperature incubation soil greenhouse gas measurement system
Global warming caused by increasing atmospheric CO2 concentrations is one of the most serious challenges facing human society in the 21st century. The global soil organic carbon pool is about three times larger than the atmospheric carbon pool, so the release of CO2 through the decomposition of soil organic carbon has a significant impact on atmospheric CO2 concentrations, which in turn changes regional and global climate. The intensity of soil organic carbon decomposition is regulated by temperature, and its sensitivity to temperature is considered to be one of the key determinants of future climate change trends, and is a key assumption and important parameter in terrestrial climate prediction models.
ECO-MIND - The Static Chamber For NEE(GT5000 portable multi-parameter soil GHG flux system)
This is a complete solution, including analyzer, automatic chamber, environmental sensors and flux calculation software Unique wireless control mode, all data are collected wirelessly through a PAD, which greatly facilitates field operation; totally superior to other products on the market. The chamber can be automatically raised and lowered, perfectly matching the setting of the measurement program, no need to manual opening and closing. The rechargeable lithium battery is placed in the chamber which can also display the power status and meet the continuous use of 48 hours in the field.Plant Science - Rhizobox System
Rhizonboxes for Soil Water Sampling System
In cooperation with Rhizosphere Research Products (Wageningen, The Netherlands) we increase the versatility of rhizoboxes by turning them into optional "RhizonBoxes" - which allow in additions to use 1) MicroRhizons for pore water sampling, 2) Rhizons for local soil water manipulation (e.g. salt or heavy metal infiltration) and sampling, and 3) Rhizon Irrigators for passive irrigation.
Plant Science - pH Sensor
Sendot - Optical pH Sensor
The Sendot optical pH sensor is a highly versatile device based on a ratiometric optical measurement. The design makes the sensor highly insensitive to drift. Because the indicator dye is in equilibrium with the pH in the aqueous medium, the sensor needs little to no calibration. There is little to no influence of ion-strength and temperature. Therefore applications in low conductivity solutions are available. The sensor is ideal for laboratory and environmental applications. We offer a handheld sensor where you can measure straight away. When you have needs to integrate optical pH sensor technology in your process or production line, we do have the expertise and possibilities to realize this.
Plant Science - Chlorophyll Fluorescence Sensor
PhenoCheck - Camera for Chlorophyll Fluorescence Sensor
Transforming precision agriculture with the power of Spectral Vision. Precision agriculture emerges as the first choice approach for ensuring farming competitiveness and global sustainability in the era of steep population increase and climate change. An “agri-tech” revolution is in progress, providing innovative tools for controlling and optimizing farming, towards reducing the use of fertilizers, pesticides and water.