Plant Phenotype Imaging Platform

Plant Phenotype Imaging Platform

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The Plant Phenotype Imaging Platform is an integrated system of multiple plant phenotype imaging technologies and data analysis tools designed for large-scale plant phenotype data collection, processing, and analysis. These platforms provide high-throughput, automated, and standardized methods to study phenotypic features such as plant morphology, structure, and function.

About the Plant Phenotyping Platform

The Plant Phenotyping Platform is equipped with five imaging units: visible light, near-infrared (NIR), root NIR, infrared (IR), and fluorescence. The platform can measure parameters such as plant structure, width, density, symmetry, leaf length, leaf width, leaf area, leaf angle, leaf color, leaf lesion, seed color, and seed color area through visible light imaging. Water distribution status of plants, hydraulics research, and stress physiology research can be analyzed by near-infrared imaging, and water distribution in the plant root system and soil column can be analyzed by root system near-infrared imaging. Infrared imaging can carry out plant drought stress research, transpiration research, and so on. The physiological state of plants can be analyzed by fluorescence imaging. Since all plants are labeled with barcodes or radiofrequency tags, all phenotypic data at different stages of their entire life history can be measured regularly.

Plant Phenotyping Platform Services

Root Imaging Platforms are specialized imaging systems for plant root research designed to provide non-invasive observation and analysis of plant root systems' morphological, structural, and functional characteristics.

The Scanning Plant Phenotype Platform allows customers to obtain morphological and structural information about plants, including plant height, leaf area, etc. The data can be used to study plant growth and development, leaf characteristics, pest and disease monitoring, and more.

The Multifunctional Plant Photosynthetic Phenotype Imaging Platform utilizes innovative multispectral chlorophyll fluorescence/visible light imaging technology that utilizes the latest LED technology and communication technology to enable innovative measurement of plant phenotypes, as well as acquiring chlorophyll fluorescence imaging alongside chlorophyll imaging and anthocyanin imaging.

Lifeasible's Multispectral Imaging services provide high-quality multispectral imaging equipment and perform equipment configuration and calibration to ensure accurate spectral measurements and image acquisition. Our service team will use the multispectral imaging equipment to perform spectral image acquisition of a plant or organism. The acquired image data will be analyzed and processed to extract information about the plant's growth, health status, and physiological characteristics.

Through high-resolution imaging and quantitative analysis of the morphology, structure, color, and other features of seeds, we can obtain phenotypic information such as seed size, shape, texture, seed quality, germination ability, growth potential and other relevant characteristics of seed plants.

Physiological phenotyping is a valuable tool used in various fields of research and practice to understand the physiological characteristics of organisms. It involves measuring and analyzing physiological traits to gain insight into an organism's function, health, and response to stimuli. In practice, physiological phenotyping is used in various ways to improve our understanding of organisms.

Lifeasible's plant phenotyping provides important data support and decision-making basis for plant scientific research, agricultural production, and plant breeding.

Lifeasible provides an efficient, accurate, and reproducible way to acquire and analyze plant phenotypic data, facilitating a deeper understanding of plant growth and development, adaptation, and quality traits, among other things. If you are interested in our platform, please do not hesitate to contact us anytime.

For research or industrial raw materials, not for personal medical use!
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