Microorganism is the most important decomposer in the environment, which plays an extremely important role in maintaining the ecological balance of material circulation and decomposing biological remains especially in the extreme environments, such as maintaining ecosystem functions, directly participating in the biochemical circulation of carbon, nitrogen, sulfur, phosphorus and some metals, and accelerating the process of environmental pollution restoration. Microbes also play an important role when the environmental ecosystem responses to climate change. Therefore, it is very important to study the roles that microbes play in the environment and their underlying mechanism.
Request a QuoteEnvironmental complexity is the result of the interaction of organisms with the environment. Next-generation sequencing (NGS) is emerging as a robust approach for obtaining a deep and accurate look into the molecular level of the environmental complexity. It provides comprehensive insights into the mechanisms underlying the interactions between microorganism and the environment.
Our solutions are as follows:
Metagenomics allows researchers to explore the composition of bacteria and archaea (extremophile) from extreme environment, understand the adaptation of microbes to extreme environments, and discover valuable microorganisms or products form microorganisms for industrial or medical applications.
Learn MoreHigh-throughput sequencing can be applied to the study of the air microbiome, allowing us to learn the composition and abundance of microorganisms and compare different samples or compare air microbiomes with soil or water microbiomes for analysis of microbial function.
Learn MoreLarge numbers of microscopic life forms exist in Earth's water, such as glacier meltwater, seawater, sewage. NGS allows researchers to analyze the diversity of microbial community in different water samples, which is crucial for is crucial to understanding microbial functions and protecting the sources of water.
Learn MoreMetagenomics shotgun sequencing and 16S/18S/ITS sequencing allow researchers to identify functional genes, analyze the structure of soil microbiomes and the changes of microbial biodiversity in the soil, and understand how soil microbial diversity changes on a global scale.
Learn MoreWe deliver personalized services to meet your research demands of Microecology and environment.
We are committed to supporting our customers' research on microecology and environment with a range of microbial genomics solutions. We have extensive expertise to handle all types of environment microbiome samples from soil, air, water and so on. We choose suitable microbial genomics solutions based on your experimental purpose, and the deliverables include: original data, experimental results, data analysis report and details for writing.
SERVICESPlease submit a detailed description of your project. We will provide you with a customized project plan to meet your research requests. You can also send emails directly to for inquiries.
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