If you’re an agronomist, public sector operator, or a professional working in agriculture or environmental science, you know how crucial it is to understand soil health.
Analyzing soil DNA isn’t just a step further—it’s a key element in understanding how microbial communities in the soil influence fertility and the sustainability of agricultural production.
By quantifying dsDNA (double-stranded DNA), we can obtain detailed information on microbial biomass—essential for evaluating soil health and its capacity to support plant growth.
With this analysis, you can make more informed decisions to optimize agronomic practices, improve soil fertility, and above all, ensure that your work is increasingly sustainable.
Our approach to soil DNA analysis is based on innovative, advanced technology to quantify microbial biomass through dsDNA.
Compared to traditional methods, this technology provides a direct view of the soil’s biological potential, allowing us to detect even subtle variations that may go unnoticed with more conventional approaches.
With over 50,000 samples analyzed worldwide, Soliomics has developed expertise that allows us to successfully apply our analyses to any type of soil—agricultural or urban.
Our services are used by agronomists, archaeologists, public institutions, and fertilizer companies to monitor soil fertility and health and make better-informed decisions to improve the efficiency and sustainability of soil resources.
Soil DNA analysis through dsDNA offers unmatched sensitivity, capable of detecting even small variations that other tests might miss. This is particularly useful for tracking changes over time and responding quickly when action is needed.
Unlike traditional chemical analysis, soil DNA quantification detects even the most subtle shifts in organic matter, providing a more complete picture of soil health and biodiversity.
In addition to delivering highly accurate results, dsDNA soil analysis is also more affordable than many other advanced testing methods, making it accessible even for large-scale land management or limited budgets.
With dsDNA analysis, you can track soil fertility across time and adjust agronomic practices accordingly. This helps ensure sustainable, long-term agricultural production, while reducing waste and increasing efficiency.
Soil DNA analysis provides solid, reliable data to make informed decisions—not only in agriculture but also for environmental remediation projects and the management of contaminated sites. It's also valuable in urban contexts or when assessing soil quality in vulnerable areas.
If you need to assess the impact of soil remediation efforts, dsDNA analysis delivers timely, precise insights to help you optimize the effectiveness of your actions.
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