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BackScientists Uncover Details About Hidden Phosphorus Reservoir in Soil Microbes
Scientists Uncover Details About Hidden Phosphorus Reservoir in Soil Microbes
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TOI World19.06.2026Wissenschaft3 dk okumaIndia

Scientists Uncover Details About Hidden Phosphorus Reservoir in Soil Microbes

Auf einen Blick

  • Researchers have developed a simpler, more cost-effective method to measure DNA-bound phosphorus in soil microbes.
  • This biologically active nutrient form is linked to microbial activity and soil recycling, offering insights for sustainable agriculture and improved soil fertility.

KI-generierte Zusammenfassung

Warum es wichtig ist

Efficient phosphorus management is crucial for agriculture due to a growing population and finite phosphorus reserves. Excess fertilizer use also causes environmental pollution.

Schriftgröße

A growing population and finite phosphorus reserves have made efficient nutrient management one of the biggest challenges facing modern agriculture. Scientists have now uncovered new details about a little-known form of phosphorus hidden within living soil microbes. The findings, published in the Journal of Agricultural and Marine Sciences, come from an international team of researchers who developed a simpler and more cost-effective way to measure DNA-bound phosphorus, a biologically active form of the nutrient involved in soil recycling processes. Their work offers fresh insights into how phosphorus moves through soils and could eventually help researchers improve soil fertility and support more sustainable food production systems.

The hidden phosphorus reservoir living inside soil microbes

Phosphorus is one of the three major nutrients required by plants, alongside nitrogen and potassium. It plays a crucial role in energy transfer, root development and seed production. Unlike nitrogen, phosphorus cannot be extracted from the atmosphere. Agriculture depends largely on phosphate rock, a non-renewable resource that scientists have long warned could become scarcer and more expensive over time. At the same time, excess phosphorus from fertilisers can pollute rivers and lakes, leading to harmful algal blooms. This has made efficient phosphorus management one of the biggest challenges facing modern agriculture. The research team, led by Margaret Massam and including scientists from Sultan Qaboos University, the James Hutton Institute, Lancaster University and Rothamsted Research, focused on DNA-bound phosphorus, or DNA-P. This form of phosphorus exists inside the DNA of living microorganisms in soil. Although it represents only a small fraction of total organic phosphorus, researchers found that it is closely linked to microbial activity. According to the study, DNA-P concentrations showed strong correlations with soil pH, microbial biomass phosphorus, organic matter content and phosphorus dissolved in soil water. These relationships suggest that DNA-P is associated with living soil organisms rather than stable long-term phosphorus reserves. "The modified Paraskova method can be used as an effective way to understand the biological relevance of this functionally important form of phosphorus," the researchers wrote in the paper.

The breakthrough was not a new nutrient but a new way to measure it

The scientists were not searching for a previously unknown nutrient. Instead, they improved a method originally developed by Paraskova and colleagues in 2013. The team tested the revised procedure on 32 different soils across the United Kingdom. They discovered that enzyme treatments previously used in the protocol were unnecessary, making the process simpler and cheaper. However, one important step called ultrafiltration remained essential. Without it, phosphorus measurements became inaccurate because other phosphorus compounds could interfere with the results. "The revised Paraskova method proved to be more cost-effective and simpler, while retaining precision and sensitivity," the authors reported.

Soil microbes appear to be the hidden reservoir

One of the study's biggest conclusions was that DNA-bound phosphorus appears to belong to a dynamic biological pool rather than a stable underground reserve. The researchers found strong positive relationships between DNA-P and microbial biomass phosphorus. This suggests that much of this phosphorus comes from living microbes and not from old, inactive soil stores. The paper states that "the sampled DNA-P pool was associated with the living soil biota and not with stabilised soil P fractions." In other words, the hidden reservoir is not buried rock. It is part of a constantly changing microbial ecosystem beneath our feet.

Why this could matter for future farming

Scientists have increasingly recognised the importance of soil microbes in making nutrients available to crops. Understanding how microorganisms store and recycle phosphorus could eventually help researchers develop more efficient farming practices. Better knowledge of these biological processes may lead to improved soil fertility management, reduced fertiliser losses and lower environmental impacts. The authors note that this phosphorus pool "is considered an important source of P for plants in natural and managed ecosystems" and that understanding it could help support environmental sustainability.

A tiny pool with potentially huge importance

The amount of DNA-bound phosphorus found in soils was small compared with total organic phosphorus. Yet the researchers believe its significance could be far greater than its size. The study concludes that the revised method offers a robust way to investigate "this functionally important form of phosphorus" across different soil types. As agriculture faces mounting pressure to feed a growing population while protecting finite resources, understanding the hidden world beneath our feet may prove just as important as discovering new resources above ground.

Worauf zu achten ist

KI-Ausblick — Möglichkeiten, keine Fakten

  • The revised Paraskova method will become a standard for measuring DNA-bound phosphorus in soil research.

    Wahrscheinlich · Mittelfristig

Offene Fragen

  • How widely will the new method be adopted?
  • What are the long-term implications for crop yields?

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This article was originally published by TOI World.

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