AgroChem

Revolutionizing Agriculture: Purple Marine Bacteria Biomass as Eco-Friendly Fertilizer

Synopsis: New research highlighted in npj Sustainable Agriculture unveils the potential of biomass derived from the marine bacterium Rhodovulum sulfidophilum as a nitrogen-rich fertilizer. Led by Keiji Numata from RIKEN and Kyoto University, the study demonstrates that this innovative biomass matches the efficacy of traditional synthetic fertilizers without the detrimental environmental impacts.
Friday, June 28, 2024
CSRS
Source : ContentFactory

In a groundbreaking effort to address global food demand sustainably, researchers have explored the use of Rhodovulum sulfidophilum, a purple non-sulfur bacterium known for its nitrogen-fixing enzymes. Traditionally, agricultural reliance on synthetic nitrogen fertilizers has led to severe ecological repercussions, including greenhouse gas emissions, water contamination, and soil degradation.

The biomass produced from Rhodovulum sulfidophilum offers a promising alternative. With an 11% nitrogen content by weight, significantly higher than other organic fertilizers, the biomass enhances plant growth similar to inorganic fertilizers, as demonstrated in experiments using Japanese mustard spinach (Brassica rapa var. perviridis). Crucially, the biomass maintains soil pH and salinity levels even with higher nitrogen concentrations, mitigating risks associated with soil toxicity.

The slow release of nitrogen from the biomass, approximately 60% over 30 days, further reduces carbon dioxide and nitrous oxide emissions compared to synthetic alternatives. This attribute, coupled with minimal nitrogen leaching, underscores the environmental benefits of the biomass fertilizer, dubbed "Air Fertilizer" by its developers at Symbiobe Inc., who have secured organic fertilizer registration in Japan.

While initial findings are promising, researchers stress the need for comprehensive life-cycle assessments to evaluate the biomass's overall environmental impact across production, distribution, and application. Scaling up production and ensuring shelf-life stability are also crucial steps towards integrating this eco-friendly fertilizer into mainstream agriculture.

The study marks a significant step towards sustainable agriculture, offering a potential solution to mitigate the industry's environmental footprint and enhance global food security. As efforts continue to refine and expand the application of Rhodovulum sulfidophilum biomass, it holds promise for revolutionizing agricultural practices worldwide, paving the way for a greener and more sustainable future.