Date Published: 17/04/2024
Revolutionary fertiliser could completely eliminate farm pollution in the Mar Menor
This natural, environmentally-friendly product will be trialled in the Region of Murcia over the next three years
Before and after the use of natural zeolites to eliminate eutrophication
A new initiative driven by the agricultural group Asaja aims to revolutionise farming practices and contribute to the restoration of the threatened
Mar Menor lagoon. By utilising natural zeolites – porous volcanic rocks – researchers hope to replace
nitrogen and agricultural chemical usage by up to 100%.
Zeolites function as tiny particles that dissolve in water, reducing harmful ammoniacal nitrogen levels, promoting the growth of beneficial microorganisms within soil and irrigation systems. Over the next three years, select farms will transition to this innovative fertiliser, free of charge for participating farmers.
Originally found from the Pacific region, zeolites successfully substitute traditional agrochemicals, offering a groundbreaking solution to protect the lagoon from agricultural and livestock runoff.
According to Asaja’s general secretary in the Region of Murcia, Alfonso Gálvez, this project represents a turning point in addressing nitrate and chemical pollution in the Mar Menor and scientists are confident in achieving very positive long-term benefits for the lagoon.
While the initial farms involved in the project won’t have to pay, others have expressed concerns about the costs, but there’s good news on this front also as treating crops with zeolites should actually be cheaper than traditional methods.
Using the environmentally friendly fertiliser, the cost of spraying a hectare of lemon trees would drop from around 2,000 euros per year to just 475, Mr Gálvez explained; similarly, costs fall from 1,800 euros to roughly 600 euros for both melons and broccoli cultivation.
This pioneering strategy offers potential beyond serving solely as a sustainable fertiliser. Treated irrigation waters undergo de-nitrification processes, contributing to the elimination of nutrient loading issues.
Additionally, employing zeolites could eventually phase out energy-intensive desalination plants and filtration devices, allowing for greener, nature-based alternatives in managing irrigation resources.
Image: Asaja