Researchers make first bean harvest using lunar, Martian soil and urine

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In the Netherlands, researchers at Wageningen University & Research have harvested the first beans from experiments with the cultivation of string beans on artificial Martian and lunar soil. What makes this experiment so special is that part of the crop is fertilized with human urine in the form of struvite.

A total of 60 pots were filled with artificial lunar and Martian soil, as well as control samples of normal earth (potting soil). The pots were filled with either 250 grams of potting soil or 750 grams of faux lunar or Martian soil and 250 grams of water. In half the pots, 15 grams of struvite was added. The struvite was obtained from wastewater purification installations in Western Amsterdam, Den Bosch and Cuijck. In each pot, three beans were planted. If more than one bean sprouted, the smaller beans were removed from the pot after two weeks, leaving just one plant per pot. The plants are automatically watered daily and kept under greenhouse conditions with a pleasant 20-degree temperature during the daytime, and 18 degrees at night. If there is insufficient daylight, lamps are switched on.

The experiment is designed to research the possibilities of feeding future inhabitants of the moon or Mars with locally grown crops. Scientist Wieger Wamelink: ‘After a few experiments we now know how to do this. But simply getting plants to grow is not enough. We need to use urine and faeces produced by astronauts to fertilize the plants.’

During the experiment, the length of the plans was monitored. ‘Soon enough the lengths of the plants started to vary, showing that the crops planted in potting soil and lunar soil simulant with struvite experienced the strongest growth,’ says Wamelink. ‘The Martian plants with struvite showed a lag in their growth, which was surprising, as their growth started out as more promising than the lunar plants.’ With lengths of no more than 25 cm, the plants that went without struvite clearly showed the poorest growth.