Our president, Jim Jenkins is an avid gardener and known to his family and friends as “Farmer Jim”. He was the first of our “gardening club” to get a big red tomato this year! The news below should be of interest to our readers especially of a gardening conviction. Several groups including NASA, Elon […]
Our president, Jim Jenkins is an avid gardener and known to his family and friends as “Farmer Jim”. He was the first of our “gardening club” to get a big red tomato this year! The news below should be of interest to our readers especially of a gardening conviction. Several groups including NASA, Elon Musk and Mars-One hope to take people to Mars in the next ten to fifteen years. Returning to the Moon may happen in the next five years. If we get there it will be to stay for extended periods. People will also have to eat there and what is more logical than to grow your own food locally? In 2013 and 2015 the scientists conducted two experiments to investigate whether it was possible to cultivate peas, radishes and tomatoes on Mars and moon soil simulant supplied by NASA. The 2015 experiment provided the first radishes, peas, tomatoes and rye, but it is also safe to eat them? The Mars and lunar soils contain several heavy metals that are toxic to humans such as lead, cadmium and arsenic. Plants are not too bothered by these and just carry on growing. We don’t know if the harvested fruits contain heavy metals and we don’t know if it is safe to eat them – which is what we aim to address in this project. If the project is successful, and shows that it is indeed safe to eat the plants and fruits, it brings the journey and the establishment of a long term human presence on Mars and a more or less permanent base on the moon one step closer. Researchers at Wageningen University and Research Centre in the Netherlands are growing edible space vegetables in soil similar to the surface of Mars and the moon. The new experiment will be carried out according to a procedure developed in 2015, with some improvements. It will use experimental trays, with one crop per tray, containing respectively peas, tomatoes and radishes and two other crops. The experiment will be replicated five times and the soils (Mars and lunar simulants and terrestrial control) will be enriched with organic material in order to improve the structure and nutrient supply. For Mars the nutrient will consist of the parts of the plants that would not be eaten and human faeces. Fruits and edible parts will be harvested and analysed for heavy metals at the Wageningen UR institute Rikilt.