- Sasse, Joelle;
- Kant, Josefine;
- Cole, Benjamin;
- Klein, Andrew;
- Arsova, Borjana;
- Schlaepfer, Pascal;
- Gao, Jian;
- Lewald, Kyle;
- Zhalnina, Kateryna;
- Kosina, Suzanne;
- Bowen, Benjamin;
- Treen, Daniel;
- Vogel, John;
- Visel, Axel;
- Watt, Michelle;
- Dangl, Jefferey;
- Northen, Trent
There is a dynamic reciprocity between plants and their environment: On one hand, the physiochemical properties of soil influence plant morphology and metabolism, while on the other, root morphology and exudates shape the environment surrounding roots. Here, we investigate both of these aspects as well as the reproducibility of these responses across laboratories. The model grass Brachypodium distachyon was grown in phosphate-sufficient and phosphate-deficient mineral media, as well as in sterile soil extract, within fabricated ecosystem (EcoFAB) devices across four laboratories. Tissue weight and phosphate content, total root length, root tissue and exudate metabolic profiles were found to be consistent across laboratories and distinct between experimental treatments. Plants grown in soil extract were morphologically and metabolically distinct in all laboratories, with root hairs four times longer compared to other growth conditions. Further, plants depleted half of the investigated metabolites from the soil extract. To interact with their environment, plants not only adapt morphology and release complex metabolite mixtures; they also selectively deplete a range of soil-derived metabolites. The EcoFABs utilized here generated high inter-laboratory reproducibility, demonstrating that their value in standardized investigations of plant traits.