Plant uptake of nitrogen and phosphorus among grassland species affected by drought along a soil available phosphorus gradient
No Thumbnail Available
Date
2020-01-10
Journal Title
Journal ISSN
Volume Title
Publisher
Springer Nature
Abstract
Aims
Here we assessed N and P uptake of four grassland species grown together in response to a short-term drought event along a soil P gradient.
Methods
We used 15N and 32P tracers to examine uptake of N and P by the grasses Bothriochloa macra, Themeda triandra, Lolium perenne and Microlaena stipoides grown together in pots with initial available P levels of 3, 8, 12, 20 mg P kg−1 soil. Soil moisture in half the pots was reduced from 60 to 30% water holding capacity during a 7-day period to simulate drought.
Results
Plant P uptake was strongly reduced by drought in all species across all P levels, much more so than N uptake, indicating decoupling in N and P uptake. Soil available P (Bray method) was not affected by drought, suggesting that the reduced P uptake with drought was due to reduced soil P mobility. Plant competition for N and P changed with drought and soil P levels, where relatively more N and P was taken up with drought by M. stipoides at the lowest soil P level.
Conclusions
We showed that greater reductions in P than in N uptake and shifts in N and P uptake among species caused by a short-term drought have strong consequences for plant growth. © Springer Nature Switzerland AG 2020
Description
Keywords
Plants, Rangelands, Nutrients, Homeostasis, Nitrogen, Phosphorus, Droughts, Stoichiometry, Stable isotopes, Labelling
Citation
Mariotte, P., Cresswell, T., Johansen, M. P., Harrison, J. J., Keitel, C., & Dijkstra, F. A. (2020). Plant uptake of nitrogen and phosphorus among grassland species affected by drought along a soil available phosphorus gradient. Plant and Soil, 448, 121-132. doi:10.1007/s11104-019-04407-0