Legumes mitigate ecological consequences of a topographic gradient in a northern Mongolian steppe

EES Authors
Publication Year
2012
Source
Oecologia
DOI
Abstract
Topography should create spatial variation in water and nutrients and play an especially important role in the ecology of water-limited systems. We use stable isotopes to discern how plants respond both to ecological gradients associated with elevation and to neighboring legumes on a south-facing slope in the semi-arid, historically grazed steppe of northern Mongolia. Out of three target species, Potentilla acaulis, Potentilla sericea, and Festuca lenensis, when > 30 cm from a legume, all showed a decrease in leaf delta N-15 with increasing elevation. This, together with measures of soil delta N-15, suggests greater N processing at the moister, more productive, lower elevation, and more N fixation at the upper elevation, where cover of legumes and lichens and plant-available nitrate were greater. Total soil N was greater at the lower elevation, but not lichen biomass or root colonization by AMF. Leaf delta C-13 values for P. acaulis and F. lenensis are consistent with increasing water stress with elevation; delta C-13 values indicated the greatest intrinsic water use efficiency for P. sericea, which is more abundant at the upper elevation. Nearby legumes (< 10 cm) moderate the effect of elevation on leaf delta N-15, confirming legumes' meaningful input of N, and affect leaf delta C-13 for two species, suggesting an influence on the efficiency of carbon fixation. Variation in leaf %N and %C as a function of elevation and proximity to a legume differs among species. Apparently, most N input is at upper elevations, pointing to the possible importance of grazers, in addition to hydrological processes, as transporters of N throughout this landscape.
Research Track Category
Authors
Casper, B. B., Goldman, R., Lkhagva, A., Helliker, B. R., Plante, A. F., Spence, L. A., Liancourt, P., Boldgiv, B., Petraitis, P. S.