02255naa a2200289 a 450000100080000000500110000800800410001902400360006010000190009624501370011526000090025250000750026152013710033665000160170765300260172365300220174965300170177165300150178865300150180365300270181870000250184570000170187070000160188770000170190370000190192077300260193910601382019-10-15       2019    bl uuuu     u00u1 u    #d7 a10.1007/s11104-019-04247-y2DOI1 aDI BELLA, C.E.  aGrass to legume facilitation in saline-sodic steppesbinfluence of vegetation seasonality and root symbionts.h[electronic resource]  c2019  aArticle hisotory: Received: 18 February 2019 /Accepted: 1 August 2019.  aAbstract: Aim Identify key factors driving legume seedlings performance in saline-sodic soils. Methods Five plots were established in paired subhumid steppes with saline-sodic soils dominated by Distichlis spicata or Panicum coloratum. In each plot, Lotus tenuis was sown in autumn and individual plants were collected close to nurse plants (dominant species), and in open areas, at the end of the cold and warm seasons. Carbon and nutrient acquisition (through C and O isotopic composition and N and P content measurements) and plant symbiotic functioning (through N fixation by rhizobia and mycorrhizal colonization measurements) were determined. Results Biomass of legume grown close to a nurse plant was always higher than in open areas. This increase was higher close to P. coloratum and to D.spicatainthecoldandwarmseasons,respectively. In both cases, L. tenuis improved its nutrient acquisition and symbiosis functioning. N-acquisition and rhizobia efficiency increased in the most facilitated L.tenuis plants in the cold season while P-acquisition was greater in the warm season. Conclusions Grass-to-legume facilitation in sub-humid steppes with saline-sodic soils was detected in cold and warm seasons, differing between steppes in relationship with the vegetation growing rate and the establishment and functioning of legume-rhizobia-mycorrhiza symbioses.  aLEGUMINOSAS  aDUAL ISOTOPE APPROACH  aHALOMORPHIC SOILS  aLOTUS TENUIS  aMYCORRHIZA  aN FIXATION  aN ISOTOPIC COMPOSITION1 aGARCÍA-PARISI, P.A.1 aLATTANZI, F.1 aDRUILLE, M.1 aSCHNYDER, H.1 aGRIMOLDI, A.A.  tPlant and soil, 2019.