https://doi.org/10.5061/dryad.7d7wm385s

Description of the data and file structure

Files and variables

File: DIVRAINPSF_mesolvl_data.csv

Description: Phase 2 mesocosm-level plant biomass and plant-soil feedback data. We conducted a two-phase PSF experiment to test how plant diversity affects biotic PSF under different rainfall regimes. In Phase 1, we set up mesocosms with 15 plant assemblages composed of two grasses, two forbs, and two nitrogen-fixing legumes [one, two, three, or six species from one, two, or three functional group(s)] common to the semi-arid eastern Eurasian Steppe. Mesocosms were subjected to two rainfall amounts (ambient, 50% reduction) crossed with two frequencies (ambient, 50% reduction) for a growing season (~3 months). Conditioned soil from each mesocosm was then used in Phase 2 to inoculate (7% v/v) sterilised mesocosms planted with the same species as in Phase 1 and grown for 8 weeks. Simultaneously, the same plant assemblages were grown in sterilised soil to calculate PSF based on plant biomass measured at the end of Phase 2. This file was created using Microsoft Excel 2016. See 'README' file for descriptions of (abbreviated) column headings.

Variables

• meso_assemb: [plant assemblage in mesocosm] G1; G2; F1; F2; N1; N2; G1+G2; F1+F2; N1+N2; G1+F1; G2+N1; F2+N2; G1+F1+N1; G2+F2+N2; ALL (i.e., G1+G2+F1+F2+N1+N2)

  • <plant species ID> G1, Leymus chinensis (grass); G2, Stipa grandis (grass); F1, Allium ramosum (forb); F2, Artemisia sieversiana  forb); N1, Lespedeza daurica (nitrogen-fixing legume); N2, Medicago ruthenica (nitrogen-fixing legume)

• sterile: [soil sterilisation] ster (Phase 2 mesocosm with fully sterilised soil); non (Phase 2 mesocosm inoculated with unsterilised Phase 1 treatment soil)

• rain_amt_mm_per_10d: [rainfall amount (mm) over every 10-day-period] con (no rainfall treatment in Phase 1); 40mm (ambient rainfall amount in Phase 1); 20mm ( -50% rainfall amount of ambient in Phase 1)

• rain_freq_d:  [rainfall frequency (days between rainfall events)]  0d (no rainfall treatment in Phase 1); 5d (ambient rainfall frequency in Phase 1); 10d (-50% rainfall frequency of ambient in Phase 1)

• replicate: [mesocosm replicate number]

• no_spp: [number of plant species in mesocosm]

• no_func_group: [number of plant functional group(s) in mesocosm]

• comm_ag_bm_g: [Phase 2 mesocosm plant aboveground dry biomass (g)]

• comm_bg_bm_g: [Phase 2 mesocosm plant belowground dry biomass (g)]

• comm_total_bm_g: [Phase 2 mesocosm plant above+belowground dry biomass (g)]

• comm_total_bm_fb:  Feedback effect = log10(Total plant biomass in mesocosm with non-sterilised soil inoculum treatment ÷ Average total plant biomass of mesocosms with same assemblage in sterilised soil)

• abs_change_comm_total_bm_fb: | Δ feedback effect | = | (Feedback effect of mesocosm under specific reduced rainfall frequency and/or amount) – (Average feedback effect of mesocosms with same plant assemblage under ambient rainfall) |

  NB   'n/a' in cell: Value of specific variable (column) of an experimental unit not relevant or not applicable to analysing that same variable

File: DIVRAINPSF_constituent_spp_data.csv

Description: Detailed biomass data of constituent plant species in Phase 2 mesocosms. We conducted a two-phase PSF experiment to test how plant diversity affects biotic PSF under different rainfall regimes. In Phase 1, we set up mesocosms with 15 plant assemblages composed of two grasses, two forbs, and two nitrogen-fixing legumes [one, two, three, or six species from one, two, or three functional group(s)] common to the semi-arid eastern Eurasian Steppe. Mesocosms were subjected to two rainfall amounts (ambient, 50% reduction) crossed with two frequencies (ambient, 50% reduction) for a growing season (~3 months). Conditioned soil from each mesocosm was then used in Phase 2 to inoculate (7% v/v) sterilised mesocosms planted with the same species as in Phase 1 and grown for 8 weeks. Simultaneously, the same plant assemblages were grown in sterilised soil to calculate PSF based on plant biomass measured at the end of Phase 2. This file was created using Microsoft Excel 2016. See 'README' file for descriptions of (abbreviated) column headings.

Variables

• meso_assemb: [plant assemblage in mesocosm] G1; G2; F1; F2; N1; N2; G1+G2; F1+F2; N1+N2; G1+F1; G2+N1; F2+N2; G1+F1+N1; G2+F2+N2; ALL (i.e., G1+G2+F1+F2+N1+N2)

• sterile: [soil sterilisation] ster (Phase 2 mesocosm with fully sterilised soil); non (Phase 2 mesocosm inoculated with unsterilised Phase 1 treatment soil)

• rain_amt_mm_per_10d:  [rainfall amount (mm) over every 10-day-period] con (no rainfall treatment in Phase 1); 40mm (ambient rainfall amount in Phase 1); 20mm ( -50% rainfall amount of ambient in Phase 1)

• rain_freq_d: [rainfall frequency (days between rainfall events)]  0d (no rainfall treatment in Phase 1); 5d (ambient rainfall frequency in Phase 1); 10d (-50% rainfall frequency of ambient in Phase 1)

• replicate: [mesocosm replicate number]

• sp_in_meso: [plant species ID] G1, Leymus chinensis (grass); G2, Stipa grandis (grass); F1, Allium ramosum (forb); F2, Artemisia sieversiana  forb); N1, Lespedeza daurica (nitrogen-fixing legume); N2, Medicago ruthenica (nitrogen-fixing legume)

• no_spp: [number of plant species in mesocosm]

• no_func_group: [number of plant functional group(s) in mesocosm]

• ag_bm_g: [aboveground dry biomass (g) of a constituent plant species in Phase 2 mesocosm]

• bg_bm_g: [belowground dry biomass (g) of a constituent plant species in Phase 2 mesocosm]

• total_bm_g: [above+belowground dry biomass (g) of a constituent plant species in Phase 2 mesocosm]

• change_total_bm_g: Biotic effect on constituent species biomass = Total dry biomass (g) of a given species in multi-species mesocosm with specific inoculated soil treatment – Average total biomass of conspecifics grown in same-assemblage mesocosms with sterilised soil

  NB   'n/a' in cell: Value of specific variable (column) of an experimental unit not relevant or not applicable to analysing that same variable