Variability in Thermal response of Primed and Non-primed Seeds of Squirreltail [Elymus elymoides (Raf.) Swezey and  Elymus multisetus (J. G. Smith) M. E. Jones]

doi:10.1093/aob/mcf043

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Annals of Botany 89: 311-319, 2002
© 2002 Annals of Botany Company

Variability in Thermal response of Primed and Non-primed Seeds of Squirreltail [Elymus elymoides (Raf.) Swezey and Elymus multisetus (J. G. Smith) M. E. Jones]

STUART P. HARDEGREE^*^,1, THOMAS A. JONES² and STEVEN S. VAN VACTOR¹

¹USDA Agricultural Research Service, Northwest Watershed Research Center, 800 Park Blvd, Suite 105, Boise, Idaho, 83712, USA and ²Forage and Range Research Laboratory, 695 N. 1100 E., Logan, Utah 84322, USA

* For correspondence. Fax +1 208 334 1502, e-mail shardegr{at}nwrc.ars.usda.gov

Received: 5 October 2001; Returned for revision: 12 November 2001; Accepted: 26 November 2001.

Bottlebrush squirreltail [Elymus elymoides (Raf.) Swezey = Sitanionhystrix (Nutt.) J. G. Smith] and big squirreltail [Elymus multisetus(J. G. Smith) M. E. Jones = Sitanion jubatum (J. G. Smith)]have a broad geographical distribution and have been identifiedas high priority species for restoration of degraded rangelandsin the western United States. These rangelands exhibit highannual and seasonal variability in seedbed microclimate. Theobjective of this study was to examine variability in thermalresponse of both primed and non-primed seeds of these speciesin the context of field-variable temperature regimes. Seed primingtreatments were selected to optimize germination rate in a low-temperaturetest environment. Primed and non-primed seeds were evaluatedfor laboratory germination response under 12 constant temperaturetreatments between 3 and 36 °C. Thermal time and base temperaturewere estimated by regression analysis of germination rate asa function of temperature in the sub-optimal temperature range.The thermal germination model and 6 years of field temperaturedata were used to simulate the potential germination responseunder different field planting scenarios. Seed priming reducedthe total germination percentage of some seedlots, especiallyat higher germination temperatures. Seed priming increased thegermination rate (reduced the number of days to 50 % germination)by 3·8–8·4 d at 6 °C with a mean germinationadvancement of 6·9 ± 0·6 d. Maximum germinationadvancement in the model simulations was 5–10 d for plantingdates between 1 March and 15 May. Model simulations can be usedto expand germination analysis beyond simple treatment comparisons,to include a probabilistic description of potential germinationresponse under historical or potential future conditions ofseedbed microclimate.

Key words: Germination, priming, temperature, Elymus elymoides (Raf.) Swezey, Elymus multisetus (J. G. Smith) M. E. Jones, squirreltail, model.

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