A comparative study of the seed germination biology of a narrow endemic and two geographically-widespread species ofSolidago(Asteraceae). 1. Germination phenology and effect of cold stratification on germination

Abstract

AbstractSolidago shortiiis endemic to a small area in northcentral Kentucky (USA), whereas two of its sympatric congeners,S. altissimaandS. nemoralis, are geographically widespread. Seeds (achenes) ofS. shortii(0.370 mg) are significantly larger (PLSD,P=0.05) than those ofS. altissima(0.070 mg) andS. nemoralis(0.068 mg). Germination percentages of freshly-matured seeds of the threeSolidagospecies collected in November 1991, 1992 and 1994 were 0–2% in light at 15/6°C, 1–37% at 20/10°C, 9–56% at 25/15°C and 10–85% at 30/15 and 35/20°C. Stratification increased the percentage and rate of germination and decreased the time to the onset of germination (measured by Timson's index only at 20/10°C in light) in the three species. Following 12 weeks of cold stratification in light, seeds of the three species germinated to 72–100% in the light and to 22–100% in darkness over the range of thermoperiods; those cold-stratified in darkness germinated to 39–100% in light. Freshly-matured seeds ofS. altissimaand ofS. nemoralisgerminated to 0–4% in darkness, whereas those cold-stratified for 12 weeks in darkness germinated to 0–28% in darkness. On the other hand, freshly-matured and cold-stratified (in darkness) seeds ofS. shortiigerminated to 0–13 and 13–73%, respectively, in darkness. Under near-natural temperatures in a glasshouse without temperature control, germination of the three species peaked in March. Thus, the primary difference in dormancy-breaking and germination requirements of the three species is that the endemic germinates to a much higher percentage in darkness than its two congeners. Seeds ofS. shortiido not have any special dormancy-breaking or germination requirements that could not be fulfilled outside its present-day geographic range.