A Comparative Study of Germination Responses to Diurnally-Fluctuating Temperatures

Abstract

Seeds collected from populations of a range of native herbaceous plants in the Sheffield region [UK] were subjected to experimental treatments providing a range of amplitudes of diurnal fluctuations in temperature. All experiments involved a photoperiod of 18 h combined in some species with a comparable series of temperature treatments applied in continuous darkness. In the light a stimulation of germination by fluctuating temperature was observed in 46 of the 112 spp. tested. The responses varied from those indicating an absolute requirement in all seeds for large (> 5.degree. C) fluctuations polymorphisms in which some seeds germinated at constant temperatures while the remainder responded to small (< 5.degree. C) fluctuations. The capacity to respond to fluctuating temperatures in the light was prominent in species of wetland where it appears to provide a mechanism whereby spring germination may be initiated by increasing irradiance and falling water table. In certain species the effect of continuous darkness was to increase the amplitude of temperature of fluctuation necessary for germination. Small-seeded species known to form buried seed reserves were inhibited by darkness and in the absence of light did not respond to fluctuating temperatures. Sensitivity to temperature fluctuations in darkness was observed in species of grassland, wetland and disturbed habitats, and was conspicuous among species forming persistent seed banks. Apparently, responses to temperature fluctuations in darkness provide mechanisms of depth-sensing by buried seeds and may initiate establishment from seed within canopy gaps. Many of the species found to respond to temperature fluctuations in darkness are successful weeds of arable land or pasture. A polymorphic response to temperature fluctuations may account partially for the unpredictability of apperance of infestations of these weeds. The ability to invade canopy gaps throughout the year is important to the success of many pasture weeds and is notably absent from the major sown species, Lolium perenne.