A bimodal germination response to temperature in cocklebur seeds. I. Cyanide‐sensitive and cyanide‐resistant respirations

. Pre‐imbibed cocklebur ( Xanthium penn‐sylvanicum Wallr.) seeds displayed bimodal germination‐temperature responses with two optima at 8 and 33° C. Such germination responses occurred subsequent to bimodal respiration‐temperature upsurges at lower and higher temperature regions. At lower temperatures, cocklebur seeds respired predominantly through a cyanide‐sensitive cytochrome pathway. A rise in temperature resulted in a marked increase in flux via an alternative pathway, a propyl gallate‐ (PG) or benzohydroxamic‐acid‐ (BHAM) sensitive pathway, thus resulting in an increase in the ratio of this pathway relative to the cytochrome pathway. Both an increased capacity for the alternative pathway and an increase in the ratio of this pathway to the cytochrome pathway were obtained when pre‐imbibed seeds were exposed to either 8 or 33°C for a short period. The effects of low temperature were reduced as the exposure time was prolonged beyond 3d, resulting in a reduction in germination. Neither PG nor BHAM had an inhibitory effect on the chilling‐induced germination, but the germination‐stimulating effect of high temperatures was less pronounced in the presence of PG or BHAM. At high temperatures, on the other hand, KCN and NaN 3 were ineffective or, rather, slightly inhibited germination. It was thus concluded that low and high temperatures exert their germination‐stimulating effects by an essentially similar manner which increases fluxes both via the cytochrome pathway and, especially, via the alternative pathway and, as a result, raises the ratio of the latter to the former.