The timing of the transition from seed, seedlings and development into flowering is paramount importance in annual-type Zostera marina, because flowering is the first step of sexual reproduction. A majority of plants use environmental cues to regulate the transition to their developmental stages because plants must flower synchronously for successful outcrossing and must complete their sexual reproduction under favorable external conditions. The morphological characteristics (seeds and lateral shoot production, branch number, and inflorescence length) of reproductive shoots of Z. marina L. were examined in outdoor mesocosms to better understand the reproductive strategies of annual populations. Seeds in the germination experiment were divided into two groups: those exposed to cold (7 degrees C; vernalized group) and those left untreated (25-21 degrees C; non-vernalized group). All 600 seeds (300 from each group) were Cultured for 2 months at 7, 10, 15, 20, and 25 degrees C in an indoor incubator. In the vernalized group, the germination rates were almost significantly higher than in the non-vernalized group. However, germination rates were not significantly affected by germination temperature. In outdoor mesocosms, production of vegetative shoots was observed in plants germinated at 15 and 20 degrees C in the vernalized group and at 10, 15 and 20 degrees C in the non-vernalized group. The highest number of vegetative shoots produced (35) was observed in plants germinated at 20 degrees C in the vernalized group, whereas seeds of either group failed to produce vegetative shoots when germinated at a low temperature (7 degrees C).
In the flowering phase, the number of branches per shoot in the vernalized group was significantly higher than in the non-vernalized group. The total number of spadices on the 1 st branches of plants in the vernalized group (germination at 20 degrees C) was significantly lower than that in the non-vernalized group at the same germination temperature. The total number of spadices per reproductive shoot in the vernalized group (germination at 10 degrees C) was also higher than in the non-vernalized group. Thus, both low temperature (vernalization) and seed germination temperature have implications for the sexual and asexual propagation of annual Z. marina populations.

• 出版日期2010-1