Science and Technology Branch, Agriculture and Agri-Food Canada, Indian Head, Saskatchewan, Canada.
Plant Cell Environ. 2013 Jan;36(1):116-27. doi: 10.1111/j.1365-3040.2012.02560.x. Epub 2012 Jul 12.
Plant phenology is expected to be sensitive to climate warming. In boreal trees, spring flush is primarily temperature driven, whereas height growth cessation and autumn leaf senescence are predominantly controlled by photoperiod. Cuttings of 525 genotypes from the full range of balsam poplar were planted into two common gardens (Vancouver and Indian Head, Canada) at similar latitudes, but with differing winter temperatures and growing seasons. There was clinal variation in spring and, particularly, summer and fall phenology. Bud flush and, despite milder climate, bud set and leaf drop were earlier at Vancouver than at Indian Head by 44, 28 and 7 d, respectively. Although newly flushed growth is insensitive to photoperiod, many genotypes at both sites became competent before the summer solstice. At Vancouver, high-latitude genotypes set dormant terminal buds in mid-spring. Most other genotypes grew until midsummer or set bud temporarily and then experienced a second flush. In both gardens and in a growth chamber experiment, earlier bud set was associated with reduced height growth and higher root/shoot ratios. Shoots attained competency ~5 weeks after flushing, which would normally prevent dormancy induction before the solstice, but may be insufficient if spring advances by more than a few weeks.
物候学预计会对气候变暖敏感。在北方树木中,春季芽的萌动主要受温度驱动,而秋季叶片衰老主要受光周期控制。在纬度相似的两个普通花园(加拿大温哥华和印第安海德)中,种植了来自银白杨全范围的 525 个基因型的插条,但冬季温度和生长季节不同。在春季和夏季以及秋季都有明显的纬度变化。芽的萌动,尽管气候较为温和,但在温哥华比在印第安海德分别早了 44、28 和 7 天。尽管新萌动的生长对光周期不敏感,但在两个地点的许多基因型在夏至前就已经具备了休眠终端芽的能力。在温哥华,高纬度的基因型在仲春时分休眠。其他大多数基因型会生长到仲夏或暂时休眠,然后经历第二次芽的萌动。在两个花园和生长室实验中,较早的芽的萌动与较低的高度生长和较高的根/茎比相关。芽在萌动后约 5 周后达到成熟,这通常可以防止在夏至前休眠,但如果春季提前超过几周,则可能不够。
