Rousi Matti, Heinonen Jaakko
Finnish Forest Research Institute, Punkaharju Research Unit, Finlandiantie 18, Fin-58450 Punkaharju, Finland.
Tree Physiol. 2007 Jul;27(7):1019-25. doi: 10.1093/treephys/27.7.1019.
Within-population variation in phenology of boreal trees indicates their adaptability to climatic variations. Although interannual variations in date of bud burst have been widely discussed, little is known about within-population variation, the key determinants for this variation and the effects of this variation on estimates of trends in bud burst date. Over a period of nine years, we monitored timing of bud burst daily in 30 mature white birch (Betula pendula Roth) trees in a naturally regenerated stand. Our results revealed not only large interannual variation but also considerable intraannual variation among individual trees in date of bud burst, the maximum within-population variation being four weeks. Bud burst can be accurately predicted by the date when a threshold value of temperature sum in spring is reached (base temperature +5 degrees C). Based on this temperature sum and past temperature records, we estimated the trend in date of bud burst. The linear trend estimate based on the years 1926-2005 is an advancement of 1.2 days per decade (95% confidence interval, +/- 0.7 days), which is much less than that predicted by time series based on coarser time intervals. We conclude that, because of large interannual differences, and large annual within-population variations in bud burst, estimates of bud burst date based on measurements made over a period of only a few decades are unreliable.
北方树木物候的种群内变异表明了它们对气候变化的适应性。尽管芽萌发日期的年际变化已被广泛讨论,但对于种群内变异、这种变异的关键决定因素以及这种变异对芽萌发日期趋势估计的影响却知之甚少。在九年的时间里,我们每天监测一个自然更新林分中30棵成熟白桦(Betula pendula Roth)树的芽萌发时间。我们的结果不仅揭示了芽萌发日期的巨大年际变化,还显示了个体树木之间相当大的年内变化,种群内最大变异为四周。当春季积温达到阈值(基础温度 +5摄氏度)时,芽萌发可以被准确预测。基于这个积温和过去的温度记录,我们估计了芽萌发日期的趋势。基于1926 - 2005年的线性趋势估计是每十年提前1.2天(95%置信区间,±0.7天),这比基于更粗时间间隔的时间序列预测的要少得多。我们得出结论,由于芽萌发存在巨大的年际差异和较大的种群内年度变化,基于仅几十年时间内测量得出的芽萌发日期估计是不可靠的。
