Influence of Climatic Factors on Scots Pine (Pinus sylvestris L.) Growth on the Coast of the Kandalaksha Bay of the White Sea

A. Koukhta, O. Maksimova, Veronika V. Kuznetsova
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Abstract

The purpose of this study is a comparative analysis of linear and radial increments of Scots pine (Pinus sylvestris L.) as a response to the growing conditions on the coast of the Kandalaksha Bay of the White Sea, as well as an evaluation of the temperature and precipitation influences of the current and previous growing seasons. These were applied to the conventional methods of measurement and data analysis. The dynamics of growth in height and diameter were employed as indicators of the stands' response to habitant conditions. A statistical analysis of the growth rates was performed, which vary depending on habitat type, as well as an assessment of the connection between biometric indicators of the stands and the amount of precipitation and mean temperature. The significant differences in the series of linear increment increases were found as distinctions between biotopes, but they were absent for the radial increment. Therefore, it is possible to monitor the typical behavior of tree diversity independent of the biotope type using radial growth series. This provides the foundation for a long-term retrospective analysis of environmental impact on the stands by using the annual rings of the trees without taking growing conditions into account. Precipitation was determined to be a limiting factor for radial and linear growth throughout the phenophase of internodal growth and early wood formation. Temperature was identified as a limiting factor for radial development only during the stages of late wood formation and resource accumulation for the following growing season. The high sensitivity of linear increases to climatic conditions was revealed, which makes it useful as a criterion for assessing the state of forest ecosystems over short time periods (up to 30 years). However, this, in turn, dictates the impossibility of forming long-term linear increment series, as for radial growth, which is a significant limitation of this method. The choice of linear or radial growth analysis methods is concluded to be determined by the goals of the intended study, i.e., monitoring forest ecosystems under current climate change conditions or long-term paleoclimate analysis. For citation: Koukhta A.E., Maksimova O.V., Kuznetsova V.V. Influence of Climatic Factors on Scots Pine (Pinus sylvestris L.) Growth on the Coast of the Kandalaksha Bay of the White Sea. Lesnoy Zhurnal = Russian Forestry Journal, 2023, no. 4, pp. 105–119. (In Russ.). https://doi.org/10.37482/0536-1036-2023-4-105-119
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气候因子对苏格兰松的影响白海坎大拉克沙湾沿岸的生长
本研究的目的是比较分析白海Kandalaksha湾沿岸生长条件对苏格兰松(Pinus sylvestris L.)线性和径向增量的响应,并评估当前和以前生长季节对温度和降水的影响。这些应用于传统的测量和数据分析方法。以林分高度和林分直径的生长动态作为林分对生境条件响应的指标。对不同生境类型的生长速率进行了统计分析,并对林分生物特征指标与降水量和平均温度之间的关系进行了评估。在不同的生物群落中,线性增量序列存在显著差异,而在径向增量序列中则不存在显著差异。因此,利用径向生长序列可以监测与群落类型无关的树木多样性的典型行为。这为在不考虑生长条件的情况下利用树木年轮对林分的环境影响进行长期回顾性分析提供了基础。在整个节间生长和早期木材形成的物候期,降水被确定为径向和线性生长的限制因素。温度仅在木材形成后期和下一个生长季节的资源积累阶段被确定为径向发育的限制因素。揭示了线性增长对气候条件的高度敏感性,这使得它可以作为评估森林生态系统在短时间内(长达30年)状态的标准。然而,这反过来又决定了不可能形成长期的线性增量序列,而对于径向增长,这是该方法的一个显着局限性。线性或径向生长分析方法的选择取决于预期研究的目标,即在当前气候变化条件下监测森林生态系统或长期古气候分析。引证:Koukhta a.e., Maksimova o.v., Kuznetsova V.V.气候因子对苏格兰松的影响白海坎大拉克沙湾沿岸的生长。俄罗斯林业杂志,2023年第1期。4,第105-119页。(俄国人)。https://doi.org/10.37482/0536-1036-2023-4-105-119
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