西伯利亚中部森林草原种源试验中落叶松气候类型的分化

IF 0.4 Q4 BIOLOGY
A. Rubtsov, A. Barchenkov, S. R. Kuzmin, Tatyana V. Karpyuk
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The special interest in larch research is associated with a wide range of factors, such as inter- and intraspecific differentiation, capability to adapt to stressful growth conditions and the ability to successfully transfer seeds over large distances for creation of plantations with special purposes. The aim of this study was to assess inter- and intraspecific differences in height growth, crown area and length using the example of future generations of different larch species representing different provenances in the provenance trial. We obtained material for this study, located in the provenance trial research plot ‘Pogorelsky bor’ (56°22'06\"N, 92°57'23\"E) in the forest-steppe of Krasnoyarsk krai, in 2016. Live larch trees in the provenance trial were inventoried using the GIS complex ‘Field-Map’. The total number of inventoried trees was 1674. Nineteen provenances (climatic ecotypes) of various larch species (See Table and Fig. 1) were chosen for comparative analysis of height, crown area and crown length using a nonparametric method - the Kruskal-Wallis ANOVA test and Median test. The crown proportion of tree stems was assessed using median values. Trees with a diameter similar to that of the main sample (121-160 mm; 412 trees) and an alternative sample of trees with a wider diameter (181-220 mm; 291 trees) were chosen for comparative analysis. Such an approach enabled the assessment of different biometric traits of trees while accounting for diameter and similar growth conditions at the trial site. The number of trees in the main sample was 3 and 148 in the two provenances, whereas it ranged from 6 to 48 in the rest of the provenances. In this study, tree height (See Fig. 2) and tree crown length (See Fig. 4) differed between climatic ecotypes of different larch species in the forest-steppe provenance trial of the south Krasnoyarsk region. These differences were related to the origin of the climatypes. We found that larch climatypes from mountain regions showed lower tree height and crown length. We also found that descendants of larch that originated in climatically favourable areas or those connected to the hollows of southern Siberia and the Biryusa and Chuna river basins within the Pre-Sayan province, as well as representatives of the Dahurian larch (Larix gmelinii Rupr.) and Chekanowskii larch (L. czekanowskii Szafer) from Chita Oblast, had greater tree height and tree crown length in the provenance trial (See Fig. 2 and 4). Therefore, the exploitation of these provenances for reforestation of the Krasnoyarsk forest-steppe may be reasonable and rational. Although the results obtained for 10-year-old trees (Iroshnikov, 1977) indicated that the height growth of the Petrovsk-Zabaikalski climatype (Chekanowskii larch) was lower than that of the Siberian and Dahurian larches, by the age of 50 years, it achieved a similar diameter and may be regarded as equal in height growth to the majority of representatives of the latter two larches in the forest-steppe zone. Comparative analysis of samples with different diameters showed that, in general, climatypes were in the same tree height groups (See Fig. 1). Our results show that significant differences in tree height between climatypes are not an obligatory condition for differences in crown length. Tree crown length has its own separate developmental strategy, which is genetically associated with the environmental conditions of the place of origin. The climatype from the highlands with the lowest hydrothermal coefficient of place of origin (the Tes-Khem climatype from Tyva) had the shortest crown length. The ratio of crown to full stem length of the Tes-Khem climatype was 18%. High crown lengths were found for larch climatypes from the hollows of southern Siberia and for representatives of the Dahurian larch from Amur Oblast (the Zeya climatype). The northernmost climatype from the southern taiga (the Motygino climatype, Angara river basin) had a crown length lower than that of the representatives of the Dahurian larch. The crown length proportion of the Zeya climatype (38%, the highest median value of the samples compared) was 14% higher than that of the Motygino climatype (24%). Differences in crown proportion of more than 5%-10% were observed between a few larch climatypes. In general, natural differences between species could not be defined. In this study, significant differences between samples representing different larch species were only found for crown length. The Gmelin larch had a significantly higher crown length than the Siberian (p < 0.001) and Japanese (p < 0.05) larches. In contrast to the other traits studied, crown area did not significantly influence the difference between climatypes. The reasons for the absence of significant differences were the high variability of this trait in the majority of climatypes and the presence of extremes in some samples (See Fig. 3). The paper contains 4 Figures, 1 Table, and 26 References. Acknowledgements: The authors are grateful to Vladimir Kalashnikov (Head of the State Forest Inventory Department of “VOSTSIBLESPROJECT” branch of FSBD “ROSLESINFORG”) for his assistance in management and performance of the field work, and to Yana Semenuk for her contribution in the inventory data processing during the preparation of her bachelor thesis at Siberian Federal University. 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The aim of this study was to assess inter- and intraspecific differences in height growth, crown area and length using the example of future generations of different larch species representing different provenances in the provenance trial. We obtained material for this study, located in the provenance trial research plot ‘Pogorelsky bor’ (56°22'06\\\"N, 92°57'23\\\"E) in the forest-steppe of Krasnoyarsk krai, in 2016. Live larch trees in the provenance trial were inventoried using the GIS complex ‘Field-Map’. The total number of inventoried trees was 1674. Nineteen provenances (climatic ecotypes) of various larch species (See Table and Fig. 1) were chosen for comparative analysis of height, crown area and crown length using a nonparametric method - the Kruskal-Wallis ANOVA test and Median test. The crown proportion of tree stems was assessed using median values. Trees with a diameter similar to that of the main sample (121-160 mm; 412 trees) and an alternative sample of trees with a wider diameter (181-220 mm; 291 trees) were chosen for comparative analysis. Such an approach enabled the assessment of different biometric traits of trees while accounting for diameter and similar growth conditions at the trial site. The number of trees in the main sample was 3 and 148 in the two provenances, whereas it ranged from 6 to 48 in the rest of the provenances. In this study, tree height (See Fig. 2) and tree crown length (See Fig. 4) differed between climatic ecotypes of different larch species in the forest-steppe provenance trial of the south Krasnoyarsk region. These differences were related to the origin of the climatypes. We found that larch climatypes from mountain regions showed lower tree height and crown length. 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引用次数: 0

摘要

森林保护是世界林业面临的主要问题之一。许多森林火灾和广泛存在的真菌病原体和害虫导致森林面积和生物多样性显著减少,以及宝贵种群的消失。由于木材采伐的增加,森林养护和再生的问题在本世纪初变得特别重要。在这种情况下,在不同时期建立的木本物种的遗传收集,包括种源试验,在主要针叶林物种(俄罗斯的森林形成物种)的基因库保护以及在气候变化和生物地理群落生长条件背景下的基础和应用问题中发挥重要作用。对落叶松研究的特殊兴趣与多种因素有关,例如种间和种内分化,适应压力生长条件的能力以及成功长距离转移种子以创建特殊用途种植园的能力。以不同种源的落叶松后代为例,研究了不同种源的落叶松种间和种内的种高生长、树冠面积和种长差异。我们于2016年在克拉斯诺亚尔斯克边疆区森林草原的Pogorelsky bor(56°22'06"N, 92°57'23"E)的种源试验研究地块获得了本研究的材料。利用GIS复杂的“田间地图”对种源试验中的活落叶松进行了清查。所查树木总数为1674棵。选择不同落叶松种源的19个种源(气候生态型)(见表和图1),采用非参数方法——Kruskal-Wallis方差分析和中位数检验,对落叶松种源的高度、冠面积和冠长进行比较分析。采用中位数法评估树干冠度。与主样材直径相近的树木(121-160 mm;412棵树)和直径更宽的树木样本(181-220毫米;291株)进行比较分析。这种方法能够评估树木的不同生物特征,同时考虑到试验地点的直径和类似的生长条件。两个种源的主样数分别为3株和148株,其余种源的主样数在6 ~ 48株之间。本研究在克拉斯诺亚尔斯克南部森林草原种源试验中,不同落叶松树种气候生态型的树高(见图2)和树冠长(见图4)存在差异。这些差异与气候类型的起源有关。山地落叶松气候类型的树高和冠长较低。我们还发现,在种源试验中,落叶松的后代在气候有利的地区或与西伯利亚南部的山谷和前萨扬省的Biryusa和Chuna河流域相连的地区,以及来自Chita州的Dahurian落叶松(Larix gmelinii Rupr.)和Chekanowskii落叶松(L. czekanowskii Szafer)的代表,具有更大的树高和树冠长度(见图2和图4)。利用这些种源在克拉斯诺亚尔斯克森林草原重新造林可能是合理和合理的。Iroshnikov, 1977)对10年树龄的研究结果表明,Petrovsk-Zabaikalski气候型(chekanowski落叶松)的高度生长量低于西伯利亚落叶松和达赫里安落叶松,但在50年树龄时,其直径与西伯利亚落叶松和达赫里安落叶松的大多数代表相似,可以认为其高度生长量与后两种落叶松的大多数代表相同。不同直径样品的对比分析表明,气候类型总体上属于同一树高组(见图1)。我们的研究结果表明,气候类型间树高的显著差异并不是树冠长度差异的必要条件。树冠长度有其独特的发育策略,这与原产地的环境条件有关。热液系数最低的高原气候型(泰瓦的Tes-Khem气候型)的冠长最短。Tes-Khem气候型的冠长与全茎长之比为18%。在西伯利亚南部洼地的落叶松气候型和阿穆尔州的Dahurian落叶松的代表(Zeya气候型)中发现了高树冠长度。南部针叶林最北的气候型(安加拉河流域的Motygino气候型)的冠长低于达胡里安落叶松的代表。泽雅气候型的冠长占比(38%)比莫提吉诺气候型的冠长占比(24%)高14%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Differentiation of larch (Larix spp.) climatypes in the Central Siberian forest-steppe provenance trial
Forest conservation is one of the main problems in world forestry. Numerous forest fires and widespread fungal pathogens and pests have led to a significant decline in forest areas and biodiversity and the disappearance of valuable populations. The problem of forest conservation and regeneration became especially relevant at the beginning of this century because of increasing wood harvesting. In this case, genetic collections of woody species, including provenance trials, established at different times play an important role in gene pool conservation of the main coniferous species - the forest-forming species in Russia - and in basic and applied problems in the context of climate change and the growing conditions in biogeocoenoses. The special interest in larch research is associated with a wide range of factors, such as inter- and intraspecific differentiation, capability to adapt to stressful growth conditions and the ability to successfully transfer seeds over large distances for creation of plantations with special purposes. The aim of this study was to assess inter- and intraspecific differences in height growth, crown area and length using the example of future generations of different larch species representing different provenances in the provenance trial. We obtained material for this study, located in the provenance trial research plot ‘Pogorelsky bor’ (56°22'06"N, 92°57'23"E) in the forest-steppe of Krasnoyarsk krai, in 2016. Live larch trees in the provenance trial were inventoried using the GIS complex ‘Field-Map’. The total number of inventoried trees was 1674. Nineteen provenances (climatic ecotypes) of various larch species (See Table and Fig. 1) were chosen for comparative analysis of height, crown area and crown length using a nonparametric method - the Kruskal-Wallis ANOVA test and Median test. The crown proportion of tree stems was assessed using median values. Trees with a diameter similar to that of the main sample (121-160 mm; 412 trees) and an alternative sample of trees with a wider diameter (181-220 mm; 291 trees) were chosen for comparative analysis. Such an approach enabled the assessment of different biometric traits of trees while accounting for diameter and similar growth conditions at the trial site. The number of trees in the main sample was 3 and 148 in the two provenances, whereas it ranged from 6 to 48 in the rest of the provenances. In this study, tree height (See Fig. 2) and tree crown length (See Fig. 4) differed between climatic ecotypes of different larch species in the forest-steppe provenance trial of the south Krasnoyarsk region. These differences were related to the origin of the climatypes. We found that larch climatypes from mountain regions showed lower tree height and crown length. We also found that descendants of larch that originated in climatically favourable areas or those connected to the hollows of southern Siberia and the Biryusa and Chuna river basins within the Pre-Sayan province, as well as representatives of the Dahurian larch (Larix gmelinii Rupr.) and Chekanowskii larch (L. czekanowskii Szafer) from Chita Oblast, had greater tree height and tree crown length in the provenance trial (See Fig. 2 and 4). Therefore, the exploitation of these provenances for reforestation of the Krasnoyarsk forest-steppe may be reasonable and rational. Although the results obtained for 10-year-old trees (Iroshnikov, 1977) indicated that the height growth of the Petrovsk-Zabaikalski climatype (Chekanowskii larch) was lower than that of the Siberian and Dahurian larches, by the age of 50 years, it achieved a similar diameter and may be regarded as equal in height growth to the majority of representatives of the latter two larches in the forest-steppe zone. Comparative analysis of samples with different diameters showed that, in general, climatypes were in the same tree height groups (See Fig. 1). Our results show that significant differences in tree height between climatypes are not an obligatory condition for differences in crown length. Tree crown length has its own separate developmental strategy, which is genetically associated with the environmental conditions of the place of origin. The climatype from the highlands with the lowest hydrothermal coefficient of place of origin (the Tes-Khem climatype from Tyva) had the shortest crown length. The ratio of crown to full stem length of the Tes-Khem climatype was 18%. High crown lengths were found for larch climatypes from the hollows of southern Siberia and for representatives of the Dahurian larch from Amur Oblast (the Zeya climatype). The northernmost climatype from the southern taiga (the Motygino climatype, Angara river basin) had a crown length lower than that of the representatives of the Dahurian larch. The crown length proportion of the Zeya climatype (38%, the highest median value of the samples compared) was 14% higher than that of the Motygino climatype (24%). Differences in crown proportion of more than 5%-10% were observed between a few larch climatypes. In general, natural differences between species could not be defined. In this study, significant differences between samples representing different larch species were only found for crown length. The Gmelin larch had a significantly higher crown length than the Siberian (p < 0.001) and Japanese (p < 0.05) larches. In contrast to the other traits studied, crown area did not significantly influence the difference between climatypes. The reasons for the absence of significant differences were the high variability of this trait in the majority of climatypes and the presence of extremes in some samples (See Fig. 3). The paper contains 4 Figures, 1 Table, and 26 References. Acknowledgements: The authors are grateful to Vladimir Kalashnikov (Head of the State Forest Inventory Department of “VOSTSIBLESPROJECT” branch of FSBD “ROSLESINFORG”) for his assistance in management and performance of the field work, and to Yana Semenuk for her contribution in the inventory data processing during the preparation of her bachelor thesis at Siberian Federal University. The Authors declare no conflict of interest.
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