Importance of sampling design to increase climate signal detection in shrub ring chronologies

IF 0.8 4区社会学 Q3 GEOGRAPHY

Erdkunde Pub Date : 2023-02-28 DOI:10.3112/erdkunde.2022.04.04

Tânia R. Pereira, L. Francon, C. Corona, M. Stoffel

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引用次数: 0

Abstract

Shrub dendrochronology is gaining increasing momentum in temperate high mountain regions to decipher climatic controls on current shrub expansion. Yet, a lack of consensus still persists in terms of sampling protocols, thus hampering comparability of results from different studies. For instance, serial sectioning, i.e. the sampling of multiple sections along the same shrub stem is recommended as it increases the detection of partial and missing rings, but has only been employed in few studies as it is time-consuming. Similarly, as a result of serial sectioning, chronologies frequently combine sections sampled at different positions along the stem and at the root collar which hinders the detection of climatic signals. Here, we used cross-sections sampled on 21 Rhododendron ferrugineum shrubs from the French Pyrenees to define a parsimonious protocol enabling detection of partial and missing rings while increasing the strength of the climate signal in the shrub ring chronology. We demonstrate that partial and missing rings are almost evenly distributed along Rhododendron ferrugineum stems and that they can be detected optimally using two sections on which growth rings are measured along three radii. Our results also evidence that chronologies which include only ring-width series from basal sections more strongly integrate summer temperature fluctuations than stem-based or mixed chronologies. Noteworthy, the snowpack signal is stronger in chronologies with individuals from the upper stem sections. Overall, our results confirm that sampling design - serial sectioning and caution in ring-width series aggregation - is key to ensure robustness of dendroecological studies on dwarf shrubs in alpine environments.

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采样设计对增加灌木年轮气候信号检测的重要性

在温带高山地区，灌木年代学正在获得越来越多的势头，以破译当前灌木扩张的气候控制。然而，在采样方案方面仍然缺乏共识，从而阻碍了不同研究结果的可比性。例如，建议采用连续切片，即沿同一灌木茎进行多个切片取样，因为它增加了部分环和缺失环的检测，但由于耗时，仅在少数研究中使用。同样，由于连续切片，年表经常将沿茎和根颈不同位置取样的部分组合在一起，这妨碍了气候信号的探测。本文利用法国比利牛斯山脉21株铁质杜鹃花灌木的截面样本，定义了一种简化的方案，能够检测到部分和缺失的年轮，同时增加了灌木年轮年表中气候信号的强度。我们证明了部分和缺失的环几乎均匀地分布在铁质杜鹃茎上，并且可以使用沿三个半径测量生长环的两个截面来最佳地检测它们。我们的研究结果还表明，仅包括基剖面环宽序列的年表比基于茎的年表或混合年表更能反映夏季温度波动。值得注意的是，积雪信号在年表中更强，个体来自上部茎段。总体而言，我们的研究结果证实，采样设计——连续分段和谨慎的环宽序列聚集——是确保高山环境矮灌木树木生态学研究稳健性的关键。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Erdkunde 地学-自然地理

CiteScore

2.00

自引率

7.10%

发文量

审稿时长

>12 weeks

期刊介绍： Since foundation by Carl Troll in 1947, ''ERDKUNDE – Archive for Scientific Geography'' has established as a successful international journal of geography. ERDKUNDE publishes scientific articles covering the whole range of physical and human geography. The journal offers state of the art reports on recent trends and developments in specific fields of geography and comprehensive and critical reviews of new geographical publications. All manuscripts are subject to a peer-review procedure prior to publication. High quality cartography and regular large sized supplements are prominent features of ERDKUNDE, as well as standard coloured figures.