俄勒冈州西部喀斯喀特山脉的树木年轮碳同位素记录主要记录夏季最高温度

IF 1.1 4区农林科学 Q3 FORESTRY

Tree-Ring Research Pub Date : 2018-08-03 DOI:10.3959/1536-1098-74.2.185

Christopher J. Ratcliff, S. Voelker, A. Nolin

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引用次数: 5

摘要

摘要本文研究了1950年至2013年，在俄勒冈州喀斯喀特山脉的两个SNOTEL积雪监测点，气候对晚材树生长的年际变化（即环宽指数，RWILW）和稳定碳同位素判别（Δ13CLW）的影响。在年峰值雪水当量（SWE）平均值分别为467毫米和1128毫米的低海拔和高海拔地区，对花旗松和山铁杉进行了采样。RWILW年代在地点/物种之间的相关性很差（r=0.23，P=0.063），与月度或季节性气候变量的相关性都不强。相比之下，Δ13CLW年代显著相关（r=0.69，P<0.001），并表现出更强的气候响应。多元回归分析确定夏季最高温度（Tmax）和/或蒸汽压不足（VPD）是Δ13CLW的主要驱动因素。次要影响包括夏季降水量、比湿度、云量和前一个秋冬的SWE。总的来说，我们的研究结果表明，随着气温上升导致积雪逐渐减少，喀斯喀特混合针叶树森林将变得越来越干旱。此外，我们的Δ13CLW记录还提供了一个概念证明，显示出将夏季Tmax重建扩展到其他多雪、山地地区的强大潜力。

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Tree-Ring Carbon Isotope Records from the Western Oregon Cascade Mountains Primarily Record Summer Maximum Temperatures

Abstract Here we examine climatic influences on inter-annual variation in latewood tree growth (i.e. ring-width indices, RWILW) and stable-carbon isotope discrimination (Δ13CLW) from 1950 to 2013 at two SNOTEL snowpack monitoring sites in the Oregon Cascade Mountains. Douglas-fir and mountain hemlock trees were sampled at the lower and upper elevation sites where annual peak snow water equivalent (SWE) averaged 467 and 1128 mm, respectively. RWILW chronologies were poorly correlated among sites/species (r = 0.23, P = 0.063) and neither exhibited strong correlations with monthly or seasonal climate variables. By contrast, Δ13CLW chronologies were significantly correlated (r = 0.69, P < 0.001) and exhibited stronger climate responses. Multiple regression analyses identified summertime maximum temperature (Tmax) and/or vapor pressure deficit (VPD) as the primary drivers of Δ13CLW. Secondary influences included summertime precipitation, specific humidity, cloud cover, and SWE from the previous fall and winter. Overall, our findings suggest that Cascade mixed conifer forests will become increasingly drought stressed as rising temperatures cause progressively diminished snowpacks. Moreover, our Δ13CLW records also provide a proof of concept showing strong potential to expand summertime Tmax reconstructions to other snowy, montane locations.

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来源期刊

Tree-Ring Research 农林科学-林学

CiteScore

2.40

自引率

12.50%

发文量

审稿时长

>36 weeks

期刊介绍： Tree-Ring Research (TRR) is devoted to papers dealing with the growth rings of trees and the applications of tree-ring research in a wide variety of fields, including but not limited to archaeology, geology, ecology, hydrology, climatology, forestry, and botany. Papers involving research results, new techniques of data acquisition or analysis, and regional or subject-oriented reviews or syntheses are considered for publication. Scientific papers usually fall into two main categories. Articles should not exceed 5000 words, or approximately 20 double-spaced typewritten pages, including tables, references, and an abstract of 200 words or fewer. All manuscripts submitted as Articles are reviewed by at least two referees. Research Reports, which are usually reviewed by at least one outside referee, should not exceed 1500 words or include more than two figures. Research Reports address technical developments, describe well-documented but preliminary research results, or present findings for which the Article format is not appropriate. Book or monograph Reviews of 500 words or less are also considered. Other categories of papers are occasionally published. All papers are published only in English. Abstracts of the Articles or Reports may be printed in other languages if supplied by the author(s) with English translations.