Effects of Snow and Temperature on the Phenology of Alpine Snowbank Plants on Mt. Washington, New Hampshire

IF 0.2 4区生物学 Q4 PLANT SCIENCES

Rhodora Pub Date : 2020-05-21 DOI:10.3119/19-22

Kevin Berend, K. Amatangelo, D. Weihrauch, C. Norment

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引用次数: 2

Abstract

ABSTRACT. In northeastern North America, alpine snowbank (snowbed) communities are rare, highly diverse plant assemblages. They form in sheltered sites above treeline where late-lying snow provides insulation from late-season frosts and a longer-lasting source of water. We studied the effects of snowmelt timing and cumulative temperature on the vegetative and flowering phenology of seven common, alpine snowbank species on Mt. Washington, New Hampshire. We observed snowmelt date and plant phenology at 14 alpine snowbank sites over one growing season and collected temperature data using automated dataloggers. We used Pearson correlations to analyze the relationships between snowmelt timing and temperature (i.e., growing degree days) and plant phenology. Snowmelt date was positively correlated with the dates of peak phenophases, and lag time (time between snowmelt and peak phenophase) was negatively correlated with snowmelt date. Snowmelt timing consistently delayed the onset of phenological stages, but later snowmelt had a less-pronounced delay. Plants at later-melting sites experienced higher mean daily temperatures and accumulated growing degree days more quickly, leading to a shorter phenological cycle. Continued monitoring of snowmelt timing, temperature, and the phenology of alpine snowbank plants may provide clues to how climate change will affect alpine areas of northeastern North America, especially in terms of diversity, pollination, and abiotic interactions.

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雪和温度对华盛顿山高山雪滩植物物候的影响

摘要在北美东北部，高山雪滩(雪床)群落是罕见的，高度多样化的植物组合。它们形成于树线以上的隐蔽地点，在那里，晚落的雪可以隔绝季末的霜冻，并提供更持久的水源。本文研究了融雪时间和积温对美国新罕布什尔州华盛顿山7种常见高山雪滩植物营养物候和开花物候的影响。我们在14个高山雪堆站点观测了一个生长季节的融雪日期和植物物候，并利用自动数据记录仪收集了温度数据。我们使用Pearson相关分析融雪时间与温度(即生长度数)和植物物候之间的关系。融雪日期与物候高峰日期正相关，滞后期(融雪与物候高峰之间的时间)与融雪日期负相关。融雪时间一直延迟物候阶段的开始，但后来的融雪有一个不太明显的延迟。晚融点的植物平均日温度较高，生长日数积累较快，物候周期较短。对融雪时间、温度和高山雪堆植物物候的持续监测可能为气候变化如何影响北美东北部高山地区提供线索，特别是在多样性、授粉和非生物相互作用方面。

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

Rhodora 生物-植物科学

CiteScore

0.40

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： This peer-reviewed journal is devoted primarily to the botany of North America and accepts scientific papers and notes relating to the systematics, floristics, ecology, paleobotany, or conservation biology of this or floristically related regions.