过去八十年巴伐利亚阿尔卑斯山植物多样性的微妙变化。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-09-02 DOI:10.1002/ece3.70035
Meredith A. Zettlemoyer, Svenja Munck, Peter Poschlod, Sergey Rosbakh
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引用次数: 0

摘要

历史重现是分析植被动态的独特机会,其时间尺度比一般情况下的时间尺度更长。利用德国巴伐利亚阿尔卑斯山最古老的植被变化历史数据集,我们探讨了沙森地区钙质草地的环境条件、植被组成和功能多样性在 83 年间如何在不同海拔范围内发生变化。我们记录了区域平均气温和降水量的变化。我们利用物种的生态偏好及其对食草动物的适口性指标值(IV)来推断当地的条件(温度、土壤湿度/肥力和放牧制度)。我们进一步估算了两个海拔带(亚高山带和高山带)的历史(1936 年)和当代(2019 年)调查之间的时间β多样性和功能特征群落组成的变化。亚高山和高山地点都变得更加干燥;亚高山地点也变得更加温暖,适口性植物增多。尽管在人为变化的影响下,宏观气候和当地环境条件发生了变化,但沙钦地区的物种出现率和丰度并没有随着时间的推移而发生重大变化。然而,在过去的 80 年里,这些草原的功能组成却经历了几次 "看不见 "的变化。随着沙尘暴的加剧,具有耐旱性和动物散播性的物种占据了更大的优势。具体来说,在高寒地区,群落加权平均值显示,繁殖力低、内播和外播(分别通过动物肠道和皮毛传播种子)潜力较高、叶面耐寒性较强以及休眠期较深的物种的优势地位有所上升。在亚高山地区,繁殖力低、表柔毛物种的优势地位也呈上升趋势。通过重新调查历史地块获得的植被数据与当地条件变化、经典生物多样性指数和功能特征指数相结合,可以更全面地了解环境变化以及这些环境变化对长期植物群落和功能多样性的潜在影响。
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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Subtle changes in plant diversity in the Bavarian Alps over the past eight decades

Historical resurveys represent a unique opportunity to analyze vegetation dynamics over longer timescales than is typically achievable. Leveraging the oldest historical dataset of vegetation change in the Bavarian Alps, Germany, we address how environmental conditions, vegetation composition, and functional diversity in the calcareous grasslands of the Schachen region have changed across different elevational ranges over an 83-year timeframe. We document changes in regional average temperature and precipitation. We use indicator values (IV) for species' ecological preferences and their palatability to grazers to infer local conditions (temperature, soil moisture/fertility, and grazing regime). We further estimate changes in temporal beta-diversity and functional trait community composition between historical (1936) and contemporary (2019) surveys in two elevational (subalpine and alpine) belts. Both subalpine and alpine sites became drier; subalpine sites also became warmer with more palatable plants. Species occurrence and abundance in the Schachen region has not changed substantially over time despite changing macroclimate and local environmental conditions under anthropogenic change. Yet these grasslands have experienced several “invisible” changes in functional composition over the past 80 years. As the Schachen has become drier, species with traits related to drought tolerance and animal-based dispersal have increased in dominance. Specifically, in alpine sites, community-weighted means revealed that with low fecundity, higher potential for endo- and epizoochory (seed dispersal via animal gut and fur, respectively), higher foliar frost tolerance, and deeper dormancy increased in dominance. Similar trends were found for increasing dominance of low fecundity, epizoochorous species in subalpine sites. Vegetation data from resurveying historical plots in combination with changes in local conditions, classic biodiversity indices, and functional trait indices can provide more holistic insights into changes in the environment and potential impacts of those environmental changes on long-term plant community and functional diversity.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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