赤道东非晚第四纪山地森林动态：生物群系视角

IF 3.6 2区环境科学与生态学 Q2 ECOLOGY

Journal of Biogeography Pub Date : 2025-06-09 DOI:10.1111/jbi.15173

Esther N. Githumbi, Jemma Finch, Rahab N. Kinyanjui, Colin Courtney-Mustaphi, Paul Musili, Stephen Rucina, Julius Lejju, Peter Liljenberg, Rob Marchant

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引用次数: 0

摘要

了解大空间和时间尺度上的环境变化需要在广泛的生态尺度上进行工作，以便进行跨站点的比较。这使得基于数据的动态植被模型输出可以进行比较，对气候和土地覆盖建模具有实用价值。我们综合了生物群系水平上的多站点花粉数据，以了解近5万年来赤道非洲山区生态系统对气候变化的响应，并定量记录了生态系统转变的时间、特征和空间格局。地理位置：东非赤道山脉。晚第四纪（距今5万年）。被子植物（乔木、灌木和禾本科植物）、裸子植物（针叶树）、蕨类植物（蕨类植物）和苔藓植物（藓类植物）。方法对赤道东非山区已发表的58个花粉点进行文献回顾。整理了来自非洲花粉数据库（APD）和作者直接提供的34个站点的原始年代学和孢粉学数据。使用非洲植物数据库更新和协调花粉分类。重新分析了地质年代学，并对放射性碳数据（n = 219）进行了IntCal20校准，以建立线性插值的年龄深度模型。将636个花粉类群划分为21种植物功能类型，并将其合并为7个生物群系，代表了山地生态系统的范围。每个地点的变化率分析提供了每个地点随时间变化的尺度。结果在5万cal - year BP中，均存在中山林生物群系。末次盛冰期和末次盛冰期后，寒冷和干燥的山地生物群落有所扩展。温暖和潮湿的森林生物群落从全新世早期开始扩张，而更开放的生物群落在全新世晚期扩张。区域差异也被观察到，例如，与孤立的火山相比，东弧山遗址记录的变化相对较小。变化率分析突出了高变化率的时期（45000 - 35000,11000 - 5000和5000 -现在），而35000 - 20000相对稳定。赤道东非山地森林是由当地和区域植被对过去气候变化的响应驱动的。这项研究强调，在这些山地森林中，生态系统相互作用的速度和性质都有很大的不同。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Late Quaternary Montane Forest Dynamics From Equatorial East Africa: A Biome Perspective

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Late Quaternary Montane Forest Dynamics From Equatorial East Africa: A Biome Perspective

Aim

Understanding environmental change over large spatial and temporal scales requires working at a broad ecological scale to enable cross-site comparisons. This allows data-based comparisons to dynamic vegetation model outputs, with utility for climate and land cover modelling. We synthesise multisite pollen data at the biome level to understand Equatorial Afromontane ecosystem response to climate change over the last 50,000 years and quantitatively document the timing, character and spatial patterns of ecosystem transitions.

Location

Mountains of Equatorial East Africa.

Time Period

Late Quaternary (50,000 cal year BP–present).

Taxon

Angiosperms (trees, shrubs and grasses), gymnosperms (conifers), pteridophytes (ferns) and bryophytes (clubmosses).

Methods

A literature review revealed 58 available published pollen sites from Equatorial East African Mountains. Original geochronological and palynological data were collated from 34 sites from the African Pollen Database (APD) and directly from authors. Pollen taxonomies were updated and harmonised using the African Plant Database. The geochronologies were reanalysed and radiocarbon data (n = 219) were IntCal20 calibrated to develop linearly interpolated age-depth models. The 636 pollen taxa were grouped into 21 plant functional types and combined into seven biomes that represent the range of montane ecosystems. A rate of change analysis at each site provided a scale of the change through time at each site.

Results

Mesic montane forest biomes were present throughout the 50,000 cal year BP. Cold and dry montane biomes expanded during and after the Last Glacial Maximum (LGM). Warm and wet forest biomes expanded from the early Holocene and more open biomes expanded in the Late Holocene. Regional differences were observed, such as the Eastern Arc Mountain sites recording relatively little change in comparison with isolated volcanic mountains. The rate of change analysis highlights periods with a high rate of change (45,000–35,000, 11,000–5000 and 5000–present) while 35,000–20,000 is relatively stable.

Main Conclusions

Equatorial East African Montane forests are driven by local to regional vegetation responses to past climate changes. The research highlights that both the pace and nature of interactions in ecological systems vary widely across these montane forests.

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来源期刊

Journal of Biogeography 环境科学-生态学

CiteScore

7.70

自引率

5.10%

发文量

203

审稿时长

2.2 months

期刊介绍： Papers dealing with all aspects of spatial, ecological and historical biogeography are considered for publication in Journal of Biogeography. The mission of the journal is to contribute to the growth and societal relevance of the discipline of biogeography through its role in the dissemination of biogeographical research.