J Plant Ecol ›› 2026, Vol. 19 ›› Issue (3): rtaf226.DOI: 10.1093/jpe/rtaf226

• Research Article •    

Divergent responses of endemic and non-endemic plant species to climate change in South American Lomas ecosystems

Sofia Flores Vivar1,2,3,*, Sarah Bracke1, Stef Haesen1,2, Koenraad Van Meerbeek1,2   

  1. 1 Division of Forest, Nature and Landscape, Department of Earth and Environmental Sciences, KU Leuven, Leuven 3001, Belgium;
    2 KU Leuven Plant Institute (LPI), KU Leuven, Leuven 3001, Belgium;
    3 Horticulture Department, Faculty of Agronomy, Universidad Nacional Agraria La Molina, Lima 15024, Peru
    *Corresponding author. E-mail:sofiajesus.floresvivar@kuleuven.be
  • Received:2025-07-16 Revised:2025-11-27 Accepted:2025-12-14 Published:2026-06-01
  • Supported by:
    This research study has been supported by the Belgian Development Cooperation (DGD) through VLIRUOS.

南美洛马斯生态系统植物特有种与非特有种对气候变化的差异化响应

Abstract: The Lomas ecosystem, situated along the arid coast of Peru, is a key refuge for biodiversity, characterized by unique vegetation adapted to dry conditions and strongly influenced by seasonal winter fog. However, this ecosystem faces serious threats from climate change, including shifting rainfall patterns, increased aridity and habitat degradation, further compounded by urban expansion. Using pecies distribution models, we projected future habitat suitability of plant species across a broader region encompassing the Lomas ecosystem, under two climate scenarios (SSP1-2.6 and SSP3-7.0). Our results showed significant habitat shifts, with projected habitat loss increasing from ~31% under SSP1-2.6 to ~33% under SSP3-7.0. Species responses varied by endemism and elevation. Endemic species distributions tended to shift farther and upslope, while non-endemic species generally shifted downslope, increasing exposure to degraded lowland environments. High-elevation species are predicted to undergo the greatest downslope displacements and habitat reductions, whereas low-elevation species remained more stable or shifted slightly upslope under SSP3-7.0. These patterns highlight the critical role of localized factors—such as fog dynamics, topographic constraints and urban pressures—in shaping future species distributions. Our findings emphasize the urgency of developing spatially explicit conservation strategies and improved modeling frameworks that account for rare species, fine-scale environmental data and species-specific ecological responses to ensure the long-term resilience of the Lomas ecosystem.

Our study used species distribution models to project climate change impacts on Lomas plant species, revealing substantial habitat loss, particularly for high-elevation and endemic taxa. We further identified contrasting elevational responses, likely driven by fog dynamics and intense coastal human pressure, highlighting the urgent need for fine-scale, spatially explicit conservation planning in this fragile desert ecosystem.

Key words: drought, endemic species, MaxEnt, species distribution modeling, urbanization

摘要:
洛马斯(Lomas)生态系统位于秘鲁干旱海岸带,是生物多样性的庇护所,以其适应干旱的独特植被类型及受季节性冬季大雾的影响而著称。然而,该生态系统正面临气候变化的严重威胁,包括降水格局改变、干旱加剧以及栖息地退化,同时还受到城市扩张的进一步影响。本研究基于物种分布模型(Species Distribution Models, SDMs),预测了两种气候情景下,洛马斯生态系统以及更广泛区域内未来植物物种栖息地适宜性。结果表明,物种栖息地将发生显著迁移,栖息地丧失比例从SSP1-2.6情景下约31%增加到SSP3-7.0情景下约33%。物种的响应因其特有性和海拔而异:特有物种的分布倾向于向更高海拔、更远的距离迁移,而非特有物种则普遍呈现向低海拔迁移的趋势,从而增加了其暴露于退化低地环境中的风险;高海拔物种将经历最大幅度的向低海拔迁移和栖息地缩减,而低海拔物种在SSP3-7.0情景下则保持相对稳定或略有上移。上述结果揭示了局地因素(如雾动态变化、地形约束以及城市化压力)在塑造未来物种分布格局中的关键作用。因此,物种分布模型框架需要考虑稀有物种、精细尺度环境数据以及物种特异性的生态响应,以提升气候变化背景下该区域物种分布的预测精度;此外,未来物种保护策略需分区分类制定,以确保洛马斯生态系统的长期韧性与可持续性。

关键词: 干旱, 特有物种, 最大熵模型, 物种分布模型, 城市化