Community assembly among potential invasive plants in Antarctica shaped by life history characteristics and climate warming

IF 2.8 3区 环境科学与生态学 Q1 BIODIVERSITY CONSERVATION
S. Bokhorst, P. Convey, R. Aerts
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Abstract

Species arrival sequence in new habitats impacts plant community development. This ‘priority-effect’ is documented, but mechanisms by which early arriving plants dominate future communities are less clear, complicating our ability to predict community assembly under future climate warming and assess invasive species threats. This is particularly important for ecosystems that are vulnerable to invasive species, such as those of the Antarctic Peninsula. To test how phenological differences and arrival order affect community composition of invasive plants, we simulated maritime Antarctic climate conditions, and a warming scenario. We established monocultures of six species potentially invasive to the Antarctic Peninsula (three forbs and three grasses), which exhibit a range of germination times ranging from 22 and 68 d, and a mixed community of all species. Before entering a simulated winter, half of each monoculture (n = 10) received the full seed mixture while the other half received seeds of their respective starting species. During the following simulated growing season, we quantified if the community composition was influenced by arrival order and whether species germination and growth responses differed from their monocultures and starting species. Community compositions differed across all starting communities and were typically dominated by the starting species. Phenological differences influenced individual and total biomass and plant height, but faster germinating species did not consistently dominate the final plant community. Forbs and grasses negatively impacted each other’s biomass. Warming enhanced priority effects (more negative or positive). Phenological priority has ecologically relevant influences on community assembly, but its effect on plant growth is context dependent in terms of species and temperature conditions. In particular, our data suggest that phenological priority influences plant biomass and size while niche pre-emption affects seed germination. Future trajectories of polar terrestrial plant communities will depend on the arrival order of colonizing non-native plants and their germination rates.

Abstract Image

南极洲潜在入侵植物的群落组合受生活史特征和气候变暖的影响
物种到达新栖息地的顺序会影响植物群落的发展。这种 "优先效应 "已被记录在案,但早期到达的植物主导未来群落的机制却不太清楚,这使我们预测未来气候变暖下的群落组合和评估入侵物种威胁的能力变得更加复杂。这对于南极半岛等易受入侵物种影响的生态系统尤为重要。为了测试物候差异和到达顺序如何影响入侵植物的群落组成,我们模拟了南极海洋性气候条件和气候变暖情景。我们建立了六种可能入侵南极半岛的物种(三种草本植物和三种禾本科植物)的单一栽培群落,它们的发芽时间从 22 天到 68 天不等,同时还建立了一个由所有物种组成的混合群落。在进入模拟冬季之前,每种单一物种的一半(n = 10)接受全混合种子,另一半接受各自起始物种的种子。在接下来的模拟生长季节,我们量化了群落组成是否受到达顺序的影响,以及物种发芽和生长反应是否不同于它们的单一栽培和起始物种。所有起始群落的群落组成都不同,通常以起始物种为主。物候差异会影响单株生物量、总生物量和植株高度,但发芽较快的物种在最终植物群落中并不占主导地位。草本植物和禾本科植物对彼此的生物量都有负面影响。气候变暖增强了优先效应(更消极或更积极)。物候优先性对群落组合具有生态学上的相关影响,但其对植物生长的影响取决于物种和温度条件的具体情况。特别是,我们的数据表明,物候优先影响植物的生物量和大小,而生态位优先影响种子萌发。极地陆生植物群落未来的发展轨迹将取决于殖民化非本地植物的到达顺序及其发芽率。
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来源期刊
Biological Invasions
Biological Invasions 环境科学-生态学
CiteScore
6.00
自引率
6.90%
发文量
248
审稿时长
3 months
期刊介绍: Biological Invasions publishes research and synthesis papers on patterns and processes of biological invasions in terrestrial, freshwater, and marine (including brackish) ecosystems. Also of interest are scholarly papers on management and policy issues as they relate to conservation programs and the global amelioration or control of invasions. The journal will consider proposals for special issues resulting from conferences or workshops on invasions.There are no page charges to publish in this journal.
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