Litter accumulation and biomass dynamics in riparian zones in tropical South America of the Asian invasive plant Hedychium coronarium J. König (Zingiberaceae)

IF 1.7 4区生物学 Q2 PLANT SCIENCES

Plant Ecology & Diversity Pub Date : 2020-01-02 DOI:10.1080/17550874.2019.1673496

W. A. Chiba de Castro, R. V. Almeida, R. Xavier, I. Bianchini, H. Moya, D. S. Silva Matos

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引用次数: 13

Abstract

ABSTRACT Background: Promoting changes in abiotic conditions and ecosystem processes, such as decomposition, is a mechanism by which some exotic plant species displace native plants and become invasive. Aims: We monitored ramets of Hedychium coronarium over 30 months to estimate the litter decay rate, biomass dynamics and litter accumulation over time in riparian sites invaded by the species in southeastern Brazil. Methods: We measured the number, height, emergence and mortality of ramets in three environments invaded by H. coronarium (natural, rural and urban). We also measured litter decay in situ and in in vitro experiments. We used sinusoidal models to describe height fluctuation and exponential models to simulate litter decay and litter accumulation. Results: Ramets of H. coronarium showed high seasonal variation in terms of height and emergence, as well as low litter decay. Accordingly, our models predicted high litter production and a seasonal pattern of litter accumulation in invaded sites. Conclusions: H. coronarium produces a great amount of litter, which shows slow decay and hence seems to affect decomposition processes. Investigating seasonal variation on the effects of invasive species on ecosystem functioning shed light on the factors driving the success and impact of invasive plants.

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亚洲入侵植物Hedychium coronarium J.König（姜科）在南美洲热带河岸带的凋落物积累和生物量动态

摘要背景：促进非生物条件和生态系统过程的变化，如分解，是一些外来植物物种取代本地植物并成为入侵植物的一种机制。目的：我们在30个月的时间里监测了Hedychium coronarium的分株，以估计该物种在巴西东南部入侵的河岸地区随时间推移的枯枝落叶衰减率、生物量动态和枯枝落叶积累。方法：在自然、农村和城市三种环境中，测定分株的数量、高度、出苗率和死亡率。我们还在原位和体外实验中测量了枯枝落叶的腐烂情况。我们使用正弦模型来描述高度波动，并使用指数模型来模拟枯枝落叶衰退和枯枝落叶堆积。结果：H.coronarium的Ramets在高度和羽化方面表现出较高的季节变化，而枯枝落叶的腐烂率较低。因此，我们的模型预测了入侵地点的高枯枝落叶产量和季节性枯枝落叶堆积模式。结论：H.coronarium产生大量的枯枝落叶，表现出缓慢的腐烂，因此似乎会影响分解过程。调查入侵物种对生态系统功能影响的季节变化，可以揭示入侵植物成功和影响的因素。

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来源期刊

Plant Ecology & Diversity PLANT SCIENCES-

CiteScore

3.30

自引率

0.00%

发文量

审稿时长

3 months

期刊介绍： Plant Ecology and Diversity is an international journal for communicating results and novel ideas in plant science, in print and on-line, six times a year. All areas of plant biology relating to ecology, evolution and diversity are of interest, including those which explicitly deal with today''s highly topical themes, such as biodiversity, conservation and global change. We consider submissions that address fundamental questions which are pertinent to contemporary plant science. Articles concerning extreme environments world-wide are particularly welcome. Plant Ecology and Diversity considers for publication original research articles, short communications, reviews, and scientific correspondence that explore thought-provoking ideas. To aid redressing ‘publication bias’ the journal is unique in reporting, in the form of short communications, ‘negative results’ and ‘repeat experiments’ that test ecological theories experimentally, in theoretically flawless and methodologically sound papers. Research reviews and method papers, are also encouraged. Plant Ecology & Diversity publishes high-quality and topical research that demonstrates solid scholarship. As such, the journal does not publish purely descriptive papers. Submissions are required to focus on research topics that are broad in their scope and thus provide new insights and contribute to theory. The original research should address clear hypotheses that test theory or questions and offer new insights on topics of interest to an international readership.