双藓盖度对智利安第斯盆地底栖植物群落的影响

IF 1.3 4区环境科学与生态学 Q3 BIODIVERSITY CONSERVATION

Revista Chilena de Historia Natural Pub Date : 2018-12-01 DOI:10.1186/s40693-018-0080-y

Fabián Figueroa, Pablo Pedreros, Fabiola Cruces, Roberto Abdala-Díaz, Víctor Hernández, José Becerra, Roberto Urrutia

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We evaluated the changes in the community structure of phytobenthos caused by the temporal variation in D. geminata coverage, in addition to the environmental variables correlated with the temporal variation of this invasive microalga in the Andean sector of the Biobio River basin, Chile.MethodsEnvironmental parameters were measured during the austral summer of 2014–2015, when phytobenthos samples were collected and used to develop a relative abundance matrix of taxa by calculating species richness and Shannon diversity. Multivariate techniques were used to establish the relationships among environmental variables, including D. geminata coverage, and the phytobenthic community.ResultsMassive proliferation of D. geminata occurs during summer (December–January). According to multiple regression analysis, electrical conductivity, temperature and total phosphorus were the variables that best explained the variation in D. geminata coverage. 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引用次数: 9

摘要

近年来，入侵硅藻Didymosphenia geminata (Lyngbye) M. Schmidt由于其快速的地理扩张和大规模的增殖，改变了底栖生物栖息地的可得性，并对河流生态系统造成了负面影响，引起了人们的广泛关注。在智利Biobio河流域的安第斯河段，我们评估了由D. geminata盖度的时间变化引起的底栖植物群落结构的变化，以及与这种入侵微藻的时间变化相关的环境变量。方法在2014-2015年南方夏季采集底栖植物样本，测量环境参数，通过计算物种丰富度和香农多样性建立分类群相对丰度矩阵。采用多变量技术建立了包括双叶草盖度在内的环境变量与底栖植物群落之间的关系。结果在夏季(12 - 1月)，双叶田鼠大量繁殖。经多元回归分析，电导率、温度和总磷是最能解释赤杨盖度变化的变量。当双叶草盖度超过50%时，底栖植物物种丰富度显著高于未入侵样地，Shannon多样性变化不显著。此外，该入侵微藻的覆盖百分比和总磷浓度是区分不同研究点底栖植物群落的变量。结论电导率、温度、总磷浓度等环境因子影响了双叶草垫的时间变异性。此外，这种入侵硅藻的大量生长在不改变香农多样性的情况下导致了更高的物种丰富度。研究结果表明，双叶藻的时空变化与环境变量的相关性将有助于预测该藻类在安第斯山脉其他河流中的栖息地适宜性，并有助于更好地了解生态栖息地的变化。

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Effect of Didymosphenia geminata coverage on the phytobenthic community in an Andean basin of Chile

BackgroundThe invasive diatom Didymosphenia geminata (Lyngbye) M. Schmidt has received considerable attention in recent years due to its rapid geographic expansion and massive proliferation, which have altered habitat availability for benthic species and triggered negative effects on stream ecosystems. We evaluated the changes in the community structure of phytobenthos caused by the temporal variation in D. geminata coverage, in addition to the environmental variables correlated with the temporal variation of this invasive microalga in the Andean sector of the Biobio River basin, Chile.MethodsEnvironmental parameters were measured during the austral summer of 2014–2015, when phytobenthos samples were collected and used to develop a relative abundance matrix of taxa by calculating species richness and Shannon diversity. Multivariate techniques were used to establish the relationships among environmental variables, including D. geminata coverage, and the phytobenthic community.ResultsMassive proliferation of D. geminata occurs during summer (December–January). According to multiple regression analysis, electrical conductivity, temperature and total phosphorus were the variables that best explained the variation in D. geminata coverage. When D. geminata coverage was over 50%, phytobenthic species richness was significantly higher than at the uninvaded site, without a significant change in Shannon diversity. In addition, the % coverage of this invasive microalga and total phosphorus concentration were variables that differentiated phytobenthic communities among the study sites.ConclusionsEnvironmental factors such as conductivity, temperature and total phosphorus concentration influenced the temporal variability of D. geminata mats. In addition, the massive growth of this invasive diatom caused a higher species richness without altering Shannon diversity. Our results suggest that the spatio-temporal variability of D. geminata correlated with environmental variables will help predict the habitat suitability of this alga in other Andean rivers and allow a better understanding of ecological habitat alterations.

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来源期刊

Revista Chilena de Historia Natural 环境科学-生态学

CiteScore

2.50

自引率

18.20%

发文量

审稿时长

>36 weeks

期刊介绍： Revista Chilena de Historia Natural (RCHN) publishes original research dealing with past and present phenomena from organismic to higher levels of biological organization, considering both empirical and theoretical studies on all kinds of taxa and environments. The major areas covered by RCHN are: botany and zoology; physiological and behavioral ecology; population biology; community and ecosystem ecology; systematics, biogeography and evolution.