Abstract
High-throughput sequencing (HTS) is rapidly becoming a popular and robust tool to characterize biodiversity of complex communities, especially for those dominated by microscopic species such as zooplankton. The popular use of HTS-based methods has prompted a possible method of inferring relative species abundance from sequencing data. However, these methods remain largely untested in many communities as to whether sequence data can reliably quantify relative species abundance. Here we tested the relationship between species abundance and sequence abundance in zooplankton using 2 methods: (1) spiking known amounts of indicator species into existing zooplankton communities, and (2) comparing results obtained from parallel replicates for the same natural zooplankton communities. Although we detected a general trend that low-abundance species usually corresponded to low-abundance sequence reads, further sta- tistical analyses revealed that sequencing data could not reliably quantify relative species abun- dance, even for the same indicator species spiked into different zooplankton communities. The distribution of sequence reads statistically varied even between parallel replicates of the same natural zooplankton communities. Our study reveals that sequence abundance may generally qualitatively reflect species abundance as the general trend between these 2 variables exists; however, extra caution is required when using HTS-based approaches to make quantitative infer- ences regarding zooplankton communities.
Highlights
Quantitation of species abundance in zooplankton communities represents one of the most crucial issues in many studies of aquatic ecology, such as ecosystem functioning, changes in seasonal community dynamics, and environmental quality assess-Publisher: Inter-Research · www.int-res.comAquat Biol 24: 9–15, 2015 been utilized
High-throughput sequencing (HTS)based approaches have become popular and robust tools for characterizing the biodiversity of complex communities, especially for those dominated by microscopic species or species that are difficult to identify, such as zooplankton (Lindeque et al 2013, Zhan et al 2013, Hirai et al 2015)
The 4 known indicator species, including bay scallop Argopecten irradians, Japanese sea cucumber Apostichopus japonicus, golden mussel Limnoperna fortunei, and water louse Asellus aquaticus, were spiked into existing zooplankton communities using a series of biomass gradients, following Zhan et al (2013)
Summary
Quantitation of species abundance in zooplankton communities represents one of the most crucial issues in many studies of aquatic ecology, such as ecosystem functioning, changes in seasonal community dynamics, and environmental quality assess-Publisher: Inter-Research · www.int-res.comAquat Biol 24: 9–15, 2015 been utilized. We tested the relationship between biological abundance in zooplankton communities and sequence abundance in sequencing data using a series of biomass gradients of 4 known indicator species spiked into existing zooplankton communities. We examined parallel replicates of the same natural zooplankton communities to test whether quantitative inferences are reliable in comparative studies when using HTS-based methods.
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