Short-term temporal variation of coastal marine eDNA
Creators
- 1. Aarhus University
- 2. University of Copenhagen
- 3. Chinese Academy of Fishery Sciences
- 4. NIVA Denmark Water Research*
Description
Temporal variation in eDNA signals is increasingly explored for understanding community ecology in aquatic habitats. Seasonal changes have been addressed using eDNA sampling, but very little is known regarding short-term temporal variation that spans hours to days. To address this, we filtered marine water samples from a single coastal site in Denmark every hour for 32 h. We used metabarcoding to target both fish and broader eukaryote diversity and evaluated temporal changes in this marine community. Results revealed variation in fish species richness (15–27) and eukaryote class richness (35–64) across the 32 h of sampling, and we further evaluated sampling efforts needed to reach different levels of diversity saturation. Relative read frequency data for both fish and eukaryotes indicated a clear diel change in community composition, with different communities detected during daylight versus dark hours. The abundance signals in our data reflected biological variation rather than stochastic variation, since replicates taken at the same hour were more similar to each other than those taken at different hours. Our compositional results indicated a dynamic community, rather than a static pool of eDNA—even across a few hours. The fish data showed a daily pattern of relative species abundances, and the uncoupling of fish and broader eukaryote data suggest that variation in eDNA profiles across a single day can provide valuable information reflecting diel changes, at least for highly mobile organism groups. However, our results also point to several pitfalls in current eDNA experimental design, in which samples are taken over large areas without relative time-consistency or short-term replication. Our findings shed new light on short-term variation in coastal eDNA and have wide implications for experimental study design and for incorporating temporality into project conceptualization for future aquatic biodiversity monitoring.
Notes
We suggest you put the files in 8 separate folders in order to demultiplex. The files should be placed accordingly:
Folder 1: MiFish PCR replicate one
M1_MD5.txt (to check sums)
M1_UKKD19030017_HFCCTDSXX_L4_1.fq.gz
M1_UKKD19030017_HFCCTDSXX_L4_2.fq.gz
M1_12S_tags_1.list
Folder 2: MiFish PCR replicate two
M2_MD5.txt (to check sums)
M2_UKKD19030018_HF7V2DSXX_L3_1.fq.gz
M2_UKKD19030018_HF7V2DSXX_L3_2.fq.gz
M2_12S_tags_2.list
Folder 3: MiFish PCR replicate three
M3_MD5.txt (to check sums)
M3_UKKD19030019_HFCG7DSXX_L1_1.fq.gz
M3_UKKD19030019_HFCG7DSXX_L1_2.fq.gz
M3_12S_tags_3.list
Folder 4: MiFish PCR replicate four
M4_MD5.txt (to check sums)
M4_UKKD19030020_HF7V2DSXX_L1_1.fq.gz
M4_UKKD19030020_HF7V2DSXX_L1_2.fq.gz
M4_12S_tags_4.list
Folder 5: 18S_allshorts (eukaryote) PCR replicate one
M1_KBJ_MD5.txt (to check sums)
M1_KBJ_FKDL190745191-1a_H2WGFCCX2_L4_1.fq.gz
M1_KBJ_FKDL190745191-1a_H2WGFCCX2_L4_2.fq.gz
M1_KBJ_18S_tags_1.list
Folder 6: 18S_allshorts (eukaryote) PCR replicate two
M2_KBJ_MD5.txt (to check sums)
M2_KBJ_FKDL190745192-1a_H2WGFCCX2_L3_1.fq.gz
M2_KBJ_FKDL190745192-1a_H2WGFCCX2_L3_2.fq.gz
M2_KBJ_18S_tags_2.list
Folder 7: 18S_allshorts (eukaryote) PCR replicate three
M3_KBJ_MD5.txt (to check sums)
M3_KBJ_FKDL190745193-1a_H2WCNCCX2_L7_1.fq.gz
M3_KBJ_FKDL190745193-1a_H2WCNCCX2_L7_2.fq.gz
M3_KBJ_18S_tags_3.list
Folder 8: 18S_allshorts (eukaryote) PCR replicate four
M4_KBJ_MD5.txt (to check sums)
M4_KBJ_FKDL190745194-1a_H2WGFCCX2_L2_1.fq.gz
M4_KBJ_FKDL190745194-1a_H2WGFCCX2_L2_2.fq.gz
M4_KBJ_18S_tags_4.list
Following this folder structure, each folder will now contain two sequence data files (paired end sequencing), a barcode/tag file and an MD5 file for checking sums.
If you would like to demultiplex this data, all tag information needed is available in the "list" files. Each tag file contains 52 samples, which are explained below:
10P-2.17P: Pooled samples (see associated article), with numbers denoting time of day the samples were taken. The prefix "2." denotes day two of sampling.
CON1 and CON2: Field blanks taken at 11.00h and 17.00h on day one, respectively.
12.1, 12.2, 12.3, 20.1, 20.2, 20.3, 04.1, 04.2 and 04.3: Individual samples (see associated article) sequenced to inspect what happens during pooling and to inspect biological variation vs. stochastic variation.
CNE_P5, CNE_P6, CNE_P7, CNE_P8, CNE_P9, CNE_P10, CNE_P11, and CNE_P12: Extraction blanks (one was included for each round of extraction).
NTC_X4: PCR blanks. Four PCR blanks were run in each PCR setup using the same tag, so these blanks will all appear in the same sample.
The "list" files include the sample name followed by the PCR replicate number. The two following columns represent the tags used for each sample (both forward and reverse primer were tagged). Tags are consistent across PCR replicates.
After demultiplexing, you should be able to do as you please with the data.
If you want to follow the exact filtering and data analysis done in our study, we refer to the manuscript for further details after the demultiplex step. If you have any questions, feel free to send an email to Mads Reinholdt Jensen with any questions you may have.
Files
M1_KBJ_MD5.txt
Files
(40.9 GB)
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md5:2bdd7e57f0a81d34916f01459bd25a70
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