Table 2_Microbial dynamics and metabolic activity during fish decay under aerobic and anae

A 13.7 MB document by Maria A. Diaz-Mateus, last updated April 2026, details experimental results on microbial community structure, metabolic potential, and mineral formation during fish decay under controlled aerobic and anaerobic conditions. The study uses 16S rRNA gene sequencing, PICRUSt2 predictions, and SEM-EDS/XRD mineralogical analyses to compare decay trajectories. Results show distinct microbial assemblages and metabolic pathways linked to oxygen availability.

Use Cases

• Compare microbial community shifts based on oxygen conditions mentioned in the description
• Analyze predicted metabolic pathways for organic matter degradation from PICRUSt2 data
• Study early mineral precipitation (e.g., magnesium phosphates) linked to decay environments
• Model relationships between water chemistry (pH, H2S) and decay trajectories

Strengths

• Document size is 13.7 MB, indicating detailed textual content.
• Study design includes controlled aerobic/anaerobic conditions and multiple analytical methods (16S sequencing, SEM-EDS, XRD).
• License is CC-BY-4.0, permitting open sharing and adaptation.

Limitations

• Row count and column-level documentation are unknown, limiting suitability assessment.
• Data is provided as a DOCX file, which may require extraction or conversion for computational analysis.
• The dataset's scale (13.7 MB) is relatively small for extensive quantitative modeling.

Provenance

Source

Maria A. Diaz-Mateus via figshare

Collection Method

Controlled fish decay experiments with microbial sequencing, chemical monitoring, and mineralogical analysis.

Time Range

Experimental timeframe not specified.

Freshness

Last updated 2026-04-16 05:15:37.

Geography

Laboratory setting; geographic origin not specified.