Fluorescence dissolved organic matter (fDOM) analysis of inhalant and exhalent water samples from sponges studied at an artificial reef off the coast of the Florida Keys, USA in August 2021
Fluorescence dissolved organic matter (fDOM) analysis of inhalant and exhalent water samples from sponges studied at an artificial reef off the coast of the Florida Keys, USA in August 2021
Date
2023-08-21
Authors
Bartley, Michaela M.
Fiore, Cara L.
Keleher, Jacqueline
Freeman, Christopher J.
Easson, Cole G.
Thacker, Robert W.
Reigel, Alicia M.
Fiore, Cara L.
Keleher, Jacqueline
Freeman, Christopher J.
Easson, Cole G.
Thacker, Robert W.
Reigel, Alicia M.
Linked Authors
Alternative Title
Citable URI
Date Created
2023-08-11
Location
Caribbean coast of Panama
westlimit: -81.408711; southlimit: 24.562003; eastlimit: -81.408711; northlimit: 24.562003
westlimit: -81.408711; southlimit: 24.562003; eastlimit: -81.408711; northlimit: 24.562003
DOI
10.26008/1912/bco-dmo.906070.1
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Keywords
FDOM
sponges
microbiome
sponges
microbiome
Abstract
Coral reefs are biodiverse and productive ecosystems that are found in typically oligotrophic (low nutrient) environments. The focus of research on nutrient acquisition and partitioning among coral reef organisms has, historically, been focused on corals and their symbiotic zooxanthellae. For example, different clades of zooxanthellae are adapted to different irradiance levels which facilitates coexisting species of corals. Comparatively very few studies have asked if and how coexisting sponges and their symbiotic microbial communities partition nutrients (i.e., utilization of different nutrient pools across species). To address this question, this study set up an artificial reef off the coast of the Florida Keys using dominant emergent sponges found in the Caribbean and Florida Keys. Inhalant and exhalent water samples were collected using Vacusip. Samples were filtered with a 0.2-micrometer supor filter and then processed for dissolved nutrients using fluorescence dissolved organic matter (fDOM). This is the first application of fDOM analysis to sponges.
In this study, we found that the microbial abundance (i.e. the commonly used high and low microbial abundance (HMA/LMA) classification) was not an effective indicator for the way in which nutrients are processed by these sponge species. Additionally, the use of fDOM analysis indicated nuance in DOM utilization across species with differential consumption of fDOM components across sponge species. In summary, rather than microbial abundance alone, a combination of sponge species identity and the composition of the symbiotic microbial community members (e.g., presence of photosymbionts) appears to explain the most variation in nutrient processing by sponges. These results provide the first support for resource partitioning of dissolved nutrients across coexisting sponge species and provide support for the evolutionary importance of microbial communities in sponges.
For a complete list of measurements, refer to the full dataset description in the supplemental file 'Dataset_description.pdf'. The most current version of this dataset is available at: https://www.bco-dmo.org/dataset/906070
Description
Dataset: Artificial Reef fDOM
Embargo Date
Citation
Bartley, M. M., Fiore, C. L., Keleher, J., Freeman, C. J., Easson, C. G., Thacker, R. W., & Reigel, A. M. (2023). Fluorescence dissolved organic matter (fDOM) analysis of inhalant and exhalent water samples from sponges studied at an artificial reef off the coast of the Florida Keys, USA in August 2021 (Version 1) [Data Set]. Biological and Chemical Oceanography Data Management Office (BCO-DMO). https://doi.org/10.26008/1912/bco-dmo.906070.1