Accessing BCO-DMO data
Brought to you by BCO-DMO
|
|
BCO-DMO ERDDAP
Accessing BCO-DMO data |
log in
Brought to you by BCO-DMO |
| griddap | Subset | tabledap | Make A Graph | wms | files | Accessible | Title | Summary | FGDC | ISO 19115 | Info | Background Info | RSS | Institution | Dataset ID | |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| log in | [Reef organism growth in response to SGD] - Reef organism growth from in-situ experiments with submarine groundwater discharge (SGD) exposure treatments conducted in Mo'orea, French Polynesia in 2022 and 2023 (RUI: Collaborative Research: Defining the biogeochemical context and ecological impacts of submarine groundwater discharge on coral reefs) | This dataset contains reef organism growth data in response to submarine groundwater discharge (SGD) from the study described below. See the \"Related Datasets\" section or the project page for other data collected as part of this study. \n\nStudy description:\n\nCoral reefs experience numerous environmental gradients affecting organismal physiology and species biodiversity, which ultimately impact community metabolism. This study shows that submarine groundwater discharge (SGD), a common natural environmental gradient in coastal ecosystems associated with decreasing temperatures, salinity, and pH with increasing nutrients, has both direct and indirect effects on coral reef community metabolism by altering individual growth rates and community composition. Our data revealed that SGD exposure hindered growth of two algae, Halimeda opuntia and Valonia fastigiata, by 67% and 200%, respectively, and one coral, Porites rus, by 20%. Community metabolic rates showed altered community production, respiration, and calcification driven by differences in community identity (i.e., species composition) between naturally high and low exposure areas, rather than a direct SGD effect. Production and calcification were 1.5 and 6.5 times lower in assemblages representing high SGD communities, regardless of environment. However, the compounding effect of community identity and SGD exposure on respiration resulted in the low SGD community exhibiting the highest respiration rates under higher SGD exposure. By demonstrating SGD's role in altering community composition and metabolism, this research highlights the critical need to consider compounding environmental gradients (i.e., nutrients, salinity, and temperature) in the broader context of ecosystem functions.\n\ncdm_data_type = Other\nVARIABLES:\nSpeciesID (unitless)\nDaysInSitu (days)\nAT (unitless)\nET (unitless)\ngrowthrate (mg per g per day (mg g-1 d-1))\nSA (square centimeters (cm2))\nFullSp (unitless)\nLocation (unitless)\n | BCO-DMO | bcodmo_dataset_960128_v1 |