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http://hdl.handle.net/11667/112| Appears in Collections: | University of Stirling Research Data |
| Title: | Effects of water temperature and sediment disturbance on contaminant uptake from sediment to algae |
| Creator(s): | Becker, Amani E |
| Contact Email: | amanibee@yahoo.com |
| Keywords: | Microphyobenthos intertidal sediment Mesocosm Metals NDVI Disturbance ARCoES Ribble Estuary |
| Citation: | Becker, AE (2018): Effects of water temperature and sediment disturbance on contaminant uptake from sediment to algae. University of Stirling. Faculty of Natural Sciences. Dataset. http://hdl.handle.net/11667/112 |
| Publisher: | University of Stirling. Faculty of Natural Sciences |
| Dataset Description (Abstract): | To examine the uptake of metals under varying conditions of temperature and disturbance from historically contaminated sediment (collected at Lytham St. Anne’s, 53o43’58”N, 2o57’37”W) to a natural microphytobenthic community a study was conducted using an intertidal mesocosm. The study ran for a total of 231 days (from 16th September 2015 to 3rd May 2016) under three water temperatures (ambient, plus 1.5oC and plus 4.0oC) with sampling of algae and water at 10 intervals. Biomass on the sediment surface was monitored using Normalised Difference Vegetation Index (NDVI) as a proxy. Diatoms were found to have a higher uptake of the metals analysed (except tin) than other types of algae (filamentous and sheet macroalgae), confirming their importance as a study organism with respect to metal uptake and potential mobilisation through the food chain. Sediment disturbance was shown to increase metal uptake from the sediment to algae, which is of concern due to predicted increases in storminess, as a consequence of climate change, which is likely to increase sediment disturbance and therefore future metal uptake to algae. There were indications of an antagonistic effect of temperature on sediment disturbance. Whilst disturbance increased uptake of metals to algae, increasing temperatures reduced this for some metals. |
| Dataset Description (TOC): | There are eight .csv files, four files containing data and four accompanying files containing information to explain the data categories. The files are as follows; • MesocosmAll.csv Concentration (mg kg-1) data of 14 metals (Al, V, Cr, Mn, Fe, Co, Ni, Cu, Zn, As, Ag, Cd, Sn and Pb), analysed by XSERIES 2 ICP-MS (Thermo Scientific, Germany) for sediment, overlying water and diatom compartments of each experimental unit. Air, mud and water temperature data, normalised difference vegetation index (NDVI) values, sediment water and organic matter content and supporting information. • MetadataForMesocosmAll.csv • MesocosmHourlyTemperature.csv Hourly data for air, mud and water temperatures in the polytunnel and individual mesocosm tanks • MetadataForMesocosmHourlyTemperature.csv • MesoParticleSize.csv Sediment particle size data measured using a Coulter LS 230 laser granulometer and classified according to the Udden-Wentworth scale • MetadataForMesoParticleSize.csv • NDVI.csv NDVI values derived from reflectance measurements of the sediment surface and supporting information. Reflectance measurements were made using the ASD FieldSpec® UV/NIR throughout the course of the experiment, initially daily then switching to weekly as the growth rate slowed. • MetadataForNDVI.csv |
| Type: | dataset |
| Contract/Grant Title: | ARCoES: Adaptation and Resilience of Coastal Energy Supply |
| Funder(s): | EPSRC - Engineering and Physical Sciences Research Council University of Stirling |
| Contract/Grant Number: | EP/I035390/1 |
| RMS ID: | 533 |
| Time Period: | 16/9/2015 - 3/5/2016 |
| URI: | http://hdl.handle.net/11667/112 |
| Rights: | Rights covered by the standard CC-BY 4.0 licence: https://creativecommons.org/licenses/by/4.0/ |
| Affiliation(s) of Dataset Creator(s): | University of Stirling (Biological and Environmental Sciences) |
Files in This Item:
| File | Description | Size | Format | |
|---|---|---|---|---|
| MesocosmAll.csv | Concentration (mg kg-1) data of 14 metals (Al, V, Cr, Mn, Fe, Co, Ni, Cu, Zn, As, Ag, Cd, Sn and Pb), analysed by XSERIES 2 ICP-MS (Thermo Scientific, Germany) for sediment, overlying water and diatom compartments of each experimental unit. Air, mud and water temperature data, normalised difference vegetation index (NDVI) values, sediment water and organic matter content and supporting information. | 101.63 kB | Microsoft Excel | View/Open |
| MesoParticleSize.csv | Sediment particle size data measured using a Coulter LS 230 laser granulometer and classified according to the Udden-Wentworth scale | 8.86 kB | Microsoft Excel | View/Open |
| MesocosmHourlyTemperature.csv | Hourly data for air, mud and water temperatures in the polytunnel and individual mesocosm tanks | 812.85 kB | Microsoft Excel | View/Open |
| MetadataForMesocosmHourlyTemperature.csv | information to explain the data categories in MesocosmHourlyTemperature.csv | 49.02 kB | Microsoft Excel | View/Open |
| MetadataForMesocosmAll.csv | information to explain the data categories in MesocosmAll.csv | 2.6 kB | Microsoft Excel | View/Open |
| MetadataForMesoParticleSize.csv | information to explain the data categories in MesoParticleSize.csv | 930 B | Microsoft Excel | View/Open |
| MetadataForNDVI.csv | information to explain the data categories in MetadataForNDVI.csv | 401 B | Microsoft Excel | View/Open |
| NDVI.csv | NDVI values derived from reflectance measurements of the sediment surface and supporting information. Reflectance measurements were made using the ASD FieldSpec® UV/NIR throughout the course of the experiment, initially daily then switching to weekly as the growth rate slowed. | 15.91 kB | Microsoft Excel | View/Open |
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