Eutro-SED-Eutrophication hotspots resulting from biogeochemical transformations and bioavailability of organic phosphorus in the fluvial suspended sediment of geologically contrasting agricultural catchments

This project endeavours to address the current lack of understanding of which P fractions on fluvial and stream bed sediments are more bioavailable and degrade water quality, specifically relating to the effect of organic P and humic-metal P complex pools from fluvial sediments. More

Main outputs

Sandström, S., M.N. Futter, K. Kyllmar, K. Bishop, D.W. O'Connell and F. Djodjic. 2020. Particulate phosphorus and suspended solids losses from small agricultural catchments: Links to stream and catchment characteristics. Science of The Total Environment: 134616.
Zhang Q., Wieler M., O'Connell D., Gill L., Xiao X., Hu Y. (2020). Speciation of phosphorus from suspended sediment studied by bulk and micro-XANES. Soil Systems 4(3), 51
Sandström S., Futter M.N., O’Connell D.W., Lannergård E.E., Rakovic J., Kyllmar K., Gill L.W., Djodjic F. (2021). Variation in fluvial suspended sediment phosphorus fractions in small agricultural streams – relations to water quality and streambed sediment. Journal of Environmental Quality

Data and Resources

Eutro-SED
Joint Call 2016 - Kick-off meeting of funded projects , Stockholm 6th April...
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Additional Info

Field	Value
Project coordinator	Laurence Gill
Last Updated	October 28, 2024, 08:46 (UTC)
Created	November 21, 2018, 10:00 (UTC)
Acronym	Eutro-SED
Contact person for Disseminationactivities (for Open data &Open Access activities)	David O'Connell
Funders	European Commission, Water JPI, WaterWorks2015
Project Website	https://www.tcd.ie/civileng/research/environment/water/eutro-sed-project.php
Project partners	canadian-light-soure-university; swedish-university-of-agricultural-sciences;-of-saskatchewan
Access level	info:eu-repo/semantics/openAccess
Project identifier	grantAgreement/EC/
Start date	unknown
End date	unknown