Caroline P. Slomp
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View article: Long-Term Euxinia Restricts Microbial Methane Removal in Eutrophic Coastal Basins
Long-Term Euxinia Restricts Microbial Methane Removal in Eutrophic Coastal Basins Open
In eutrophic coastal waters, aerobic methane-oxidizing bacteria (MOB) mitigate methane emissions by oxidizing benthic methane even in the stratified, anoxic water column. However, ongoing warming and eutrophication lead to extended stratif…
View article: A niche for diverse cable bacteria in continental margin sediments overlain by oxygen-deficient waters
A niche for diverse cable bacteria in continental margin sediments overlain by oxygen-deficient waters Open
Since the discovery of cable bacteria more than a decade ago, these multicellular, filamentous sulfur-oxidizing bacteria have been found in a range of sedimentary environments. However, their abundance, diversity, and activity in continent…
View article: A ubiquitous and diverse methanogenic community drives microbial methane cycling in eutrophic coastal sediments
A ubiquitous and diverse methanogenic community drives microbial methane cycling in eutrophic coastal sediments Open
Coastal areas contribute over 75% of global marine methane emissions, a proportion predicted to increase with anthropogenic eutrophication and deoxygenation. Prolonged low oxygen and high organic matter input can disrupt the methane cycle,…
View article: Sediments From a Seasonally Euxinic Coastal Ecosystem Show High Nitrogen Cycling Potential
Sediments From a Seasonally Euxinic Coastal Ecosystem Show High Nitrogen Cycling Potential Open
Coastal ecosystems are susceptible to eutrophication and deoxygenation, which may alter their nitrogen cycle dynamics. Here, we investigated the microbial nitrogen cycling potential in the sediment of a seasonally euxinic coastal ecosystem…
View article: Long-term euxinia hinders microbial ammonium removal in brackish coastal waters
Long-term euxinia hinders microbial ammonium removal in brackish coastal waters Open
Anthropogenic activities are key drivers of eutrophication and deoxygenation in coastal marine ecosystems. This stimulates the anaerobic degradation of organic matter and the release of reduced products, such as ammonium, methane, and hydr…
View article: Seasonal dynamics of nitrification in the water column of marine Lake Grevelingen
Seasonal dynamics of nitrification in the water column of marine Lake Grevelingen Open
Coastal ecosystems serve as vital connectors between land and ocean, and their nitrogen cycle and ammonium removal can be affected by various factors. During our seasonal sampling campaign in 2021, the eutrophic marine Lake Grevelingen exh…
View article: Precession-driven variations in phosphorus cycling facilitated Earth’s oxygenation in the early Proterozoic
Precession-driven variations in phosphorus cycling facilitated Earth’s oxygenation in the early Proterozoic Open
Contains fulltext : 320438.pdf (Publisher’s version ) (Open Access)
View article: Potential impacts of marine carbon dioxide removal on ocean oxygen
Potential impacts of marine carbon dioxide removal on ocean oxygen Open
Global warming is a main cause for current ocean deoxygenation. A deployment of marine carbon dioxide removal (CDR) for mitigating global warming could therefore also be viewed as a measure for mitigating ocean deoxygenation if, and only i…
View article: Behaviour of cadmium isotopes in sulfidic waters and sediments of the Black Sea: Implications for global cadmium cycling and the application of cadmium isotopes as a paleo-oceanographic proxy
Behaviour of cadmium isotopes in sulfidic waters and sediments of the Black Sea: Implications for global cadmium cycling and the application of cadmium isotopes as a paleo-oceanographic proxy Open
Contains fulltext : 319947.pdf (Publisher’s version ) (Open Access)
View article: Could Bubbling Oxygen Revitalize Dying Coastal Seas?
Could Bubbling Oxygen Revitalize Dying Coastal Seas? Open
Reoxygenation approaches have shown some success in lakes, but their potential risks must be examined carefully before they’re implemented as solutions to improve the health of coastal waters.
View article: Inoculation Improves Microbial Manganese Removal during the Start-Up of Rapid Sand Filters
Inoculation Improves Microbial Manganese Removal during the Start-Up of Rapid Sand Filters Open
Long start-up times to achieve manganese removal in rapid sand filters can pose challenges for drinking water companies. This study assessed the start-up dynamics of manganese removal in two full-scale dual-media rapid sand filters treatin…
View article: The Clean and Healthy Ocean Integrated Program: A multistakeholder approach to address land-based pollution causing marine hypoxia
The Clean and Healthy Ocean Integrated Program: A multistakeholder approach to address land-based pollution causing marine hypoxia Open
Marine hypoxia (low or depleted oxygen in a water body) is a transboundary issue - it is not confined to a single country or a single region, but is a global concern with global impacts. Consequently, a programmatic approach that supports …
View article: Potential impacts of marine carbon dioxide removal on ocean oxygen
Potential impacts of marine carbon dioxide removal on ocean oxygen Open
Global warming is the main cause for current ocean deoxygenation. Stopping further warming requires net-zero emissions. Achieving this will, in the foreseeable future, not be possible without the implementation of a portfolio of carbon dio…
View article: In situ-measured benthic fluxes of dissolved inorganic phosphorus in the Baltic Sea
In situ-measured benthic fluxes of dissolved inorganic phosphorus in the Baltic Sea Open
Sedimentary recycling of phosphorus is a key aspect of coastal eutrophication. Here, we present data on benthic fluxes of dissolved inorganic phosphorus (DIP) from the Baltic Sea, an area with a long eutrophication history. The presented d…
View article: A niche for diverse cable bacteria in continental margin sediments overlain by oxygen-deficient waters
A niche for diverse cable bacteria in continental margin sediments overlain by oxygen-deficient waters Open
Since the discovery of cable bacteria more than a decade ago, these multi-cellular, filamentous sulfur-oxidizing bacteria have been found in a range of sedimentary environments. However, their abundance, diversity and activity in continent…
View article: Sediments from a seasonally euxinic coastal ecosystem show high nitrogen cycling potential
Sediments from a seasonally euxinic coastal ecosystem show high nitrogen cycling potential Open
Coastal ecosystems are susceptible to eutrophication and deoxygenation, which may alter their nitrogen cycle dynamics. Here, we investigated the microbial nitrogen cycling potential in the sediment of a seasonally euxinic coastal ecosystem…
View article: Dissolved Mn(III) is a key redox intermediate in sediments of a seasonally euxinic coastal basin
Dissolved Mn(III) is a key redox intermediate in sediments of a seasonally euxinic coastal basin Open
Manganese (Mn) is an essential micronutrient and key redox intermediate in marine systems. The role of organically complexed dissolved Mn(III) (dMn(III)-L) as an electron acceptor and donor in marine environments is still incompletely unde…
View article: Sedimentary vanadium depletion under sulfidic conditions: Implications for (paleo)redox proxy applications
Sedimentary vanadium depletion under sulfidic conditions: Implications for (paleo)redox proxy applications Open
Sedimentary concentrations of redox-sensitive trace metals are widely used to reconstruct past ocean redox conditions. Vanadium (V) has great potential as a (paleo)redox proxy, due to its strong redox-dependent speciation (+III, +IV, +V) a…
View article: Influence of filter backwashing on iron, manganese, and ammonium removal in dual-media rapid sand filters used for drinking water production
Influence of filter backwashing on iron, manganese, and ammonium removal in dual-media rapid sand filters used for drinking water production Open
Iron (Fe), manganese (Mn), and ammonium (NH4+) removal from groundwater using rapid sand filtration is a widely employed method in drinking water production. Over time, Fe and Mn oxides accumulate in the filter, which necessitates frequent…
View article: A ubiquitous and diverse methanogenic community drives microbial methane cycling in eutrophic coastal sediments
A ubiquitous and diverse methanogenic community drives microbial methane cycling in eutrophic coastal sediments Open
Coastal areas are responsible for over 75% of global marine methane emissions and this proportion is predicted to grow due to an increase in anthropogenically induced eutrophication and deoxygenation. Prolonged periods of low oxygen and hi…
View article: Seasonal euxinia in a coastal basin: Impact on sedimentary molybdenum enrichments and isotope signatures
Seasonal euxinia in a coastal basin: Impact on sedimentary molybdenum enrichments and isotope signatures Open
\n Contains fulltext :\n 312054.pdf (Publisher’s version ) (Open Access)\n
View article: Ebullition drives high methane emissions from a eutrophic coastal basin
Ebullition drives high methane emissions from a eutrophic coastal basin Open
\n Contains fulltext :\n 310584.pdf (Publisher’s version ) (Open Access)\n
View article: Trace metals in coastal marine sediments: Natural and anthropogenic sources, correlation matrices, and proxy potentials
Trace metals in coastal marine sediments: Natural and anthropogenic sources, correlation matrices, and proxy potentials Open
Rapidly spreading industrialization since the 19th century has led to a drastic increase in trace metal deposition in coastal sediments. Provided that these trace metals have remained relatively immobile after deposition, their sedimentary…
View article: Ebullition drives high methane emissions from a eutrophic coastal basin
Ebullition drives high methane emissions from a eutrophic coastal basin Open
Dataset used in the article: "Ebullition drives high methane emissions from a eutrophic coastal basin".
View article: Eutrophication and deoxygenation drive high methane emissions from a brackish coastal system
Eutrophication and deoxygenation drive high methane emissions from a brackish coastal system Open
Data presented in the article "Eutrophication and deoxygenation drive high methane emissions from a brackish coastal system ".