Seasonal contribution of terrestrial organic matter and biological oxygen demand to the Baltic Sea from three contrasting river catchments

To examine the potential influence of terrestrially derived DOM on the Baltic Sea, a year-long study of dissolved organic matter (DOM) was performed in three river catchments in Sweden. One catchment drains into the Bothnian Sea, while two southern catchments drain into the Baltic proper. Dissolved organic carbon (DOC) concentrations were positively correlated with discharge from forested catchments over the year. While the overall concentrations of DOC were several times higher in the southern two catchments, higher discharge in the northern catchment resulted in the annual loadings of DOC being on the same order of magnitude for all three catchments. Biological oxygen demand (BOD) was used as a proxy for the lability of carbon in the system. The range of BOD values was similar for all three catchments, however, the ratio of BOD to DOC (an indication of the labile fraction) in Ume river was four times higher than in the southern two catchments. Total annual BOD loading to the Baltic Sea was twice as high in the northern catchment than in the two southern catchments. Lower winter temperatures and preservation of organic matter in the northern catchment combined with an intense spring flood help to explain the higher concentrations of labile carbon in the northern catchment. Lower lability of DOM as well as higher colour in the southern catchments suggest that wetlands (i.e. peat bogs) may be the dominant source of DOM in these catchments, particularly in periods of low flow. With climate change expected to increase precipitation events and temperatures across the region, the supply and quality of DOM delivered to the Baltic Sea can also be expected to change. Our results indicate that DOM supply to the Baltic Sea from boreal rivers will be more stable throughout the year, and potentially have a lower bioavailability

A review assessing the current treatment strategies for postnatal psychological morbidity with a focus on post-traumatic stress disorder

Objective: to conduct a systematic review of randomised controlled trials investigating the efficacy of treatments used to manage postnatal psychological morbidity. Design: a systematic review was conducted of studies in English published from 1995 to 2011. Studies were included in the review if they were randomised controlled trials and had extractable data on symptoms of psychological morbidity after an intervention designed to manage the disorders in postnatal women. Eight studies met the criteria and were included in the review. Findings: the number of participants ranged from 58 to 1745. The interventions included group and individual counselling, debriefing and expressive writing. Authors of only three studies reported fewer symptoms of PTSD after the intervention. Those that appeared to be helpful were counselling and expressive writing. However most authors did not assess pre-existing PTSD. Key conclusions and implications for practice: the review revealed that there was no standardised scale used for diagnosis of post-traumatic stress disorder across the studies and no single efficacious treatment. A universal instrument for diagnosis of postnatal post-traumatic stress disorder is required. The intrapartum relationship with midwives appears to be an important contributor to prevention of PTSD and this requires further investigation. © 2012 Elsevier Ltd

OpenFluor- an online spectral library of auto-fluorescence by organic compounds in the environment

An online repository of published organic fluorescence spectra has been developed, which can be searched for quantitative matches with any set of unknown spectra. It fills a critical gap by increasing access to measured and modelled (PARAFAC) spectra, and linking across studies and systems to reveal "global" fluorescence trends

USING FLUORESCENT DISSOLVED ORGANIC MATTER TO TRACE ARCTIC SURFACE FRESH WATER

Climate change affects the Arctic environment with regards to permafrost thaw, changes in the riverine runoff and subsequent export of fresh water and terrestrial material to the Arctic Ocean. In this context, the Fram Strait represents a major pathway for export to the Atlantic basin. We assess the potential of visible wavelength dissolved organic matter fluorescence (VIS-FDOM) to trace the origin of Arctic outflow waters. Oceanographic surveys were performed in the Fram Strait, as well as on the east Greenland shelf (following the East Greenland Current), in late summer 2012 and 2013. Meteoric (fmw), sea-ice melt (fsim), Atlantic (faw) and Pacific (fpw) water fractions were determined and FDOM components were identified by PARAFAC modeling. In Fram Strait and east Greenland shelf, a robust correlation between VIS-FDOM and fmw was apparent, suggesting it as a reliable tracer of polar waters. However, variability was observed in the origin of polar waters, in relation to contribution of faw and fpw, between the sampled years. VIS-FDOM traced this variability, and distinguished between the origins of the halocline waters as originating in either the Eurasian or Canada basins. The findings presented highlight the potential of designing in situ DOM fluorometers to trace the freshwater origins and decipher water mass dynamics in the region

TRACING THE COMPOSITION OF DOM IN THE ARCTIC OCEAN WITH FLUORESCENCE SPECTROSCOPY

The Arctic Ocean consists of a large pool of dissolved organic matter (DOM), receiving considerable input of terrigenous carbon mobilized from high latitude carbon-rich soils and peatlands. This study aims at characterizing the DOM fluorescent components in two Arctic environments: the Lena River delta region (September 2013) and the Polar (Arctic) waters in the Fram Strait (June 2014). In addition, optical indices of DOM modification were evaluated together with the amount of DOM (expressed as the absorption at 350nm; a350). The colored and fluorescent fractions of DOM (CDOM and FDOM, respectively) were analyzed using fluorescence spectroscopy and PARAFAC modeling. The amount of DOM (a350) decreased with increasing salinity (varying from 15.7m-1 in the Lena delta to 0.34m-1 in the Fram strait), with strong removal at low salinity. Six fluorescent components were identified in the Lena delta region and three of those components were validated in the Fram Strait. The allochthonous humic-like signal was the dominant fraction of DOM within both sampled regions, with the highest relative contributions to total FDOM associated to low salinity. Conversely, autochthonous signal (e.g. protein- and/or marine humic-like) presented higher contribution in relation to total FDOM at high salinity. All the components were inversely related to salinity with the highest removal rates observed at low salinity. Optical indices of DOM modification (CDOM absorption slope, SUVA, fluorescence index, humification index and biological activity index) showed decrease on the humification degree and aromaticity of DOM towards high salinity. Strong removal at low salinity in the Lena delta region is presumed to be driven mostly by photodegradation and flocculation. The lower a350 values observed in the Fram strait indicates low removal through the Arctic Ocean. Further analyses will be conducted to evaluate the main drivers of the DOM removal through the open Arctic Ocean

Turnover time of fluorescent dissolved organic matter in the dark global ocean

Research articleMarine dissolved organic matter (DOM) is one of the largest reservoirs of reduced carbon on Earth. In the dark ocean (4200 m), most of this carbon is refractory DOM. This refractory DOM, largely produced during microbial mineralization of organic matter, includes humic-like substances generated in situ and detectable by fluorescence spectroscopy. Here we show two ubiquitous humic-like fluorophores with turnover times of 435±41 and 610±55 years, which persist significantly longer than the B350 years that the dark global ocean takes to renew. In parallel, decay of a tyrosine-like fluorophore with a turnover time of 379±103 years is also detected. We propose the use of DOM fluorescence to study the cycling of resistant DOM that is preserved at centennial timescales and could represent a mechanism of carbon sequestration (humic-like fraction) and the decaying DOM injected into the dark global ocean, where it decreases at centennial timescales (tyrosine-like fraction).Versión del editor10,015

Bioavailability of riverine dissolved organic matter in three Baltic Sea estuaries and the effect of catchment land use

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