115 research outputs found

    Sediment resuspension during vessel manoeuvres in port areas: evidence from field observations

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    Purpose: The increase in maritime traffic in the Bay of Koper (Gulf of Trieste, northern Adriatic Sea) has been made possible given the increase in the local port capacity and logistics, which, in turn, means an increase in the number of arrivals of larger vessels (which were the original motive for port expansion); this poses a potential risk for coastal environments due to the impact of the resuspension of bottom sediment which affects the physical and chemical characteristics of the water column. The aim of this work was to assess the magnitude of these perturbative events.Materials and methodsTurbidity (NTU) measurements were made using a CTD multiprobe during a vessel manoeuvre in the port navigational canal and in the entire Bay of Koper. In the highest turbidity zone, samples were collected from the surface water layer (0.5 m), at a depth of 6.0 m and 12.0 m. Total suspended solids (TSS) and suspended organic matter (SOM) were measured gravimetrically. TSS grain-size distribution was determined using a laser granulometer.Results and discussionThe effect of the vessel manoeuvre was evident on turbidity with a maximum value of 137 NTU (TSS = similar to 139 mg l(-1)) and a sampled concentration of TSS of 37 mg l(-1) (bottom layer) in the water column immediately after the ship manoeuvre. Grain-size analysis shows a spectrum of particles with a mode size between 22 and 88 mu m (medium silt and very fine sand, respectively). The estimated resuspension mass of total suspended solids (TSS) was similar to 109 t in the restricted manoeuvre area extending about similar to 736 x 493 m and with an average depth of 15 m.ConclusionsThe results demonstrated the significant impact of vessel manoeuvres on the measured parameters, the impact of which cannot be underestimated in terms of marine environmental protection and maritime traffic safety. Moreover, this impact is expected to increase in the near future

    Semi-annual carbon and nitrogen isotope variations in the water column of Lake Bled, NW Slovenia

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    The variability in the stable isotope signature of carbon and nitrogen in particulate organic matter and dissolved species in the water column of the mesotrophic subalpine Lake Bled in NW Slovenia has been determined. After the algae bloom from August to December in 2008, samples were taken from the deepest part of the lake which develops an anoxic hypolimnion for most of the year. C/N molar ratios and &delta;<sup>13</sup>C<sub>POC</sub> and &delta;<sup>15</sup>N<sub>PN</sub> values suggest an autochthonous source for particulate organic matter (POM). According to the isotope model, autochthonous carbon accounted for a major part of the particulate organic carbon (POC), ranging from 86% to 96% in September and October, while in December the proportion of allochthonous carbon was more pronounced, ranging from 57% to 59%. Low &delta;<sup>13</sup>C<sub>POC</sub> and &delta;<sup>15</sup>N<sub>PN</sub> values (from −36 to −33&permil; and from 0.8 to 1.8&permil;), observed below 24 m in August and September, indicate the bacterial origin of POM, mainly from methanotrophic bacteria. &delta;<sup>15</sup>N<sub>NO<sub>3</sub></sub> and &delta;<sup>15</sup>N<sub>PN</sub> values decreased with depth. The relations between &delta;<sup>15</sup>N<sub>PN</sub> and NO<sub>3</sub><sup>-</sup> and NH<sub>4</sub><sup>+</sup> concentrations suggest that NH<sub>4</sub><sup>+</sup> is the main assimilation species for nitrogen in POM. Nitrification was active between 12 and 18 m deep in September and October, indicated by increased NO<sub>3</sub><sup>-</sup> concentrations and decreased &delta;<sup>15</sup>N<sub>NO<sub>3</sub></sub> values. The correlation between nitrate concentrations and &delta;<sup>15</sup>N<sub>NO<sub>3</sub></sub> values suggests active water column denitrification in October 2008. The decrease in &delta;<sup>15</sup>N<sub>NO<sub>3</sub></sub> values observed in December could be explained by degradation of organic matter, followed by nitrification of the degradation products. During our sampling period, there was no evident influence of sewage, agriculture, or atmospheric deposition on the nitrogen balance in the lake

    Pyridazines. LXXVIII. Use of N,N-Dimethylaminomethylene Derivatives of Some Amino and Hydrazino Heterocycles in Organic Synthesis

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    The formation of N,N-dimethylaminomethylenehydrazino derivatives of pyridazine and azolopyridaz~nes is described and th.e synthetic utility of these compounds is explored. An unusual transformation could be observed with a aminomethyleinehydrazino derivative where upon .nitrosation the side chain is trainsformed into an azido group. From the corresponding N,N-dimethylaminomethyleneamino derivatives two new tricyclic azolotriazolopyridazmes could be prepared

    Klorirani ugljikovodici (pesticidi i poliklorobifenili - PCB) u atmosferi grada Ljubljane

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    Airborne particulate matter was continuously sampled from the atmosphere of the residential town area of Ljubljana for 45 days and trapped on a filter. Some chlorinated hydrocarbons (pesticides and PCBs) were determined by GLC after solvent extraction followed by concentration and clean-up of the oily residue. The PCB concentration in the particulate matter in the atmosphere was 1.3 ng/m3 and the concentration levels of the total DDT. dieldrin, alpha-, gamma-, delta-HCH and heptachlor epoxide were 0.86, 0.03, 0.08, 0.05, 0.03 and 0.01 ng/m3 respectively. Such a level of chlorinated hydrocarbons in the atmosphere is considered of little or no consequence to public health.U soliteru »Iskra« u Ljubljani neprekidno smo 45 dana usisavali vanjski zrak kroz filter. Filter je zadržao čestice aerosola. U tom smo aerosolu tehnikom plinske kromatografije identificirali neke stabilne organskofosforne spojeve (pesticide i poliklorirane bifenile). Našli smo da je koncentracija PCB 1,3 ng/m3, a ukupnog DDT (p,p\u27-DDE, p,p\u27-DDE, p,p\u27-DDD i o,p\u27-DDT), dieldrina, alfa-, gama-, delta-HCH i heptaklor epoksida 0,86; 0,03; 0,05; 0,03; 0,01 ng/m3. Količina organoklornih spojeva u zraku ne prelazi količinu koja bi znatno utjecala na ukupni dnevni unos u čovjeka

    Major, Minor and Trace Elements in Surficial Sediments from the Open Adriatic Sea: A Regional Geochemical Study

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    The concentrations and distributions of major (Al, Ca, Fe, K, Mg), minor (Mn, P, Ti), and trace elements (Ag, As, Ba, Be, Co, Cr, Cu, Ag, La, Ni, Pb, Sc, Sr, Th, U, V, Zn, Zr), in the surficial sea bottom sediments were studied in an attempt to establish their distribution in the Adriatic Sea. Results indicate that major, minor and several trace elements are strongly related to the catchment geology, their distribution being essentially controlled by the type of sediments. However, the majority of trace elements are believed to have been introduced into the Adriatic from the riverine inflows that are also affected by the impact of industrial, mining and urban wastes. Other sources of these elements are located along the coast. The highest concentrations for several trace elements were thus recorded from the coastal ecosystems and from the most polluted Albanian and Italian rivers. The concentrations of trace elements generally decrease with distance from the coast. The regional distribution patterns are influenced by the counter-clockwise system of the Adriatic Sea currents which carry these elements away from the riverine inflows. Correlation analysis indicates that the trace elements are largely associated with the clay minerals, Fe and P contents rather than with the Mn concentrations. Magnesian minerals are suggested as the carrier for some trace elements (As, Co, Cr, Ni, Se and V) only in the southern Adriatic, which reflects their ophiolitic origin in the Albanian hinterland. Organic matter concentrations does not considerably influence the abundance and distribution of trace metals
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