Distinct or similar? Soft bottom polychaete diversity in Arctic and Antarctic glacial fjords

The main aim of this study was to compare the polychaete communities in two similar polar areas: an Arctic fjord, Hornsund (Svalbard) and an Antarctic fjord, Ezcurra Inlet (South Shetlands). This is the first attempt to compare Arctic and Antarctic diversity based on fully comparable datasets. Forty van Veen grab samples were collected in each fjord: twenty replicates were taken in each of two fjord areas characterized by a different level of glacial disturbance—in the inner (glacial bay) and outer (fjord mouth) region of both fjords, from depths of about 100 m in 2005 (Hornsund) and in 2007 (Ezcurra Inlet). In the glacial bays, species richness and diversity were significantly higher in Distinct or similar? Soft bottom polychaete diversity in Arctic and Antarctic glacial fjords - Springer Ezcurra Inlet than in Hornsund due to higher rate of glacial disturbance in the latter one. In the outer areas, species richness was similar in both fjords, although diversity values were higher in Ezcurra Inlet. Polychaete species richness in the habitats characterized by similar level of disturbance (outer areas of the fjords) was the same in both polar regions. At this small scale, where community drivers are very similar, the species richness seems to be independent from the local or regional species pool.This study was supported by an International Polar Year related project (Structure, evolution, and dynamics of lithosphere, cryosphere and biosphere in European Sector of Arctic and in Antarctic No. PBZ-KBN-108/PO4/2004) to Jan Marcin Węsławski and Jacek Siciński. K. Pabis was also partially supported from the University of Lodz internal funds, M. Kędra received financial support from the Polish Ministry of Science and Higher Education (540/N–AODP/2009/0)

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Publikacja powstała w ramach projektu „Wdrożenie podstawy programowej kształcenia ogólnego w przedszkolach i szkołach

Motywy wyboru kształcenia na kierunku pielęgniarstwo w opinii studentów Państwowej Medycznej Wyższej Szkoły Zawodowej w Opolu

Wstęp. Bardzo ważnym momentem w życiu każdego człowieka jest wybór kierunku studiów oraz zawodu. Wyborem tym najczęściej kierują motywy, które można podzielić na dwie  grupy: motywy wewnętrzne  (podmiotowe) i zewnętrzne (sytuacyjne).Cel. Określenie motywów jakimi kierują się osoby wybierające kształcenie na kierunku pielęgniarstwo w PMWSZ w Opolu.Materiał i metody. Badaniem  objęto 181 studentów kierunku pielęgniarstwo PMWSZ w  Opolu. Zastosowano metodę sondażu diagnostycznego z techniką ankiety, do której opracowano  autorski kwestionariusz ankiety.Wyniki. O wyborze kierunku pielęgniarstwo w  PMWSZ w Opolu przez badanych studentów decydowały: chęć niesienia pomocy ludziom (76,2%) oraz perspektywa łatwego  znalezienia  pracy  (92,8%). Ponowny wybór tego kierunku kształcenia potwierdziło 89,8% respondentów. Wybór PMWSZ w Opolu na uczelnię, w której kształcą się respondenci, podyktowany jest bliskością miejsca zamieszkania (67,4%).Wnioski. Wybór kierunku studiów był z reguły wyborem świadomym, a główne motywy, którymi w tym wyborze kierowali się badani studenci nie odbiegały od oczekiwanych.Słowa kluczowe: pielęgniarka/pielęgniarz,  motywacja,  edukacja,  zawód

Low virus to prokaryote ratios in the cold: benthic viruses and prokaryotes in a subpolar marine ecosystem (Hornsund, Svalbard)

The density and spatial distribution of benthic viruses and prokaryotes in relation to biotic and abioticfactors were investigated in sediment cores collected in Hornsund, a permanently cold fjord on the West coast of Svalbard,Norway. The cores were obtained from the mouth of the fjord to the central basin, along a longitudinal transect. Theresults of our analyses showed lower densities of viruses (0.2 × 108 to 5.4 × 108 virus-like particles/g) and lower virus-toprokaryoteratios (0.2-0.6, with the exception of the uppermost layer in the central basin, where the ratio was about 1.2)at the study site than generally found in the temperate areas, despite the relatively high organic matter content in subpolarsediments. Variations in benthic viral and prokaryote abundances along gradients of particle sedimentation rates, phytopigmentconcentrations, and macrobenthic species composition together suggested the influence of particle sedimentationand macrobenthic bioturbation on the abundance and spatial distribution of prokaryotes and viruses in cold habitats. [IntMicrobiol 2013; 16(1):45-52

Cytological picture of the oral mucosa in patients with gastric and colon cancer

The incidence of malignant gastrointestinal cancers in Poland has been constantly growing, which hasled to an intensification of the search for new markers of the early clinical stage of this disease. The oral cavity,as the first part of the gastrointestinal tract, has a very important role. The oral cavity presents symptoms of bothtypically stomatological and systemic diseases. Oral cancers, benign or malignant, may originate and grow in anyof the tissues of the mouth, and within this small area they may be of varied clinical, histological and biologicalfeatures. These can be lesions typically observed in the oral cavity, but also characteristic of cases where thesymptoms occur both in the mouth and in other body parts. The aim of this study was to present a cytologicalpicture of the oral mucosa in patients with gastric and colon cancer and to compare the cytological picture withthat obtained from a group of patients with no cancer, using the Papanicolaou classification and the Bethesdasystem. The study was conducted in 126 patients treated surgically in the II General and GastroenterologicalSurgery Clinic between 2006 and 2008. All patients were divided into two groups based on the type of lesions. Inboth of the studied groups, more than half of the patients did not present any abnormalities in the mucosa of themouth, lips and cheeks in the physical examination. None of the patients had erosion, ulceration or lesionstypical of leukoplakia or lichen planus. No malignant cells were detected in either of the studied groups, andthere were no well-defined lesions found in the oral cavity that would distinguish the patients with gastrointestinalcancer. (The incidence of malignant gastrointestinal cancers in Poland has been constantly growing, which hasled to an intensification of the search for new markers of the early clinical stage of this disease. The oral cavity,as the first part of the gastrointestinal tract, has a very important role. The oral cavity presents symptoms of bothtypically stomatological and systemic diseases. Oral cancers, benign or malignant, may originate and grow in anyof the tissues of the mouth, and within this small area they may be of varied clinical, histological and biologicalfeatures. These can be lesions typically observed in the oral cavity, but also characteristic of cases where thesymptoms occur both in the mouth and in other body parts. The aim of this study was to present a cytologicalpicture of the oral mucosa in patients with gastric and colon cancer and to compare the cytological picture withthat obtained from a group of patients with no cancer, using the Papanicolaou classification and the Bethesdasystem. The study was conducted in 126 patients treated surgically in the II General and GastroenterologicalSurgery Clinic between 2006 and 2008. All patients were divided into two groups based on the type of lesions. Inboth of the studied groups, more than half of the patients did not present any abnormalities in the mucosa of themouth, lips and cheeks in the physical examination. None of the patients had erosion, ulceration or lesionstypical of leukoplakia or lichen planus. No malignant cells were detected in either of the studied groups, andthere were no well-defined lesions found in the oral cavity that would distinguish the patients with gastrointestinalcancer.

Hermit crabs (Pagurus spp.) at their northernmost range: distribution, abundance and shell use in the European Arctic

Hermit crabs are important components of Arctic benthic systems, yet baseline data on their densities and distribution patterns in this rapidly changing region are still scarce. Here we compile results of numerous research expeditions to Svalbard, the Barents Sea and northern Norway that were carried out from 1979 to 2011 by the Institute of Oceanology, Polish Academy of Sciences. The diversity of hermit crabs at the northern edge of their occurrence is very low; in Svalbard waters only one species (Pagurus pubescens) was detected. Another species (P. bernhardus), found in northern mainland Norway, north of the Arctic Circle, is likely to extend its distribution northward as the climate warms. Where the two species co-occur, competition between them probably accounts for the smaller sizes and poorer quality shells used by P. pubescens. The composition of the mollusc shells inhabited by these crabs differs between northern Norway and Svalbard, reflecting local mollusc species pools. Hermit crab densities were significantly higher than previously reported (max. mean 10 ind. m−2), suggesting their increasing level of dominance in benthic communities in the studied areas. The first to report the distribution of hermit crabs among habitats, this study showed that most individuals occurred at shallow depths (5–150 m), away from glacier termini and on hard bedrock rather than on soft substrata

Benthic community structure, diversity, and productivity in the shallow Barents Sea bank (Svalbard Bank)

The Barents Sea is among the most productive areas in the world oceans, and its shallow banks exhibit particularly high rates of primary productivity reaching over 300 g C m−2year−1. Our study focused on the Svalbard Bank, an important feeding area for fishes and whales. In order to investigate how benthic community structure and benthic secondary production vary across environmental gradients and through time, we sampled across the bank and compared results with a similar study conducted 85 years ago. Considerable variability in community structure and function across bank corresponded with differences in the physical structure of the habitat, including currents, sedimentation regimes and sediment type, and overlying water masses. Despite an intensive scallop fishery and climatic shifts that have taken place since the last survey in the 1920s, benthic community structure was very similar to that from the previous survey, suggesting strong system resilience. Primary and secondary production over shallow banks plays a large role in the Barents Sea and may act as a carbon subsidy to surrounding fish populations, of which many are of commercial importance

A huge biocatalytic filter in the centre of Barents Sea shelf?

A primary production model for the Barents Sea shows a hot spot of organic carbon settlement to the sea bed over 100 km long, a shallow pile of highly permeable sediments (mainly large Balanus, Mya and Pecten shell fragments over 1 cm in size) of glacial origin. Hydrodynamic flow models suggest an intensive, deep flow of near-bottom waters into the sediment. Depending on wave height, water in shallow (30 m depth) places may percolate more than 5 m into the sediment. During 10 days of stormy weather as much as 4 to 8 kg wet weight pelagic biomass can be processed per square metre through this extremely permeable sediment. Analogous processes known in coastal waters lead to intense biocatalytic phenomena and metabolism of organic carbon within the seabed, estimated here as more intense than surface consumption. Spitsbergenbanken may be acting as a huge sink for organic carbon and an important source of nutrients in one of the most productive areas of the North Atlantic

Benthos

Currently, > 4,000 Arctic macro- and megabenthic species are known, representing the majority of Arctic marine faunal diversity. This estimate is expected to increase. • Benthic invertebrates are food to shes, marine mammals, seabirds and humans, and are commercially harvested. • Traditional Knowledge (TK) emphasizes the link between the benthic species and their predators, such as walrus, and their signi cance to culture. • Decadal changes in benthos biodiversity are observed in some well-studied regions, such as the Barents Sea and Chukchi Sea. • Drivers related to climate-change such as warming, ice decline and acidification are affecting the benthic community on a pan-Arctic scale, while drivers such as trawling, river/glacier discharge and invasive species have signficant impact on regional or local scales. • Increasing numbers of species are moving into, or shifting, their distributions in Arctic waters. These species will outcompete, prey on or offer less nutritious value as prey for Arctic species. • Current monitoring efforts have focused on macro- and megabenthic species, but have been confined to the Chukchi Sea and the Barents Sea. Efforts are increasing in waters of Greenland, Iceland, the Canadian Arctic, and in the Norwegian Sea. All other Arctic Marine Areas are lacking long-term benthic monitoring. • As a first step towards an international collaborative monitoring framework, we recommend to develop a time- and cost-effective, long-term and standardized monitoring of megabenthic communities in all Arctic regions with regular annual groundfish assessment surveys. Expanding monitoring on micro-, meio- and macrobenthic groups is encouraged

Zagrożenia zdrowotne wśród dzieci i młodzieży. T. 1

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