19,891 research outputs found
Social Carrying Capacity of Mass Tourist Sites: Theoretical and Practical Issues about its Measurement
Congestion is an important management problem at mass tourist sites. This essay focuses on the social carrying capacity (SCC) of a tourist site as indicator of residentsā and visitorsā perception of crowding, intended as the maximum number of visitors (MNV) tolerated. In case of conflict between the residentsā MNV tolerated and the visitorsā MNV tolerated, the policy-maker has to mediate. We consider the case in which the residentsā SCC is lower than the visitorsā SCC, and the site SCC is the result of a compromise between these two aspects of the SCC. This can be measured by making reference to two criteria of choice: the utility maximisation criterion and the voting rule. The use of one method rather than the other depends on the data available about the individual preferences on crowding. Assuming that individual preferences are known, a maximisation model for the computation of the site SCC is conceived. It represents the case in which the residentsā SCC is the limiting factor. The site SCC is intended as the number of visitors which maximises the social welfare function. Because a local policy-maker maximises the welfare of residents, in this model visitors are represented by those residents whose welfare wholly depends on the tourism sector, while the social costs due to crowding are borne by those residents who are partially or totally independent from tourism. Nevertheless, in practice, the individual preferences about crowding are not always known. In this case, the MNV tolerated can be computed by applying the majority voting rule. It is shown that, under certain conditions, the optimum number of visitors, obtained through a maximisation model, is equal to the MNV tolerated by the majority of voters.Sustainable tourism development, Tourism carrying capacity, Social carrying capacity, Maximisation criterion, Majority voting rule, Overcrowding, Mass tourist site
Cetaceans value and conservation in the Mediterranean Sea
This review provides an overview of the Mediterranean diversity and conservation status of cetaceans, and the value associated with their conservation and non-consumptive use. Mediterranean Sea is one of the world's diversity hotspots. Its biodiversity is increasingly under threat in the whole region and key species as cetaceans challenge for conservation. All the identified threats are interlinked and cumulatively contribute to the habitat degradation of the entire area as well as reduced health status of the cetaceans that live there. Whales and dolphins, defined as charismatic megafauna, flag species, apex predators and bio indicators of the marine environment health are demanding social substantial changes. Needs are for spatial prioritization within a comprehensive framework for regional conservation planning, the
acquisition of additional information identifying critical habitats in data-poor areas and for data deficient species, and addressing the challenges of establishing transboundary governance and collaboration in socially, culturally and politically complex conditions. This paper examines research gaps, questions and issues (population abundance estimates, as well as the biological, ecological, physiological characteristics) surrounding cetacean species in the context of biodiversity conservation and highlights the need of targeted conservation management actions to reduce sources of disturb of
key threatening processes in the Mediterranean Sea. The āprecautionary principleā must be adopted at all levels in attempts to mitigate impacts and thus provides scope for the translation of the principle into operational measures. As natural entities, cetaceans have their objective intrinsic value, not humanly conferred
Systematic Uncertainties In Constraining Dark Matter Annihilation From The Cosmic Microwave Background
Anisotropies of the cosmic microwave background (CMB) have proven to be a
very powerful tool to constrain dark matter annihilation at the epoch of
recombination. However, CMB constraints are currently derived using a number of
reasonable but yet un-tested assumptions that could potentially lead to a
misestimation of the true bounds. In this paper we examine the potential impact
of these systematic effects. In particular, we separately study the propagation
of the secondary particles produced by annihilation in two energy regimes;
first following the shower from the initial particle energy to the keV scale,
and then tracking the resulting secondary particles from this scale to the
absorption of their energy as heat, ionization, or excitation of the medium. We
improve both the high and low energy parts of the calculation, in particular
finding that our more accurate treatment of losses to sub-10.2 eV photons
produced by scattering of high-energy electrons weakens the constraints on
particular DM annihilation models by up to a factor of two. On the other hand,
we find that the uncertainties we examine for the low energy propagation do not
significantly affect the results for current and upcoming CMB data. We include
the evaluation of the precise amount of excitation energy, in the form of
Lyman-alpha photons, produced by the propagation of the shower, and examine the
effects of varying the Helium fraction and Helium ionization fraction. In the
recent literature, simple approximations for the fraction of energy absorbed in
different channels have often been used to derive CMB constraints: we assess
the impact of using accurate versus approximate energy fractions. Finally we
check that the choice of recombination code (between RECFAST v1.5 and
COSMOREC), to calculate the evolution of the free electron fraction in the
presence of dark matter annihilation, introduces negligible differences.Comment: 29 pages, 21 figure
Efficient algorithms for conditional independence inference
The topic of the paper is computer testing of (probabilistic) conditional independence (CI) implications by an algebraic method of structural imsets. The basic idea is to transform (sets of) CI statements into certain integral vectors and to verify by a computer the corresponding algebraic relation between the vectors, called the independence implication. We interpret the previous methods for computer testing of this implication from the point of view of polyhedral geometry. However, the main contribution of the paper is a new method, based on linear programming (LP). The new method overcomes the limitation of former methods to the number of involved variables. We recall/describe the theoretical basis for all four methods involved in our computational experiments, whose aim was to compare the efficiency of the algorithms. The experiments show that the LP method is clearly the fastest one. As an example of possible application of such algorithms we show that testing inclusion of Bayesian network structures or whether a CI statement is encoded in an acyclic directed graph can be done by the algebraic method
A new Viola (Violaceae) from the Argentinian Andes
Viola beati, a hitherto unknown species of V. sect. Andinium (Violaceae) is described and illustrated. It is an inconspicuous, diminutive, perennial forb currently known from only one locality in NW Argentina. We draw attention to its morphology, ecology, rarity and endemism. The differences between V. beati and its apparently only close relative, V. singularis J. M. Watson & A. R. Flores, are defined
Recent perspectives on the relations between faecal mutagenicity, genotoxicity and diet
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Molecular evidence for sediment nitrogen fixation in a temperate New England estuary
Primary production in coastal waters is generally nitrogen (N) limited with denitrification outpacing nitrogen fixation (N2-fixation). However, recent work suggests that we have potentially underestimated the importance of heterotrophic sediment N2-fixation in marine ecosystems. We used clone libraries to examine transcript diversity of nifH (a gene associated with N2-fixation) in sediments at three sites in a temperate New England estuary (Waquoit Bay, Massachusetts, USA) and compared our results to net sediment N2 fluxes previously measured at these sites. We observed nifH expression at all sites, including a site heavily impacted by anthropogenic N. At this N impacted site, we also observed mean net sediment N2-fixation, linking the geochemical rate measurement with nifH expression. This same site also had the lowest diversity (non-parametric Shannon = 2.75). At the two other sites, we also detected nifH transcripts, however, the mean N2 flux indicated net denitrification. These results suggest that N2-fixation and denitrification co-occur in these sediments. Of the unique sequences in this study, 67% were most closely related to uncultured bacteria from various marine environments, 17% to Cluster III, 15% to Cluster I, and only 1% to Cluster II. These data add to the growing body of literature that sediment heterotrophic N2-fixation, even under high inorganic nitrogen concentrations, may be an important yet overlooked source of N in coastal systems
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Atypical protein kinase C (PKCzeta/lambda) is a convergent downstream target of the insulin-stimulated phosphatidylinositol 3-kinase and TC10 signaling pathways.
Insulin stimulation of adipocytes resulted in the recruitment of atypical PKC (PKCzeta/lambda) to plasma membrane lipid raft microdomains. This redistribution of PKCzeta/lambda was prevented by Clostridium difficile toxin B and by cholesterol depletion, but was unaffected by inhibition of phosphatidylinositol (PI) 3-kinase activity. Expression of the constitutively active GTP-bound form of TC10 (TC10Q/75L), but not the inactive GDP-bound mutant (TC10/T31N), targeted PKCzeta/lambda to the plasma membrane through an indirect association with the Par6-Par3 protein complex. In parallel, insulin stimulation as well as TC10/Q75L resulted in the activation loop phosphorylation of PKCzeta. Although PI 3-kinase activation also resulted in PKCzeta/lambda phosphorylation, it was not recruited to the plasma membrane. Furthermore, insulin-induced GSK-3beta phosphorylation was mediated by both PI 3-kinase-PKB and the TC10-Par6-atypical PKC signaling pathways. Together, these data demonstrate that PKCzeta/lambda can serve as a convergent downstream target for both the PI 3-kinase and TC10 signaling pathways, but only the TC10 pathway induces a spatially restricted targeting to the plasma membrane
Enhancing Nursing Students\u27 Reading Comprehension Using Gist Strategy In Nursing Academy (Akper) Prima Jambi 2016
This research is conducted in order to enhance nursing students\u27 reading comprehension usingGIST Strategy. Appointing to the importance of schema theory in reading, this present studyinvestigates the use of Generating Interactions between Schemata and Text (GIST) to improvethe students reading comprehension at third semester of nursing students in AKPER Prima. Thisresearch used Classroom Action Research (CAR) which is conducted to solve the students\u27problem in English reading. Two cycles were conducted in which each cycle consist of planning,acting, observing, and reflecting. The data were gathered through qualitative and quantitativedata. The qualitative gained by analysing the field note, observation sheet and interview. Thenquantitative data were obtained from the students\u27 reading score of cycle I and cycle II. Thefinding of this research indicated that the implementation of GIST Strategy was success full sincethere is an improvement in students\u27 reading comprehension. The finding showed significantimprovement in students\u27 reading comprehension. It is suggested that GIST Strategy can beimplemented in teaching reading in order to enhance students in learning English reading
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