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Institution

Saint Anselm College

EducationManchester, New Hampshire, United States
About: Saint Anselm College is a education organization based out in Manchester, New Hampshire, United States. It is known for research contribution in the topics: Nurse education & Extinction (psychology). The organization has 255 authors who have published 522 publications receiving 7222 citations.


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Journal ArticleDOI
TL;DR: In this article, the authors defend the property thesis, the position that kinds of being (and their structures) are properties of the entities that have them, and they give two arguments for this thesis: the first is grounded in the fact that Heidegger refers to kinds and structures of being as "characteristics" and "determinations".
Abstract: While it is well known that the early Heidegger distinguishes between different ‘kinds of being’ and identifies various ‘structures’ that compose them, there has been little discussion about what these kinds and structures of being are. This paper defends the ‘Property Thesis’, the position that kinds of being (and their structures) are properties of the entities that have them. I give two arguments for this thesis. The first is grounded in the fact that Heidegger refers to kinds and structures of being as ‘characteristics’ and ‘determinations’, which are just two different words for ‘properties’, in the broadest senses of these terms. The second argument is based on the fact that kinds and structures of being play three roles that properties are supposed to play: they account for similarities between things, they are what predicates express, and they are what abstract nouns refer to.

9 citations

Journal ArticleDOI
TL;DR: In this article, the authors develop a rational expectations model with investors who are endowed with fundamental and non-fundamental information of heterogeneous quality and who optimally allocate learning capacity between fundamentals and noise.
Abstract: This paper studies how acquisition of non-fundamental information (learning about noise) affects financial markets. We develop a rational expectations model with investors who are endowed with fundamental and non-fundamental information of heterogeneous quality and who optimally allocate learning capacity between fundamentals and noise. We demonstrate that learning about noise increases price informativeness, and the price can be the most informative when the majority of investors acquire non-fundamental information. We also find that i) investors whose prior fundamental information is relatively precise (imprecise) compared to their prior non-fundamental information learn only about fundamentals (noise) and ii) learning about fundamentals (noise) increases (decreases) the heterogeneity in the fundamental information quality across investors.

9 citations

Journal ArticleDOI
TL;DR: Pattern recognition provided a way to approach understanding the experience of incarceration in a novel fashion and increased trust between the mothers and the nurse, and was a useful strategy in articulating the contribution of nursing science and humanistic care.
Abstract: Margaret Newman's theory, Health as Expanding Consciousness (HEC), was used to examine the life pattern of two incarcerated mothers awaiting release from prison. Pattern recognition provided a way to approach understanding the experience of incarceration in a novel fashion. The process increased trust between the mothers and the nurse, and was a useful strategy in articulating the contribution of nursing science and humanistic care.

9 citations

Journal ArticleDOI
TL;DR: It is shown that the generalized Langevin equation may have nonergodic (nonstationary) solutions even if the integral of the memory function is finite and diffusion is normal.
Abstract: It is known that in the regime of superlinear diffusion, characterized by zero integral friction (vanishing integral of the memory function), the generalized Langevin equation may have nonergodic solutions that do not relax to equilibrium values. It is shown that the equation may have nonergodic (nonstationary) solutions even if the integral of the memory function is finite and diffusion is normal.

9 citations

Journal ArticleDOI
TL;DR: The authors assert in the title and text that the deterrence observed is due to the kleptocnidae of the nudibranchs, but the source and treatment of the nematocysts used in assays make this unlikely, and a positive result for deterrence alone cannot be taken as evidence for a Nematocyst-based defence.
Abstract: In their paper concerning defences of the nudibranch Cratena peregrina (Gmelin, 1791), Aguado & Marin (2007) assert in the title and text that the deterrence observed is due to the kleptocnidae of the nudibranchs. However, the source and treatment of the nematocysts used in assays make this unlikely, and a positive result for deterrence alone cannot be taken as evidence for a nematocyst-based defence. Kleptocnidae have often been presumed to be defensive (Edmunds, 1966; Harris, 1973; Thompson, 1976; Todd, 1981), but direct observational and experimental evidence to support this is lacking (Todd, 1981; Miller & Byrne, 2000). Many nudibranchs possess chemical defences (Avila, 1995; Cimino & Ghiselin, 2001) and the relative importance of chemical vs kleptocnidal defence has been debated since the discovery that some nudibranchs possessed active nematocysts (Harris, 1973). Assays using whole nudibranchs cannot distinguish between these possibilities (Edmunds, 1966; Hand, 1994–1996) and for several reasons Aguado and Marin’s experiments with models also fail in this regard. First, the authors obtained nematocysts by macerating Eudendrium hydroids with a mortar and pestle (Aguado & Marin, 2007) and this cannot be considered equivalent to kleptocnidae isolated from C. peregrina. Many nudibranchs sequester only particular nematocyst types from their prey and may keep nematocysts from several prey species simultaneously (Harris, 1973; Todd, 1981; Frick, 2003). Eudendrium is only one of many prey species reported for C. peregrina (McDonald & Nybakken, 1997) and at least one species of these hydroids is known to deter fish via chemical defence rather than nematocysts (Stachowicz & Lindquist, 2000), so C. peregrina may not obtain nematocysts useful against fish from this prey species. Also, some nematocysts discharge in response to mechanical stimulation (Hessinger, 1988) such as grinding with mortar and pestle. While a greater percentage discharge when appropriate chemical factors are present (Kass-Simon & Scappaticci, 2002), we do not know whether different nematocyst types are more likely to discharge with mechanical stimulation alone. Beyond this, studies of antipredator defence should ensure that the treatment used in the bioassay matches the concentration normally found in the organism of concern (Hay et al., 1998). The authors do not describe how they attempted to match concentrations of Eudendrium extract with concentrations found in the average slug. Therefore, the method used by Aguado and Marin leads to isolation of a subset of nematocysts that may not represent the cnidome seen in C. peregrina in the field. Second, the method by which the authors attempted to incorporate nematocysts into the test food is unclear; they describe two very different methods, one which might denature nematocysts and the other where nematocysts may not stay on the artificial food for the assays. On page 24 they state that the artificial food models were ‘made distasteful by impregnation with nematocysts,’ suggesting that nematocysts were mixed throughout the entire volume of artificial food, presumably before it solidified. The artificial food recipe used includes boiling water (Aguado & Marin, 2007). The potential alteration of nematocyst discharge with temperature change is not well investigated (McKay & Anderson, 1988), but nematocysts are composed of a number of proteins crucial for their function (Tardent, 1995; Kass-Simon & Scappaticci, 2002) and boiling water denatures proteins, so it seems unlikely that any nematocysts so incorporated would be functional. Even if they were, many nematocysts would be buried within the food too deeply to be effective. Conversely, on page 25 the authors state that the artificial food models were ‘bathed in hydroid sauce’ in order to add nematocysts. If this was the case, it is quite possible that any nematocysts that might have adhered to the models could be washed off when the models contacted the water of the aquarium or field site. There is no indication that the authors checked the models after preparation to ensure functional nematocysts were included. Third, regardless of how nematocysts were added to the artificial food models, it is possible that no functional nematocysts would remain by the time fish encountered them. Nematocysts isolated from their cnidocytes discharge differently from those still in situ (Thorington & Hessinger, 1988), and in many cases they discharge upon contact with seawater (Todd, 1981; Martin, 2003). Therefore, all nematocysts added may have already discharged once the food was introduced to the aquaria or water at the field site. Taken together, these concerns suggest that the antipredator deterrence observed by Aguado and Marin may stem from a factor other than nematocysts, and a chemical defence seems possible. Application of extract to an artificial food before solidification or as a coat on the outside of such food are both proven methods for testing chemical defence against predators (Hay et al., 1998). Given the aforementioned chemical defence of a North American Eudendrium species (Stachowicz & Lindquist, 2000), this seems a quite likely explanation for Aguado and Marin’s results. However, we cannot be certain that the chemical defence found in the Eudendrium extract used is the same as any chemical defence that C. peregrina might have. Other nudibranchs are known to modify dietary metabolites or to synthesize their own chemical defences de novo (Avila, 1995; Cimino & Ghiselin, 2001; Cimino & Gavagnin, 2006); although this ability has not yet been documented in aeolids, chemical defence in general has not been as wellinvestigated in this group as in other nudibranchs (Cimino & Ghiselin, 2001) and biosynthetic origin of defensive compounds may not have been explicitly tested. Aguado and Marin’s paper nicely shows that C. peregrina is deterrent to fish predators and that fish can associate shape and colour with deterrent factors, and their conclusion that defences could arise via individual selection has been noted previously (Penney, 2004). However, a true test of the defensive efficacy of kleptocnidae awaits the ability to separate this factor from other potential defences in manipulative experiments. Correspondence: B.K. Penney; e-mail: bpenney@anselm.edu

9 citations


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Performance
Metrics
No. of papers from the Institution in previous years
YearPapers
20237
202211
202134
202038
201930
201825