Within the Phylum Echinodermata, the class Asteroidea, commonly known as starfish and sea stars, encompasses a large number of benthos inhabiting genera and species with various feeding modalities including herbivores, carnivores, omnivores and detritivores. The Asteroidea rely on chemosensation throughout their life histories including hunting prey, avoiding or deterring predators, in the formation of spawning aggregations, synchronizing gamete release and targeting appropriate locations for larval settlement. The identities of many of the chemical stimuli that mediate these physiological and behavioural processes remain unresolved even though evidence indicates they play pivotal roles in the functionality of benthic communities. Aspects of chemosensation, as well as putative chemically-mediated behaviours and the molecular mechanisms of chemoreception, within the Asteroidea are reviewed here, with particular reference to the coral reef pest the Crown-of-Thorns starfish Acanthaster planci species complex, in the context of mitigation of population outbreaks. 相似文献
In cluster-based cooperative cognitive radio networks (CCRNs), spectrum sensing and decision making processes to determine whether the primary user (PU) signal is present or absent in the network are very important and vital issues to the utilisation of the idle spectrum. The reporting time delay is a very important matter to make quick and effective global decisions for the fusion center (FC) in a cluster-based CCRNs. In this paper, we propose the concept of multiple reporting channels (MRC) for cluster-based CCRNs to better utilize the reporting time slot by extending the sensing time of secondary users (SUs). A multiple reporting channels concept is proposed based on frequency division multiple access to enhance the spectrum sensing performance and reduce the reporting time delay of all cluster heads (CHs). In this approach, we assign an individual reporting channel to each cluster for reporting purposes. All the SUs in each cluster sequentially pass their sensing results to the corresponding cluster head (CH) via the assigned single reporting channel, which extends the sensing time duration of SUs. Each CH uses the dedicated reporting channel to forward the cluster decision to the FC that makes a final decision by using the “K-out-of-N” rule to identify the presence of the PU signal. This approach significantly enhances the sensing time for all SUs than the non-sequential as well as minimize the reporting time delay of all CHs than sequential single channel reporting approach. These two features of our proposed approach increase the decision accuracy of the FC more than the conventional approach. Simulation results prove that our proposed approach significantly enhances the sensing accuracy and mitigate the reporting time delay of CH compared to the conventional approach.
The biomechanisms that govern the response of chondrocytes to mechanical stimuli are poorly understood. In this study, a series of in vitro tests are performed, in which single chondrocytes are subjected to shear deformation by a horizontally moving probe. Dramatically different probe force–indentation curves are obtained for untreated cells and for cells in which the actin cytoskeleton has been disrupted. Untreated cells exhibit a rapid increase in force upon probe contact followed by yielding behaviour. Cells in which the contractile actin cytoskeleton was removed exhibit a linear force–indentation response. In order to investigate the mechanisms underlying this behaviour, a three-dimensional active modelling framework incorporating stress fibre (SF) remodelling and contractility is used to simulate the in vitro tests. Simulations reveal that the characteristic force–indentation curve observed for untreated chondrocytes occurs as a result of two factors: (i) yielding of SFs due to stretching of the cytoplasm near the probe and (ii) dissociation of SFs due to reduced cytoplasm tension at the front of the cell. In contrast, a passive hyperelastic model predicts a linear force–indentation curve similar to that observed for cells in which the actin cytoskeleton has been disrupted. This combined modelling–experimental study offers a novel insight into the role of the active contractility and remodelling of the actin cytoskeleton in the response of chondrocytes to mechanical loading. 相似文献
Oxygen absorption rates were measured to determine volumetric coefficients of gas-liquid mass transfer coefficients kLa in gas-liquid and gas-liquid-solid upward flows through a vertical tube. The liquid was deionized water or aqueous glycerol solution, and the solids were glass beads or polystyrene beads. The dependencies of kLa on gas velocity, liquid velocity, temperature, solid material, and solid concentration were examined. The experimental results were correlated with empirical equations. The mechanisms of the solid loading effect are discussed. 相似文献
Naturally occurring aliphatic C17 polyacetylene compounds [falcarinol (FaOH), falcarindiol (FaDOH) and falcarindiol‐3‐acetate (FaDOAc)] in carrots are known for their bioactivity and health benefits. This study assesses the impact of pre‐ and postharvest processes (including food processing stages) on the level of polyacetylenes and evaluates subsequent human exposure using Monte Carlo simulation techniques. The model includes data inputs from both experimental and published literature sources. The sensitivity analysis highlights the importance of cultivar selection and agronomic factors. The sensitivity analysis also showed that peeling, blanching and boiling time of carrots have a significant negative influence on the level of polyacetylenes with correlation coefficients of ?0.15, ?0.14 and ?0.19 for FaOH, ?0.47, ?0.23 and ?0.20 for FaDOH and ?0.29, ?0.26 and ?0.25 for FaDOAc, respectively. The scenario analysis shows the practical application of the proposed model for industrial processing of carrots. This model could facilitate food processors in optimising critical processing factors such as peeling and cutting prior to processing of carrots. 相似文献
Since Escherichia coli O157:H7 first emerged as a food borne pathogen in the mid 1980s, it has been linked to many cases of food poisoning across the world. While multiple sources and routes of transmission for this pathogen are now recognised, beef and beef products remain an important vehicle of the pathogen and continue to be linked to outbreaks across the developed world. Much research has been directed at E. coli O157:H7 transmission, survival and control in the beef chain and this paper presents an overview of current knowledge on this pathogen in the beef chain from primary production through slaughter, processing, distribution, final preparation and cooking. In order to strategically manage E. coli O157:H7 and to devise approaches to reduce the public health risk posed, many national and international groups have applied quantitative risk assessment techniques to model the risk posed by E. coli O157:H7 in beef, particularly in ground/minced beef which is most often linked with infection. This paper reviews these quantitative risk assessments and their application in managing the risk posed by E. coli O157:H7 in beef. 相似文献
This paper investigates how many users of commercial interactive systems are not properly agents within the interactive narrative,
largely due to the dynamics of branding in cyberspace. Parallels are drawn between the dynamic personalization of e-CRM engines
and context aware computing systems. Several seminal games are discussed as examples of systems in which very different relationships
exist between users and the system. Arguments are made for designing e-commerce interactive systems that install into games,
inside the game narrative.
Correspondence to: Ms N. Cummins, Preject Brand Communications Consultancy, Unit P, Carlton Works Studios, Asylum Road, London SE15 2SB, UK.
Email: nizami@preject.com 相似文献
Term-weighting schemes are vital to the performance of Information Retrieval models that use term frequency characteristics
to determine the relevance of a document. The vector space model is one such model in which the weights assigned to the document
terms are of crucial importance to the accuracy of the retrieval system. This paper describes a genetic programming framework
used to automatically determine term-weighting schemes that achieve a high average precision. These schemes are tested on
standard test collections and are shown to perform as well as, and often better than, the modern BM25 weighting scheme. We
present an analysis of the schemes evolved to explain the increase in performance. Furthermore, we show that the global (collection
wide) part of the evolved weighting schemes also increases average precision over idf on larger TREC data. These global weighting schemes are shown to adhere to Luhn’s resolving power as middle frequency terms
are assigned the highest weight. However, the complete weighting schemes evolved on small collections do not perform as well
on large collections. We conclude that in order to evolve improved local (within-document) weighting schemes it is necessary
to evolve these on large collections 相似文献