4,160 research outputs found

    Calculating the global contribution of coralline algae to carbon burial

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    The ongoing increase in anthropogenic carbon dioxide (CO2) emissions is changing the global marine environment and is causing warming and acidification of the oceans. Reduction of CO2 to a sustainable level is required to avoid further marine change. Many studies investigate the potential of marine carbon sinks (e.g. seagrass) to mitigate anthropogenic emissions, however, information on storage by coralline algae and the beds they create is scant. Calcifying photosynthetic organisms, including coralline algae, can act as a CO2 sink via photosynthesis and CaCO3 dissolution and act as a CO2 source during respiration and CaCO3 production on short-term time scales. Long-term carbon storage potential might come from the accumulation of coralline algae deposits over geological time scales. Here, the carbon storage potential of coralline algae is assessed using meta-analysis of their global organic and inorganic carbon production and the processes involved in this metabolism. Organic and inorganic production were estimated at 330 g C m−2 yr−1 and 880 g CaCO3 m−2 yr−1 respectively giving global organic/inorganic C production of 0.7/1.8 × 109 t C yr−1. Calcium carbonate production by free-living/crustose coralline algae (CCA) corresponded to a sediment accretion of 70/450 mm kyr−1. Using this potential carbon storage by coralline algae, the global production of free-living algae/CCA was 0.4/1.2 × 109 t C yr−1 suggesting a total potential carbon sink of 1.6 × 109 t C yr−1. Coralline algae therefore have production rates similar to mangroves, saltmarshes and seagrasses representing an as yet unquantified but significant carbon store, however, further empirical investigations are needed to determine the dynamics and stability of that store

    A consistent treatment of link and writhe for open rods, and their relation to end rotation

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    We combine and extend the work of Alexander & Antman \cite{alexander.82} and Fuller \cite{fuller.71,fuller.78} to give a framework within which precise definitions can be given of topological and geometrical quantities characterising the contortion of open rods undergoing large deformations under end loading. We use these definitions to examine the extension of known results for closed rods to open rods. In particular, we formulate the analogue of the celebrated formula Lk=Tw+WrLk=Tw+Wr (link equals twist plus writhe) for open rods and propose an end rotation, through which the applied end moment does work, in the form of an integral over the length of the rod. The results serve to promote the variational analysis of boundary-value problems for rods undergoing large deformations.Comment: 17 pages, 4 figure

    The personal usage of online information services: theory and empirical investigation

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    In this paper we develop a conceptual framework around the attitudes and intentions towards using online information service, and we theorise about thedifferences in relationships between regular information systems and online information services, Specifically we hypothesize (1) that affect andperceived ease of use are more important than perceived usefulness. and (2) that gender and experience will make a significant differente in people'sevaluation to use the service. These hypotheses are then tested with a quantitative study, using 1144 respondents of a real-life online informationservice. The results effectively demonstrate how the cognitive-affective pattern of user evaluations develops when users start becoming more experienced with an online information service

    Personal care for men

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    Comparative study of Clâ‚‚, Clâ‚‚/Oâ‚‚, and Clâ‚‚/Nâ‚‚ inductively coupled plasma processes for etching of high-aspect-ratio photonic-crystal holes in InP

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    An extensive investigation has been performed on inductively coupled plasmaetching of InP. An important motivation for this work is the fabrication of high-aspect-ratio holes for photonic crystals. The essential chemistry is based on Clâ‚‚ with the addition of Nâ‚‚ or Oâ‚‚ for sidewall passivation. The influence of different process parameters such as gas flows, temperature,pressure, ion energy, and inductively coupled plasma power on the hole geometry is presented. It is concluded that photonic crystals can be etched with Clâ‚‚ only; however, temperature and pressure control is critical. Adding passivation gases largely broadens the window in the parameter space for hole etching. Most importantly, etching of narrow holes can be carried out at higher temperatures where the etching is mass limited and spontaneous etching of InP by Clâ‚‚ occurs.Part of this research is supported by NanoNed, a technology program of the Dutch Ministry of Economic Affairs
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