698 research outputs found

    All mycorrhizas are not equal

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    Differential effects of insect herbivory on arbuscular mycorrhizal colonization.

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    A series of field and laboratory experiments were conducted to examine whether natural levels of insect herbivory affect the arbuscular mycorrhizal (AM) colonization of two plant species. The plant species were the highly mycorrhizal (mycotrophic) Plantago lanceolata, which suffers small amounts of insect damage continuously over a growing season and the weakly mycorrhizal (non-mycotrophic) Senecio jacobaea, which is frequently subject to rapid and total defoliation by moth larvae. Herbivory was found to reduce AM colonization in P. lanceolata, but had no effect in S. jacobaea. Similarly, AM colonization reduced the level of leaf damage in P. lanceolata, but had no such effect in S. jacobaea. AM fungi were found to increase growth of P. lanceolata, but this effect was only clearly seen when insects were absent. AM fungi reduced the growth of S. jacobaea irrespective of whether insects were present. It is concluded that the reduction of AM fungal colonization by herbivory in P. lanceolata is due to the reduced amount of photosynthate available to the symbiont. This may only become apparent at threshold levels of insect damage and, below these, increased photosynthesis elicited by the mycorrhiza is able to compensate for foliage loss to the insects. However, in S. jacobaea, the mycorrhiza appears to be an aggressive parasite and insect attack only exacerbates the reduction in biomass. In mycotrophic plants, insect herbivores may be responsible for poor functioning of the symbiosis in field conditions and there is a symmetrical interaction between insects and fungi. However, in non-mycotrophic plants, the interaction is strongly asymmetrical, being entirely in favour of the mycorrhiza

    The Influence of Seed Mix and Management on the Performance and Persistence of Sown Forbs in Buffer Strips

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    A popular option under agri-environmental schemes throughout Europe has been the introduction of buffer strips adjacent to field boundaries. Buffer strips are usually established using grass-only seed mixes, or through natural regeneration. As a consequence, their function and biodiversity value might be limited due to a low presence of desirable forb species. Given the financial barrier of using forb-rich seed mixes, there is a need to identify species that establish reliably in parallel with management options that encourage their persistence. In a 5-year study across three different sites we investigated the responses of 32 different forb species sown in two different grass-based seed mixes tailored to soil type. Generally, there was an increase in sown forb cover with time, and this effect was greatest in plots sown with fine-grasses treated with an application of graminicide or an annual cut. We have identified a suite of ten forb species that are likely to establish and persist in buffer strip habitats

    Significance of electrokinetic characterization for interpreting interfacial phenomena at planar, macroscopic interfaces

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    Journal ArticleStreaming potential measurements provide valuable information for the validation and interpretation of interfacial phenomena that occur at flat macroscopic surfaces. Planar substrates have been extensively used for the interpretation of events, which occur at particulate surfaces; however, these flat surfaces are often only questionably representative of their particulate counterparts due to variations in surface chemistry and topography. In this study, the zeta potential from planar macroscopic surfaces of PMMA, mica, graphite, fluorite, and calcite have been calculated from streaming potentials measured in aqueous solutions using an asymmetric clamping cell. These zeta potentials have been found to significantly contribute to understanding and interpretation of interfacial phenomena influenced by Coulombic interactions including adsorption, surface forces, and the structure of surface micelles

    Imperial legacies and southern penal spaces: a study of hunting nomads in postcolonial India

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    Southern penal spaces are marked by resemblances and affinities with colonial regimes of control, yet they also reflect quite distinctive postcolonial social and political dynamics found in the global south. Here, legacies of control, forms of exile, status reductions, hierarchical social stratifications and other like forms come together in robust modes of containment suitable for managing ‘marginal’ and ‘suspect’ populations. We draw on ethnographic empirical work with two hunting nomadic groups in India by two of the co-authors who are working with the Kheria Sabar community in Purulia district in West Bengal and Pardhi community in Mumbai. The latter were subject to notification under the notorious Criminal Tribes Act 1871, marking them out as ‘criminal tribes’ until their de-notification shortly after India's independence in 1947, yet the Kheria Sabars too feel its effects. We draw attention here to the continual negotiation and (re)fabrication of both state and citizen at the point of their everyday contact. Our notion of southern penal spaces contributes to penal theory by breaking from northern societies’ focus on institutional carcerality and capturing instead both the variety and the dispersal of penal and punitive practices found in postcolonial societies of the south

    An exploration of concepts of community through a case study of UK university web production

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    The paper explores the inter-relation and differences between the concepts of occupational community, community of practice, online community and social network. It uses as a case study illustration the domain of UK university web site production and specifically a listserv for those involved in it. Different latent occupational communities are explored, and the potential for the listserv to help realize these as an active sense of community is considered. The listserv is not (for most participants) a tight knit community of practice, indeed it fails many criteria for an online community. It is perhaps best conceived as a loose knit network of practice, valued for information, implicit support and for the maintenance of weak ties. Through the analysis the case for using strict definitions of the theoretical concepts is made

    On the stability of Dirac sheet configurations

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    Using cooling for SU(2) lattice configurations, purely Abelian constant magnetic field configurations were left over after the annihilation of constituents that formed metastable Q=0 configurations. These so-called Dirac sheet configurations were found to be stable if emerging from the confined phase, close to the deconfinement phase transition, provided their Polyakov loop was sufficiently non-trivial. Here we show how this is related to the notion of marginal stability of the appropriate constant magnetic field configurations. We find a perfect agreement between the analytic prediction for the dependence of stability on the value of the Polyakov loop (the holonomy) in a finite volume and the numerical results studied on a finite lattice in the context of the Dirac sheet configurations

    Periodic Vortex Structures in Superfluid 3He-A

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    We discuss the general properties of periodic vortex arrangements in rotating superfluids. The different possible structures are classified according to the symmetry space-groups and the circulation number. We calculate numerically several types of vortex structures in superfluid 3He-A. The calculations are done in the Ginzburg-Landau region, but the method is applicable at all temperatures. A phase diagram of vortices is constructed in the plane formed by the magnetic field and the rotation velocity. The characteristics of the six equilibrium vortex solutions are discussed. One of these, the locked vortex 3, has not been considered in the literature before. The vortex sheet forms the equilibrium state of rotating 3He-A at rotation velocities exceeding 2.6 rad/s. The results are in qualitative agreement with experiments.Comment: 13 pages, 7 figures, http://boojum.hut.fi/research/theory/diagram.htm

    Spin-based all-optical quantum computation with quantum dots: understanding and suppressing decoherence

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    We present an all-optical implementation of quantum computation using semiconductor quantum dots. Quantum memory is represented by the spin of an excess electron stored in each dot. Two-qubit gates are realized by switching on trion-trion interactions between different dots. State selectivity is achieved via conditional laser excitation exploiting Pauli exclusion principle. Read-out is performed via a quantum-jump technique. We analyze the effect on our scheme's performance of the main imperfections present in real quantum dots: exciton decay, hole mixing and phonon decoherence. We introduce an adiabatic gate procedure that allows one to circumvent these effects, and evaluate quantitatively its fidelity
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