91 research outputs found
Abnormal Rolls and Regular Arrays of Disclinations in Homeotropic Electroconvection
We present the first quantitative verification of an amplitude description
for systems with (nearly) spontaneously broken isotropy, in particular for the
recently discovered abnormal-roll states. We also obtain a conclusive picture
of the 3d director configuration in a spatial period doubling phenomenon
involving disclination loops (CRAZY rolls). The first observation of two
Lifshitz frequencies in electroconvection is reported.Comment: 4 pages; 4 figure
Maximum sustainable yield from interacting fish stocks in an uncertain world: two policy choices and underlying trade-offs
The case of fisheries management illustrates how the inherent structural
instability of ecosystems can have deep-running policy implications. We
contrast ten types of management plans to achieve maximum sustainable yields
(MSY) from multiple stocks and compare their effectiveness based on a
management strategy evaluation (MSE) that uses complex food webs in its
operating model. Plans that target specific stock sizes ()
consistently led to higher yields than plans targeting specific fishing
pressures (). A new self-optimising control rule, introduced
here for its robustness to structural instability, led to intermediate yields.
Most plans outperformed single-species management plans with pressure targets
set without considering multispecies interactions. However, more refined plans
to "maximise the yield from each stock separately", in the sense of a Nash
equilibrium, produced total yields comparable to plans aiming to maximise total
harvested biomass, and were more robust to structural instability. Our analyses
highlight trade-offs between yields, amenability to negotiations, pressures on
biodiversity, and continuity with current approaches in the European context.
Based on these results, we recommend directions for developments of EU
fisheries policy.Comment: 21 pages, 1 figure, 2 tables, plus supplementary material
(substantial textual revision of v5
Pattern formation of chevrons in the conduction regime in homeotropically aligned liquid crystals
We report on chevrons (herringbonelike patterns) observed in homeotropically aligned liquid crystals with high electric conductivity. We focus our attention on two types of chevrons observed in the conduction regime. The threshold voltage and the characteristic double periodicity of chevrons (i.e., the short wavelength λ1 of the striated rolls and the long wavelength λ2 of the chevron bands) have been measured as functions of the applied electric frequency f. With the aid of a crossed polarizer set, we have, in addition, determined the director field which shows a periodic in-plane rotation for our chevrons (with a wavelength λ2). We arrived at the types of chevrons after qualitatively different bifurcation sequences with increasing voltage. The frequency dependence of λ2 also shows a qualitatively different behavior with respect to the two types of chevrons. The experimental results are discussed in terms of recent theoretical investigations
Biodiversity in Marine Ecosystems—European Developments toward Robust Assessments
Sustainability of marine ecosystems and their services are dependent on marine biodiversity, which is threatened worldwide. Biodiversity protection is a major target of the EU Marine Strategy Framework Directive, requiring assessment of the status of biodiversity on the level of species, habitats, and ecosystems including genetic diversity and the role of biodiversity in food web functioning and structure. This paper provides a summary of the development of new indicators and refinement of existing ones in order to address some of the observed gaps in indicator availability for marine biodiversity assessments considering genetic, species, habitat, and ecosystem levels. Promising new indicators are available addressing genetic diversity of microbial and benthic communities. Novel indicators to assess biodiversity and food webs associated with habitats formed by keystone species (such as macroalgae) as well as to map benthic habitats (such as biogenic reefs) using high resolution habitat characterization were developed. We also discuss the advances made on indicators for detecting impacts of non-native invasive species and assessing the structure and functioning of marine food-webs. The latter are based on indicators showing the effects of fishing on trophic level and size distribution of fish and elasmobranch communities well as phytoplankton and zooplankton community structure as food web indicators. New and refined indicators are ranked based on quality criteria). Their applicability for various EU and global biodiversity assessments and the need for further development of new indicators and refinement of the existing ones is discussed
Spontaneous genetic clustering in populations of competing organisms
We introduce and analyse an individual-based evolutionary model, in which a
population of genetically diverse organisms compete with each other for limited
resources. Through theoretical analysis and stochastic simulations, we show
that the model exhibits a pattern-forming instability which is highly amplified
by the effects of demographic noise, leading to the spontaneous formation of
genotypic clusters. This mechanism supports the thesis that stochasticity has a
central role in the formation and coherence of species.Comment: 9 pages, 3 figures, 2 appendice
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