Current Methods Used for the Control of Files on Beef Cattle in South Dakota

A survey of pesticide use conducted in 1982 involving 230 livestock producers in eastern South Dakota has revealed that files and lice are considered the most important external pests of livestock. Data from the survey are currently being processed and results will be available in early 1983

Condensation in hybrid superconducting-cavity–microscopic-spins systems with finite-bandwidth drive

Using Keldysh field theory, we find conditions for nonequilibrium condensation in the open Tavis-Cummings model under a direct finite-bandwidth incoherent cavity drive. Experimentally, we expect the condensation transition to be easily accessible to hybrid superconducting systems coupled to microscopic spins, as well as to many other incoherently driven light-matter systems. In our theoretical analysis, we explicitly incorporate the drive's spectral distribution into the saddle-point description. We show that the injected incoherent photons create a drive-dependent effective coupling between spin-1/2 particles. The condensation transition arises at a critical regime of driving which we can now accurately predict. Our results also provide important guidelines for future quantum simulation experiments of nonequilibrium phases with hybrid devices

Time structures in ethnomethodological and conversation analysis studies of practical activity

Time is regarded as the immanent dimension for the social experience. This phenomenologically informed perspective of time is built into the ethnomethodological programme jointly proposed by Garfinkel and Sacks as they set out to uncover social orders through examining the temporal sequence in practical activity. However, Garfinkel and Sacks took different paths from this initial proposal in their separate development of Ethnomethodological Studies of Work and Conversation Analysis. Focusing on different forms of data, the two programmes adopted different approaches to time and action in constructing the time structures in their sociological description of activity. However, the difference has seldom been subjected to discussion and much less attempt to explore a possible synthesis of the two programmes from there. This article attempts to address this gap by proposing a perspective of multi-layered temporality in social interaction. The analysis examines three extracts from a university communication workshop for students and explicates different modes of how simultaneous sequences can constitute participants’ action in situ: (1) simultaneous sequences by different actors; (2) simultaneous sequences by the same actor; (3) simultaneous sequences within a participatory framework. Contending the social actors’ phenomenological potential to perceive simultaneous sequences in different time frames, we conclude that the ‘situational time’ in EM and ‘conversational time’ in CA can be commensurable. Interweaving different layers of temporality into an ethnomethodological description, practitioners can better reconstruct a ‘reasonable total picture’ of social activity to manifest its complex, seen-but-unnoticed endogenous social order. Beyond ethnomethodology, the multi-layered perspective of time provides the basis for a holistic approach to time, allowing the enquiry of broader social time through studying social life in vivo. </jats:p

Progress Toward Establishing a Pest Management Program for the Face Fly, Musca autumnalis DeGeer, in South Dakota

The face fly is similar in appearance to the house fly (Figure 1) with a few minor differences. The female face fly is somewhat larger and darker. The large eyes of the male face fly nearly touch on the front of the head while the eyes of the house fly are further apart. The female face fly has a silvery stripe around the eyes whereas the stripe on the house fly is more golden. A dark spot between the eyes of the face fly is more rounded than that of the house fly and the abdomen of the face fly is darker and more slate-grey in color

Affinity chromatography in dynamic combinatorial libraries: one-pot amplification and isolation of a strongly binding receptor

We report the one-pot amplification and isolation of a nanomolar receptor in a multibuilding block aqueous dynamic combinatorial library using a polymer-bound template. By appropriate choice of a poly(N,N-dimethylacrylamide)-based support, unselective ion-exchange type behaviour between the oppositely charged cationic guest and polyanionic hosts was overcome, such that the selective molecular recognition arising in aqueous solution reactions is manifest also in the analogous templated solid phase DCL syntheses. The ability of a polymer bound template to identify and isolate a synthetic receptor via dynamic combinatorial chemistry was not compromised by the large size of the library, consisting of well over 140 theoretical members, demonstrating the practical advantages of a polymer-supported DCL methodology

Quantum algorithm for smoothed particle hydrodynamics

We present a quantum computing algorithm for the smoothed particle hydrodynamics (SPH) method. We use a normalization procedure to encode the SPH operators and domain discretization in a quantum register. We then perform the SPH summation via an inner product of quantum registers. Using a one-dimensional function, we test the approach in a classical sense for the kernel sum and first and second derivatives of a one-dimensional function, using both the Gaussian and Wendland kernel functions, and compare various register sizes against analytical results. Error convergence is exponentially fast in the number of qubits. We extend the method to solve the one-dimensional advection and diffusion partial differential equations, which are commonly encountered in fluids simulations. This work provides a foundation for a more general SPH algorithm, eventually leading to highly efficient simulations of complex engineering problems on gate-based quantum computers

Quantum algorithm for smoothed particle hydrodynamics

We present a quantum computing algorithm for the smoothed particle hydrodynamics (SPH) method. We use a normalization procedure to encode the SPH operators and domain discretization in a quantum register. We then perform the SPH summation via an inner product of quantum registers. Using a one-dimensional function, we test the approach in a classical sense for the kernel sum and first and second derivatives of a one-dimensional function, using both the Gaussian and Wendland kernel functions, and compare various register sizes against analytical results. Error convergence is exponentially fast in the number of qubits. We extend the method to solve the one-dimensional advection and diffusion partial differential equations, which are commonly encountered in fluids simulations. This work provides a foundation for a more general SPH algorithm, eventually leading to highly efficient simulations of complex engineering problems on gate-based quantum computers

Bis[(1S*,2S*)-trans-1,2-bis­(diphenyl­phosphin­oxy)cyclo­hexa­ne]chlorido­ruthenium(II) trifluoro­methane­sulfonate dichloro­methane disolvate

The crystal structure of a racemic mixture of the title ruthenium(II) complex, [RuCl(C30H30O2P2)2]CF3SO3·2CH2Cl2, reveals that the coordination geometry about the coordinatively unsaturated metal centre is approximately trigonal-pyramidal, with the chlorine atom occupying one of the equatorial positions. The axial Ru—P bonds are longer than the equatorial Ru—P bonds and there is an acute P—Ru—P angle

The C. Elegans Heterochronic Gene lin-46 Affects Developmental Timing at Two Larval Stages and Encodes a Relative of the Scaffolding Protein Gephyrin

The succession of developmental events in the C. elegans larva is governed by the heterochronic genes. When mutated, these genes cause either precocious or retarded developmental phenotypes, in which stage-specific patterns of cell division and differentiation are either skipped or reiterated, respectively. We identified a new heterochronic gene, lin-46, from mutations that suppress the precocious phenotypes caused by mutations in the heterochronic genes lin-14 and lin-28. lin-46 mutants on their own display retarded phenotypes in which cell division patterns are reiterated and differentiation is prevented in certain cell lineages. Our analysis indicates that lin-46 acts at a step immediately downstream of lin-28, affecting both the regulation of the heterochronic gene pathway and execution of stage-specific developmental events at two stages: the third larval stage and adult. We also show that lin-46 is required prior to the third stage for normal adult cell fates, suggesting that it acts once to control fates at both stages, and that it affects adult fates through the let-7 branch of the heterochronic pathway. Interestingly, lin-46 encodes a protein homologous to MoeA of bacteria and the C-terminal domain of mammalian gephyrin, a multifunctional scaffolding protein. Our findings suggest that the LIN-46 protein acts as a scaffold for a multiprotein assembly that controls developmental timing, and expand the known roles of gephyrin-related proteins to development

Distinct but overlapping roles of LRRTM1 and LRRTM2 in developing and mature hippocampal circuits

LRRTMs are postsynaptic cell adhesion proteins that have region-restricted expression in the brain. To determine their role in the molecular organization of synapses in vivo, we studied synapse development and plasticity in hippocampal neuronal circuits in mice lacking both Lrrtm1 and Lrrtm2. We found that LRRTM1 and LRRTM2 regulate the density and morphological integrity of excitatory synapses on CA1 pyramidal neurons in the developing brain but are not essential for these roles in the mature circuit. Further, they are required for long-term-potentiation in the CA3-CA1 pathway and the dentate gyrus, and for enduring fear memory in both the developing and mature brain. Our data show that LRRTM1 and LRRTM2 regulate synapse development and function in a cell-type and developmental-stage-specific manner, and thereby contribute to the fine-tuning of hippocampal circuit connectivity and plasticity