855 research outputs found
The Iowa Homemaker vol.10, no.8
Swat That Moth! By C. H. Ricardson
Batik Goes Modern By Elizabeth Flynn
Hearts are Trumps By Mrs. Henry Ness
Moderns Turn Sun Worshipers By R. D. Mille
Are sex ratio distorting endosymbionts responsible for mating system variation among dance flies (Diptera: Empidinae)?
Maternally inherited bacterial endosymbionts are common in many arthropod species. Some endosymbionts cause female-biased sex ratio distortion in their hosts that can result in profound changes to a host's mating behaviour and reproductive biology. Dance flies (Diptera: Empidinae) are well known for their unusual reproductive biology, including species with female-specific ornamentation and female-biased lek-like swarming behaviour. The cause of the repeated evolution of female ornaments in these flies remains unknown, but is probably associated with female-biased sex ratios in individual species. In this study we assessed whether dance flies harbour sex ratio distorting endosymbionts that might have driven these mating system evolutionary changes. We measured the incidence and prevalence of infection by three endosymbionts that are known to cause female-biased sex ratios in other insect hosts (Wolbachia, Rickettsia and Spiroplasma) across 20 species of dance flies. We found evidence of widespread infection by all three symbionts and variation in sex-specific prevalence across the taxa sampled. However, there was no relationship between infection prevalence and adult sex ratio measures and no evidence that female ornaments are associated with high prevalences of sex-biased symbiont infections. We conclude that the current distribution of endosymbiont infections is unlikely to explain the diversity in mating systems among dance fly species. ©2017 Murray et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited
A multi-systems approach to human movement after ACL reconstruction: the musculoskeletal system
Several negative adaptations to the musculoskeletal system occur following anterior cruciate ligament (ACL) injury and ACL reconstruction (ACLR) such as arthrogenic muscle inhibition, decreased lower extremity muscle size, strength, power, as well as alterations to bone and cartilage. These changes have been associated with worse functional outcomes, altered biomechanics, and increased risk for re-injury and post-traumatic osteoarthritis. After ACL injury and subsequent ACLR, examination and evaluation of the musculoskeletal system is paramount to guiding clinical decision making during the rehabilitation and the return to sport process. The lack of access many clinicians have to devices necessary for gold standard assessment of muscle capacities and force profiles is often perceived as a significant barrier to best practices. Fortunately, testing for deficits can be accomplished with methods available to the clinician without access to costly equipment or time-intensive procedures. Interventions to address musculoskeletal system deficits can be implemented with a periodized program. This allows for restoration of physical capacities by adequately developing and emphasizing physical qualities beginning with mobility and movement, and progressing to work capacity and neuromuscular re-education, strength, explosive strength, and elastic or reactive strength. Additional considerations to aid in addressing strength deficits will be discussed such as neuromuscular electrical stimulation, volume and intensity, eccentric training, training to failure, cross-education, and biomechanical considerations. The American Physical Therapy Association adopted a new vision statement in 2013 which supported further development of the profession's identity by promoting the movement system, yet validation of the movement system has remained a challenge. Application of a multi-physiologic systems approach may offer a unique understanding of the musculoskeletal system and its integration with other body systems after ACLR. The purpose of this clinical commentary is to highlight important musculoskeletal system considerations within a multi-physiologic system approach to human movement following ACLR. Level of evidence: 5
DIAMOND: Taming Sample and Communication Complexities in Decentralized Bilevel Optimization
Decentralized bilevel optimization has received increasing attention recently
due to its foundational role in many emerging multi-agent learning paradigms
(e.g., multi-agent meta-learning and multi-agent reinforcement learning) over
peer-to-peer edge networks. However, to work with the limited computation and
communication capabilities of edge networks, a major challenge in developing
decentralized bilevel optimization techniques is to lower sample and
communication complexities. This motivates us to develop a new decentralized
bilevel optimization called DIAMOND (decentralized single-timescale stochastic
approximation with momentum and gradient-tracking). The contributions of this
paper are as follows: i) our DIAMOND algorithm adopts a single-loop structure
rather than following the natural double-loop structure of bilevel
optimization, which offers low computation and implementation complexity; ii)
compared to existing approaches, the DIAMOND algorithm does not require any
full gradient evaluations, which further reduces both sample and computational
complexities; iii) through a careful integration of momentum information and
gradient tracking techniques, we show that the DIAMOND algorithm enjoys
in sample and communication complexities for
achieving an -stationary solution, both of which are independent of
the dataset sizes and significantly outperform existing works. Extensive
experiments also verify our theoretical findings
Aquilegia, Vol. 13 No. 5, September-October 1989: Newsletter of the Colorado Native Plant Society
https://epublications.regis.edu/aquilegia/1048/thumbnail.jp
Aquilegia, Vol. 13 No. 2, March-April 1989: Newsletter of the Colorado Native Plant Society
https://epublications.regis.edu/aquilegia/1045/thumbnail.jp
Aquilegia, Vol. 12 No. 4, July-August 1988: Newsletter of the Colorado Native Plant Society
The Colorado Native Plant Society Newsletter will be published on a bimonthly basis. The contents will consist primarily of a calendar of events, notes of interest, editorials, listings of new members and conservation news. Until there is a Society journal, the Newsletter will include short articles also. The deadline for the Newsletter is one month prior to its release.https://epublications.regis.edu/aquilegia/1041/thumbnail.jp
Argos - III. Stellar populations in the galactic bulge of the milky way
We present the metallicity results from the ARGOS spectroscopic survey of the Galactic bulge. Our aim is to understand the formation of the Galactic bulge: did it form via mergers, as expected from Λ cold dark matter theory, or from disc instabilities,
- …