Intersubjective Sensibilities: Memory, Experience, and Meaning in Natural History Interpretation

This ethnographic account examines the perceptions of a group of outdoor educators or naturalists in a mid-western state park in regards to memory construction and how early memories impact their practice of interpretation. Findings show that early personal memories are not only fundamental to their eventual life as a naturalist but further; these memories motivate their work within the park. Of primary focus is highlighting the intersubjective continuity between the memories of naturalists and what they hope for others and the eventual goal of meaning making by way of affective memories. By describing and interpreting their perceptions of experience and memory we can examine how these processes are invested with significance and what role this plays in their subsequent practice. Since there is little ethnographic research concerning naturalists, this form of cultural analysis provides an important lens that permits an intimate account of naturalists’ own awareness as a way to understand their unique contributions as educators

Puhi in the Tree and Other Stories: Unlocking the Metaphor in Native and Indigenous Hawaiian Storytelling

Human beings live and tell stories for many reasons, and it is a way to not only understand one another but to give a time and place to events and experiences. Therefore, a narrational approach within the context of this research offers a frame of reference and a way to reflect during the entire process of gathering data and writing. This study examines the importance of storytelling among Native (Kānaka ‘Ōiwi) and Indigenous (Kānaka Maoli) women of Hawai ̒ i and their interconnectedness to land and spirituality through accessing [k]new knowledge. The main focus of this article is to illustrate the resiliency of stories as told by the Kānaka women who are connected to a time and a place of traditional and ecological knowledge. Findings indicate that despite forced cultural and political changes generationally, these women’s innate beliefs and interconnectedness to land and spirituality has begun to reshape as enduring patterns over time and space. This is evident by a resurgence in moʻolelo (storytelling), ho\u27 oponopono (Hawaiian peacemaking process), revitalized methods of traditional land irrigation, cultivation, and sustainability programs as testimony. In ancient Hawai ̒ i, both men and women equally participated in the activities of food production and cultivation, however, in contemporary Hawai ̒ i, it is mostly the Native and Indigenous women who have mobilized to revitalize these traditional practices

Americans Support for Renewable Energy is Disconnected from their Understanding of Powerline Infrastructure as a Mechanism to Mitigate Climate Change

As nations are transitioning to renewable energy sources, they will need to expand and upgrade their energy infrastructure, including high-voltage power lines (HVPL). We have conducted the first nation-wide survey in the last thirty years to assess public attitudes toward HVPL in the USA. The study evaluates perceptions, knowledge, and attitudes toward building new transmission lines, as these relate to renewable energy, place attachment, and environmental impacts. Our results show that Americans do not recognize how new HVPL could help reduce greenhouse gas emissions; instead, respondents favor moving from centralized energy (large power stations and HVPL) to decentralized energy (local power supply and small scale solar panels and wind turbines. Our findings are consistent with studies from Europe in that citizens recognize negative human impacts on the natural world and support renewable energy, however, they have a limited understanding of the role of HVPL infrastructure in mitigating climate change

Photoreversible interconversion of a phytochrome photosensory module in the crystalline state.

A major barrier to defining the structural intermediates that arise during the reversible photointerconversion of phytochromes between their biologically inactive and active states has been the lack of crystals that faithfully undergo this transition within the crystal lattice. Here, we describe a crystalline form of the cyclic GMP phosphodiesterases/adenylyl cyclase/FhlA (GAF) domain from the cyanobacteriochrome PixJ in Thermosynechococcus elongatus assembled with phycocyanobilin that permits reversible photoconversion between the blue light-absorbing Pb and green light-absorbing Pg states, as well as thermal reversion of Pg back to Pb. The X-ray crystallographic structure of Pb matches previous models, including autocatalytic conversion of phycocyanobilin to phycoviolobilin upon binding and its tandem thioether linkage to the GAF domain. Cryocrystallography at 150 K, which compared diffraction data from a single crystal as Pb or after irradiation with blue light, detected photoconversion product(s) based on Fobs - Fobs difference maps that were consistent with rotation of the bonds connecting pyrrole rings C and D. Further spectroscopic analyses showed that phycoviolobilin is susceptible to X-ray radiation damage, especially as Pg, during single-crystal X-ray diffraction analyses, which could complicate fine mapping of the various intermediate states. Fortunately, we found that PixJ crystals are amenable to serial femtosecond crystallography (SFX) analyses using X-ray free-electron lasers (XFELs). As proof of principle, we solved by room temperature SFX the GAF domain structure of Pb to 1.55-Å resolution, which was strongly congruent with synchrotron-based models. Analysis of these crystals by SFX should now enable structural characterization of the early events that drive phytochrome photoconversion

Validation of Kepler's Multiple Planet Candidates. III: Light Curve Analysis & Announcement of Hundreds of New Multi-planet Systems

The Kepler mission has discovered over 2500 exoplanet candidates in the first two years of spacecraft data, with approximately 40% of them in candidate multi-planet systems. The high rate of multiplicity combined with the low rate of identified false-positives indicates that the multiplanet systems contain very few false-positive signals due to other systems not gravitationally bound to the target star (Lissauer, J. J., et al., 2012, ApJ 750, 131). False positives in the multi- planet systems are identified and removed, leaving behind a residual population of candidate multi-planet transiting systems expected to have a false-positive rate less than 1%. We present a sample of 340 planetary systems that contain 851 planets that are validated to substantially better than the 99% confidence level; the vast majority of these have not been previously verified as planets. We expect ~2 unidentified false-positives making our sample of planet very reliable. We present fundamental planetary properties of our sample based on a comprehensive analysis of Kepler light curves and ground-based spectroscopy and high-resolution imaging. Since we do not require spectroscopy or high-resolution imaging for validation, some of our derived parameters for a planetary system may be systematically incorrect due to dilution from light due to additional stars in the photometric aperture. None the less, our result nearly doubles the number of verified exoplanets.Comment: 138 pages, 8 Figures, 5 Tables. Accepted for publications in the Astrophysical Journa

Dispersion tuning and route reconfiguration of acoustic waves in valley topological phononic crystals

The valley degree of freedom in crystals offers great potential for manipulating classical waves, however, few studies have investigated valley states with complex wavenumbers, valley states in graded systems, or dispersion tuning for valley states. Here, we present tunable valley phononic crystals (PCs) composed of hybrid channel-cavity cells with three tunable parameters. Our PCs support valley states and Dirac cones with complex wavenumbers. They can be configured to form chirped valley PCs in which edge modes are slowed to zero group velocity states, where the energy at different frequencies accumulates at different designated locations. They enable multiple functionalities, including tuning of dispersion relations for valley states, robust routing of surface acoustic waves, and spatial modulation of group velocities. This work may spark future investigations of topological states with complex wavenumbers in other classical systems, further study of topological states in graded materials, and the development of acoustic devices

Gene content evolution in the arthropods

Arthropods comprise the largest and most diverse phylum on Earth and play vital roles in nearly every ecosystem. Their diversity stems in part from variations on a conserved body plan, resulting from and recorded in adaptive changes in the genome. Dissection of the genomic record of sequence change enables broad questions regarding genome evolution to be addressed, even across hyper-diverse taxa within arthropods. Using 76 whole genome sequences representing 21 orders spanning more than 500 million years of arthropod evolution, we document changes in gene and protein domain content and provide temporal and phylogenetic context for interpreting these innovations. We identify many novel gene families that arose early in the evolution of arthropods and during the diversification of insects into modern orders. We reveal unexpected variation in patterns of DNA methylation across arthropods and examples of gene family and protein domain evolution coincident with the appearance of notable phenotypic and physiological adaptations such as flight, metamorphosis, sociality, and chemoperception. These analyses demonstrate how large-scale comparative genomics can provide broad new insights into the genotype to phenotype map and generate testable hypotheses about the evolution of animal diversity