103 research outputs found

    Master\u27s Project: Burlington Geographic: A Place-Based Landscape Analysis and Community Engagement Project in Burlington, VT

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    Community health surges when inhabitants share a rich sense of place, a quality emerging when people are deeply engaged in understanding their complex and layered landscape. Wendell Berry advises, “if you don’t know where you are, you don’t know who you are.” But how does a city converge around a collective “where” that authentically represents its diverse stories and perspectives? Answers to this question become tools for growing sustainable communities. As a program coordinator for the UVM/Shelburne Farms PLACE (Place-based Landscape Analysis and Community Engagement) Program, I orchestrated a city-wide celebration of integrated natural and cultural history called Burlington Geographic. This twelve-part program series explored Burlington\u27s place-based identity by investigating and interpreting the local landscape through various conceptual lenses. We hosted public evening presentations, field trips, high school classes, and professional development programs for educators. Topics ranged from geology to food, and electricity to ethnicity, rooted in principles of place-based education and community engagement. This series welcomed over 600 participants and involved over 30 city agencies, small businesses, schools, and non-profit organizations. We are now leveraging this momentum to harness Burlington’s recent U.N. designation as a Center of Expertise in Education for Sustainable Development

    Siloxane supported hydrolysis catalysts

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    Highly Stable and Conductive Microcapsules for Enhancement of Joule Heating Performance

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    Nanocarbons show great promise for establishing the next generation of Joule heating systems, but suffer from the limited maximum temperature due to precociously convective heat dissipation from electrothermal system to surrounding environment. Here we introduce a strategy to eliminate such convective heat transfer by inserting highly stable and conductive microcapsules into the electrothermal structures. The microcapsule is composed of encapsulated long-chain alkanes and graphene oxide/carbon nanotube hybrids as core and shell material, respectively. Multiform carbon nanotubes in the microspheres stabilize the capsule shell to resist volume-change-induced rupture during repeated heating/cooling process, and meanwhile enhance the thermal conductance of encapsulated alkanes which facilitates an expeditious heat exchange. The resulting microcapsules can be homogeneously incorporated in the nanocarbon-based electrothermal structures. At a dopant of 5%, the working temperature can be enhanced by 30% even at a low voltage and moderate temperature, which indicates a great value in daily household applications. Therefore, the stable and conductive microcapsule may serve as a versatile and valuable dopant for varieties of heat generation systems

    Interstitial cells of cajal mediate cholinergic neurotransmission from enteric motor neurons

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    Copyright © 2000 Society for NeuroscienceInterstitial cells of Cajal (ICC) are interposed between enteric neurons and smooth muscle cells in gastrointestinal muscles. The role of intramuscular ICC (IC-IM) in mediating enteric excitatory neural inputs was studied using gastric fundus muscles of wild-type animals and W/Wv mutant mice, which lack IC-IM. Excitatory motor neurons, labeled with antibodies to vesicular acetylcholine transporter or substance-P, were closely associated with IC-IM. Immunocytochemistry showed close contacts between enteric neurons and IC-IM. IC-IM also formed gap junctions with smooth muscle cells. Electrical field stimulation yielded fast excitatory junction potentials in the smooth muscle that were blocked by atropine. Neural responses were greatly reduced in muscles of W/Wv animals. Loss of cholinergic responses in W/Wv muscles seemed to be caused by the loss of close synaptic contacts between motor neurons and IC-IM, because these muscles were not less responsive to exogenous acetylcholine than were wild-type muscles. W/Wv muscles also responded to excitatory nerve stimulation when the breakdown of acetylcholine was blocked by neostigmine. The density of cholinergic nerve bundles within the muscles was not significantly different in wild-type and W/Wv muscles, and similar amounts of 14[C]choline were released from preloaded wild-type and W/Wv muscles in response to nerve stimulation. The impact of losing IC-IM on gastric compliance was also evaluated in intact stomachs. Pressure increased as a function of fluid volume and infusion rate in wild-type animals, but W/Wv animals showed little basal tone and minimal increases in pressure with fluid infusions. These data suggest that IC-IM play a major role in receiving cholinergic excitatory inputs from the enteric nervous system in the murine fundus.Sean M. Ward, Elizabeth A. H. Beckett, XuanYu Wang, Fred Baker, Mohammad Khoyi, and Kenton M. Sander

    Aboriginal artefacts on the continental shelf reveal ancient drowned cultural landscapes in northwest Australia

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    This article reports Australia’s first confirmed ancient underwater archaeological sites from the continental shelf, located off the Murujuga coastline in north-western Australia. Details on two underwater sites are reported: Cape Bruguieres, comprising > 260 recorded lithic artefacts at depths down to −2.4 m below sea level, and Flying Foam Passage where the find spot is associated with a submerged freshwater spring at −14 m. The sites were discovered through a purposeful research strategy designed to identify underwater targets, using an iterative process incorporating a variety of aerial and underwater remote sensing techniques and diver investigation within a predictive framework to map the submerged landscape within a depth range of 0–20 m. The condition and context of the lithic artefacts are analysed in order to unravel their depositional and taphonomic history and to corroborate their in situ position on a pre-inundation land surface, taking account of known geomorphological and climatic processes including cyclone activity that could have caused displacement and transportation from adjacent coasts. Geomorphological data and radiometric dates establish the chronological limits of the sites and demonstrate that they cannot be later than 7000 cal BP and 8500 cal BP respectively, based on the dates when they were finally submerged by sea-level rise. Comparison of underwater and onshore lithic assemblages shows differences that are consistent with this chronological interpretation. This article sets a foundation for the research strategies and technologies needed to identify archaeological targets at greater depth on the Australian continental shelf and elsewhere, building on the results presented. Emphasis is also placed on the need for legislation to better protect and manage underwater cultural heritage on the 2 million square kilometres of drowned landscapes that were once available for occupation in Australia, and where a major part of its human history must lie waiting to be discovered

    A strategy for assessing continuity in terrestrial and maritime landscapes from Murujuga (Dampier Archipelago), North West Shelf, Australia

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    Over the last 20,000 years one-third of the continental land mass of Australia, or 2.12 million km2, has been drowned by postglacial sea-level rise. Much of this drowned territory is thought to have been occupied by humans and where archaeological remains have survived inundation, they can be investigated by underwater and airborne remote sensing, survey and ground-truthing. This study of the Dampier Archipelago of NW Australia is contextualised by a review of the current state of the art of underwater prehistory. In the absence of known sites, we propose terrestrial analogy as a predictive tool for targeting submerged archaeological sites. Geological and topographic contexts are important for assessing preservation potential as is identifying landforms and features around which people may have focused their occupation. Analysis of over 2,500 known archaeological sites from the extraordinarily rich Dampier Archipelago reveals that the vast majority are rock art sites but these are interspersed by a significant number of artefact scatters, myriad stone structures, shell middens and quarry and reduction areas. The majority of these sites are focused on coastal and interior valleys, associated uplands and coastal embayments. While over two-thirds of sites occur on granophyre and basalt substrates, the others are located on quaternary sediments. Regional research on nearby continental islands shows that use of these environments can be expected to pre-date sea level rise. The most likely submerged sites include (i) compacted middens associated with rock pools and estuarine features; (ii) stone structures with associated midden on limestone pavements or with granophyre and basalt boulder fields; (iii) buried midden and other occupation deposits on protected sand sheets; (iv) quarry outcrops, extraction pits and associated reduction debris in areas of fine-grained granophyre and basalt; and (v) midden in consolidated calcarenite shoreline contexts to the north and west of the volcanic suites of the Dampier Archipelago
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