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Living Shorelines & Resilience in Southern California:Â A Summary of a Series of Workshops held as part of The Resilient Coastlines Project of Greater San Diego
In 2016, a series of workshops were held to discuss living shorelines in SouthernCalifornia. The workshops specifically focused on the unique benefits, challenges andopportunities for implementing living shorelines in the region, and the nexus betweennature-based solutions and ongoing local adaptation planning. Approximately 140participants partook in these dialogues, and some of the key themes that emergedinclude: Letting nature do the work for you Designing for the future Integrating nature into shoreline management projects Project goals distinguishing living shorelines Engineering and urban living shorelines Space constraints along urban coastlines Permitting pathways to support demonstration projects Living shorelines and phased sea level rise planning Designing with watersheds and sediment management in mind Exploring emerging commercial opportunities Public access and project success Planning for living shorelines alongside the community Sharing monitoring and best practices to ensure future success Citizen science and socio-ecological monitoringThe workshops provided the first ever opportunity for Southern California stakeholdersto outline what is unique about designing living shorelines in the context of SouthernCalifornia shorelines for state and federal entities
The Vermilion River basin : an inventory of the region's resources
published or submitted for publicatio
BANANA CULTIVAR TRIALS FOR FRUIT PRODUCTION, ORNAMENTAL-LANDSCAPE USE, AND ORNAMENTAL-NURSERY PRODUCTION IN SOUTH GEORGIA
North America is the largest net importer of bananas on a regional basis. The United States is still the worldÂ’'s number- one importer and consumer of bananas. U.S. companies spend approximately $1.1 billion each year on banana imports, purchasing 31.1% of total world imports (Fonsah 2002; FAO 2001). Bananas and plantains together have been rated the fourth most important crop in the world in terms of food value and food security. This research is aimed at determining the feasibility and suitability of Annual Cropping Production (ACP) for a niche market under Georgia weather conditions and, determining which cultivars have the greatest potential for ornamental-landscape use and ornamental-nursery production. Phenological and pomological sampling and data will be used to analyze the feasibility and suitability of ACP and ornamental use.banana, cultivars, input application, fertility, field operations, production, marketing, quality, landscape, green industry, finger length, calibration, pseudo-stem, Crop Production/Industries,
The Feasibility of Reclaiming Shell Material from Investment Casting
This report examines the feasibility of investment shell component reclamation. Shell material components and their compositions are investigated with an industry survey, a study of the available literature, and analysis of specimen shell materials. physical properties and factors related to the reclamation and reuse of shell materials are described. Well known mineral processing methods are capable of producing concentrates of the various shell components. The theory and techniques of some applicable processes are discussed to assist with the development of reclamation operations. The recommended methods are; comminution by roll crushing, component concentration by screening, gravity settling or heavy medium separation. Aluminosilicate stucco (a major component of many investment shells) can be recovered in a form suitable for reuse as backup stucco. Zircon (a minor component in many shell compositions) -can be concentrated in an impure form, and subsequent caustic liberation treatments can remove the intermixed silica phases. Reuse of such zircon in investment casting may be possible but will require careful qualification testing. Fused and crystalline silica (major components of most shell compositions) are not reusable for investment casting. The feasibility of reclamation will be influenced by individual foundry choices of materials, composition and shell practice.HWRIC Project No. RRT-10NTIS PB92-16219
Your Turn, Doctor
Between incurably degenerative illness and the graffiti which ignited the Syrian Civil War, YOUR TURN, DOCTOR complicates hope. When myths of revolution, of wellness, no longer console—love as measured in anything but loss. Within a multidisciplinary project how an increasingly painful embodiment intersects the material excess of capitalism is explored. Can objects function as a political demand, necessitating changes in the way the world is ordered? Who for? To understand one kind of oppression in necessary sterility and another in marginalization so profound blindness can result. That is to ask, how long must one be told they do not see a thing they see before they don’t, before transgressions become norms?
A list of Indulgences modeled loosely after Martin Luther’s Ninety-Five Theses outlines content. Five sections reference the five pillars of Islam— with each containing nineteen individual proposals. Nineteen serves as the common denominator for the mathematical structure of much of the text of the Quran
Rare Earths and the Balance Problem: How to Deal with Changing Markets?
The balance between the market demand and the natural abundance of the rare-earth elements (REEs) in ores, often referred to as the Balance Problem (or the Balancing Problem), is a major issue for REE suppliers. The ideal situation is a perfect match between the market demand for and the production of REEs, so that there are no surpluses of any of the REEs. This means that the rare-earth industry must find new uses for REEs that are available in excess and search for substitutes for REEs that have either limited availability or are high in demand. We present an overview of the trends in the applications for the different REEs and show that the demand for REEs for use in magnets, catalysts, and alloys is still increasing, while the application of REEs in polishing agents, glass, and ceramics are stable. On the other hand, the use of REEs in nickel–metal-hydride (NiMH) batteries and lamp phosphors is decreasing. These changes in the REE market have an influence on the Balance Problem, because the REEs that can be recycled from fluorescent lamps, cathode-ray tubes (CRTs), and NiMH batteries have to be at least partly reused in other applications. Magnesium and aluminum alloys offer an opportunity to mitigate the Balance Problem caused by these changes in the REE market. This is illustrated for REEs that can be recycled from fluorescent-lamp phosphor waste, CRT phosphors, and NiMH batteries. At present, five REEs (Nd, Eu, Tb, Dy, and Y) are being considered as very critical by Europe, the United States, and Japan, but we forecast that in the medium term, only neodymium will remain a critical REE. This paper discusses the relationship between criticality and the Balance Problem and shows how this relationship influences the market for specific REEs.This work has received funding from the European Union’s Horizon 2020 research and innovation programme under Grant Agreement No 680629 (REMAGHIC: New Recovery Processes to produce Rare Earth-Magnesium Alloys of High Performance and Low Cost) (project website: http://www.remaghic-project. eu). KB and PTJ acknowledge funding from the European Community’s Seventh Framework Programme ([FP7/2007–2013]) under Grant Agreement No. 607411 (MC-ITN EREAN: European Rare Earth Magnet Recycling Network) (project website of EREAN: http:// www.erean.eu). Paul McGuiness (Sciencewriter.si, Slovenia) is acknowledged for the drawing of the figures
Rotary Driven Pipe Piles for a 14-Story Building in New York City
Rotary driven pipe piles are a unique solution for foundation construction in constrained urban areas. These piles consist of a closedend, steel casing with sacrificial drill tip. The casing and drill tip are rotated into the ground using a fixed-mast drill rig. Three hundred sixty two 12.75-inch diameter, rotary driven pipe piles were installed to support a 14-story building in the upper east side of Manhattan. The soils consisted of uncontrolled fill, organic silts, and peat over stiff, saturated, varved silts and clays. A novel mathematical relationship between capacity, installation crowd, and torque was used to develop initial pile installation criteria. A simple discrete element model showed the piles would exhibited considerable freeze. This was verified by successive torque readings over time. Four compression, one tension, and one lateral load test were performed. Torque measurements, load test results, and installation observations are presented. All piles performed exceptionally well during the test program in terms of total pile head deflection. Overall, field measurements matched predictions. Careful coordination and communication between all parties allowed pile installation to proceed rapidly; the foundation was completed on schedule and budget. Each pile was fitted with a geothermal conduit loop to create ‘energy piles’, which will be instrumented for future case study research
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