Elephant Notes and News

Orientadora : Salete Kozel TeixeiraContém como anexo CD-ROM constituído de fotos e filmagensDissertação (mestrado) - Universidade Federal do Paraná, Setor de Ciencias da Terra, Programa de Pós-Graduaçao em Geografia. Defesa: Curitiba, 2007Inclui bibliografia e anexo

Workshop on oiled seabird cleaning and rehabilitation : proceedings of a workshop held in Townsville, Australia, 26 February 1991

This report is a summary of the proceedings from the Oiled Seabird Cleaning and Rehabilitation Workshop, the first in Queensland to address this issue. It is hoped that more workshops will be held in the future.Table of Contents: Dr Wendy Craik, Seabird Cleaning and Rehabilitation in the Great Barrier Reef Marine Park 17; Mr Terry Walker, Seabird Distribution on the Great Barrier Reef 24; Dr Peter Dann and Dr Ros Jessop, The Effect of Oil on Birds 37; Ms Erna Walraven and Mr Larry Vogelnest, Emergency Care for Birds at Lake Liddell Oil Spill 44; Mr Peter Brookhouse, Management of Wildlife Operations 49; and Material Submitted: Dr Geoffrey Smith, Rescuing Oiled Seabirds 61

Workshop on the use of bioremediation for oil spill response in the Great Barrier Reef Region : proceedings of a workshop held in Townsville, Australia, 25 February 1991

The intensity of shipping within the Great Barrier Reef presents a very real threat to the’ Reef from oil spills. In response to this threat, the Great Barrier Reef Marine Park Authority and the Commonwealth Department of Transport and Communications have developed REEFPLAN, the marine pollution contingency plan for the Great Barrier Reef Region. As of 1 January 1991, the role of the Department of Transport and Communications under REEFPLAN has been taken over by the Australian Maritime Safety Authority.Table of Contents: Papers Presented: Dr Wendy Craik, Bioremediation in the Great Barrier Reef Marine Park 15; Dr Riehard Edgehill, Bioremediation - The Biological, Physical, and Chemical Bases 20; Dr Bruce Kelley and Mr Stuart Rhodes, Bioremediation of Industrial Wastes 26; Ms Randi Larson, Research into Bioremediation of Oil and Related Compounds in Australia 32; Prof. Paul Greenfield, Bioremediation Applications in the Great Barrier Reef Marine Park 41; Dr Alan Sheehy, Bioremediation of Oil Spills 45; Mr Locon Wall, The Exxon Valdez Oil Spill - Woodward-Clyde Consultants' Contributions to Bioremediation 48; Papers Submitted: American Society for Microbiology, Biodegradation of Oil in the Open Ocean 53; and Ms Rebecca Hoff Bioremediation for Oil Spills - Update 55

Copper vapor laser drilling of copper, iron, and titanium foils in atmospheric pressure air and argon

A copper vapor laser (511 and 578 nm) is used to drill submillimeter diameter holes in 0.025–0.127 mm thick foils of copper, iron, and titanium. Foils are machined in atmospheric pressure air and argon. The laser is repetitively pulsed at 10 kHz with a per pulse energy of 0.5 mJ giving an average power of 5 W at the sample surface for a pulse width of 40 ns. A p‐i‐n photodiode and a photomultiplier tube detector are connected to a digital‐display timing circuit that records the number of incident laser pulses used to drill through the sample. The number of pulses is converted to an average drilling time and can provide an estimate for the average laser energy used to drill the hole. Typical data for all three materials with a per‐pulse fluence of 0.7 J/cm2 ranged from 0.1 to 500 s to produce holes of ∼0.3 mm diameter. Drilling times decreased in some cases by an order of magnitude when machining in air. This is attributed to the increased laser absorption of the metal‐oxide layer formed in air and was especially noticeable with titanium. A continuous wave thermal model is used to compare experimental data as well as verify the thermal machining mechanism.Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/69638/2/RSINAK-64-11-3308-1.pd

Ionization dynamics of iron plumes generated by laser ablation versus a laser‐ablation‐assisted‐plasma discharge ion source

The ionization dynamics (iron ion and neutral atom absolute line densities) produced in the KrF excimer laser ablation of iron and a laser‐ablation‐assisted plasma discharge (LAAPD) ion source have been characterized by a new dye‐laser‐based resonant ultraviolet interferometry diagnostic. The ablated material is produced by focusing a KrF excimer laser (248 nm,<1 J, 40 ns) onto a solid iron target. The LAAPD ion source configuration employs an annular electrode in front of the grounded target. Simultaneous to the excimer laser striking the target, a three‐element, inductor–capacitor, pulse‐forming network is discharged across the electrode–target gap. Peak discharge parameters of 3600 V and 680 A yield a peak discharge power of 1.3 MW through the laser ablation plume. Iron neutral atom line densities are measured by tuning the dye laser near the 271.903 nm (a 5D–y 5P0) ground‐state and 273.358 nm (a 5F–w 5D0) excited‐state transitions while iron singly ionized line densities are measured using the 263.105 nm (a 6D–z 6D0) and 273.955 nm (a 4D–z 4D0) excited‐state transitions. The line density, expansion velocity, temperature, and number of each species have been characterized as a function of time for laser ablation and the LAAPD. Data analysis assuming a Boltzmann distribution yields the ionization ratio (ni/nn) and indicates that the laser ablation plume is substantially ionized. With application of the discharge, neutral iron atoms are depleted from the plume, while iron ions are created, resulting in a factor of ∼5 increase in the plume ionization ratio. Species temperatures range from 0.5 to 1.0 eV while ion line densities in excess of 1×1015 cm−2 have been measured, implying peak ion densities of ∼1×1015 cm−3. © 1996 American Institute of Physics.Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/70077/2/JAPIAU-79-5-2287-1.pd