4,137 research outputs found
Radiation from collision-dominated relativistic pair fireballs
It is generally accepted that gamma-ray bursts (GRBs) are initiated by a
relativistic pair fireball, converting its internal energy into kinetic energy
of a relativistically moving plasmoid and subsequently into radiation. Here, we
investigate the early stages of this evolution, after the pair fireball has
become optically thin to gamma-gamma pair production. We show that for a short
period of time, ~ 0.1 - a few seconds after the initial explosion, the pair
plasmoid evolution might be dominated by collisional processes prior to the
formation of a collisionless shock. We simulate these processes during the
early pair plasmoid evolution and calculate the expected radiative signatures.
We show that the radiation from the collision-dominated pair plasmoid phase
results in a short (~ a few ms) flash of thermal soft X-ray emission, followed
by a transition phase of < 1 s during which the fireball turns Thomson thin,
but its radiation remains dominated by thermal Comptonization, peaking at
around E_pk ~ 100 MeV - a few GeV. While the very early thermal emission could
be associated with the quasi-thermal radiation signatures found in the very
early phases of several bright BATSE GRBs, the predicted subsequent flash of
high-energy emission should be easily detectable with the GLAST satellite.Comment: AASTeX, 25 pages, including 7 figures. Accepted for publication in
Ap
West Nile Virus and Wildlife Health
The West Nile Virus and Wildlife Health Workshop, hosted by the Smithsonian Institution, National Audubon Society, U.S. Geological Survey, and U.S. Department of Agriculture, was held February 5–7, 2003, at the Smithsonian Environmental Research Center in Edgewater, Maryland. The event was attended by more than 100 scientists, who heard 29 speakers and participated in strategy discussions during the 2-day meeting. The main focus of the conference was the present and future impact of West Nile virus on wildlife populations. Talks and discussions emphasized how basic research, public health, and land management can contribute to our understanding of the disease’s impact and spread. A primary objective of this meeting was to develop future research priorities from both basic and applied perspectives. The conference centered around four main themes: 1) host, vector, and pathogen interactions (disease ecology); 2) vertebrate behavior and ecology; 3) vector behavior and ecology; and 4) modeling and spatial statistics. We describe some of the findings from the meeting. For an in-depth summary of this meeting, please visit the conference website for meeting abstracts and a downloadable conference white paper (available from: URL: www.serc.si.edu/migratorybirds/ migratorybirds_index.htm)
How to capture wild passerine species to study baseline corticosterone levels
Baseline corticosterone levels have been suggested to be an effective tool to assess and monitor the health status of individuals and populations of wild birds. However, measuring baseline corticosterone levels in the field is difficult because the capture protocol may affect rates of corticosterone secretion. In passerine birds, two methods of capture are widely used: (1) passive netting consisting of monitoring mist-nets frequently to check if a bird has been caught; and (2) target netting consisting of installing a conspecific decoy and/or playing a tape-recorded conspecific song in the vicinity of a mist-net until the territorial bird is captured. Our objective here was to determine whether these methods of capture are effective at achieving non-disturbed baseline corticosterone levels in American Redstarts (Setophaga ruticilla). We found that passive netting was associated with elevated corticosterone levels, suggesting that hanging in a net for several minutes activates the HPA axis and, thus, elicits an adreno-cortical stress response. In contrast, target netting was not associated with an increase in corticosterone levels, regardless of the length of time between when the target bird first approached the net and when it was captured. Therefore, we suggest that researchers interested in estimated baseline corticosterone in this species use target netting and not passive netting
Palaeomagnetic results from an archaeological site near Rome (Italy): new insights for tectonic rotation during the last 0.5 Myr
Approximately 20 km north-east of Rome, along the modern trace of the Tiburtina road, recent archaeological diggings have brought to light a system of aqueduct galleries constructed by Roman engineers. This site falls inside the Acque Albule Basin, a travertine plateau Upper Pleistocene in age, that has been interpreted as a rhombshaped pull-apart basin created by strike-slip faulting within a N-S shear zone. This study provides evidence that two narrow water channels of this aqueduct system were significantly deformed by tectonic movement that occurred subsequent to their construction (II-III century A.D.). The geometry of the deformation pattern is compatible with that expected for a shear zone bounded by N-S oriented, right-lateral faults. The palaeomagnetic study of the volcanic formation («Pozzolane Rosse» Formation, 457± 4 kyr) containing the Roman aqueduct system evidences significant clockwise rotation around sub-vertical axis, consistent with the above-mentioned tectonic style
- …