6,958 research outputs found
Homing and site fidelity in the greasy grouper Epinephelus tauvina (Serranidae) within a marine protected area in coastal Kenya
Homing ability and site-fidelity in the greasy grouper Epinephelus tauvina (Serranidae)
were studied at Malindi Marine Park (6.3 km2), coastal Kenya, from January to April 2002 using
acoustic telemetry. Displacement experiments involving 12 groupers (mean size 57.9 cm) from
multiple capture sites resulted in a 67% homing success. Upon release at displacement sites (0.5 to
2.6 km from the point of capture), most initial movements were small-scale and non-directional. Neither
the tidal range nor time of day influenced the magnitude of these daily movements. Returns to
the capture sites were sudden, occurring predominantly (88%) on spring tide dates. Fish displaced at
the spring tide returned to capture sites faster (8.6 d) than those displaced at the neap tide (14.3 d).
Time taken to return to capture sites ranged from 4 to 19 d (mean 9.6 d) and was not correlated with
distance of displacement. However, time taken for the fish to home was negatively correlated with
tidal range at displacement. Home ranges established after homing (0.07 to 0.73 km2) were stable and
negatively correlated with fish size, suggesting an ontogenetic shift in home range development
Size-Based Hydroacoustic Measures of Within-Season Fish Abundance in a Boreal Freshwater Ecosystem
Eleven sequential size-based hydroacoustic surveys conducted with a 200 kHz split-beam transducer during the summers of 2011 and 2012 were used to quantify seasonal declines in fish abundance in a boreal reservoir in Manitoba, Canada. Fish densities were sufficiently low to enable single target resolution and tracking. Target strengths converted to log2-based size-classes indicated that smaller fish were consistently more abundant than larger fish by a factor of approximately 3 for each halving of length. For all size classes, in both years, abundance (natural log) declined linearly over the summer at rates that varied from -0.067.day-1 for the smallest fish to -0.016.day-1 for the largest (R2 = 0.24–0.97). Inter-annual comparisons of size-based abundance suggested that for larger fish (>16 cm), mean winter decline rates were an order of magnitude lower (-0.001.day-1) and overall survival higher (71%) than in the main summer fishing season (mean loss rate -0.038.day-1; survival 33%). We conclude that size-based acoustic survey methods have the potential to assess within-season fish abundance dynamics, and may prove useful in long-term monitoring of productivity and hence management of boreal aquatic ecosystems
East Germany in from the Cold: The Economic Aftermath of Currency Union
macroeconomics, East Germany, currency union
Tangle-bearing neurons survive despite disruption of membrane integrity in a mouse model of tauopathy
Neurofibrillary tangles (NFTs) are associated with neuronal loss and correlate with cognitive impairment in Alzheimer disease, but how NFTs relate to neuronal death is not clear. We studied cell death in Tg4510 mice that reversibly express P301L mutant human tau and accumulate NFTs using in vivo multiphoton imaging of neurofibrillary pathology, propidium iodide (PI) incorporation into cells, caspase activation and DNA labeling. We first observed that in live mice a minority of neurons was labeled with the caspase probe or with PI fluorescence. These markers of cell stress were localized in the same cells and appeared to be specifically within NFT-bearing neurons. Contrary to expectations, the PI-stained neurons did not die over a day of observation; the presence of Hoechst-positive nuclei in them on the subsequent day indicated that the NFT-associated membrane disruption suggested by PI staining and caspase activation do not lead to acute death of neurons in this tauopathy model. This unique combination of in vivo multiphoton imaging with markers of cell death and pathologic alteration is a powerful tool for investigating neuronal damage associated with neurofibrillary pathology
Sweet Mamma : Papa\u27s Getting Mad
https://digitalcommons.library.umaine.edu/mmb-vp/4315/thumbnail.jp
I\u27ll Be Your Regular Sweetie : But I Won\u27t Be Your Once In A While
https://digitalcommons.library.umaine.edu/mmb-vp/1752/thumbnail.jp
Soluble tau species, not neurofibrillary aggregates, disrupt neural system integration in a tau transgenic model
Neurofibrillary tangles are a feature of Alzheimer disease and other tauopathies, and while they are generally believed to be markers of neuronal pathology, there is little evidence evaluating whether tangles directly impact neuronal function. To investigate the response of cells in hippocampal circuits to complex behavioral stimuli, we used an environmental enrichment paradigm to induce expression of an immediate-early gene, Arc, in the rTg4510 mouse model of tauopathy. These mice reversibly overexpress P301L tau and exhibit substantial neurofibrillary tangle deposition, neuronal loss, and memory deficits. Employing fluorescent in situ hybridization to detect Arc mRNA, we found that rTg4510 mice have impaired hippocampal Arc expression both without stimulation and in response to environmental enrichment; this likely reflects the combination of functional impairments of existing neurons and loss of neurons. However, tangle-bearing cells were at least as likely as non-tangle-bearing neurons to exhibit Arc expression in response to enrichment. Transgene suppression with doxycycline for 6 weeks resulted in increased percentages of Arc-positive cells in rTg4510 brains compared to untreated transgenics, restoring enrichment-induced Arc mRNA levels to that of wild-type controls despite the continued presence of neurofibrillary pathology. We interpret these data to indicate that soluble tau contributes to impairment of hippocampal function, while tangles do not preclude neurons from responding in a functional circuit
Job Switching and Job Satisfaction in the U.S. Labor Market
macroeconomics, Job Switching, Job Satisfaction, U.S. Labor Market
Properties of the KISS Green Pea Galaxies
Green peas (GPs) are a class of extreme star-forming galaxies (SFGs) at intermediate redshifts, originally discovered via color selection using multifilter, wide-field survey imaging data. They are commonly thought of as being analogs of high-redshift Lyα-emitting galaxies. The defining characteristic of GP galaxies is a high-excitation nebular spectrum with very large equivalent width lines, leading to the recognition that GP-like galaxies can also be identified in samples of emission-line galaxies. Here we compare the properties a sample of [O iii]-selected SFGs (z = 0.29–0.41) from the KPNO International Spectroscopic Survey (KISS) with the color-selected GPs. We find that the KISS [O iii]-selected galaxies overlap with the parameter space defined by the color-selected GPs; the two samples appear to be drawn from the same population of objects. We compare the KISS GPs with the full Hα-selected KISS SFG sample (z < 0.1) and find that they are extreme systems. Many appear to be young systems at their observed look-back times (3–4 Gyr), with more than 90% of their rest-frame B-band luminosity coming from the starburst population. We compute the volume density of the KISS red (KISSR) GPs at z = 0.29–0.41 and find that they are extremely rare objects. We do not see galaxies as extreme as the KISSR GPs in the local universe, although we recognize several lower-luminosity systems at z < 0.1
Properties of the KISS Green Pea Galaxies
Green Peas are a class of extreme star-forming galaxies at intermediate
redshifts, originally discovered via color-selection using multi-filter,
wide-field survey imaging data (Cardamone et al. 2009). They are commonly
thought of as being analogs of high-redshift Ly-emitting galaxies. The
defining characteristic of Green Pea galaxies is a high-excitation nebular
spectrum with very large equivalent width lines, leading to the recognition
that Green Pea-like galaxies can also be identified in samples of emission-line
galaxies. Here we compare the properties a sample of [O III]-selected
star-forming galaxies (z = 0.29-0.41) from the KPNO International Spectroscopic
Survey (KISS) with the color-selected Green Peas. We find that the KISS [O
III]-selected galaxies overlap with the parameter space defined by the
color-selected Green Peas; the two samples appear to be drawn from the same
population of objects. We compare the KISS Green Peas with the full
H-selected KISS star-forming galaxy sample (z 0.1) and find that
they are extreme systems. Many appear to be young systems at their observed
look-back times (3-4 Gyr), with more than 90% of their rest-frame B-band
luminosity coming from the starburst population. We compute the volume density
of the KISSR Green Peas at z = 0.29-0.41 and find that they are extremely rare
objects. We don't see galaxies as extreme as the KISSR Green Peas in the local
Universe, although we recognize several lower-luminosity systems at z 0.1.Comment: 21 pages, 12 figures. Accepted for publication in the Astrophysical
Journa
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