10,190 research outputs found
ESTIMATING INSECTICIDE APPLICATION FREQUENCIES: A COMPARISON OF GEOMETRIC AND OTHER COUNT DATA MODELS
The number of insecticide applications made by an apple grower to control an insect infestation is modeled as a geometric random variable. Insecticide efficacy, rate per application, month of treatment, and method of application all have significant impacts on the expected number of applications. The number of applications to control a given insect population is dependent on the probability of achieving successful control with a given application. Results suggest that northeastern growers have the highest and mid-Atlantic growers the lowest probability of controlling an infestation with a given application. Results also indicate that scales require the least and moths the most number of applications. Growers are not responsive to per unit insecticide prices, but respond negatively to insecticide toxicity, supporting findings from previous pesticide demand analyses.Apples, Count data, Geometric, Insect control, Pesticides, Crop Production/Industries,
Protracted speciation revitalizes the neutral theory of biodiversity.
Understanding the maintenance and origin of biodiversity is a formidable task, yet many ubiquitous ecological patterns are predicted by a surprisingly simple and widely studied neutral model that ignores functional differences between species. However, this model assumes that new species arise instantaneously as singletons and consequently makes unrealistic predictions about species lifetimes, speciation rates and number of rare species. Here, we resolve these anomalies - without compromising any of the original models existing achievements and retaining computational and analytical tractability - by modelling speciation as a gradual, protracted, process rather than an instantaneous event. Our model also makes new predictions about the diversity of incipient species and rare species in the metacommunity. We show that it is both necessary and straightforward to incorporate protracted speciation in future studies of neutral models, and argue that non-neutral models should also model speciation as a gradual process rather than an instantaneous one
Ion-beam nitriding of steels
A surface of a steel substrate is nitrided without external heating by exposing it to a beam of nitrogen ions under low pressure, a pressure much lower than that employed for ion-nitriding. An ion source is used instead of a glow discharge. Both of these features reduce the introduction of impurities into the substrate surface
Three-dimensional Migration of Neurites Is Mediated by Adhesion Site Density and Affinity
Three-dimensional neurite outgrowth rates within fibrin matrices that contained variable amounts of RGD peptides were shown to depend on adhesion site density and affinity. Bi-domain peptides with a factor XIIIa substrate in one domain and a RGD sequence in the other domain were covalently incorporated into fibrin gels during coagulation through the action of the transglutaminase factor XIIIa, and the RGD-dependent effect on neurite outgrowth was quantified, employing chick dorsal root ganglia cultured two- and three-dimensionally within the modified fibrin. Two separate bi-domain peptides were synthesized, one with a lower binding affinity linear RGD domain and another with a higher binding affinity cyclic RGD domain. Both peptides were cross-linked into fibrin gels at concentrations up to 8.2 mol of peptide/mol of fibrinogen, and their effect on neurite outgrowth was measured. Both two- and three-dimensional neurite outgrowth demonstrated a bi-phasic dependence on RGD concentration for both the linear and cyclic peptide, with intermediate adhesion site densities yielding maximal neurite extension and higher densities inhibiting outgrowth. The adhesion site density that yielded maximal outgrowth depended strongly on adhesion site affinity in both two and three dimensions, with lower densities of the higher affinity ligand being required (0.8-1.7 mol/mol for the linear peptide versus 0.2 mol/mol for the cyclic peptide yielding maximum neurite outgrowth rates in three-dimensional cultures)
Improving Big Data Visual Analytics with Interactive Virtual Reality
For decades, the growth and volume of digital data collection has made it
challenging to digest large volumes of information and extract underlying
structure. Coined 'Big Data', massive amounts of information has quite often
been gathered inconsistently (e.g from many sources, of various forms, at
different rates, etc.). These factors impede the practices of not only
processing data, but also analyzing and displaying it in an efficient manner to
the user. Many efforts have been completed in the data mining and visual
analytics community to create effective ways to further improve analysis and
achieve the knowledge desired for better understanding. Our approach for
improved big data visual analytics is two-fold, focusing on both visualization
and interaction. Given geo-tagged information, we are exploring the benefits of
visualizing datasets in the original geospatial domain by utilizing a virtual
reality platform. After running proven analytics on the data, we intend to
represent the information in a more realistic 3D setting, where analysts can
achieve an enhanced situational awareness and rely on familiar perceptions to
draw in-depth conclusions on the dataset. In addition, developing a
human-computer interface that responds to natural user actions and inputs
creates a more intuitive environment. Tasks can be performed to manipulate the
dataset and allow users to dive deeper upon request, adhering to desired
demands and intentions. Due to the volume and popularity of social media, we
developed a 3D tool visualizing Twitter on MIT's campus for analysis. Utilizing
emerging technologies of today to create a fully immersive tool that promotes
visualization and interaction can help ease the process of understanding and
representing big data.Comment: 6 pages, 8 figures, 2015 IEEE High Performance Extreme Computing
Conference (HPEC '15); corrected typo
A seed-diffusion model for tropical tree diversity patterns
Diversity patterns of tree species in a tropical forest community are
approached by a simple lattice model and investigated by Monte Carlo
simulations using a backtracking method. Our spatially explicit neutral model
is based on a simple statistical physics process, namely the diffusion of
seeds. The model has three parameters: the speciation rate, the size of the
meta-community in which the studied tree-community is embedded, and the average
surviving time of the seeds. By extensive computer simulations we aim the
reproduction of relevant statistical measures derived from the experimental
data of the Barro Colorado Island tree census in year 1995. The first two
parameters of the model are fixed to known values, characteristic of the
studied community, thus obtaining a model with only one freely adjustable
parameter. As a result of this, the average number of species in the considered
territory, the relative species abundance distribution, the species-area
relationship and the spatial auto-correlation function of the individuals in
abundant species are simultaneously fitted with only one parameter which is the
average surviving time of the seeds.Comment: 12 pages, 5 figure
Analytical calculation of the solid angle subtended by a circular disc detector at a point cosine source
We derive analytical expressions for the solid angle subtended by a circular
disc at a point source with cosine angular distribution ()under
the sole condition that the disc lies in the half-space illuminated by the
source (). The expressions are given with reference to two
alternative coordinate systems (S and S'), S being such that the z axis is
parallel to the symmetry axis of the disc and S' such that the axis is
aligned with the source direction. Sample plots of the expressions are
presented.Comment: 12 pages, 10 figures, LaTex12 pages, 10 figures, LaTex. Minor changes
from previous version: references added, english reshaping, the phrase "If
beta=0.." (pag. 5 near eq. 20 in the old version) was corrected to "If
beta=pi/2..
Neutral Theory and Relative Species Abundance in Ecology
The theory of island biogeography[1] asserts that an island or a local
community approaches an equilibrium species richness as a result of the
interplay between the immigration of species from the much larger metacommunity
source area and local extinction of species on the island (local community).
Hubbell[2] generalized this neutral theory to explore the expected steady-state
distribution of relative species abundance (RSA) in the local community under
restricted immigration. Here we present a theoretical framework for the unified
neutral theory of biodiversity[2] and an analytical solution for the
distribution of the RSA both in the metacommunity (Fisher's logseries) and in
the local community, where there are fewer rare species. Rare species are more
extinction-prone, and once they go locally extinct, they take longer to
re-immigrate than do common species. Contrary to recent assertions[3], we show
that the analytical solution provides a better fit, with fewer free parameters,
to the RSA distribution of tree species on Barro Colorado Island (BCI)[4] than
the lognormal distribution[5,6].Comment: 19 pages, 1 figur
(In)edible Algeria: transmitting Pied-Noir nostalgia through food
For those exiled from Algeria during and after the Algerian War for Independence (1954-1962), sustaining memories of the homeland has been a consuming pastime. Food has especially played a large part in reconnecting Algeria’s former French citizens, the Pieds-Noirs, to their past. Annual gatherings feature typical dishes such as couscous, merguez, méchoui, mouna, which like the Proustian madeleine, transport the Pieds-Noirs to a preceding time of wholeness and comfort, allowing them to experience, if only fleetingly, a sense of immortality. While food has a reparative quality for the community’s memory, it is also the site of rejection and pain for some. Marie Cardinal writes about food as a site of unity with the indigenous Algerian community and rejection from her colonial French family. Similarly, in the collective autobiography Quatre soeurs: Hier, en Algérie, aujourd’hui en France, Frédérique Boblin, Eve Calo, Nelly Collet and Fabienne Rozotte explain their shared eating disorders as tied to their expulsion from Algeria. This essay demonstrates that the Pieds-Noirs can eat to remember Algeria, but the Algeria they knew can also prove to be inedible
- …