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2. Multi-center decomposition of molecular densities: A numerical perspective

Author

Cheng, YingXing, Cancès, Eric, Ehrlacher, Virginie, Misquitta, Alston J., and Stamm, Benjamin

Subjects
Physics - Chemical Physics
Abstract

In this study, we analyze various Iterative Stockholder Analysis (ISA) methods for molecular density partitioning, focusing on the numerical performance of the recently proposed Linear approximation of Iterative Stockholder Analysis model (LISA) [J. Chem. Phys. 156, 164107 (2022)]. We first provide a systematic derivation of various iterative solvers to find the unique LISA solution. In a subsequent systematic numerical study, we evaluate their performance on 48 organic and inorganic, neutral and charged molecules and also compare LISA to two other well-known ISA variants: the Gaussian Iterative Stockholder Analysis (GISA) and Minimum Basis Iterative Stockholder analysis (MBIS). The study reveals that LISA-family methods can offer a numerically more efficient approach with better accuracy compared to the two comparative methods. Moreover, the well-known issue with the MBIS method, where atomic charges obtained for negatively charged molecules are anomalously negative, is not observed in LISA-family methods. Despite the fact that LISA occasionally exhibits elevated entropy as a consequence of the absence of more diffuse basis functions, this issue can be readily mitigated by incorporating additional or integrating supplementary basis functions within the LISA framework. This research provides the foundation for future studies on the efficiency and chemical accuracy of molecular density partitioning schemes.

Published
2024

3. First-principles many-body non-additive polarization energies from monomer and dimer calculations only : A case study on water

Author

Gilmore, Rory A. J., Dove, Martin T., and Misquitta, Alston J.

Subjects
Physics - Chemical Physics, Physics - Atomic and Molecular Clusters, Physics - Computational Physics
Abstract

The many-body polarization energy is the major source of non-additivity in strongly polar systems such as water. This non-additivity is often considerable and must be included, if only in an average manner, to correctly describe the physical properties of the system. Models for the polarization energy are usually parameterized using experimental data, or theoretical estimates of the many-body effects. Here we show how many-body polarization models can be developed for water complexes using data for the monomer and dimer only using ideas recently developed in the field of intermolecular perturbation theory and state-of-the-art approaches for calculating distributed molecular properties based on the iterated stockholder atoms (ISA) algorithm. We show how these models can be calculated, and validate their accuracy in describing the many-body non-additive energies of a range of water clusters. We further investigate their sensitivity to the details of the polarization damping models used. We show how our very best polarization models yield many-body energies that agree with those computed with coupled-cluster methods, but at a fraction of the computational cost., Comment: 21 pages, 19 figures, SI

Published
2019

4. New angles on standard force fields: towards a general approach for treating atomic-level anisotropy

Author

Van Vleet, Mary J., Misquitta, Alston J., and Schmidt, J. R.

Subjects
Physics - Atomic Physics, Physics - Chemical Physics
Abstract

Nearly all standard force fields employ the 'sum-of-spheres' approximation, which models intermolecular interactions purely in terms of interatomic distances. Nonetheless, atoms in molecules can have significantly non-spherical shapes, leading to interatomic interaction energies with strong orientation dependencies. Neglecting this 'atomic-level anisotropy' can lead to significant errors in predicting interaction energies. Herein we propose a simple, transferable, and computationally-efficient model (MASTIFF) whereby atomic-level orientation dependence can be incorporated into ab initio intermolecular force fields. MASTIFF includes anisotropic exchange-repulsion, charge penetration, and dispersion effects, in conjunction with a standard treatment of anisotropic long-range (multipolar) electrostatics. To validate our approach, we benchmark MASTIFF against various sum-of-spheres models over a large library of intermolecular interactions between small organic molecules. MASTIFF achieves quantitative accuracy with respect to both high-level electronic structure theory and experiment, thus showing promise as a basis for 'next-generation' force field development.

Published
2018
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5. ISA-Pol: Distributed polarizabilities and dispersion models from a basis-space implementation of the iterated stockholder atoms procedure

Author

Misquitta, Alston J. and Stone, Anthony J.

Subjects
Physics - Chemical Physics, Physics - Computational Physics, Quantum Physics
Abstract

Recently we have developed a robust, basis-space implementation of the iterated stockholder atoms (BS-ISA) approach for defining atoms in a molecule. This approach has been shown to yield rapidly convergent distributed multipole expansions with a well-defined basis-set limit. Here we use this method as the basis of a new approach, termed ISA-Pol, for obtaining non-local distributed frequency-dependent polarizabilities. We demonstrate how ISA-Pol can be combined with localization methods to obtain distributed dispersion models that share the many unique properties of the ISA: These models have a well-defined basis-set limit, lead to very accurate dispersion energies, and, remarkably, satisfy commonly used combination rules to a good accuracy. As these models are based on the ISA, they can be expected to respond to chemical and physical changes naturally, and thus they may serve as the basis for the next generation of polarization and dispersion models for ab initio force-field development., Comment: 18 pages, 9 figures

Published
2018

6. X-ray total scattering study of regular and magic-size nanoclusters of cadmium sulphide

Author

Tan, Lei, Misquitta, Alston J, Sapelkin, Andrei, Fang, Le, Wilson, Rory M, Zhang, Baowei, Zhu, Tingting, Riehle, Frank S, Han, Shuo, Yu, Kui, and Dove, Martin T

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Four kinds of magic-size CdS clusters and two different regular CdS quantum dots have been studied by x-ray total scattering technique and pair distribution function method. Results for the regular CdS quantum dots could be modelled as a mixed phase of atomic structures based on the two bulk crystalline phases, which is interpreted as representing the effects of stacking disorder. However, the results for the magic-size clusters were significantly different. On one hand, the short-range features in the pair distribution function reflect the bulk, indicating that these structures are based on the same tetrahedral coordination found in the bulk phases (and therefore excluding new types of structures such as cage-like arrangements of atoms). But on the other hand, the longer- range atomic structure clearly does not reflect the layer structures found in the bulk and the regular quantum dots. We compare the effects of two ligands, phenylacetic acid and oleic acid, showing that in two cases the ligand has little effect on the atomic structure of the magic-size nanocluster and in another it has a significant effect., Comment: 8 pages in the main paper, 6 figures in the main paper, 7 pages in the electronic supporting information, 4 figures in the electronic supporting information

Published
2018

7. Performance of point charge embedding schemes for excited states in molecular organic crystals.

Author

Sidat, Amir, Ingham, Michael, Rivera, Miguel, Misquitta, Alston J., and Crespo-Otero, Rachel

Subjects
MOLECULAR crystals, EXCITED states, TIME-dependent density functional theory, APPROXIMATION theory, ATOMIC charges
Abstract

Modeling excited state processes in molecular crystals is relevant for several applications. A popular approach for studying excited state molecular crystals is to use cluster models embedded in point charges. In this paper, we compare the performance of several embedding models in predicting excited states and S1–S0 optical gaps for a set of crystals from the X23 molecular crystal database. The performance of atomic charges based on ground or excited states was examined for cluster models, Ewald embedding, and self-consistent approaches. We investigated the impact of various factors, such as the level of theory, basis sets, embedding models, and the level of localization of the excitation. We consider different levels of theory, including time-dependent density functional theory and Tamm–Dancoff approximation (TDA) (DFT functionals: ωB97X-D and PBE0), CC2, complete active space self-consistent field, and CASPT2. We also explore the impact of selection of the QM region, charge leakage, and level of theory for the description of different kinds of excited states. We implemented three schemes based on distance thresholds to overcome overpolarization and charge leakage in molecular crystals. Our findings are compared against experimental data, G0W0-BSE, periodic TDA, and optimally tuned screened range-separated functionals. [ABSTRACT FROM AUTHOR]

Published
2023
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8. Beyond Born-Mayer: Improved models for short-range repulsion in ab initio force fields

Author

Van Vleet, Mary J., Misquitta, Alston J., Stone, Anthony J., and Schmidt, J. R.

Subjects
Physics - Atomic Physics, Physics - Chemical Physics
Abstract

Short-range repulsion within inter-molecular force fields is conventionally described by either Lennard-Jones (${A}/{r^{12}}$) or Born-Mayer ($A\exp(-Br)$) forms. Despite their widespread use, these simple functional forms are often unable to describe the interaction energy accurately over a broad range of inter-molecular distances, thus creating challenges in the development of ab initio force fields and potentially leading to decreased accuracy and transferability. Herein, we derive a novel short-range functional form based on a simple Slater-like model of overlapping atomic densities and an iterated stockholder atom (ISA) partitioning of the molecular electron density. We demonstrate that this Slater-ISA methodology yields a more accurate, transferable, and robust description of the short-range interactions at minimal additional computational cost compared to standard Lennard-Jones or Born-Mayer approaches. Finally, we show how this methodology can be adapted to yield the standard Born-Mayer functional form while still retaining many of the advantages of the Slater-ISA approach., Comment: 52 pages, 11 figures

Published
2016

10. Ab initio atom-atom potentials using CamCASP: Many-body potentials for the pyridine dimer

Author

Misquitta, Alston J. and Stone, Anthony J.

Subjects
Physics - Chemical Physics, Condensed Matter - Materials Science
Abstract

In Part I of this two-part investigation we described a methodology for the development of robust, analytic, many-body atom-atom potentials for small organic molecules from first principles and demonstrated how the CamCASP program can be used to derive the damped, distributed multipole models for pyridine. Here we demonstrate how the theoretical ideas for the short-range models described in Part I, which are implemented in the CamCASP suite of programs, can be used to develop a series of many-body potentials for the pyridine system. Even the simplest of these potentials exhibit r.m.s. errors of only about 0.6kJ mol-1 for the low-energy pyridine dimers, significantly surpassing the best empirical potentials. Our best model is shown to support eight stable minima, four of which have not been reported in the literature before. Further, the functional form can be made systematically more elaborate so as to improve the accuracy without a significant increase in the human-time spent in their generation. We investigate the effects of anisotropy, rank of multipoles, and choice of polarizability and dispersion models., Comment: 15 pages, 12 figures, part 2 of a two part work

Published
2015

11. Ab initio atom-atom potentials using CamCASP: Theory and application to multipole models for the pyridine dimer

Author

Misquitta, Alston J. and Stone, Anthony J.

Subjects
Physics - Atomic Physics, Physics - Chemical Physics
Abstract

Creating accurate, analytic atom--atom potentials for small organic molecules from first principles can be a time-consuming and computationally intensive task, particularly if we also require them to include explicit polarization terms, which are essential in many systems. In this first part of a two-part investigation, we describe how the {\sc CamCASP} suite of programs can be used to generate such potentials using some of the most accurate electronic structure methods currently applicable. In particular, we derive the long-range terms from monomer properties, and determine the short-range anisotropy parameters by a novel and robust method based on the iterated stockholder atom approach. We use the techniques described here to develop distributed multipole models for the electrostatic, polarization and dispersion interactions in the pyridine dimer. In the second part of this work we will apply these methods to develop a series of many-body potentials for the pyridine system., Comment: 17 pages, 5 figures, part I of a two part paper

Published
2015

13. Distributed multipoles from a robust basis-space implementation of the iterated stockholder atoms procedure

Author

Misquitta, Alston J., Stone, Anthony J., and Fazeli, Farhang

Subjects
Condensed Matter - Materials Science, Physics - Atomic and Molecular Clusters, Physics - Chemical Physics, Physics - Computational Physics, Quantum Physics
Abstract

The recently developed iterated stockholder atoms (ISA) approach of Lillestolen and Wheatley (Chem. Commun. {\bf 2008}, 5909 (2008)) offers a powerful method for defining atoms in a molecule. However, the real-space algorithm is known to converge very slowly, if at all. Here we present a robust, basis-space algorithm of the ISA method and demonstrate its applicability on a variety of systems. We show that this algorithm exhibits rapid convergence (taking around 10--80 iterations) with the number of iterations needed being unrelated to the system size or basis set used. Further, we show that the multipole moments calculated using this basis-space ISA method are as good as, or better than those obtained from Stone's distributed multipole analysis (J. Chem. Theory Comput. {\bf 1}, 1128 (2005) ), exhibiting better convergence properties and resulting in better behaved penetration energies. This can have significant consequences in the development of intermolecular interaction models., Comment: 16 pages, 7 figures

Published
2014

14. Anomalous non-additive dispersion interactions in systems of three one-dimensional wires

Author

Misquitta, Alston J., Maezono, Ryo, Drummond, Neil D., Stone, Anthony J., and Needs, Richard J.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Physics - Atomic and Molecular Clusters, Physics - Computational Physics, Quantum Physics
Abstract

The non-additive dispersion contribution to the binding energy of three one-dimensional (1D) wires is investigated using wires modelled by (i) chains of hydrogen atoms and (ii) homogeneous electron gases. We demonstrate that the non-additive dispersion contribution to the binding energy is significantly enhanced compared with that expected from Axilrod-Teller-Muto-type triple-dipole summations and follows a different power-law decay with separation. The triwire non-additive dispersion for 1D electron gases scales according to the power law $d^{-\beta}$, where $d$ is the wire separation, with exponents $\beta(r_s)$ smaller than 3 and slightly increasing with $r_s$ from 2.4 at $r_s = 1$ to 2.9 at $r_s=10$, where $r_s$ is the density parameter of the 1D electron gas. This is in good agreement with the exponent $\beta=3$ suggested by the leading-order charge-flow contribution to the triwire non-additivity, and is a significantly slower decay than the $\sim d^{-7}$ behaviour that would be expected from triple-dipole summations., Comment: 10 pages, 8 figures, 1 table

Published
2013
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15. Charge-transfer from Regularized Symmetry-Adapted Perturbation Theory

Author

Misquitta, Alston J.

Subjects
Physics - Chemical Physics, Condensed Matter - Materials Science, Physics - Atomic and Molecular Clusters
Abstract

The charge-transfer (CT) together with the polarization energy appears at second and higher orders in symmetry-adapted perturbation theory (SAPT). At present there is no theoretically compelling way of isolating the charge-transfer energy that is simultaneously basis-set independent and applicable for arbitrary intermolecular separation. We argue that the charge-transfer can be interpreted as a tunneling phenomenon, and can therefore be defined via regularized SAPT. This leads to a physically convincing, basis-independent definition of the charge-transfer energy that captures subtleties of the process, such as the asymmetry in the forward and backward charge transfer, as well as secondary transfer effects. With this definition of the charge-transfer the damping needed for polarization models can be determined with a level of confidence hitherto not possible., Comment: 16 pages, 16 figures

Published
2013

16. Simulation study of pressure and temperature dependence of the negative thermal expansion in Zn(CN)$_2$

Author

Fang, Hong, Dove, Martin T., Rimmer, Leila H. N., and Misquitta, Alston J.

Subjects
Condensed Matter - Materials Science
Abstract

Pressure and temperature dependence of the negative thermal expansion in Zn(CN)$_2$ is fully investigated using molecular dynamics simulations with a built potential model. The advantage of this study allows us to reproduce all the exotic behaviours of the material, including the negative thermal expansion (NTE), the reduction of NTE with elevated temperature, the pressure enhancement of NTE and the pressure-induced softening. Results of the study provide us detailed data to link the properties in the energy space and the real space, giving us insights to understand the properties and the connections between them., Comment: 12 pages, 16 figures

Published
2013
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17. High pressure ionic and molecular crystals of ammonia monohydrate within density functional theory

Author

Griffiths, Gareth I. G., Misquitta, Alston J., Fortes, A. Dominic, Pickard, Chris J., and Needs, Richard J.

Subjects
Condensed Matter - Materials Science, Quantum Physics
Abstract

A combination of first-principles density functional theory calculations and a search over structures predicts the stability of a proton-transfer modification of ammonia monohydrate with space group P4/nmm. The phase diagram is calculated with the PBE density functional, and the effects of a semi-empirical dispersion correction, zero point motion, and finite temperature are investigated. Comparison with MP2 and coupled cluster calculations shows that the PBE functional over-stabilizes proton transfer phases because too much electronic charge moves with the proton. This over-binding is partially corrected by using the PBE0 hybrid exchange-correlation functional, which increases the enthalpy of P4/nmm by about 0.6 eV per formula unit relative to phase I of ammonia monohydrate (AMH-I) and shifts the transition to the proton transfer phase from the PBE pressure of 2.8 GPa to about 10 GPa. This is consistent with experiment as proton transfer phases have not been observed at pressures up to ~9 GPa, while higher pressures have not yet been explored experimentally., Comment: 10 pages, 9 figures

Published
2011
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18. Dispersion interactions between semiconducting wires

Author

Misquitta, Alston J., Spencer, James, Stone, Anthony J., and Alavi, Ali

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science, Condensed Matter - Strongly Correlated Electrons
Abstract

The dispersion energy between extended molecular chains (or equivalently infinite wires) with non-zero band gaps is generally assumed to be expressible as a pair-wise sum of atom-atom terms which decay as $R^{-6}$. Using a model system of two parallel wires with a variable band gap, we show that this is not the case. The dispersion interaction scales as $z^{-5}$ for large interwire separations $z$, as expected for an insulator, but as the band gap decreases the interaction is greatly enhanced; while at shorter (but non-overlapping) separations it approaches a power-law scaling given by $z^{-2}$, \emph{i.e.} the dispersion interaction expected between \emph{metallic} wires. We demonstrate that these effects can be understood from the increasing length scale of the plasmon modes (charge fluctuations), and their increasing contribution to the molecular dipole polarizability and the dispersion interaction, as the band gaps are reduced. This result calls into question methods which invoke locality assumptions in deriving dispersion interactions between extended small-gap systems., Comment: 8 pages, 5 figures

Published
2010
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20. Nine questions on energy decomposition analysis.

Author

Juan Andrés, Paul W. Ayers, Roberto álvarez Boto, Ramon Carbó-Dorca, Henry Chermette, Jerzy Cioslowski, Julia Contreras-Garcia, David L. Cooper, Gernot Frenking, Carlo Gatti, Farnaz Heidar-Zadeh, Laurent Joubert, ángel Martín Pendás, Eduard Matito, István Mayer, Alston J. Misquitta, Yirong Mo, Julien Pilmé, Paul L. A. Popelier, Martin Rahm, Eloy Ramos-Cordoba, Pedro Salvador, W. H. Eugen Schwarz, Shant Shahbazian, Bernard Silvi, Miquel Solà, Krzysztof Szalewicz, Vincent Tognetti, Frank Weinhold, and émilie-Laure Zins

Published
2019
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21. Intermolecular Interactions

Author

Misquitta, Alston J., Leszczynski, Jerzy, editor, Kaczmarek-Kedziera, Anna, editor, Puzyn, Tomasz, editor, G. Papadopoulos, Manthos, editor, Reis, Heribert, editor, and K. Shukla, Manoj, editor

Published
2017
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23. Wild herbivores enhance resistance to invasion by exotic cacti in an African savanna

Author

Wells, H. B. M., Crego, R. D., (0000-0001-5309-7625) Alston, J., Ndungu, S. K., Khasoha, L. M., Reed, C. G., Hassan, A. A., Kurukura, S., Ekadeli, J., Namoni, M., Stewart, P. S., Kimuyu, D. M., Wolf, A. A., Young, T. P., Kartzinel, T. R., Palmer, T. M., Goheen, J. R., Pringle, R. M., Wells, H. B. M., Crego, R. D., (0000-0001-5309-7625) Alston, J., Ndungu, S. K., Khasoha, L. M., Reed, C. G., Hassan, A. A., Kurukura, S., Ekadeli, J., Namoni, M., Stewart, P. S., Kimuyu, D. M., Wolf, A. A., Young, T. P., Kartzinel, T. R., Palmer, T. M., Goheen, J. R., and Pringle, R. M.

Abstract

Whether wild herbivores confer biotic resistance to invasion by exotic plants remains a key question in ecology. There is evidence that wild herbivores can impede invasion by exotic plants, but it is unclear whether and how this generalises across ecosystems with varying wild herbivore diversity and functional groups of plants, particularly over long-term (decadal) time frames. Using data from three long-term (13- to 26-year) exclosure experiments in central Kenya, we tested the effects of wild herbivores on the density of exotic invasive cacti, Opuntia stricta and O. ficus-indica (collectively, Opuntia), which are among the worst invasive species globally. We also examined relationships between wild herbivore richness and elephant occurrence probability with the probability of O. stricta presence at the landscape level (6150 km2). Opuntia densities were 74% to 99% lower in almost all plots accessible to wild herbivores compared to exclosure plots. Opuntia densities also increased more rapidly across time in plots excluding wild herbivores. These effects were largely driven by megaherbivores (≥1000 kg), particularly elephants. At the landscape level, modelled Opuntia stricta occurrence probability was negatively correlated with estimated species richness of wild herbivores and elephant occurrence probability. On average, O. stricta occurrence probability fell from ~0.56 to ~0.45 as wild herbivore richness increased from 6 to 10 species and fell from ~0.57 to ~0.40 as elephant occurrence probability increased from ~0.41 to ~0.84. These multi-scale results suggest that any facilitative effects of Opuntia by wild herbivores (e.g. seed/vegetative dispersal) are overridden by suppression (e.g. consumption, uprooting, trampling). Synthesis. Our experimental and observational findings that wild herbivores confer resistance to invasion by exotic cacti add to evidence that conserving and restoring native herbivore assemblages (particularly megaherbivores) can increase commun

Published
2023

24. Mitigating pseudoreplication and bias in resource selection functions with autocorrelation-informed weighting

Author

(0000-0001-5309-7625) Alston, J., Fleming, C., (0000-0002-2947-6665) Kays, R., (0000-0001-6229-820X) Streicher, J., (0000-0001-8334-1510) Downs, C., (0000-0001-6477-4425) Ramesh, T., Reineking, B., (0000-0003-0575-6408) Calabrese, J., (0000-0001-5309-7625) Alston, J., Fleming, C., (0000-0002-2947-6665) Kays, R., (0000-0001-6229-820X) Streicher, J., (0000-0001-8334-1510) Downs, C., (0000-0001-6477-4425) Ramesh, T., Reineking, B., and (0000-0003-0575-6408) Calabrese, J.

Abstract

Resource selection functions are among the most commonly used statistical tools in both basic and applied animal ecology. They are typically parameterized using animal tracking data, and advances in animal tracking technology have led to increasing levels of autocorrelation between locations in such data sets. Because resource selection functions assume that data are independent and identically distributed, such autocorrelation can cause misleadingly narrow confidence intervals and biased parameter estimates. Data thinning, generalized estimating equations, and step selection functions have been suggested as techniques for mitigating the statistical problems posed by autocorrelation, but these approaches have notable limitations that include statistical inefficiency, unclear or arbitrary targets for adequate levels of statistical independence, constraints in input data, and (in the case of step selection functions) scale-dependent inference. To remedy these problems, we introduce a method for likelihood weighting of animal locations to mitigate the negative consequences of autocorrelation on resource selection functions. This method weights each observed location in an animal's movement track according to its level of autocorrelation, expanding confidence intervals to match an objective target (i.e., the effective sample size for Autocorrelated Gaussian Density Estimation) and accounting for bias that can arise when there are gaps in the movement track. In this study, we describe the mathematical principles underlying our method, demonstrate its practical advantages versus conventional approaches using simulations and empirical data on a water mongoose (\textit{Atilax paludinosus}), a caracal (\textit{Caracal caracal}), and a serval (\textit{Leptailurus serval}), and discuss pathways for further development of our method. We also provide a complete, annotated analytical workflow to help new users apply our method to their own animal tracking data using the \texttt{c

Published
2023

25. Environmental drivers of body size in North American bats

Author

(0000-0001-5309-7625) Alston, J., Keinath, D., Willis, C., Lausen, C., O'Keefe, J., Tyburec, J., Broders, H., Moosman, P., Carter, T., Chambers, C., Gillam, E., Geluso, K., Weller, T., Burles, D., Fletcher, Q., Norquay, K., Goheen, J., (0000-0001-5309-7625) Alston, J., Keinath, D., Willis, C., Lausen, C., O'Keefe, J., Tyburec, J., Broders, H., Moosman, P., Carter, T., Chambers, C., Gillam, E., Geluso, K., Weller, T., Burles, D., Fletcher, Q., Norquay, K., and Goheen, J.

Abstract

1. Bergmann's rule—which posits that larger animals live in colder areas—is thought to influence variation in body size within species across space and time, but evidence for this claim is mixed. 2. We used Bayesian hierarchical models to test four competing hypotheses for spatiotemporal variation in body size within 20 bat species across North America: (1) the heat conservation hypothesis, which posits that increased body size facilitates body heat conservation (and which is the traditional explanation for the mechanism underlying Bergmann's rule); (2) the heat mortality hypothesis, which posits that increased body size increases susceptibility to acute heat stress; (3) the resource availability hypothesis, which posits that increased body size is enabled in areas with more abundant food; and (4) the starvation resistance hypothesis, which posits that increased body size reduces susceptibility to starvation during acute food shortages. 3. Spatial variation in body mass was most consistently (and negatively) correlated with mean annual temperature, supporting the heat conservation hypothesis. Across time, variation in body mass was most consistently (and positively) correlated with net primary productivity, supporting the resource availability hypothesis. 4. Climate change could influence body size in animals through both changes in mean annual temperature and resource availability. Rapid reductions in body size associated with increasing temperatures have occurred in short-lived, fecund species, but such reductions will be obscured by changes in resource availability in longer-lived, less fecund species.

Published
2023

26. Data, code, and metadata for: Environmental drivers of body size in North American bats

Author

(0000-0001-5309-7625) Alston, J., Keinath, D., Willis, C., Lausen, C., O'Keefe, J., Tyburec, J., Broders, H., Moosman, P., Carter, T., Chambers, C., Gillam, E., Geluso, K., Weller, T., Burles, D., Fletcher, Q., Norquay, K., Goheen, J., (0000-0001-5309-7625) Alston, J., Keinath, D., Willis, C., Lausen, C., O'Keefe, J., Tyburec, J., Broders, H., Moosman, P., Carter, T., Chambers, C., Gillam, E., Geluso, K., Weller, T., Burles, D., Fletcher, Q., Norquay, K., and Goheen, J.

Abstract

Data, code, and metadata that can be used to reproduce the analyses underlying 'Environmental drivers of body size in North American bats' by Alston et al. 2023 Functional Ecology (Preprint: https://doi.org/10.1101/2021.07.28.454183). Individual data owners are detailed in the data. Data may only be used to reproduce the analyses underlying Alston et al. (2023). Any other use requires the written permission of the individual data owners. For more detailed information, please visit the metadata file.

Published
2023

27. A non-empirical intermolecular force-field for trinitrobenzene and its application in crystal structure prediction.

Author

Aina, Alex A., Misquitta, Alston J., and Price, Sarah L.

Subjects
*CRYSTAL structure, *TRINITROBENZENE, *MOLECULAR dynamics, *PERTURBATION theory, *CRYSTAL models
Abstract

An anisotropic atom–atom distributed intermolecular force-field (DIFF) for rigid trinitrobenzene (TNB) is developed using distributed multipole moments, dipolar polarizabilities, and dispersion coefficients derived from the charge density of the isolated molecule. The short-range parameters of the force-field are fitted to first- and second-order symmetry-adapted perturbation theory dimer interaction energy calculations using the distributed density-overlap model to guide the parameterization of the short-range anisotropy. The second-order calculations are used for fitting the damping coefficients of the long-range dispersion and polarization and also for relaxing the isotropic short-range coefficients in the final model, DIFF-srL2(rel). We assess the accuracy of the unrelaxed model, DIFF-srL2(norel), and its equivalent without short-range anisotropy, DIFF-srL0(norel), as these models are easier to derive. The model potentials are contrasted with empirical models for the repulsion–dispersion fitted to organic crystal structures with multipoles of iterated stockholder atoms (ISAs), FIT(ISA,L4), and with Gaussian Distributed Analysis (GDMA) multipoles, FIT(GDMA,L4), commonly used in modeling organic crystals. The potentials are tested for their ability to model the solid state of TNB. The non-empirical models provide more reasonable relative lattice energies of the three polymorphs of TNB and propose more sensible hypothetical structures than the empirical force-field (FIT). The DIFF-srL2(rel) model successfully has the most stable structure as one of the many structures that match the coordination sphere of form III. The neglect of the conformational flexibility of the nitro-groups is a significant approximation. This methodology provides a step toward force-fields capable of representing all phases of a molecule in molecular dynamics simulations. [ABSTRACT FROM AUTHOR]

Published
2021
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28. Competition between ultralong organic phosphorescence and thermally activated delayed fluorescence in dichloro derivatives of 9-benzoylcarbazole

Author

Amir Sidat, Federico J. Hernández, Ljiljana Stojanović, Alston J. Misquitta, and Rachel Crespo-Otero

Subjects
General Physics and Astronomy, Physical and Theoretical Chemistry
Abstract

Optoelectronic materials based on metal-free organic molecules represent a promising alternative to traditional inorganic devices. Significant attention has been devoted to the development of the third generation of OLEDs which are based on the temperature-activated delayed fluorescence (TADF) mechanism. In the last few years, several materials displaying ultra-long organic phosphorescence (UOP) have been designed using strategies such as crystal engineering and halogen functionalisation. Both TADF and UOP are controlled by the population of triplet states and the energy gaps between the singlet and triplet manifolds. In this paper, we explore the competition between TADF and UOP in the molecular crystals of three dichloro derivatives of 9H-carbazol-3-yl(phenyl)methanone. We investigate the excited state mechanisms in solution and the crystalline phase and address the effects of exciton transport and temperature on the rates of direct and reverse intersystem crossing under the Marcus-Levich-Jortner model. We also analyse how the presence of isomeric impurities and the stabilisation of charge transfer states affect these processes. Our simulations explain the different mechanisms observed for the three derivatives and highlight the role of intramolecular rotation and crystal packing in determining the energy gaps. This work contributes to a better understanding of the connection between chemical and crystalline structures that will enable the design of efficient materials.

Published
2022
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29. <scp>SNAPSHOT USA</scp> 2020: A second coordinated national camera trap survey of the United States during the <scp>COVID</scp> ‐19 pandemic

Author

Kays R., Cove M. V., Diaz J., Todd K., Bresnan C., Snider M., Lee T. E., Jasper J. G., Douglas B., Crupi A. P., Weiss K. C. B., Rowe H., Sprague T., Schipper J., Lepczyk C. A., Fantle-Lepczyk J. E., Davenport J., Zimova M., Farris Z., Williamson J., Fisher-Reid M. C., Rezendes D., King S. M., Chrysafis P., Jensen A. J., Jachowski D. S., King K. C., Herrera D. J., Moore S., van der Merwe M., Lombardi J. V., Sergeyev M., Tewes M. E., Horan R. V., Rentz M. S., Driver A., Brandt L. R. S. E., Nagy C., Alexander P., Maher S. P., Darracq A. K., Barr E. G., Hess G., Webb S. L., Proctor M. D., Vanek J. P., Lafferty D. J. R., Hubbard T., Jimenez J. E., McCain C., Favreau J., Fogarty J., Hill J., Hammerich S., Gray M., Rega-Brodsky C. C., Durbin C., Flaherty E. A., Brooke J., Coster S. S., Lathrop R. G., Russell K., Bogan D. A., Shamon H., Rooney B., Rockhill A., Lonsinger R. C., O'Mara M. T., Compton J. A., Barthelmess E. L., Andy K. E., Belant J. L., Petroelje T., Wehr N. H., Beyer D. E., Scognamillo D. G., Schalk C., Day K., Ellison C. N., Ruthven C., Nunley B., Fritts S., Whittier C. A., Neiswenter S. A., Pelletier R., DeGregorio B. A., Kuprewicz E. K., Davis M. L., Baruzzi C., Lashley M. A., McDonald B., Mason D., Risch D. R., Allen M. L., Whipple L. S., Sperry J. H., Alexander E., Wolff P. J., Hagen R. H., Mortelliti A., Bolinjcar A., Wilson A. M., Van Norman S., Powell C., Coletto H., Schauss M., Bontrager H., Beasley J., Ellis-Felege S. N., Wehr S. R., Giery S. T., Pekins C. E., LaRose S. H., Revord R. S., Hansen C. P., Hansen L., Millspaugh J. J., Zorn A., Gerber B. D., Rezendes K., Adley J., Sevin J., Green A. M., Sekercioglu C. H., Pendergast M. E., Mullen K., Bird T., Edelman A. J., Romero A., O'Neill B. J., Schmitz N., Vandermus R. A., Alston J. M., Kuhn K. M., Hasstedt S. C., Lesmeister D. B., Appel C. L., Rota C., Stenglein J. L., Anhalt-Depies C., Nelson C. L., Long R. A., Remine K. R., Jordan M. J., Elbroch L. M., Bergman D., Cendejas-Zarelli S., Sager-Fradkin K., Conner M., Morris G., Parsons E., Hernandez-Yanez H., McShea W. J., Kays, R., Cove, M. V., Diaz, J., Todd, K., Bresnan, C., Snider, M., Lee, T. E., Jasper, J. G., Douglas, B., Crupi, A. P., Weiss, K. C. B., Rowe, H., Sprague, T., Schipper, J., Lepczyk, C. A., Fantle-Lepczyk, J. E., Davenport, J., Zimova, M., Farris, Z., Williamson, J., Fisher-Reid, M. C., Rezendes, D., King, S. M., Chrysafis, P., Jensen, A. J., Jachowski, D. S., King, K. C., Herrera, D. J., Moore, S., van der Merwe, M., Lombardi, J. V., Sergeyev, M., Tewes, M. E., Horan, R. V., Rentz, M. S., Driver, A., Brandt, L. R. S. E., Nagy, C., Alexander, P., Maher, S. P., Darracq, A. K., Barr, E. G., Hess, G., Webb, S. L., Proctor, M. D., Vanek, J. P., Lafferty, D. J. R., Hubbard, T., Jimenez, J. E., Mccain, C., Favreau, J., Fogarty, J., Hill, J., Hammerich, S., Gray, M., Rega-Brodsky, C. C., Durbin, C., Flaherty, E. A., Brooke, J., Coster, S. S., Lathrop, R. G., Russell, K., Bogan, D. A., Shamon, H., Rooney, B., Rockhill, A., Lonsinger, R. C., O'Mara, M. T., Compton, J. A., Barthelmess, E. L., Andy, K. E., Belant, J. L., Petroelje, T., Wehr, N. H., Beyer, D. E., Scognamillo, D. G., Schalk, C., Day, K., Ellison, C. N., Ruthven, C., Nunley, B., Fritts, S., Whittier, C. A., Neiswenter, S. A., Pelletier, R., Degregorio, B. A., Kuprewicz, E. K., Davis, M. L., Baruzzi, C., Lashley, M. A., Mcdonald, B., Mason, D., Risch, D. R., Allen, M. L., Whipple, L. S., Sperry, J. H., Alexander, E., Wolff, P. J., Hagen, R. H., Mortelliti, A., Bolinjcar, A., Wilson, A. M., Van Norman, S., Powell, C., Coletto, H., Schauss, M., Bontrager, H., Beasley, J., Ellis-Felege, S. N., Wehr, S. R., Giery, S. T., Pekins, C. E., Larose, S. H., Revord, R. S., Hansen, C. P., Hansen, L., Millspaugh, J. J., Zorn, A., Gerber, B. D., Rezendes, K., Adley, J., Sevin, J., Green, A. M., Sekercioglu, C. H., Pendergast, M. E., Mullen, K., Bird, T., Edelman, A. J., Romero, A., O'Neill, B. J., Schmitz, N., Vandermus, R. A., Alston, J. M., Kuhn, K. M., Hasstedt, S. C., Lesmeister, D. B., Appel, C. L., Rota, C., Stenglein, J. L., Anhalt-Depies, C., Nelson, C. L., Long, R. A., Remine, K. R., Jordan, M. J., Elbroch, L. M., Bergman, D., Cendejas-Zarelli, S., Sager-Fradkin, K., Conner, M., Morris, G., Parsons, E., Hernandez-Yanez, H., and Mcshea, W. J.

Subjects
United State, Carnivora, Wild, mammal, Animals, Wild, Didelphimorphia, species distribution modeling, Birds, Bird, camera traps, biodiversity, biogeography, Cetartiodactyla, Lagomorpha, mammals, occupancy modeling, Animals, Humans, Mammals, Pandemics, United States, COVID-19, Ecology, Evolution, Behavior and Systematics, Pandemic, camera trap, Animal, Human
Abstract

Managing wildlife populations in the face of global change requires regular data on the abundance and distribution of wild animals, but acquiring these over appropriate spatial scales in a sustainable way has proven challenging. Here we present the data from Snapshot USA 2020, a second annual national mammal survey of the USA. This project involved 152 scientists setting camera traps in a standardized protocol at 1485 locations across 103 arrays in 43 states for a total of 52,710 trap-nights of survey effort. Most (58) of these arrays were also sampled during the same months (September and October) in 2019, providing a direct comparison of animal populations in 2 years that includes data from both during and before the COVID-19 pandemic. All data were managed by the eMammal system, with all species identifications checked by at least two reviewers. In total, we recorded 117,415 detections of 78 species of wild mammals, 9236 detections of at least 43 species of birds, 15,851 detections of six domestic animals and 23,825 detections of humans or their vehicles. Spatial differences across arrays explained more variation in the relative abundance than temporal variation across years for all 38 species modeled, although there are examples of significant site-level differences among years for many species. Temporal results show how species allocate their time and can be used to study species interactions, including between humans and wildlife. These data provide a snapshot of the mammal community of the USA for 2020 and will be useful for exploring the drivers of spatial and temporal changes in relative abundance and distribution, and the impacts of species interactions on daily activity patterns. There are no copyright restrictions, and please cite this paper when using these data, or a subset of these data, for publication.

Published
2022
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33. Clarifying space use concepts in ecology: range vs. occurrence distributions

Author

Alston, J., Fleming, C., Noonan, M., Tucker, M., Silva, I., Folta, C., Akre, T., Ali, A., Belant, J., Beyer, D., Blaum, N., Boehning-Gaese, K., Cunha De Paula, R., Dekker, J., Drescher-Lehman, J., Farwig, N., Fichtel, C., Fischer, C., Ford, A., Janssen, R., Jeltsch, F., Kappeler, P., Lapoint, S., Markham, A., Medici, P., Morato, R., Nathan, R., Olson, K., Patterson, B., Petroelje, T., Ramalho, E., Roesner, S., Santos, L., Schabo, D., Selva, N., Sergiel, A., Spiegel, O., Ullman, W., Zieba, F., Zwijacz-Kozica, T., Wittemyer, G., Fagan, W., Mueller, T., (0000-0003-0575-6408) Calabrese, J., Alston, J., Fleming, C., Noonan, M., Tucker, M., Silva, I., Folta, C., Akre, T., Ali, A., Belant, J., Beyer, D., Blaum, N., Boehning-Gaese, K., Cunha De Paula, R., Dekker, J., Drescher-Lehman, J., Farwig, N., Fichtel, C., Fischer, C., Ford, A., Janssen, R., Jeltsch, F., Kappeler, P., Lapoint, S., Markham, A., Medici, P., Morato, R., Nathan, R., Olson, K., Patterson, B., Petroelje, T., Ramalho, E., Roesner, S., Santos, L., Schabo, D., Selva, N., Sergiel, A., Spiegel, O., Ullman, W., Zieba, F., Zwijacz-Kozica, T., Wittemyer, G., Fagan, W., Mueller, T., and (0000-0003-0575-6408) Calabrese, J.

Abstract

Quantifying animal movements is necessary for answering a wide array of research questions in ecology and conservation biology. Consequently, ecologists have made considerable efforts to identify the best way to estimate an animal’s home range, and many methods of estimating home ranges have arisen over the past half century. Most of these methods fall into two distinct categories of estimators that have only recently been described in statistical detail: those that measure range distributions (methods such as Kernel Density Estimation that quantify the long-run behavior of a movement process that features restricted space use) and those that measure occurrence distributions (methods such as Brownian Bridge Movement Models and the Correlated Random Walk Library that quantify uncertainty in an animal movement path during a specific period of observation). In this paper, we use theory, simulations, and empirical analysis to demonstrate the importance of applying these two classes of space use estimators appropriately and distinctly. Conflating range and occurrence distributions can have serious consequences for ecological inference and conservation practice. For example, in most situations, home-range estimates quantified using occurrence estimators are too small, and this problem is exacerbated by ongoing improvements in tracking technology that enable more frequent and more accurate data on animal movements. We encourage researchers to use range estimators to estimate the area of home ranges and occurrence estimators to answer other questions in movement ecology, such as when and where an animal crosses a linear feature, visits a location of interest, or interacts with other animals.

Published
2022

34. New analytical tools for studying habitat selection in terrestrial mammals

Author

(0000-0001-5309-7625) Alston, J., Fleming, C. H., Calabrese, J., (0000-0001-5309-7625) Alston, J., Fleming, C. H., and Calabrese, J.

Abstract

The study of habitat selection is a foundational component of basic and applied animal ecology. Today, habitat selection in mammals is primarily studied using resource selection functions, a class of models that uses logistic regression to compare “used” to “available” habitat. However, these models have several statistical problems, including rampant pseudoreplication from failing to account for autocorrelation in modern animal movement data, no clear guidelines for sampling available habitat, and large amounts of numerical error from sampling too few available points. These problems are widely acknowledged but have no generally accepted solutions, so we propose three new methods for addressing them: likelihood weighting, Gaussian availability sampling, and numerical convergence checks. We demonstrate the practical advantages of these methods over conventional approaches using simulations and empirical data on a water mongoose (Atilax paludinosus), a caracal (Caracal caracal), and a serval (Leptailurus serval), and briefly demonstrate how to apply our methods to animal tracking data using the ‘ctmm’ R package. Broad uptake of these methods could substantially improve our estimates of habitat selection in mammals.

Published
2022

35. Autocorrelation-informed home range estimation: a review and practical guide

Author

(0000-0003-4850-6193) Simoes Silva, I. M., (0000-0002-9356-6518) Fleming, C. H., (0000-0003-4512-0535) Noonan, M. J., (0000-0001-5309-7625) Alston, J., Folta, C., (0000-0003-2433-9052) Fagan, W. F., (0000-0003-0575-6408) Calabrese, J., (0000-0003-4850-6193) Simoes Silva, I. M., (0000-0002-9356-6518) Fleming, C. H., (0000-0003-4512-0535) Noonan, M. J., (0000-0001-5309-7625) Alston, J., Folta, C., (0000-0003-2433-9052) Fagan, W. F., and (0000-0003-0575-6408) Calabrese, J.

Abstract

1. Modern tracking devices allow for the collection of high-volume animal tracking data at improved sampling rates over VHF radiotelemetry. Home range estimation is a key output from these tracking datasets, but the inherent properties of animal movement can lead traditional statistical methods to under- or overestimate home range areas. 2. The Autocorrelated Kernel Density Estimation (AKDE) family of estimators were designed to be statistically efficient while explicitly dealing with the complexities of modern movement data: autocorrelation, small sample sizes, and missing or irregularly sampled data. Although each of these estimators has been described in separate technical papers, here we review how these estimators work and provide a user-friendly guide on how they may be combined to reduce multiple biases simultaneously. 3. We describe the magnitude of the improvements offered by these estimators and their impact on home range area estimates, using both empirical case studies and simulations, contrasting their computational costs. 4. Finally, we provide guidelines for researchers to choose among alternative estimators and an R script to facilitate the application and interpretation of AKDE home range estimates.

Published
2022

36. Daily torpor reduces the energetic consequences of habitat selection for a widespread bat

Author

(0000-0001-5309-7625) Alston, J., Dillon, M. E., Keinath, D. A., Abernethy, I. M., Goheen, J. R., (0000-0001-5309-7625) Alston, J., Dillon, M. E., Keinath, D. A., Abernethy, I. M., and Goheen, J. R.

Abstract

Homeothermy requires increased metabolic rates as temperatures decline below the thermoneutral zone, so homeotherms typically select microhabitats within or near their thermoneutral zones during periods of inactivity. However, many mammals and birds are heterotherms that relax internal controls on body temperature when maintaining a high, stable body temperature is energetically costly. Such heterotherms should be less tied to microhabitats near their thermoneutral zones, and because heterotherms spend more time in torpor and expend less energy at colder temperatures, heterotherms may even select microhabitats in which temperatures are well below their thermoneutral zones. We studied how temperature and daily torpor influence selection of diurnal roosts by a heterothermic bat (Myotis thysanodes). We (1) quantified the relationship between ambient temperature and daily duration of torpor, (2) simulated daily energy expenditure over a range of microhabitat (roost) temperatures, and (3) quantified the influence of roost temperature on roost selection. While warm roosts substantially reduced energy expenditure of simulated homeothermic bats, heterothermic bats modulated their use of torpor to maintain a constant level of energy expenditure over the course of a day. Daily torpor expanded the range of energetically economical microhabitats, such that roost selection was independent of roost temperature. Our work adds to a growing literature documenting functions of torpor beyond its historical conceptualization as a last-resort measure to save energy during extended or acute energetic stress.

Published
2022

37. Animal movement as a cross-cutting theme at CASUS

Author

(0000-0003-0575-6408) Calabrese, J., (0000-0003-4850-6193) Simoes Silva, I. M., (0000-0001-5309-7625) Alston, J., Fleming, C., (0000-0003-0575-6408) Calabrese, J., (0000-0003-4850-6193) Simoes Silva, I. M., (0000-0001-5309-7625) Alston, J., and Fleming, C.

Abstract

The movement of animals through landscapes worldwide drives ecological processes, influences disease transmission, and governs how humans and wildlife interact. High resolution animal tracking data have transformed our ability to understand when, where, how, and why animals move. However, these data come with formidable statistical challenges including strong autocorrelation and context-dependent location errors and fix rates. Overcoming these hurdles requires an interdisciplinary effort that combines ecology, physics, geostatistics, signal processing, and computer science. In this talk, I detail ongoing work at CASUS in animal movement research, covering statistical methods and software development as well as applications in ecology, wildlife management, and autonomous vehicles research. I also highlight the role that aggregated, multispecies tracking datasets play in understanding animal movement and its consequences at the global scale. Finally, I discuss future directions for this research program, outlining potential points of collaboration with researchers coming from different disciplines.

Published
2022

38. Environmental drivers of body size in North American bats

Author

(0000-0001-5309-7625) Alston, J. and (0000-0001-5309-7625) Alston, J.

Abstract

Bergmann’s Rule—which posits that larger animals live in colder areas—is thought to influence variation in body size within species across space and time, but evidence for this claim is mixed. We tested four competing hypotheses for spatio-temporal variation in body size within bat species during the past two decades across North America: (1) the heat conservation hypothesis, which posits that increased body size facilitates body heat conservation (and which is the traditional explanation for the mechanism underlying Bergmann’s Rule); (2) the heat mortality hypothesis, which posits that increased body size increases susceptibility to acute heat stress; (3) the resource availability hypothesis, which posits that increased body size is enabled in areas with more abundant food; and (4) the starvation resistance hypothesis, which posits that increased body size reduces susceptibility to starvation during acute food shortages. Bayesian hierarchical models revealed that spatial variation in body mass was most consistently (and negatively) correlated with mean annual temperature, supporting the heat conservation hypothesis. Across time, variation in body mass was most consistently (and positively) correlated with net primary productivity, supporting the resource availability hypothesis. Climate change could influence body size in animals through both changes in mean annual temperature and in resource availability. Rapid reductions in body size associated with increasing temperatures have occurred in short-lived, fecund species, but such reductions likely transpire more slowly in longer-lived species.

Published
2022

39. Data and code for: Mitigating pseudoreplication and bias in resource selection functions with autocorrelation-informed weighting

Author

(0000-0001-5309-7625) Alston, J. M., Fleming, C. H., Kays, R., Streicher, J. P., Downs, C. T., Ramesh, T., Reineking, B., (0000-0003-0575-6408) Calabrese, J., (0000-0001-5309-7625) Alston, J. M., Fleming, C. H., Kays, R., Streicher, J. P., Downs, C. T., Ramesh, T., Reineking, B., and (0000-0003-0575-6408) Calabrese, J.

Abstract

Data and code that can be used to reproduce the analyses underlying 'Mitigating pseudoreplication and bias in resource selection functions with autocorrelation-informed weighting' by Alston, Fleming, et al. (Preprint: https://doi.org/10.1101/2022.04.21.489059) For more detailed information, please visit the README file.

Published
2022

40. Data, code, and metadata for: Daily torpor reduces the energetic consequences of microhabitat selection for a widespread bat

Author

(0000-0001-5309-7625) Alston, J., Dillon, M. E., Keinath, D. A., Abernethy, I. M., Goheen, J. R., (0000-0001-5309-7625) Alston, J., Dillon, M. E., Keinath, D. A., Abernethy, I. M., and Goheen, J. R.

Abstract

This repository contains all data, code, and metadata required to reproduce the results detailed in "Daily torpor reduces the energetic consequences of microhabitat selection for a widespread bat" by Alston et al.

Published
2022

42. New analytical tools for studying habitat selection in terrestrial mammals

Author

Alston, J., Fleming, C. H., and Calabrese, J.

Abstract

The study of habitat selection is a foundational component of basic and applied animal ecology. Today, habitat selection in mammals is primarily studied using resource selection functions, a class of models that uses logistic regression to compare “used” to “available” habitat. However, these models have several statistical problems, including rampant pseudoreplication from failing to account for autocorrelation in modern animal movement data, no clear guidelines for sampling available habitat, and large amounts of numerical error from sampling too few available points. These problems are widely acknowledged but have no generally accepted solutions, so we propose three new methods for addressing them: likelihood weighting, Gaussian availability sampling, and numerical convergence checks. We demonstrate the practical advantages of these methods over conventional approaches using simulations and empirical data on a water mongoose (Atilax paludinosus), a caracal (Caracal caracal), and a serval (Leptailurus serval), and briefly demonstrate how to apply our methods to animal tracking data using the ‘ctmm’ R package. Broad uptake of these methods could substantially improve our estimates of habitat selection in mammals.

Published
2022

43. Data and code for: Mitigating pseudoreplication and bias in resource selection functions with autocorrelation-informed weighting

Author

Alston, J. M., Fleming, C. H., Kays, R., Streicher, J. P., Downs, C. T., Ramesh, T., Reineking, B., and Calabrese, J.

Abstract

Data and code that can be used to reproduce the analyses underlying 'Mitigating pseudoreplication and bias in resource selection functions with autocorrelation-informed weighting' by Alston, Fleming, et al. (Preprint: https://doi.org/10.1101/2022.04.21.489059) For more detailed information, please visit the README file.

Published
2022
Full Text
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44. Daily torpor reduces the energetic consequences of habitat selection for a widespread bat

Author

Alston, J., Dillon, M. E., Keinath, D. A., Abernethy, I. M., and Goheen, J. R.

Subjects
climate change, VHF telemetry, fringed myotis (Myotis thysanodes), daily torpor, thermal ecology, Bayesian hierarchical models, temporal heterothermy
Abstract

Homeothermy requires increased metabolic rates as temperatures decline below the thermoneutral zone, so homeotherms typically select microhabitats within or near their thermoneutral zones during periods of inactivity. However, many mammals and birds are heterotherms that relax internal controls on body temperature when maintaining a high, stable body temperature is energetically costly. Such heterotherms should be less tied to microhabitats near their thermoneutral zones, and because heterotherms spend more time in torpor and expend less energy at colder temperatures, heterotherms may even select microhabitats in which temperatures are well below their thermoneutral zones. We studied how temperature and daily torpor influence selection of diurnal roosts by a heterothermic bat (Myotis thysanodes). We (1) quantified the relationship between ambient temperature and daily duration of torpor, (2) simulated daily energy expenditure over a range of microhabitat (roost) temperatures, and (3) quantified the influence of roost temperature on roost selection. While warm roosts substantially reduced energy expenditure of simulated homeothermic bats, heterothermic bats modulated their use of torpor to maintain a constant level of energy expenditure over the course of a day. Daily torpor expanded the range of energetically economical microhabitats, such that roost selection was independent of roost temperature. Our work adds to a growing literature documenting functions of torpor beyond its historical conceptualization as a last-resort measure to save energy during extended or acute energetic stress.

Published
2022

45. Data, code, and metadata for: Daily torpor reduces the energetic consequences of microhabitat selection for a widespread bat

Author

Alston, J., Dillon, M. E., Keinath, D. A., Abernethy, I. M., and Goheen, J. R.

Subjects
climate change, VHF telemetry, fringed myotis (Myotis thysanodes), daily torpor, thermal ecology, Bayesian hierarchical models, temporal heterothermy
Abstract

This repository contains all data, code, and metadata required to reproduce the results detailed in "Daily torpor reduces the energetic consequences of microhabitat selection for a widespread bat" by Alston et al.

Published
2022

47. Structures of CdSe and CdS Nanoclusters from Ab Initio Random Structure Searching

Author

Chris J. Pickard, Andrei V. Sapelkin, Alston J. Misquitta, Martin T. Dove, Kui Yu, and Lei Tan

Subjects
Crystallography, General Energy, Materials science, Ab initio, Random structure, Physical and Theoretical Chemistry, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Nanoclusters
Abstract

The possible structures of (CdSe)n and (CdS)n (n up to 34) nanoclusters were systematically studied using the ab initio random structure searching (AIRSS) method. We have been able to find stable, ...

Published
2019
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48. Efficacy of a Medical Directive to Reduce Inappropriate Indwelling Urinary Catheter Use on Orthopedic Wards

Author

Jina, R., Foley, L., Chan, S., Wong, E., Ward, S., Kuan, D., Wong, C., Wang, S-J., Lee, L., Hammond, M., Leu, R., Cuperfain, A., Perrella, A., Canfield, A., Woo, T., McCollum, A., Landry, V., Yetman, L., Theou, O., Andrew, M., Jarrett, P., Arya, R., Cristancho, S., Thain, J., Diachun, L., Tsui, C., Kim, K., Spencer, M., Reich, K., Moledina, A., Kwan, E., Keir, M., Fan, B.J.Y., Wong, R.Y.M., Reppas-Rindlisbacher, C., Lee, J., Siddhpuria, S., Gabor, C., De Freitas, S., Khalili, Y., Curkovic, A., Patterson, C., Naqvi, R., Wong, C.L., Koo, K., To, E., Stoian, M., Tung, J., Benjamin, S., Ho, J., Burrell, A., Chahine, S., Casey, G., Kekewich, M., Swain, K., Pridham, A., Morgan, A., Wilding, L., Moors, J., Khoury, L., Jabbar, A., Costa, A., Jafri, A., Osborne, A., Cowan, D., Onge, J. St., Pieruccini-Faria, F., Bray, N., Montero-Odasso, M., Abou-Sharkh, A., Mayo, N., Wall, M., Harvey, E., St-Jean, S., Albers, A., Bergeron, S., Bérubé, P., Morin, S., Turner, J., Martin, P., Zhang, Y.Z., Tannenbaum, C., Pulok, M., van der Valk, A., Rockwood, K., Dearing, M., Bowles, S., Isenor, J., Reeve, E., Piankova, P., Eintracht, S., Hoffer, L.J., Afilalo, J., Mate, K., Morais, J., Ahmed, U., Akter, R., Maksymowych, W., Martin, L., Hogan, D., Alston, J., Gandell, D., Cheung, E., Arora, R., Kundid, E., Ali, A., Martin, G., Versloot, J., Bartholomew, S., Robitaille, C., Plebon-Huff, S., Beauchet, O., Fung, S., Launay, C., Chabot, J., Galery, K., Dejager, S., Bineau, S., Berrut, G., Bobrowski, C., Brown, D., Contreras, J., Norris, M., Jaunkalns, R., Liu, B., Chertkow, H., Borrie, M., Feldman, H., Whitehead, V., Rylett, J., McGilton, K., Black, S., Masellis, M., Chuen, V., Chan, A., Alibhai, S., Chau, V., Church, S., Rogers, E., Squires, E., Colborne, A., Fenwick, P., Cahill, L., Collier-Jarvis, Krista, Mah, Jasmine, Cullen, S., Carroll, S., Cuthbertson, L.R., Stajduhar, K., Cloutier, D., Day, A., Ng, K., Dubé, J., Truemner, J., Best, S., Sargeant, P., Faisal, S., Ivo, J., McDougall, A., Bauer, J., Pritchard, S., Chang, F., Patel, T., Faulkner, C., Bronskill, S., Rosella, L., Stall, N., Savage, R., Zhu, L., Manuel, D., Rochon, P., Godin, J., Black, K., McNeil, S.A., Andrew, M.K., Gong, Z., Song, H., Thrall, S., Wang, X.M., Allaby, C., Papaioannou, A., Gorman, M., MacGrath, M., Haddad, S.M. Hassan, Scott, C.J.M., Arnott, S.R., Ozzoude, M., Swartz, R.H., Mandzia, J., Kwan, D., Beaton, D., Bartha, R., Harasym, P., Brisbin, S., Quail, P.B., Venturato, L., Sinnarajah, A., Virk, N., Kaasalainen, S., Sussman, T., Hanson, H., Sharon, S., Holroyd-Leduc, J., Haslam, L., DePaul, V., Woo, K., Donnelly, C., Auais, M., Haviva, C., Zimmer, Z., Jacob, K., Sonjak, V., Hajj, G., Chevalier, S., Lamarche, M., Janower, A., John, P. St., Jayanama, K., Jeffrey, E., Ji, A. (Tianshu), McGregor, M., Kow, J., Kehler, S., Giacomantonio, N., Firth, W., Blanchard, C., Kelly, S., Lorbergs, A., Crilly, R., Knoefel, F., Sabra, I., Wallace, B., Breau, M., Sweet, L., Goubran, R., Frank, A., Kokorelias, K., Cronin, S., Eftekhar, P., Munce, S., Jagal, S., Vellani, S., Wang, C., Salbach, N., Colella, T., Kontos, P., Grigorovich, A., Chau, B., Cameron, J., Krause, K., Lam, K., Arnold, C., Wu, W., Piggott, K., Parikh, R., Hillier, L.M., Lu, S.K., Gevaert, V., Walker, S., Lu, S., Wong, W., Gregg, S., Bedirian, W., Skimson, K., Milligan, J., Lovett, M., Negm, A., Ioannidis, G., Petruccelli, D., Winemaker, M., Luthra, A.S., de Jesus, I.T. Machado, Gratão, A.C. Martins, Nascimento, C.M. Crispim, de Souza Orlandi, F., de Oliveira Gomes, G.A., Say, K. Gramani, dos Santos, A. Angelini, Cominetti, M.R., Pavarini, S.C. Iost, Zazzetta, M.S., Madden, Ken, Feldman, Boris, Meneilly, Graydon, Makhani, A., Qureshi, S., Hunter, K.F., Wagg, A., Gibson, W., Marion, M., Monor, A., Malik, S., O’Donoghue, C., Marr, S., Wilson, J. McKinnon, Doleweerd, J., Berezny, T., Mayo, A., Senechal, M., Boudreau, J., Belanger, M., Bouchard, D., McGarrigle, L., Wallace, L., Howlett, S.E., Mehta, N., Ghuman, I., Mehta, M., Brode, S., Mehrabi, M., Marras, T., Mele, B., Merrikh, D., Ismail, Z., Goodarzi, Z., Mercer, S., Babb, K., Nauth, S., Tait, G., Liberman, D., Devine, L., Nepal, R.M., Vojicic, J., Dion, S., Major, M., Isturiz, R.E., Nguyen, Q. Dinh, Nicholson, K., Fortin, M., Griffith, L., Terry, A., Williamson, T., Mangin, D., Stranges, S., Pageau, F., van der Horst, M-L., McArthur, C., Jain, R., Jaglal, S., Adachi, J.D., Giangregorio, L., Parmar, J., Brémault-Phillips, S., Duggleby, W., Charles, L., Tian, P.G. Jaminal, Bedaba, R., Rolfson, D., Torti, J., Dobbs, B., Khera, S., Abbasi, M., Chan, K., Carr, F., Triscott, J., Huang, J., Moores, D., Cerna, J., Jamieson, J., Jensen, L., Johnson, C., Chow, J., Guzak, J., Mathura, P., Sun, X., Pearce, P., Dempsey, E., Mahon, A., Pérez-Zepeda, U., Borda, M-G., Almeda-Valdés, P., Cesari, M., Peters, M-L., Davidson, S., Reece, K., Spira, N., Uranis, C., Whelan, L., Ryan, D.P., Brown, D.M., Saha, A., Thiyagalingam, S., Wachtel, J., Ramasamy, D., Schmidt, K., Nobleza, S., Gordon, C., Hung, M., Thangaraja, M., Searle, S.D., Ellis, H. Logan, Ramlakhan, D., Davis, D., Sekhon, H., Sepehri, K., Song, X., Chinda, B., Braley, M., Zou, M., Tang, B., Garm, A., Park, G., Sirisegaram, L., Sarquis-Adamson, Y., Smallbone, J., Posner, A., Yogaparan, T., Kelly, R., Singh, S., Keetch, K., Heiazi, S., Sandercock, J., Shyr, C., D’Arcy, R., McDermid, R., Clarke, B., Hanson, C., Tate, R., Shah, N., Resnick, J., Amin, S., Manzoor, S., Mistry, N., Fless, K., Rezai, F., Ovnanian, V., Yodice, P., Torbiak, L., Schmaltz, H., Trenaman, S., Kirkland, S., Bodkin, R. J., Wang, K., Ganesh, V., Neat, C., Raber, C., An, H., Beyzaei, N., Lau, C., Lee, F., Cox, L., McElhaney, J., McNeil, S., Wong, T., McKellar, L., Dasgupta, M., Vasudev, A., Burhan, A., O’Regan, N., Yeung, C., Srinathan, S., and Dhaliwal, R.

Subjects
Abstracts, Geriatrics and Gerontology, Gerontology
Published
2019

Catalog

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