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1. Variation in Fractal Symmetry of Annual Growth in Aspen as an Indicator of Developmental Stability in Trees

Author

Jordan P. Sinclair, Daniel M. Kashian, John B. Bradford, and D. Carl Freeman

Subjects
dendrochronology, fractal patterns, developmental instability, physiological response, plant stress, symmetry of scale, Mathematics, QA1-939
Abstract

Fractal symmetry is symmetry across scale. If one looks at a branch of a tree its branching pattern is reminiscent of the tree as a whole. Plants exhibit a number of different symmetries, including bilateral, rotational, translational, and fractal; deviations from each of these types has been associated with organisms developing in stressful environments. Here, we explore the utilization and meaning of fractal analysis on annual growth ring production in woody plants. Early detection of stress in plants is difficult and the compounding effects of multiple or severe stressors can lead to irreversible damage or death. Annual wood production was used to produce a time series for individuals from stands classified as either high vigor or low vigor (a general measure of health). As a measure of symmetry over time, the fractal dimension of each time series was determined and compared among vigor classes. We found that individuals obtained from low vigor sites had a significantly lower fractal dimension than those from high vigor sites. These results agree with patterns found in a variety of other organisms, and we argue that the reduced fractal dimension is related to a loss in system complexity of stressed individuals.

Published
2015
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2. Total knee arthroplasty patients using the in-home X10 machine fully recovered. No additional therapy required

Author

Robert J Ference, Daisy A Ference, D. Carl Freeman, and Erin Rempher

Subjects
medicine.medical_specialty, Rehabilitation, Additional Therapy, business.industry, medicine.medical_treatment, Prehabilitation, Total knee arthroplasty, Quadriceps strength, Single surgeon, Total knee, Article, medicine, Physical therapy, Orthopedics and Sports Medicine, business, Range of motion
Abstract

Following total knee arthroplasties patients using the X10 increased their quadriceps strength 120% at 30 days post-surgery compared to their pre-surgical baseline. This contrasts sharply with contrast studies outpatient physical therapy that show patients suffer a 50–60% quadriceps strength deficit at 30 days post-surgery. For X10 patients, the average range of motion at 30 days was 124 degrees and at discharge it was 128 degrees (mean 43 days). The trial involved a single surgeon and two groups. Group one (21 patients) used only the X10 for pre-habilitation and rehabilitation, while group two (20 patients) used X10 alone for pre-habilitation and then utilized the X10 plus home care plus outpatient physical therapy for rehabilitation. Adding home care and outpatient physical therapy did not improve outcomes compared to patients who utilized X10 alone. Our results show no significant difference between the two groups. Indicating that the X10 by itself is adequate to completely rehabilitation patients from total knee arthroplasties. Finally, we compared our results to those of Calatayud et al.1 who monitored two groups of patients, one group had only physical therapy for rehabilitation while the other group used physical therapy for both prehabilitation and rehabilitation. Our results were superior to Calatayud et al.1 for extension, flexion, and quadriceps strength; for each of these measures the X10 treatment groups improved over time, while the Calatayud et al.1 groups showed losses.

Published
2021

5. Variation in Fractal Symmetry of Annual Growth in Aspen as an Indicator of Developmental Stability in Trees

Author

Daniel M. Kashian, Jordan P. Sinclair, D. Carl Freeman, and John B. Bradford

Subjects
Physics and Astronomy (miscellaneous), Wood production, lcsh:Mathematics, General Mathematics, dendrochronology, fractal patterns, food and beverages, Early detection, lcsh:QA1-939, Fractal analysis, Fractal dimension, developmental instability, Annual growth %, symmetry of scale, Combinatorics, Fractal, plant stress, Chemistry (miscellaneous), Statistics, Computer Science (miscellaneous), Dendrochronology, physiological response, Mathematics, Woody plant
Abstract

Fractal symmetry is symmetry across scale. If one looks at a branch of a tree its branching pattern is reminiscent of the tree as a whole. Plants exhibit a number of different symmetries, including bilateral, rotational, translational, and fractal, deviations from each of these types has been associated with organisms developing in stressful environments. Here, we explore the utilization and meaning of fractal analysis on annual growth ring production in woody plants. Early detection of stress in plants is difficult and the compounding effects of multiple or severe stressors can lead to irreversible damage or death. Annual wood production was used to produce a time series for individuals from stands classified as either high vigor or low vigor (a general measure of health). As a measure of symmetry over time, the fractal dimension of each time series was determined and compared among vigor classes. We found that individuals obtained from low vigor sites had a significantly lower fractal dimension than those from high vigor sites. These results agree with patterns found in a variety of other organisms, and we argue that the reduced fractal dimension is related to a loss in system complexity of stressed individuals.

Published
2015

6. A noninvasive mechanical treatment to reduce the visible appearance of cellulite

Author

Paul J, Roubal, Michael J, Busuito, D Carl, Freeman, and Jeffrey D, Placzek

Subjects
Adult, Young Adult, Treatment Outcome, Adipose Tissue, Humans, Female, Cosmetic Techniques, Equipment Design, Cellulite, Middle Aged, Aged
Abstract

Cellulite is a cosmetic condition of subcutaneous fat herniation through fibrous connective tissue that results in a dimpled appearance of the skin. Occurring in approximately 85% to 90% of all women worldwide, cellulite has been well studied. The result has been the development of a plethora of treatment protocols yielding little to no success. We describe a noninvasive mechanical treatment for women with cellulite, evaluating the safety and effectiveness of a technique that utilizes a unique patented device for the reduction of the visible appearance of cellulite.

Published
2017

7. Consanguineous mating, specialization, and the environment: How multiple variable interactions affect the evolution of dioecy

Author

D. Carl Freeman, Glenn D. Maxwell, and Jordan P. Sinclair

Subjects
education.field_of_study, Ecology, Dioecy, Population, Plant Science, Plants, Sex Determination Processes, Biology, Mating system, Biological Evolution, Models, Biological, Gene Expression Regulation, Plant, Specialization (functional), Genetics, Inbreeding depression, Biological dispersal, Inbreeding, Mating, education, Ecosystem, Plant Physiological Phenomena, Ecology, Evolution, Behavior and Systematics, Demography
Abstract

UNLABELLED PREMISE The evolution of dioecy in plants is usually modeled as a consequence of self-fertilization. While increased seed and pollen production and dispersal patterns of specialized unisexuals have been examined, mating among relatives and interaction effects have been largely ignored. Here, we examine multiple variables simultaneously providing a more ecologically realistic set of conditions favoring the evolution of dioecy. • METHODS We developed two complementary models to explore the evolution of dioecious plants. In both models, we examined the effects of inbreeding, compensation, and specialization on unisexual invasibility and were able to directly measure the influence of related matings on such a system. • KEY RESULTS Our results support previous studies indicating dispersal specialization, consanguineous mating, and inbreeding depression facilitate the evolution of dioecy. However, our results suggest that it is the interaction effect of multiple forces acting simultaneously that allows for unisexual invasion at thresholds and frequencies witnessed in nature. Additionally, our results suggest that subdioecious populations often result, and depending on population conditions, dioecy evolves at different rates, lending importance to the ecological and life history conditions of the species. • CONCLUSION Mating among relatives significantly enhances the invasibility of a unisexual mutant into a hermaphroditic population and lowers the levels of inbreeding depression required for invasion than previously reported conditions for unisexual invasion especially, if we consider multiple pressures simultaneously.

Published
2013

8. The effects of drought and disturbance on the growth and developmental instability of loblolly pine (Pinus taeda L.)

Author

Stanley G. Kitchen, John M. Emlen, Jagadish Malol, John H. Graham, Elizabeth Bankstahl, Jeffrey J. Duda, Michelle L. Brown, Harold E. Balbach, Anthony J. Krzysik, and D. Carl Freeman

Subjects
Disturbance (geology), Ecology, Environmental change, media_common.quotation_subject, General Decision Sciences, Vegetation, Biology, Instability, Competition (biology), Ecological indicator, Soil water, Precipitation, Ecology, Evolution, Behavior and Systematics, media_common
Abstract

a b s t r a c t Ecological indicators provide early warning of adverse environmental change, helping land managers adaptively manage their resources while minimizing costly remediation. In 1999 and 2000, we studied two such indicators, growth and developmental instability, of loblolly pine (Pinus taeda L.) influenced by mechanized infantry training at Fort Benning, Georgia. Disturbed areas were used for military train- ing; tracked and wheeled vehicles damaged vegetation and soils. Highly disturbed sites had fewer trees, diminished ground cover, warmer soils in the summer, and more compacted soils with a shallower A- horizon. We hypothesized that disturbance would decrease the growth of needles, branches, and tree rings, increase the complexity of tree rings, and increase the developmental instability of needles. Con- trary to our expectations, however, disturbance enhanced growth in the first year of the study, possibly by reducing competition. In the second year, a drought reduced growth of branches and needles, eliminating the stimulatory effect of disturbance. Growth-ring widths increased with growing-season precipitation, and decreased with growing-season temperature over the last 40 years. Disturbance had no effect on tree-ring complexity, as measured by the Hurst exponent. Within-fascicle variation of current-year nee- dle length, a measure of developmental instability, differed among the study populations, but appeared unrelated to mechanical disturbance or drought.

Published
2012

9. Correlations between plant phylogenetic and functional diversity in a high altitude cold salt desert depend on sheep grazing season: Implications for range recovery

Author

John M. Emlen, D. Carl Freeman, W. Bruce Campbell, and Silvia Lopez Ortiz

Subjects
Phylogenetic diversity, Ecology, Range (biology), Lineage (evolution), Grazing, General Decision Sciences, Habit (biology), Plant community, Ecosystem, Species richness, Biology, Ecology, Evolution, Behavior and Systematics
Abstract

Environmental impact alters assemblages by increasing species relatedness, thus reducing phylogenetic and functional diversity. We assessed whether different controlled grazing regimes influenced the recovery of plant phylogenetic diversity (Average Taxonomic Distinctness, ATD) and functional diversity based on plant growth habit (GH) and life cycle duration (LCD) [Shannon-Weiner Index (H’), −ln(Simpson's Index, D)] in pastures from previously unmanaged and highly overgrazed conditions. Plant presence/absence data were collected during August 2006 from a high altitude cold salt desert in south-western Utah, where controlled grazing has been maintained for over 70 years to study range restoration. Winter-spring and spring grazed pastures were examined at four grazing levels: ungrazed, light, medium, and heavy, with each level differing in the number of animal use days per hectare relative to available forage biomass. For winter-spring, animal use days were divided equally between the two seasons. Winter-spring grazing promoted recovery of plant phylogenetic and functional diversity compared to spring grazing as reflected by the consistently higher values of ATD, and the stability of species composition within each ecological trait and their similarity to values for ungrazed pastures. Spring grazing was detrimental to recovery efforts and resulted in the reduction of palatable non-grass species, ATD, and functional diversity with increased grazing intensity. Many significant positive correlations between phylogenetic and functional diversity indices existed during spring, but not winter-spring grazing. While H’(GH) was uncorrelated with ATD during winter-spring, it was positively correlated in spring, suggesting species in the plant community (based on growth habit) during spring were randomly assembled without influence from local species interactions, and that different growth habits are conserved within lineages so that communities randomly assembled from more lineages will have a greater diversity of growth habits than communities assembled from fewer lineages. H’(LCD) was negatively correlated with ATD during winter-spring, suggesting local species interactions naturally influence assemblage composition regarding life cycle duration. As such, species within the same lineage likely interact (compete) more for scarce resources because they share similar life cycle durations, thus leading to greater trait variation in communities with fewer lineages than in those with many lineages. Yet, this correlation was positive during spring, suggesting an overriding effect from grazing rather than local species interactions. Hence, sheep grazing at the DER appears to be a season-dependent driver of plant phylogenetic and functional diversity, and the correlations between them. We recommend Average Taxonomic Distinctness and functional diversity based on growth habit and life cycle duration be considered as significant developments in the construction of practical rapid assessment tools for biomonitoring and feedback regarding grazing impacts in similar ecosystems.

Published
2010

10. Differential Phytosociological Interactions Involving Male and FemaleAtriplex bonnevillensis

Author

Matthew J. Rinella, John M. Emlen, Jordan P. Sinclair, D. Carl Freeman, and Jessica Snelgrove

Subjects
Abiotic component, Ecological niche, Atriplex, Ecology, media_common.quotation_subject, Niche, Niche differentiation, Interspecific competition, Biology, Halogeton glomeratus, biology.organism_classification, Competition (biology), Ecology, Evolution, Behavior and Systematics, media_common
Abstract

Wind-pollinated dioecious plants often exhibit spatial segregation of the sexes. This partial niche separation has most often been explored using abiotic niche axes. However, if the sexes are truly separated in space, then they are apt to encounter different plant species that may heavily affect growth and reproduction. Also, to the extent that their niches differ, the sexes may respond differently to the same co-occurring species. Here we examine interspecific interactions that influence male and female reproductive potential in Atriplex bonnevillensis. Using Emlen's interaction assessment, a technique which assesses species interactions based on cover classes, we show that Salsola species compete significantly with females but not males, while Halogeton glomeratus competes with males but not females. The effect of competition only became apparent when we corrected for site-specific fertility. These results imply that differential competition must be considered when studying dioecious plants th...

Published
2009

11. Species richness, equitability, and abundance of ants in disturbed landscapes

Author

John H. Graham, John C. Zak, Michael P. Wallace, John M. Emlen, Jonathan P. Nutter, Jeffrey J. Duda, Catherine Chamberlin-Graham, Hal E. Balbach, David A. Kovacic, Anthony J. Krzysik, D. Carl Freeman, and W. Russell Long

Subjects
Disturbance (geology), Intermediate Disturbance Hypothesis, Ecology, Abundance (ecology), Soil texture, General Decision Sciences, Environmental science, Species diversity, Vegetation, Species richness, Ecology, Evolution, Behavior and Systematics, Spatial heterogeneity
Abstract

Ants are used as indicators of environmental change in disturbed landscapes, often without adequate understanding of their response to disturbance. Ant communities in the southeastern United States displayed a hump-backed species richness curve against an index of landscape disturbance. Forty sites at Fort Benning, in west-central Georgia, covered a spectrum of habitat disturbance (military training and fire) in upland forest. Sites disturbed by military training had fewer trees, less canopy cover, more bare ground, and warmer, more compact soils with shallower A-horizons. We sampled ground-dwelling ants with pitfall traps, and measured 15 habitat variables related to vegetation and soil. Ant species richness was greatest with a relative disturbance of 43%, but equitability was greatest with no disturbance. Ant abundance was greatest with a relative disturbance of 85%. High species richness at intermediate disturbance was associated with greater within-site spatial heterogeneity. Species richness was also associated with intermediate values of the normalized difference vegetation index (NDVI), a correlate of net primary productivity (NPP). Available NPP (the product of NDVI and the fraction of days that soil temperature exceeded 25 °C), however, was positively correlated with species richness, though not with ant abundance. Species richness was unrelated to soil texture, total ground cover, and fire frequency. Ant species richness and equitability are potential state indicators of the soil arthropod community. Moreover, equitability can be used to monitor ecosystem change.

Published
2009

12. Life Span Extension and Neuronal Cell Protection by Drosophila Nicotinamidase

Author

Robert Arking, Guri Tzivion, Karina Balan, D. Carl Freeman, Gregory S. Miller, Kenneth Maiese, Vitaly Balan, Alexander Kaplun, Zhao Zhong Chong, Faqi Li, Ludmila Kaplun, and Mark F A VanBerkum

Subjects
Transcription, Genetic, Cell Survival, Longevity, Saccharomyces cerevisiae, Cell, Calorie restriction, Models, Biological, Biochemistry, Histone Deacetylases, Phosphatidylinositol 3-Kinases, Molecular Basis of Cell and Developmental Biology, Osmotic Pressure, Chlorocebus aethiops, medicine, Animals, Drosophila Proteins, Humans, Sirtuins, Heat shock, Molecular Biology, Caloric Restriction, Neurons, biology, Schneider 2 cells, Cell Biology, biology.organism_classification, Nicotinamidase, Oxidative Stress, Drosophila melanogaster, medicine.anatomical_structure, COS Cells, Mutation, Heat-Shock Response, Drosophila Protein
Abstract

The life span of model organisms can be modulated by environmental conditions that influence cellular metabolism, oxidation, or DNA integrity. The yeast nicotinamidase gene pnc1 was identified as a key transcriptional target and mediator of calorie restriction and stress-induced life span extension. PNC1 is thought to exert its effect on yeast life span by modulating cellular nicotinamide and NAD levels, resulting in increased activity of Sir2 family class III histone deacetylases. In Caenorhabditis elegans, knockdown of a pnc1 homolog was shown recently to shorten the worm life span, whereas its overexpression increased survival under conditions of oxidative stress. The function and regulation of nicotinamidases in higher organisms has not been determined. Here, we report the identification and biochemical characterization of the Drosophila nicotinamidase, D-NAAM, and demonstrate that its overexpression significantly increases median and maximal fly life span. The life span extension was reversed in Sir2 mutant flies, suggesting Sir2 dependence. Testing for physiological effectors of D-NAAM in Drosophila S2 cells, we identified oxidative stress as a primary regulator, both at the transcription level and protein activity. In contrast to the yeast model, stress factors such as high osmolarity and heat shock, calorie restriction, or inhibitors of TOR and phosphatidylinositol 3-kinase pathways do not appear to regulate D-NAAM in S2 cells. Interestingly, the expression of D-NAAM in human neuronal cells conferred protection from oxidative stress-induced cell death in a sirtuin-dependent manner. Together, our findings establish a life span extending the ability of nicotinamidase in flies and offer a role for nicotinamide-modulating genes in oxidative stress regulated pathways influencing longevity and neuronal cell survival.

Published
2008

13. Ant Community Composition Across a Gradient of Disturbed Military Landscapes at Fort Benning, Georgia

Author

John C. Zak, John M. Emlen, Jonathan P. Nutter, Hal E. Balbach, Catherine Chamberlin-Graham, David A. Kovacic, Anthony J. Krzysik, W. Russell Long, Jeffrey J. Duda, John H. Graham, D. Carl Freeman, and Michael P. Wallace

Subjects
Pogonomyrmex badius, Crematogaster, biology, Soil texture, Ecology, ved/biology, Aphaenogaster, ved/biology.organism_classification_rank.species, Dorymyrmex, Vegetation, Pheidole bicarinata, biology.organism_classification, Geography, Indicator species, Ecology, Evolution, Behavior and Systematics
Abstract

Military training, soil texture, and ground cover influence ant communities at Fort Benning, a military installation in west-central Georgia. We sampled 81,237 ground-dwelling ants (47 species in 20 genera) with pitfall traps at 40 sites on a continuum from nearly pristine forest to highly disturbed training areas. We also measured 15 environmental variables related to vegetation and soil. Sites disturbed by military training had fewer trees, less canopy cover, more bare ground, and more compact soils with shallower A-horizons than comparable undisturbed sites. Pheidole bicarinata, Dorymyrmex smithi, and Pogonomyrmex badius dominated the most highly disturbed sites. Competitively submissive myrmicines, such as Aphaenogaster and Crematogaster, and formicines, such as Camponotus and Formica, were abundant in the undisturbed sites. Solenopsis invicta occurred in all but the least disturbed sites. Ant community composition was a useful indicator of disturbance at Fort Benning.

Published
2008

14. Genotype, soil type, and locale effects on reciprocal transplant vigor, endophyte growth, and microbial functional diversity of a narrow sagebrush hybrid zone in Salt Creek Canyon, Utah

Author

John C. Zak, Regina S. Redman, D. Carl Freeman, E. Durant McArthur, Kathleen J. Miglia, and Russell J. Rodriguez

Subjects
education.field_of_study, Ecology, Population, food and beverages, Edaphic, Plant Science, Biology, Soil type, Gene flow, Hybrid zone, Microbial population biology, Agronomy, Habitat, Genetics, education, Ecology, Evolution, Behavior and Systematics, Hybrid
Abstract

When addressing the nature of ecological adaptation and environmental factors limiting population ranges and contributing to speciation, it is important to consider not only the plant's genotype and its response to the environment, but also any close interactions that it has with other organisms, specifically, symbiotic microorganisms. To investigate this, soils and seedlings were reciprocally transplanted into common gardens of the big sagebrush hybrid zone in Salt Creek Canyon, Utah, to determine location and edaphic effects on the fitness of parental and hybrid plants. Endophytic symbionts and functional microbial diversity of indigenous and transplanted soils and sagebrush plants were also examined. Strong selection occurred against the parental genotypes in the middle hybrid zone garden in middle hybrid zone soil; F(1) hybrids had the highest fitness under these conditions. Neither of the parental genotypes had superior fitness in their indigenous soils and habitats; rather F(1) hybrids with the nonindigenous maternal parent were superiorly fit. Significant garden-by-soil type interactions indicate adaptation of both plant and soil microorganisms to their indigenous soils and habitats, most notably in the middle hybrid zone garden in middle hybrid zone soil. Contrasting performances of F(1) hybrids suggest asymmetrical gene flow with mountain, rather than basin, big sagebrush acting as the maternal parent. We showed that the microbial community impacted the performance of parental and hybrid plants in different soils, likely limiting the ranges of the different genotypes.

Published
2007

15. A robust method for automated background subtraction of tissue fluorescence

Author

Raja Rabah, Vaman M. Naik, Rachel E. Weber, Abhilash Pandya, Alex Cao, D. Carl Freeman, Jagdish S. Thakur, Gregory W. Auner, Gulay K. Serhatkulu, Ratna Naik, and H. Dai

Subjects
Polynomial regression, Physics, Background subtraction, business.industry, Ranging, Residual, Noise (electronics), Imaging phantom, symbols.namesake, Optics, symbols, General Materials Science, Raman spectroscopy, business, Algorithm, Spectroscopy, Raman scattering
Abstract

This paper introduces a new robust method for the removal of background tissue fluorescence from Raman spectra. Raman spectra consist of noise, fluorescence and Raman scattering. In order to extract the Raman scattering, both noise and background fluorescence must be removed, ideally without human intervention and preserving the original data. We describe the rationale behind our robust background subtraction method, determine the parameters of the method and validate it using a Raman phantom against other methods currently used. We also statistically compare the methods using the residual mean square (RMS) with a fluorescence-to-signal (F/S) ratio ranging from 0.1 to 1000. The method, ‘adaptive minmax’, chooses the subtraction method based on the F/S ratio. It uses multiple fits of different orders to maximize each polynomial fit. The results show that the adaptive minmax method was significantly better than any single polynomial fit across all F/S ratios. This method can be implemented as part of a modular automated real-time diagnostic in vivo Raman system. Copyright © 2007 John Wiley & Sons, Ltd.

Published
2007

16. SEX AND THE LONELY ATRIPLEX

Author

E. Durant McArthur, D. Carl Freeman, Kathleen J. Miglia, Michelle Nilson, and Michelle L. Brown

Subjects
Atriplex, Ecology, Botany, Biology, biology.organism_classification, Ecology, Evolution, Behavior and Systematics, Sex ratio
Published
2007

17. Interaction Assessment: A modeling tool for predicting population dynamics from field data

Author

John M. Emlen, D. Carl Freeman, Jeffrey J. Duda, and Matt D. Kirchhoff

Subjects
education.field_of_study, Environmental change, Computer science, business.industry, Ecology, Range (biology), Ecological Modeling, Model selection, Ecology (disciplines), Population, Environmental resource management, Field (geography), Population model, Habitat, education, business
Abstract

Interaction Assessment (INTASS) is a field and analytic methodology for constructing population dynamics models. Because data collected in generating a model for one species comprise much of the information needed for other species, a small increase in effort can result in simultaneous expressions for the dynamics of multiple species. These expressions can be used to simulate whole community responses to environmental change, including management actions. Since publication of the most recent paper in this series, the INTASS methodology has undergone a large number of developments. These include the use of conceptual models to direct field and modeling efforts and incorporation of an information theoretic approach to model selection. We review these modifications and additions, applying them to a population of Sitka black-tailed deer ( Odocoilius hemionis ) in Alaska and to cheatgrass ( Bromus tectorum ) at the Desert Experimental Range in Utah. In both cases, useful information about the species’ ecology and population trends was ascertained. INTASS is portable across a wide range of taxa, habitats and management situations.

Published
2006

18. Nine-year reciprocal transplant experiment in the gardens of the basin and mountain big sagebrush (Artemisia tridentata: Asteraceae) hybrid zone of Salt Creek Canyon: the importance of multiple-year tracking of f itness

Author

D. Carl Freeman, William S. Moore, John H. Graham, E. Durant McArthur, Kathleen J. Miglia, and Han Wang

Subjects
Canyon, geography, geography.geographical_feature_category, biology, Ecology, food and beverages, Structural basin, biology.organism_classification, Hybrid zone, Taxon, Artemisia, Population dynamics, Ecology, Evolution, Behavior and Systematics, Hybrid, Environmental gradient
Abstract

We have studied reciprocal transplant gardens involving the hybrid zone between basin and mountain big sagebrush ( Artemisia tridentata ) in Salt Creek Canyon, Utah, for 9 years. Previously, we showed that the parental taxa and hybrids had superior reproductive and vegetative performance in their native garden. These earlier data supported the Bounded Hybrid Superiority model. Now, after 9 years, we find that the mountain seed source plants have greater relative fitness than middle hybrid zone seed source plants in the middle hybrid zone garden. These results may be due to plant density and climatic factors more conducive to mountain seed source growth than that of either basin or middle hybrid zone seed source plants. On the other hand, these fitness estimates do not take into account the timing of reproduction, which together with the age-specific survival rate, can profoundly affect lifetime fitness. The intrinsic rate of increase ( r ) takes both of these factors into account, providing another estimate of fitness. Middle hybrid zone seed source plants had the greatest rate of increase in both the middle hybrid zone and mountain gardens and a greater rate of increase than either parent in the basin garden. This is most likely due to the greater reproductive performance of middle hybrid zone plants earlier in life than either parental taxon. These results partly support the Bounded Hybrid Superiority model and show the importance of long-term studies of hybrid fitness. © 2005 The Linnean Society of London, Biological Journal of the Linnean Society , 2005, 86 , 213‐225. ADDITIONAL KEYWORDS: Bounded Hybrid Superiority model ‐ Dynamic Equilibrium model ‐ endogenous selection ‐ Environmental Gradient model ‐ exogenous selection ‐ genotype‐by‐environment interaction ‐ intrinsic rate of increase ‐ stable hybrid zone.

Published
2005

19. Leaf fluctuating asymmetry, soil disturbance and plant stress: a multiple year comparison using two herbs, Ipomoea pandurata and Cnidoscolus stimulosus

Author

John C. Zak, David A. Kovacic, Michelle L. Brown, John H. Graraham, Anthony J. Krzysik, John M. Emlen, D. Carl Freeman, Jeffrey J. Duda, and Harold Balbach

Subjects
Disturbance (geology), Ecology, biology, Land use, Cnidoscolus, General Decision Sciences, biology.organism_classification, Instability, Fluctuating asymmetry, Ipomoea pandurata, Terrestrial ecosystem, Quadrat, Ecology, Evolution, Behavior and Systematics
Abstract

We studied Cnidoscolus stimulosus and Ipomoea pandurata , two common herbs of the Fall Line Sandhills to assess their potential as ecosystem level stress indicators. We focused on plants because they are among the most persistent organisms in terrestrial ecosystems. We used developmental instability as an indicator of plant population stress. Developmental instability is usually measured as deviations from symmetry, in traits that normally develop symmetrically. Thus, symmetry represents an idealized a priori phenotype. Stress presumably causes perturbations during development that may exceed the capacity of the organism to buffer or correct, resulting in developmental instability, and hence deviations from this ideal. Soil disturbance imposed by different land use patterns at Fort Benning, Georgia provided a gradient of soil disturbance. In 2000–2002 we collected plants from nine different sites representing three levels of disturbance. In addition, in 2002 we collected microhabitat data in 1 m quadrats surrounding each plant whose developmental stability we also assessed. The developmental instability of both species was influenced by land use patterns, whether or not the sites had been previously burned, and microhabitat variables. Developmental instability increased with soil disturbance, burning in the prior year, and as the percentage of bare ground increased around the target individual. To some extent, favorable microhabitat conditions reduced developmental instability in sites with medium and high soil disturbance, whereas unfavorable conditions at low soil disturbance sites increased developmental instability. As an indicator of community level stress, developmental instability is best used in conjunction with other indices of environmental quality.

Published
2005

20. Persistence of chromosome aberrations following acute radiation: II, Does it matter how translocations are scored?

Author

James D. Tucker, Jackie Cofield, Marilyn J. Ramsey, D. Carl Freeman, and Kyomu Matsumoto

Subjects
Adult, Male, Time Factors, Focus (geometry), Epidemiology, Health, Toxicology and Mutagenesis, Mutagen, Chromosomal translocation, Biology, medicine.disease_cause, Translocation, Genetic, Chromosome Painting, Ionizing radiation, Persistence (computer science), medicine, Humans, Radiometry, Mitosis, Genetics (clinical), Genetics, Analysis of Variance, Chromosome, Dose-Response Relationship, Radiation, Middle Aged, Chromosome translocations, Kinetics, Cesium Radioisotopes, Gamma Rays
Abstract

Chromosome breaks and rearrangements resulting from ionizing radiation can be much more complicated than many investigators thought possible some years ago. The realization that not all translocations are reciprocal, that multiway exchanges occur, and that some double-strand breaks are not repaired prior to mitosis have all contributed to the difficulty of knowing how best to identify, record, evaluate, and report chromosome translocations. Here we describe the results of a series of experiments in which blood from two normal healthy subjects was obtained, irradiated with 137Cs γ-rays in vitro at doses ranging from 0 (controls) to 4 Gy, and cultured. Cells from each dose group and donor were harvested at days 2, 2.5, 3, 4, 5, and 7 and evaluated for chromosome damage by simultaneously painting chromosomes 1, 2, and 4 in red and 3, 5, and 6 in green. The persistence of dicentrics, fragments, rings, insertions, and PAINT translocations are reported separately by us in this issue. In this article, we focus on translocations, characterizing the various types in detail and comparing and contrasting their persistence across all dose groups for both donors. The results indicate that the persistence of all translocation types was sufficient to be used for retrospective dosimetry, although nonreciprocal translocations exhibited diminished persistence compared to the other types. We also characterize the kinetics of the radiation dose responses of the two donors who exhibited significant differences in the induction as well as the persistence of translocations. Based on the evidence presented here, we hypothesize that these individuals differ in the recognition and repair of radiation-induced damage as well as in cell cycle checkpoint control. Despite these differences, the temporal frequency of translocation losses at both the high and low doses was similar for both subjects. Environ. Mol. Mutagen., 2005. © 2005 Wiley-Liss, Inc.

Published
2005

22. Photosynthesis and Fluctuating Asymmetry as Indicators of Plant Response to Soil Disturbance in the Fall‐Line Sandhills of Georgia: A Case Study Using Rhus copallinum and Ipomoea pandurata

Author

Jeffrey J. Duda, John C. Zak, David A. Kovacic, Harold Balbach, Michelle L. Brown, John M. Emlen, John H. Graham, Anthony J. Krzysik, and D. Carl Freeman

Subjects
Stomatal conductance, Disturbance (geology), Ipomoea pandurata, Habitat, Prescribed burn, Botany, Plant Science, Biology, Photosynthesis, biology.organism_classification, Ecology, Evolution, Behavior and Systematics, Fluctuating asymmetry, Transpiration
Abstract

We examined net photosynthesis, transpiration, stomatal conductance, and leaf fluctuating asymmetry on two species (Rhus copallinum and Ipomoea pandurata) as indicators of stress at nine sites across a gradient of soil disturbance at Fort Benning, Georgia. There were three sites for each of three disturbance levels. Physical habitat disturbance was caused by activities associated with infantry training, including mechanized elements (tanks and personnel carriers) and foot soldiers. In addition, we examined the influence of prescribed burns and microhabitat effects (within meter‐square quadrats centered about the plant) on these measures of plant stress. Net photosynthesis declined with increasing disturbance in the absence of burning for both species. However, when sites were burned the previous year, net photosynthesis increased with increasing disturbance. Developmental instability in Rhus, as measured by fluctuating asymmetry, also declined with increasing disturbance in the absence of burning but incr...

Published
2004

23. Characterization of Melanophore Morphology by Fractal Dimension Analysis

Author

James M. Montante, Mary Tracy-Bee, Charles R. C. Marks, D. Carl Freeman, Candace D. Ollie, Victoria A. Kimler, R. Anton Hough, Renee M. Langer, and John D. Taylor

Subjects
Time Factors, Morphology (linguistics), Epinephrine, Phosphodiesterase Inhibitors, Clinical Biochemistry, Cell, Melanophores, Plant Science, Biology, Microfilament, Melanophore, Caffeine, Fundulidae, medicine, Animals, Cytoskeleton, Melanosome, Neurons, Melanosomes, Cell Membrane, Cell Biology, Anatomy, Complex cell, Chromatophore, Protein Transport, Fractals, medicine.anatomical_structure, Microscopy, Fluorescence, Biophysics, Melanocytes, Agronomy and Crop Science, Developmental Biology
Abstract

Fractal or focal dimension (FD) analysis is a valuable tool to identify physiologic stimuli at the cellular and tissue levels that allows for quantification of cell perimeter complexity. The FD analysis was determined on fluorescence images of caffeine- or epinephrine-treated (or untreated control) killifish Fundulus heteroclitus (Linneaus) melanophores in culture. Cell perimeters were indicated by rhodamine-phalloidin labeling of cortical microfilaments using box-counting FD analysis. Caffeine-treated melanophores displayed dispersed melanosomes in cells with less serrated edges and reduced FD and complexity. Complexity in epinephrine-treated cells was significantly higher than the caffeine-treated cells or in the control. Cytoarchitectural variability of the cell perimeter is expected because cells change shape when cued with agents. Epinephrine-treated melanophores demonstrated aggregated melanosomes in cells with more serrated edges, significantly higher FD and thus complexity. Melanophores not treated with caffeine or epinephrine produced variable distributions of melanosomes and resulted in cells with variably serrated edges and intermediate FD with a larger SE of the regression and greater range of complexity. Dispersion of melanosomes occurs with rearrangements of the cytoskeleton to accommodate centrifugal distribution of melanosomes throughout the cell and to the periphery. The loading of melanosomes onto cortical microfilaments may provide a less complex cell contour, with the even distribution of the cytoskeleton and melanosomes. Aggregation of melanosomes occurs with rearrangements of the cytoskeleton to accommodate centripetal distribution of melanosomes. The aggregation of melanosomes may contribute to centripetal retraction of the cytoskeleton and plasma membrane. The FD analysis is, therefore, a convenient method to measure contrasting morphologic changes within stimulated cells.

Published
2004

24. Developmental Instability in Rhus copallinum L.: Multiple Stressors, Years, and Responses

Author

Michelle L. Brown, John C. Zak, John H. Graham, Anthony J. Krzysik, Jeffrey J. Duda, Dave A. Kovacic, D. Carl Freeman, John M. Emlen, and Harold Balbach

Subjects
Disturbance (geology), Ecology, fungi, Botany, food and beverages, Plant cover, Plant Science, Allometry, Biology, Plant litter, Ecology, Evolution, Behavior and Systematics, Fluctuating asymmetry
Abstract

Developmental instability, as assessed by leaf fluctuating asymmetry and stem internode allometry, was examined at nine sites, representing three levels of disturbance, over multiple years. Site selection was based on land‐use disturbance classes related to training of mechanized infantry and other land management activities at Fort Benning, Georgia. Developmental instability varied among sites and years, and there was a strong site‐by‐year interaction for many traits. Indeed, depending on the year, the same site could be ranked as having the greatest and least amount of leaf fluctuating asymmetry. Burning a site the year prior to collecting the leaves profoundly influenced measures of leaf fluctuating asymmetry. In the absence of recent burning, leaf fluctuating asymmetry declined with increasing disturbance, but burning the year prior to collecting the leaves reversed this trend. Total plant cover, proportion of bare ground, and amount of plant litter influenced the amount of leaf asymmetry in a site‐de...

Published
2004

25. Growth models and the expected distribution of fluctuating asymmetry

Author

John H. Graham, D. Carl Freeman, John M. Emlen, Kunio Shimizu, and John Merkel

Subjects
Normal distribution, Observational error, media_common.quotation_subject, Statistics, Multiplicative function, Log-normal distribution, Kurtosis, Gamma distribution, Biology, Asymmetry, Ecology, Evolution, Behavior and Systematics, Fluctuating asymmetry, media_common
Abstract

Multiplicative error accounts for much of the size-scaling and leptokurtosis in fluctuating asymmetry. It arises when growth involves the addition of tissue to that which is already present. Such errors are lognormally distributed. The distribution of the difference between two lognormal variates is leptokurtic. If those two variates are correlated, then the asymmetry variance will scale with size. Inert tissues typically exhibit additive error and have a gamma distribution. Although their asymmetry variance does not exhibit size-scaling, the distribution of the difference between two gamma variates is nevertheless leptokurtic. Measurement error is also additive, but has a normal distribution. Thus, the measurement of fluctuating asymmetry may involve the mixing of additive and multiplicative error. When errors are multiplicative, we recommend computing log E(l) − log E(r), the difference between the logarithms of the expected values of left and right sides, even when size-scaling is not obvious. If l and r are lognormally distributed, and measurement error is nil, the resulting distribution will be normal, and multiplicative error will not confound size-related changes in asymmetry. When errors are additive, such a transformation to remove size-scaling is unnecessary. Nevertheless, the distribution of l − r may still be leptokurtic. © 2003 The Linnean Society of London, Biological Journal of the Linnean Society, 2003, 80, 57–65.

Published
2003

26. Differences in native soil ecology associated with invasion of the exotic annual chenopod, Halogeton glomeratus

Author

John C. Zak, Jeffrey J. Duda, D. Carl Freeman, John M. Emlen, Stanley G. Kitchen, James M. Montante, Mary Tracy, Jayne Belnap, and Edward Sobek

Subjects
Abiotic component, biology, Krascheninnikovia lanata, Soil Science, Ecotone, Halogeton glomeratus, Native plant, biology.organism_classification, Microbiology, Agronomy, Halogeton, Botany, Soil ecology, Soil fertility, Agronomy and Crop Science
Abstract

Various biotic and abiotic components of soil ecology differed significantly across an area where Halogeton glomeratus is invading a native winterfat, [ Krascheninnikovia (= Ceratoides) lanata] community. Nutrient levels were significantly different among the native, ecotone, and exotic-derived soils. NO3, P, K, and Na all increased as the cover of halogeton increased. Only Ca was highest in the winterfat area. A principal components analysis, conducted separately for water-soluble and exchangeable cations, revealed clear separation between halogeton- and winterfat-derived soils. The diversity of soil bacteria was highest in the exotic, intermediate in the ecotone, and lowest in the native community. Although further studies are necessary, our results offer evidence that invasion by halogeton alters soil chemistry and soil ecology, possibly creating conditions that favor halogeton over native plants.

Published
2003

27. Developmental instability: measures of resistance and resilience using pumpkin (Cucurbita pepo L.)

Author

Leandria C. Hancock, Yolanda Jordan, Melissa Dobson, D. Carl Freeman, John M. Emlen, John H. Graham, Chris Micallef, Michelle L. Brown, and Anne E. Kizy

Subjects
Hurst exponent, media_common.quotation_subject, Mathematical analysis, Perturbation (astronomy), Bilateral symmetry, Biology, biology.organism_classification, Instability, Asymmetry, Fluctuating asymmetry, Cucurbita pepo, Botany, Rescaled range analysis, Ecology, Evolution, Behavior and Systematics, media_common
Abstract

Fluctuating asymmetry measures random deviations from bilateral symmetry, and thus estimates developmental instability, the loss of ability by an organism to regulate its development. There have been few rigorous tests of this proposition. Regulation of bilateral symmetry must involve either feedback between the sides or independent regulation toward a symmetric set point. Either kind of regulation should decrease asymmetry over time, but only right–left feedback produces compensatory growth across sides, seen as antipersistent growth following perturbation. Here, we describe the developmental trajectories of perturbed and unperturbed leaves of pumpkin, Cucurbita pepo L., grown at three densities. Covering one side of a leaf with aluminium foil for 24 h perturbed leaf growth. Reduced growth on the perturbed side caused leaves to become more asymmetrical than unperturbed controls. After the treatment the size-corrected asymmetry decreased over time. In addition, rescaled range analysis showed that asymmetry was antipersistent rather than random, i.e. fluctuation in one direction was likely to be followed by fluctuations in the opposite direction. Development involves right–left feedback. This feedback reduced size-corrected asymmetry over time most strongly in the lowest density treatment suggesting that developmental instability results from a lack of resilience rather than resistance. © 2003 The Linnean Society of London, Biological Journal of the Linnean Society , 2003, 78, 27–41.

Published
2003

28. Stress-induced metabolic differences between populations and subspecies of Artemisia tridentata (sagebrush) from a single hillside

Author

Robert A. Holmes, Clayton Jones, D. Carl Freeman, Thomas A. Monaco, Bruce N. Smith, Lee D. Hansen, and E. Durant McArthur

Subjects
Canyon, education.field_of_study, geography, geography.geographical_feature_category, Stress induced, Population, food and beverages, Biology, Subspecies, Condensed Matter Physics, biology.organism_classification, Botany, Artemisia, Physical and Theoretical Chemistry, Transect, education, Instrumentation, Chlorophyll fluorescence, Hybrid
Abstract

Big sagebrush or Artemisia tridentata Nutt. ssp. vaseyana grows at slightly higher, cooler, and drier sites than does A. tridentata ssp. tridentata . The two sagebrush subspecies and natural hybrids between them are found along an elevational gradient in Salt Creek Canyon, near Nephi, UT, USA, where the parent populations are separated by 85 m in elevation and 1.1 km along the transect. In 1993, three gardens were established with seedlings from five populations from different elevations planted in each garden. Physiological measurements of carbon isotope ratios, chlorophyll fluorescence, and respiratory heat and CO 2 production show adaptation to the site of origin. When transplanted to foreign sites, stress was noted. Sagebrush has persistent leaves that are metabolically active all year. Seasonal changes in temperature promote metabolic responses in sagebrush that differ with population and garden.

Published
2002

29. No genetic substructuring in Artemisia subgenus Tridentatae despite strong ecotypic subspecies selection

Author

Edward M. Golenberg, D. Carl Freeman, E. Durant McArthur, and David J. Stanton

Subjects
Genetic divergence, Genetics, Taxon, Intergenic region, Phylogenetic tree, Evolutionary biology, Haplotype, Subgenus, Biology, Subspecies, Biochemistry, Ecology, Evolution, Behavior and Systematics, Gene flow
Abstract

Phylogenetic relationships within the subgenus Tridentatae of Artemisia (Asteraceae) were investigated using nuclear ITS and plastid intronic and intergenic sequences in the region of trn L Although the studied taxa are quite distinct morphologically and ecologically, extremely low levels of genetic divergence (average nucleotide differences among haplotypes is π =0.0040 and π =0.0019, for ITS and trn L, respectively) were observed. Haplotype networks indicate the common haplotypes are widely distributed both geographically and taxonomically and are marked by a high connectivity to other haplotypes. These patterns are consistent with older alleles distributed in populations. These results imply that differentiation within the Tridentatae is the result of strong ecotypic selection over a background of widespread hybridization.

Published
2002

30. Narrow hybrid zone between two subspecies of big sagebrush (Artemisia tridentata: Asteraceae)

Author

E. Durant McArthur, D. Carl Freeman, and John H. Graham

Subjects
Hybrid zone, biology, Ecology, Cecidomyiidae, Botany, Gall, Species diversity, Artemisia, Species richness, Subspecies, biology.organism_classification, Population density, Ecology, Evolution, Behavior and Systematics
Abstract

Several species of gall-forming insects specialize on big sagebrush (Artemisia tridentata), a species that shows much clinal and subspecific variation throughout its geographic range. Two of those subspecies, basin big sagebrush (A. t. ssp. tridentata) and mountain big sagebrush (A. t. ssp. vaseyana), form a narrow hybrid zone at Salt Creek, Utah. Reciprocal transplant experiments have shown that the hybrid big sagebrush at Salt Creek are more fit than either parental subspecies, but only in the hybrid zone. Do genotype and environment influence the density and distribution of galls on big sagebrush? We counted galls on parental and hybrid big sagebrush in three reciprocal transplant gardens at Salt Creek. Gardens were in each of the two parental zones and in the hybrid zone. Transplanted seedlings came from five source populations: two parental and three hybrid populations. We identified seven kinds of gall-forming flies (Rhopalomyia midges and Eutreta fruitflies) that produced identifiable galls. Densities of galls varied among the three gardens and five source populations, and there was also a significant garden by source interaction in gall density. In general, variation in gall density among gardens (i.e., environments) was much greater than the variation among source populations (i.e., genotypes). Nevertheless, significant genotype-environment interactions were observed for five of the seven kinds of galls. Overall density of galls, mostly due to Rhopalomyia ampullaria, was greatest in the high-elevation (mountain) garden and least in the low-elevation (basin) garden. To the best of our knowledge, this is the first reciprocal transplant experiment addressing herbivore richness in a hybrid zone.

Published
2001

31. Gender specialization in heterodichogamous Grayia brandegei (Chenopodiaceae): evidence for an alternative pathway to dioecy

Author

Rosemary L. Pendleton, D. Carl Freeman, E. Durant McArthur, and Stewart C. Sanderson

Subjects
biology, Reproductive success, ved/biology, media_common.quotation_subject, Dioecy, ved/biology.organism_classification_rank.species, Plant Science, biology.organism_classification, Shrub, Botany, Genetics, Plant reproductive morphology, Reproduction, Chenopodiaceae, Ovule, Ecology, Evolution, Behavior and Systematics, Grayia (plant), media_common
Abstract

We examined components of male and female reproductive success in protogynous and protandrous sexual morphs of the heterodichogamous and largely monoecious chenopod shrub Grayia brandegei. Percentage femaleness of flowering stalks ranged from 0 to 37.6% female ( = 15.5%) for protandrous plants and from 14 to 100% female ( = 55.8%) for protogynous plants. Functional gender estimates based on ovule production at two locations ranged from 23.0 to 31.8% female for the protandrous morph, and from 65.3 to 77.0% female for the protogynous morph. Realized gender estimates based on total seed production ranged in value from 3.6 to 16.8% female for the protandrous morph and from 76.5 to 96.4% for the protogynous morph, depending on location and year. Differences in reproductive success of the two morphs were largely due to a reduction in the female function of protandrous plants. Protogynous plants produced more female flowers per stalk and had a higher percentage of seed-filled fruits than did protandrous plants. Differences between sexual morphs were more pronounced in dry areas or years in which overall seed production was minimal. Differential seed production between morphs likely reflects temporal patchiness in environmental conditions, particularly in water availability. The significance of these findings in support of heterodichogamy as an evolutionary pathway to dioecy is discussed.

Published
2000

32. Symbiotic regulation of plant growth, development and reproduction

Author

Yong Ok Kim, Russell J. Rodriguez, E. Durant McArthur, D. Carl Freeman, and Regina S. Redman

Subjects
biology, food and beverages, Root hair, biology.organism_classification, Endophyte, Plant reproduction, Article Addendum, Sexual reproduction, Hybrid zone, Agronomy, Symbiosis, Botany, Artemisia, General Agricultural and Biological Sciences, Hybrid
Abstract

The growth and development of rice (Oryzae sativa) seedlings was shown to be regulated epigenetically by a fungal endophyte. In contrast to un-inoculated (nonsymbiotic) plants, endophyte colonized (symbiotic) plants preferentially allocated resources into root growth until root hairs were well established. During that time symbiotic roots expanded at five times the rate observed in nonsymbiotic plants. Endophytes also influenced sexual reproduction of mature big sagebrush (Artemisia tridentata) plants. Two spatially distinct big sagebrush subspecies and their hybrids were symbiotic with unique fungal endophytes, despite being separated by only 380 m distance and 60 m elevation. A double reciprocal transplant experiment of parental and hybrid plants, and soils across the hybrid zone showed that fungal endophytes interact with the soils and different plant genotypes to confer enhanced plant reproduction in soil native to the endophyte and reduced reproduction in soil alien to the endophyte. Moreover, the most prevalent endophyte of the hybrid zone reduced the fitness of both parental subspecies. Because these endophytes are passed to the next generation of plants on seed coats, this interaction provides a selective advantage, habitat specificity, and the means of restricting gene flow, thereby making the hybrid zone stable, narrow and potentially leading to speciation.

Published
2009

33. Narrow hybrid zone between two subspecies of big sagebrush (ARTEMISIA TRIDENTATA: Asteraceae). IX. Elemental uptake and niche separation

Author

Han Wang, D. Carl Freeman, and E. Durant McArthur

Subjects
Ecology, Niche, Niche differentiation, Plant Science, Biology, Subspecies, biology.organism_classification, Hybrid zone, Taxon, Habitat, Botany, Genetics, Artemisia, Ecology, Evolution, Behavior and Systematics, Hybrid
Abstract

The concentrations of selected elements and their biological absorption coefficients were determined for leaves from plants in native stands and reciprocal transplant gardens to determine whether niche differentiation occurs among the parental taxa and their hybrids in the big sagebrush hybrid zone in Utah. The bounded hybrid superiority model predicts such niche differentiation, while the ecologically neutral dynamic equilibrium model predicts complete niche overlap, at least in the vicinity of the hybrid zone. The concentrations of elements in the leaves of site-indigenous sagebrush and the biological absorption coefficients differed significantly between the subspecies and between either parental taxon and hybrids. Within reciprocal transplant gardens, both the elemental concentrations and the biological absorption coefficients differed among the gardens and taxa. Significant genotype-by-environment interactions were observed for several essential elements. Niche differentiation was evident as correspondence analyses ordinated the parental taxa and hybrids into separate groups even when raised in the same garden. These findings support the ecologically based bounded hybrid superiority model and suggest that the big sagebrush parental taxa and their hybrids have adapted to their respective unique habitats.

Published
1999

34. Costs and Effectiveness of Scoliosis Screening

Author

Paul J. Roubal, D. Carl Freeman, and Jeffrey D Placzek

Subjects
medicine.medical_specialty, business.industry, Cost effectiveness, Public health, media_common.quotation_subject, Physical Therapy, Sports Therapy and Rehabilitation, Scoliosis, medicine.disease, Screening programme, Indirect costs, Family medicine, False positive paradox, Physical therapy, Medicine, business, Welfare, Medical costs, health care economics and organizations, media_common
Abstract

Summary The continuing debate over the need for public health screening of schoolchildren for scoliosis centres on the efficacy of bracing compared to observation only. The objective of this study was to evaluate the costs and effectiveness of public health screening for idicpathic scoliosis. A retrospective analysis was conducted on 175,000 seventh grade (11–12 years old) schoolchildren in Oakland County, Michigan (1978/79 to 1990/91 school years inclusive). The analysis included the numbers of children screened and the proportions referred to doctors for evaluation, braced, and referred for surgery. Costs were determined for each step in the process. National and regional surveys were used to determine the costs associated with physicians, orthotists, hospitals, surgeons, administration, and false positive referrals involved in both conservative and surgical treatments. Screening approximately 12,000 + children per year in the Oakland County Programme costs $93,839 ($7.39 per child). This cost includes the cost of false positives. The costs per case for bracing and surgery were $4,748 and $35,510 respectively. Bracing was effective in reducing the need for surgery by 81 %. When these statistics are extrapolated to the entire United States, an equivalent screening programme would cost $90.9 million annually. Treating scoliosis without screening is estimated to cost $95.4 million annually in direct costs. This estimate does not include loss of income, welfare, social programmes and other direct or indirect medical costs that may occur with surgical intervention. Our results support the efficacy and cost effectiveness of public health screening for scoliosis.

Published
1999

35. Spatial Segregation by Gender of the Subdioecious Shrub Thymelaea hirsuta in the Egyptian Desert

Author

D. Carl Freeman and Ali El-Keblawy

Subjects
Spatial segregation, ved/biology, Ecology, Dioecy, fungi, ved/biology.organism_classification_rank.species, Thymelaea hirsuta, Plant Science, Biology, Spatial distribution, Shrub, Habitat, Homogeneous, Botany, Ecology, Evolution, Behavior and Systematics
Abstract

The spatial distribution of sexual morphs of the subdioecious shrub Thymelaea hirsuta was analyzed in nine habitats in the Egyptian desert. The sexual morphs tended to segregate in the environment. Males were more common on slope sites, while female‐biased sex ratios were observed in depressions. Nearest‐neighbor analyses show that males tend to be nearest neighbors of other males and females are positively associated with other females. This segregation was found only in habitats that were markedly heterogeneous for soil chemistry. In more homogeneous soils, no segregation of the sexes was observed. The spatial segregation of the sexes of a subdioecious plant indicates that the phenomenon can occur before a species evolves strict dioecy and may even play a role in the process.

Published
1999

36. Narrow hybrid zone between two subspecies of big sagebrush, Artemisia tridentata (Asteraceae). VIII. Spatial and temporal pattern of terpenes

Author

John H. Graham, Han Wang, D. Carl Freeman, David W. Byrd, and E. Durant McArthur

Subjects
Terpene, Hybrid zone, Inflorescence, Botany, Artemisia, Edaphic, Cline (biology), Subspecies, Biology, biology.organism_classification, Biochemistry, Ecology, Evolution, Behavior and Systematics, Hybrid
Abstract

Parental and hybrid populations of big sagebrush in Salt Creek Canyon, Utah, show clinal variation in terpene composition across a hybrid zone. Terpenes differ between seasons, subspecies (including hybrids), individual plants, and leaves from vegetative branches and inflorescences on the same plant. While hybrids were intermediate for most common terpenes, several terpenes produced by both parental taxa were not produced by hybrids. Furthermore, hybrids produced novel terpenes. The clinal variation of terpenes is highly correlated with both morphological variation and edaphic gradients.

Published
1999

37. How organisms do the right thing: The attractor hypothesis

Author

April Mills, D. Carl Freeman, John H. Graham, and John M. Emlen

Subjects
Cognitive science, Natural selection, Property (philosophy), Mechanism (biology), business.industry, Applied Mathematics, General Physics and Astronomy, Statistical and Nonlinear Physics, Genetic architecture, Genetic drift, Action (philosophy), Mutation (genetic algorithm), Economics, Artificial intelligence, Adaptation, business, Mathematical Physics
Abstract

Neo-Darwinian theory is highly successful at explaining the emergence of adaptive traits over successive generations. However, there are reasons to doubt its efficacy in explaining the observed, impressively detailed adaptive responses of organisms to day-to-day changes in their surroundings. Also, the theory lacks a clear mechanism to account for both plasticity and canalization. In effect, there is a growing sentiment that the neo-Darwinian paradigm is incomplete, that something more than genetic structure, mutation, genetic drift, and the action of natural selection is required to explain organismal behavior. In this paper we extend the view of organisms as complex self-organizing entities by arguing that basic physical laws, coupled with the acquisitive nature of organisms, makes adaptation all but tautological. That is, much adaptation is an unavoidable emergent property of organisms' complexity and, to some a significant degree, occurs quite independently of genomic changes wrought by natural selection. For reasons that will become obvious, we refer to this assertion as the attractor hypothesis. The arguments also clarify the concept of "adaptation." Adaptation across generations, by natural selection, equates to the (game theoretic) maximization of fitness (the success with which one individual produces more individuals), while self-organizing based adaptation, within generations, equates to energetic efficiency and the matching of intake and biosynthesis to need. Finally, we discuss implications of the attractor hypothesis for a wide variety of genetical and physiological phenomena, including genetic architecture, directed mutation, genetic imprinting, paramutation, hormesis, plasticity, optimality theory, genotype-phenotype linkage and puncuated equilibrium, and present suggestions for tests of the hypothesis. (c) 1998 American Institute of Physics.

Published
1998

38. Directional asymmetry and the measurement of developmental instability

Author

John H. Graham, John M. Emlen, Larry J. Leamy, D. Carl Freeman, and Jules A. Kieser

Subjects
education.field_of_study, Antisymmetric relation, Developmental noise, media_common.quotation_subject, Mathematical analysis, Population, food and beverages, Anatomy, Biology, Residual, Asymmetry, Instability, Fluctuating asymmetry, Principal component analysis, education, Ecology, Evolution, Behavior and Systematics, media_common
Abstract

Three widely used methods of estimating fluctuating asymmetry may yield serious overestimates if directional asymmetry is present. When two sides of a bilateral trait grow at different rates, then the asymmetry variance (Var[ l−r ]) increases with size, even when developmental noise is nil. But the residual variance around a population's mean developmental trajectory is invariant with respect to size. Thus, it can be used as a measure of developmental instability. We introduce a measure of developmental instability, the residual variance ( s 2 δ ), obtainable from either a major axis regression, which is equivalent to a principal component analysis on l and r , or a general structural model. This residual variance can be estimated from directionally asymmetric or even antisymmetric traits. We present examples of developmental instability estimated from directionally asymmetric mandibles (house mouse) and leaves (soybean), and antisymmetric claws (fiddler crab).

Published
1998

39. Narrow hybrid zone between two subspecies of big sagebrush (Artemisia tridentata: Asteraceae). VI. Respiration and water potential

Author

Thomas A. Monaco, Bruce N. Smith, Stewart C. Sanderson, E. Durant McArthur, John H. Graham, D. Carl Freeman, and Han Wang

Subjects
biology, fungi, Water stress, food and beverages, Plant Science, Asteraceae, Subspecies, biology.organism_classification, Hybrid zone, Habitat, Respiration, Botany, Artemisia, Adaptation
Abstract

Respiration and stem water potential ( psi ) were examined in parental and hybrid big sagebrush (Artemisia tridentata Nutt. ssp. tridentata and Artemisia tridentata Nutt. ssp. vaseyana (Rydb.) Beetle) grown in common gardens within each parental zone and in the hybrid zone. Plants were sampled in July, August, and September, i.e., immediately before, during, and after flowering. The habitats differed from one another, and there were significant garden by date interactions. The source populations also differed significantly from one another. There were no significant garden by source interactions. Hybrid plants had intermediate respiration rates and did not suffer greater water stress than parental plants. Hybrid plants showed no apparent decrease in adaptation in the important physiological traits respiration and water stress in the hybrid zone.Key words: Artemisia, hybrid zones, respiration, water potential.

Published
1998

40. Sexual specialization and inbreeding avoidance in the evolution of dioecy

Author

E. Durant McArthur, Ali El-Keblawy, Kathleen J. Miglia, Jon Lovett Doust, and D. Carl Freeman

Subjects
Sexual dimorphism, Herkogamy, Disruptive selection, Evolutionary biology, Outbreeding depression, Dioecy, Inbreeding avoidance, Outcrossing, Plant Science, Gynodioecy, Biology, Ecology, Evolution, Behavior and Systematics
Abstract

Dioecy has evolved independently, many times, among unrelated taxa. It also appears to have evolved along two contrasting pathways: (1) from hermaphroditism via monoecy to dioecy and (2) from hermaphroditism via gynodioecy to dioecy. Most dioecious plants have close cosexual relatives with some means of promoting outcrossing (e.g., herkogamy, dichogamy, self-incompatibility, or monoecy). To the extent that these devices prevent inbreeding, the evolution of dioecy in these species cannot logically be attributed to selection for outcrossing. In these cases, the evolution of dioecy is, we believe, due to selection for sexual specialization. However, in other species, that lack outbreeding close relatives, dioecy may have evolved from gynodioecy (males and hermaphrodites) as an outbreeding device. Subsequent disruptive selection and selection for sexual specialization may have also shaped the evolution of dioecy from gynodioecy in these species, resulting in two genetically determined, constant sex morphs. Both pathways for the evolution of dioecy require the operation of disruptive selection, though the gynodioecy route involves more restrictive disruptive selection and a genetic designation of gender. In contrast, the monoecy route is not dependent on the genetic designation of two sex morphs, but, rather, allows the possibility of sexual intermediates and sexual lability. Both pathways produce one morph in which maleness is suppressed and another in which the female function is negligible or nonexistent—the reproductive mode recognized as dioecy. Evidence is presented here to support the thesis that instances of sexual lability, the presence of an array of sexual intermediates, sex-switching, and sexual niche segregation can be explained in terms of the pathway that was taken in the evolution of a particular dioecious species. In addition, the degree of sexual dimorphism seen in dioecious species is correlated with mode of pollination (insector wind-pollinated) and other ecological factors.

Published
1997

42. N<scp>arrow hybrid zone between two subspecies of big sagebrush</scp>,A<scp>rtemisia tridentata</scp>(A<scp>steraceae</scp>). III. D<scp>evelopmental instability</scp>

Author

D. Carl Freeman, E. Durant McArthur, William A. Turner, David W. Byrd, and John H. Graham

Subjects
biology, Ecology, Plant Science, Subspecies, biology.organism_classification, Instability, Hybrid zone, Taxon, Evolutionary biology, Genetics, Artemisia, Biological dispersal, Ecology, Evolution, Behavior and Systematics, Selection (genetic algorithm), Hybrid
Abstract

Stable hybrid zones are believed to occur because gene dispersal is opposed by selection, but the nature of this selection remains unclear. The dynamic equilibrium model postulates that hybridization disrupts coadapted gene complexes, leading to alterations in development and subsequent hybrid unfitness. Alternatively, the bounded hybrid superiority model assumes that selection is due to exogenous factors. Here, we examine the developmental instability of sagebrush across a narrow hybrid zone. The results show no difference among the parental and hybrid taxa for the majority of comparisons examined. When significant differences in developmental instability were observed, one of the parental taxa (mountain big sagebrush) was typically the least developmentally stable. Hybrids were found to be the least developmentally stable for only two of the 28 comparisons studied. Interestingly, for some comparisons, hybrids were the most developmentally stable. These results contradict predictions of the dynamic equilibrium model. The sagebrush hybrid zone does not appear to be maintained by endogenous selection, as there is little indication that development is disrupted by hybridization.

Published
1995

43. Narrow hybrid zone between two subspecies of big sagebrush ( Artemisia tridentata : Asteraceae). II. Selection gradients and hybrid fitness

Author

E. Durant McArthur, John H. Graham, and D. Carl Freeman

Subjects
Herbivore, Plant Science, Biology, Subspecies, Asteraceae, biology.organism_classification, Hybrid zone, Taxon, Botany, Genetics, Artemisia, Biological dispersal, Ecology, Evolution, Behavior and Systematics, Hybrid
Abstract

The dynamic equilibrium hypothesis proposes that hybrid zones are stabilized by a balance between dispersal and selection against hybrids. A key prediction of this hypothesis is that hybrids should have lower fitness than either parental taxon, regardless of habitat. Hybrid big sagebrush (Artemisia tridentata ssp. tridentata x ssp. vaseyana) in two narrow hybrid zones do show greatly decreased recruitment. Hybrids in one zone also show increased browsing by grasshoppers, while those in the other zone have increased numbers of aphids. Overall herbivore loads, however, are not greater on the hybrids than on the parental subspecies. Browsing by mule deer is greatest on ssp. vaseyana in both hybrid zones. Incidence of galls is also greatest on ssp. vaseyana in one hybrid zone. Moreover, browsing by Artemisia weevils is greatest on ssp. tridentata in one hybrid zone. Hybrids produce more flowers than either ssp. tridentata or ssp. vaseyana, while seed production rates of hybrids do not differ from those of the parental taxa. Finally, hybrid seeds germinate as well as those of ssp. tridentata and

Published
1995

44. Seed size and sex ratio in spinach: Application of the Trivers-Willard hypothesis to plants

Author

Barbara A. Wachocki, Dan E. Goldschlag, Michael J. Stender, Helen J. Michaels, and D. Carl Freeman

Subjects
0106 biological sciences, 010506 paleontology, Ecology, food and beverages, Biology, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Animal science, Germination, Survivorship curve, Botany, Trivers–Willard hypothesis, Spinach, Ecology, Evolution, Behavior and Systematics, Sex ratio, 0105 earth and related environmental sciences
Abstract

Plants germinating from large spinach seeds have a significantly male-biased sex ratio while small seeds yield a female-biased sex ratio, as predicted by the Trivers-Willard hypothesis. This male-biased sex ratio is not due to differential germination or survivorship, nor is it the result of sexual lability. Seeds yielding males are not more likely to occur at lower nodes, or to be the first seed initiated at a node or to have fewer siblings at a node than females. Seeds yielding males acquire a disproportionate share of resources. Interestingly, the gender, but not the size of previously initiated seeds had a profound effect on the size of subsequent seeds and on the likelihood that these seeds would germinate. Males following females were much larger than females following males. If all of the previous seeds initiated at a node were of the same gender, the likelihood that subsequent seeds would fail to germinate was more than four times greater than if the previously initiated seeds were not of ...

Published
1994

45. Developmental stability and its applications in ecotoxicology

Author

D. Carl Freeman, John H. Graham, and John M. Emlen

Subjects
Evolutionary biology, Ecology, Health, Toxicology and Mutagenesis, Bilateral symmetry, General Medicine, Management, Monitoring, Policy and Law, Biology, Toxicology, Stability (probability), Instability, Fluctuating asymmetry, Organism
Abstract

Developmental stability refers to the ability of a developing organism to produce a consistent phenotype in a given environment. It provides a simple, reliable method of detecting stressed populations and monitoring their recovery. The most common measure of developmental instability, fluctuating asymmetry, assesses minor deviations from perfect bilateral symmetry in traits that are normally symmetrical. Measures of developmental instability are based upon the concept of developmental invariance. The biotest approach consists of the simultaneous analysis of developmental instability (and related physiological instability) in a variety of species.

Published
1993

46. Competitive impact model for site selection: the impact of competition, sales generators and own store cannibalization

Author

J. Patrick Kelly, D. Carl Freeman, and John M. Emlen

Subjects
Marketing, Competition (economics), Economics and Econometrics, Impact model, Site selection, Business, Business and International Management, Adaptation (computer science), Animal species, Cannibalization, Industrial organization
Abstract

This article adapts a methodology developed, and successfully applied by ecologists, to measure the interaction among plant and animal species in nature. This adaptation for retailing involves the determination of distances over which other retailers may positively or negatively impact on the sales of a specific type of retail store at a given location. The impacts of cannibalization from own store growth and sociodemographic variables are also incorporated into the methodology.

Published
1993

47. Developmental stability in plants: Symmetries, stress and epigenesis

Author

John M. Emlen, D. Carl Freeman, and John H. Graham

Subjects
Ecology, Stability (learning theory), food and beverages, Plant Science, General Medicine, Animal development, Biology, Fluctuating asymmetry, Evolutionary biology, Insect Science, Stress (linguistics), Genetics, Animal Science and Zoology, Epigenesis
Abstract

Plant developmental stability has received little attention in the past three or four decades. Here we review differences in plant and animal development, and discuss the advantages of using plants as experimental subjects in exploring developmental stability. We argue that any type of developmental invariant may be used to assess developmental stability and review the use of fluctuating asymmetry in studies of plant developmental stability. We also examine the use of deviations from translatory, radial, and self-symmetry as measures of developmental instability. The role of nonlinear dynamics and epigenesis in the production of the phenotype is also discussed.

Published
1993

49. I. LIFE HISTORY FEATURES OF THREE SEXUAL MORPHS OF ATRIPLEX CANESCENS (CHENOPODIACEAE) CLONES GROWN IN A COMMON GARDEN

Author

D. Carl Freeman, Rosemary L. Pendleton, Burton K. Pendleton, and E. Durant McArthur

Subjects
biology, Vegetative reproduction, media_common.quotation_subject, Dioecy, fungi, food and beverages, Plant Science, biology.organism_classification, Sexual reproduction, Hermaphrodite, Natural population growth, Botany, Genetics, Atriplex canescens, Reproduction, Chenopodiaceae, Ecology, Evolution, Behavior and Systematics, media_common
Abstract

Reproductive and growth parameters of Atriplex canescens were examined in a common garden study. Cloned ramets of male, female, and hermaphrodite individuals from two natural populations were planted in irrigated and nonirrigated portions of the garden. Sexual differences in growth and flowering schedules suggest tradeoffs in resource allocation between growth and reproduction. Males flowered with the greatest frequency and intensity while producing the smallest growth parameters. Females had the largest measures of vegetative growth, but flowered with the least frequency and intensity. Hermaphrodites appear to have a biology distinct from males and females, being more like females in growth and more like males in reproduction.

Published
1992

50. Persistence of chromosome aberrations following acute radiation: I, PAINT translocations, dicentrics, rings, fragments, and insertions

Author

Marilyn J. Ramsey, D. Carl Freeman, Jackie Cofield, Kyomu Matsumoto, and James D. Tucker

Subjects
Adult, Male, Time Factors, Epidemiology, Health, Toxicology and Mutagenesis, Physiology, Chromosomal translocation, Biology, Persistence (computer science), Ionizing radiation, Chromosome Painting, Biodosimetry, Humans, Radiometry, Genetics (clinical), Genetics, Chromosome Aberrations, Analysis of Variance, Chromosome, Dose-Response Relationship, Radiation, Middle Aged, Chromosome translocations, Peripheral blood, Accidental exposure, Cesium Radioisotopes, Gamma Rays
Abstract

Chromosome translocations are used to estimate the doses of radiation received following occupational or accidental exposure. Biodosimetry relies on the assumption that translocations are not cell-lethal and persist with little or no loss over time. While translocations do exhibit substantially greater persistence than other aberration types (e.g., dicentrics), there is evidence that translocation frequencies also decline over time, at least following acute doses above 1 Gy. To the extent that translocation frequencies decline, the predicted absorbed doses will be underestimated. Yet unknown is whether translocations induced by ionizing radiation at doses below 1 Gy also show significant declines. Here we report on the persistence of translocations induced by 137Cs gamma-rays at acute doses ranging from 0.2 to 4 Gy using peripheral blood lymphocytes from two unrelated healthy male donors. Chromosome aberrations were evaluated by simultaneously painting chromosomes 1, 2, and 4 in red and 3, 5, and 6 in green in cells harvested 2-7 days following exposure and were scored using the PAINT system. Translocations were also enumerated using several other methods and these results are reported separately by us in this issue. For comparison, the persistence of dicentrics, rings, acentric fragments, and color junctions was also evaluated and showed rapid losses with time. The results from both donors provide evidence that translocation frequencies decline with time in a statistically significant manner at doses as low as 0.2-0.3 Gy. The frequency of translocations for all dose groups declined from day 2 to 7 by averages of 39% and 26% for donors 1 and 2, respectively. These data emphasize the importance of considering translocation loss in biological dosimetry long times after exposure.

Published
2005

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