Relevant bibliographies by topics / Competition (Biology)

Contents

  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers
  6. Reports

Academic literature on the topic 'Competition (Biology)'

Author: Grafiati
Published: 4 June 2021
Last updated: 31 July 2024

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Journal articles on the topic "Competition (Biology)"

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Broz, Amanda K., Daniel K. Manter, Ragan M. Callaway, Mark W. Paschke, and Jorge M. Vivanco. "A molecular approach to understanding plant - plant interactions in the context of invasion biology." Functional Plant Biology 35, no. 11 (2008): 1123. http://dx.doi.org/10.1071/fp08155.

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Competition is a major determinant of plant community structure, and can influence the size and reproductive fitness of a species. Therefore, competitive responses may arise from alterations in gene expression and plant function when an individual is confronted with new competitors. This study explored competition at the level of gene expression by hybridising transcripts from Centaurea maculosa Lam., one of North America’s most invasive exotic plant species, to an Arabidopsis thaliana (L.) Heynh microarray chip. Centaurea was grown in competition with Festuca idahoensis Elmer, a native species that generally has weak competitive effects against Centaurea; Gaillardia aristata Pursh, a native species that tends to be a much stronger competitor against Centaurea; and alone (control). Some transcripts were induced or repressed to a similar extent regardless of the plant neighbour grown with Centaurea. Other transcripts showed differential expression that was specific to the competitor species, possibly indicating a species-specific aspect of the competitive response of Centaurea. These results are the first to identify genes in an invasive plant that are induced or repressed by plant neighbours and provide a new avenue of insight into the molecular aspects of plant competitive ability.
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Weber, Edward D., and Kurt D. Fausch. "Interactions between hatchery and wild salmonids in streams: differences in biology and evidence for competition." Canadian Journal of Fisheries and Aquatic Sciences 60, no. 8 (August 1, 2003): 1018–36. http://dx.doi.org/10.1139/f03-087.

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Competition between hatchery-reared and wild salmonids in streams has frequently been described as an important negative ecological interaction, but differences in behavior, physiology, and morphology that potentially affect competitive ability have been studied more than direct tests of competition. We review the differences reported, designs appropriate for testing different hypotheses about competition, and tests of competition reported in the literature. Many studies have provided circumstantial evidence for competition, but the effects of competition were confounded with other variables. Most direct experiments of competition used additive designs that compared treatments in which hatchery fish were introduced into habitats containing wild fish with controls without hatchery fish. These studies are appropriate for quantifying the effects of hatchery fish at specific combinations of fish densities and stream carrying capacity. However, they do not measure the relative competitive ability of hatchery versus wild fish because the competitive ability of hatchery fish is confounded with the increased density that they cause. We are aware of only two published studies that used substitutive experimental designs in which density was held equal among treatments, thereby testing for differences in competitive ability. Additional substitutive experiments will help managers to better understand the ecological risk of stocking hatchery fish.
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Bateman, Alex, Janet Kelso, Daniel Mietchen, Geoff Macintyre, Tomás Di Domenico, Thomas Abeel, Darren W. Logan, Predrag Radivojac, and Burkhard Rost. "ISCB Computational Biology Wikipedia Competition." PLoS Computational Biology 9, no. 9 (September 19, 2013): e1003242. http://dx.doi.org/10.1371/journal.pcbi.1003242.

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Zuschratter, W. "The Current Biology Photomicrography Competition." Current Biology 10, no. 8 (April 2000): R289. http://dx.doi.org/10.1016/s0960-9822(00)00428-0.

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Lucas, Marsha E. "2011 Developmental Biology Cover Competition." Developmental Biology 356, no. 1 (August 2011): 1–4. http://dx.doi.org/10.1016/j.ydbio.2011.06.012.

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Horácio, Elvira C. A., Lucas M. de Carvalho, Gustavo G. Pereira, Mayla C. Abrahim, Mônica P. Coelho, Deivid A. De Jesus, Glen J. Y. García, Raquel C. de Melo-Minardi, and Sheila T. Nagamatsu. "Know-how of holding a Bioinformatics competition: Structure, model, overview, and perspectives." PLOS Computational Biology 19, no. 12 (December 21, 2023): e1011679. http://dx.doi.org/10.1371/journal.pcbi.1011679.

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The article presents a framework for a Bioinformatics competition that focuses on 4 key aspects: structure, model, overview, and perspectives. Structure represents the organizational framework employed to coordinate the main tasks involved in the competition. Model showcases the competition design, which encompasses 3 phases. Overview presents our case study, the League of Brazilian Bioinformatics (LBB) 2nd Edition. Finally, the section on perspectives provides a brief discussion of the LBB 2nd Edition, along with insights and feedback from participants. LBB is a biannual team competition launched in 2019 to promote the ongoing training of human resources in Bioinformatics and Computational Biology in Brazil. LBB aims to stimulate ongoing training in Bioinformatics by encouraging participation in competitions, promoting the organization of future Bioinformatics competitions, and fostering the integration of the Bioinformatics and Computational Biology community in the country, as well as collaboration among participants. The LBB 2nd Edition was launched in 2021 and featured 251 competitors forming 91 teams. Knowledge competitions promote learning, collaboration, and innovation, which are crucial for advancing scientific knowledge and solving real-world problems. In summary, this article serves as a valuable resource for individuals and organizations interested in developing knowledge competitions, offering a model based on our experience with LBB to benefit all levels of Bioinformatics trainees.
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Brown, J. "The iGEM competition: building with biology." IET Synthetic Biology 1, no. 1 (June 1, 2007): 3–6. http://dx.doi.org/10.1049/iet-stb:20079020.

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Eliáš, Pavol. "30 rokov Medzinárodnej biologickej olympiády." Biológia, ekológia, chémia 25, no. 2 (2021): 10–23. http://dx.doi.org/10.31262/1338-1024/2021/25/2/10-23.

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International biology olympiad (IBO) – an international competition of secondary grammer school students in biology – was established in 1989 and first competition was organized in 1990 in Czechoslovakia (Olomouc). In the 1st IBO 22 students and 6 countries participated. Winners of the respective national competitions – their skills in trackling biological problems, and dealing with biological experiments are tested. The competition consists two parts – theoretical test and practical tasks, in 50:50 ratio. Coordination centre of IBO located in Prague, International Scientific Advisory Board (ISAB, now AB IBO), national coordinators and since 2008 also steering committee have been responsible for organization of the competition. In the last 30 years number of countries and students participated in the competition evidently increased. In 30th IBO, which was held in Hungary (Szeged) in 2019, 285 students and 72 countries of the world participated. In 2020 IBO was organized in distance/online form only caused by Covid 19 pandemic situation.
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Uyar, Yalcin, Ambra Gentile, Hamza Uyar, Övünç Erdeveciler, Hakan Sunay, Veronica Mîndrescu, Dino Mujkic, and Antonino Bianco. "Competition, Gender Equality, and Doping in Sports in the Red Queen Effect Perspective." Sustainability 14, no. 5 (February 22, 2022): 2490. http://dx.doi.org/10.3390/su14052490.

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The nature of sports is characterized by a strong competitive component that generates inequalities among athletes at different levels, specifically in relation to gender, technology, and doping. These inequalities can be represented according to the Red Queen effect perspective, which has been previously hypothesized in other competitive environments (evolutionary biology and economics, for instance). The Red Queen effect considers each competitive environment to require a constant effort to maintain a position of competitive advantage in order reach the best result possible. Therefore, the aim of the current paper is to provide an innovative perspective for the understanding of competition in sports, identifying factors (i.e., physical appearance for gender equality, socioeconomic status of a sport team for technology, and antidoping rules for doping) influencing athletes’ possibilities to win a competition. Concerning gender differences, the disparity between genders reflects a lower coverage in sports news, and media are more likely to focus on female athletes’ physical appearance than their performance in sports. Therefore, women struggle more with increasing their visibility and in affirming their status as an athlete. On the other hand, the introduction of science and technological innovations in sports has generated economic interests in sport competitions, which reached superior performance levels compared to the past. Teams that cannot afford financial burdens of technological innovation risk being left out from sport competitions. Finally, doping creates a Red Queen environment since antidoping rules catch a small portion of athletes using performance enhancement drugs.
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Donaldson, Timothy D., and Robert J. Duronio. "Cancer Cell Biology: Myc Wins the Competition." Current Biology 14, no. 11 (June 2004): R425—R427. http://dx.doi.org/10.1016/j.cub.2004.05.035.

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Dissertations / Theses on the topic "Competition (Biology)"

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Frenkel, Evgeni Mikhailovich. "Competition and Coexistence in Yeast Experimental Evolution." Thesis, Harvard University, 2016. http://nrs.harvard.edu/urn-3:HUL.InstRepos:33493568.

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Natural selection gives rise to biodiversity by purging the less-fit among variants that are too similar (a principle known as character displacement), but to predict how fit or different an organism needs to be to survive is hard. In the simplest theoretical case, the probability whether one lineage versus another survives depends only on their relative fitness and random fluctuations. In more complex scenarios, this probability may depend on the fitness of all the other lineages in the population, mutations that these and other lineages acquire before the outcome of competition is decided, and additional ecological interactions. These complexities evolve readily in laboratory microbial populations, suggesting that they are the norm in Nature, and have been extensively studied theoretically. This thesis provides one of the few empirical examples in which the evolution and mechanism of some of these complexities have been characterized and modeled sufficiently to make basic predictions, such as whether a mutation will fix or go extinct, which competing lineages may or may not coexist, and how do these processes relate? This work was carried out in an established system for experimental evolution, populations of asexual budding yeast (S. cerevisiae) in microtiter plates. Chapter 2 demonstrates an experimental design and modeling approach to infer the distribution of fitness effects of beneficial mutations from the population-dynamics of genetic markers. The inferred distribution accurately predicts fixation probabilities of lineages and adaptation rates of populations. Chapter 3 describes a new example of spontaneously-evolved coexistence between types competing for the same resources, including the physical mechanism, genetic basis and a mathematical model of the coexistence. The conclusion provides additional analyses to connect the findings from these two chapters and discusses their implications for microbial evolution more generally and directions for future work.
Biophysics
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Eilts, J. Alexander. "The Physiology of Exploitation Competition." Diss., The University of Arizona, 2007. http://hdl.handle.net/10150/195710.

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Water is a critical resource for which plants compete in many terrestrial communities. In arid communities where water most limits plant growth, rainfall events occur in discrete, pulsed events. These pulses of water create highly variable soil moisture availabilities. Plant species respond differently to variation in soil water availabilities throughout a season and between years. How species vary in their responses to a range of water availabilities is thought to influence community and ecosystem properties. Many previously proposed hypotheses are not suitable to explain rapidly fluctuating resource availabilities or numerous input events throughout the growing season. This dissertation uses variation in water availability as a model resource to examine how species characteristics influence the process of exploitation competition within plant communities.Experiments were conducted to examine variation in growing season, exploitation competition between several pairs of co-occurring species in the Sonoran desert. Three separate studies evaluated several components of community dynamics thought to be influenced by exploitation competition. Spatial attributes of exploitation competition were assessed by measuring the performance of a deep-rooted species across the boundary of a natural expansion of a shallowly rooted species. Then, neighborhood composition was varied for species of similar growth-form to address the affects of species characteristics to shifts in abundances under field conditions. Lastly, species from the neighborhood composition study were placed under controlled, manipulated water availabilities to measure their fundamental operational conditions.Performances of plant species in all experiments were assessed using a combination of physiological and vegetative measurements, capturing the responses of the plants to both the dynamic growth conditions during the growing season, and integrated measures of plant performance post growth season. A shared preference was found for all species, where the performance of all species was greatest when water was most available in the soil profile. This work suggests the mechanism within a functional type by which plants coexist at various abundances is in part due to the variation in responses to temporal resource gradients. The variation in availability of resources and the species composition within the community should be considered in studies of competition between plant species.
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Gaudet, Connie Lee. "Competition in shoreline plant communities: A comparative approach." Thesis, University of Ottawa (Canada), 1993. http://hdl.handle.net/10393/6516.

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I tested the general hypothesis that competitive ability is an important determinant of pattern in shoreline plant communities. Specifically I tested four predictions generated from this general hypothesis: (1) the competitive performance of plant species is related to their distribution along natural gradients of fertility and standing crop; (2) the competitive performance of plant species is related to measurable plant traits; (3) the competitive performance of plant species is not significantly affected by changing nutrient supply; and (4) there is an "evolutionary trade-off" between nutrient stress tolerance of species and competitive performance that underlies the distribution of species along natural gradients of fertility and standing crop. These questions were posed at a broad, multi-species scale using comparative measures of competitive performance, stress tolerance, and morphology from over 40 shoreline plant species, and field distribution data from several natural shoreline communities in Ontario, Nova Scotia and Quebec. Results showed that the experimentally determined measure of the relative competitive performance of a species was significantly correlated with its position along natural gradients of fertility and standing crop; and with simple measurable plant traits, in particular above-ground biomass (r$\sb{\rm s}$ = 0.92; p .0001). Results also showed that the competitive performance of species under high and low nutrient conditions was significantly correlated after two growing seasons (r$\sb{\rm s}$ = 0.76; P .001); and that stress tolerance, measured as the relative biomass production of species under low nutrient conditions, was inversely correlated with competitive performance (r = $-$0.62, p .005).
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Hatfield, Jeffrey Scott. "Diffusion analysis and stationary distribution of the lottery competition model /." The Ohio State University, 1986. http://rave.ohiolink.edu/etdc/view?acc_num=osu1487322984314846.

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Wheeler, Kelsey M. (Kelsey Morgan). "The influence of mucin glycans on microbial virulence and competition." Thesis, Massachusetts Institute of Technology, 2021. https://hdl.handle.net/1721.1/130819.

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Thesis: Ph. D., Massachusetts Institute of Technology, Department of Biology, February, 2021
Cataloged from the official PDF of thesis.
Includes bibliographical references.
The human body is colonized by trillions of microbes, many of which reside in a layer of mucus that covers all wet epithelia in the body. In this way, mucus serves as the first line of defense to the host, simultaneously protecting against pathogens while providing a habitat where commensal microbes thrive. It has long been known that defects in mucus production or biochemistry are associated with opportunistic infections; however, few studies have focused on how components of the intact mucus barrier interact with resident microbes to promote health. In this thesis, I fill this gap using a clinically relevant 3-dimensional model of the mucus environment based on mucin glycoproteins, the major structural component of mucus. This in vitro culturing system mimics the natural mucus environment, where mucin polymer domains interact and entangle into a flexible hydrogel, as opposed to 2-dimensional surface coatings, which can create artificially concentrated amounts of surface mucins. I apply this system to answer three major conceptual questions, separated into three projects. In the first project, I study the ability of mucin and their attached glycans to regulate interactions between a clinically-important opportunistic pathogen, Pseudomonas aeruginosa, and its host. I then investigate the underlying genetic mechanisms that enable P. aeruginosa to sense and respond to the mucus environment, and explore how mucin glycan-sensing in turn impacts microbe-microbe interactions in the mucosal niche. I end by investigating how mucin glycan-mediated microbial regulation modulates the composition of complex microbial communities isolated from the human oral cavity. Collectively, the work presented in this thesis lays the framework for characterizing the therapeutic nature of mucin and how specific mucin glycan moieties modulate the behavior, pathogenicity, and competitive interactions of host-associated microbes.
by Kelsey M. Wheeler.
Ph. D.
Ph.D. Massachusetts Institute of Technology, Department of Biology
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Dickens, John. "Extracting fish abundance indices from recreational fishing competition data." Master's thesis, University of Cape Town, 2015. http://hdl.handle.net/11427/19954.

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Over-exploited fisheries result in global economic losses and can lead to the degradation of marine ecosystems. Commercial and recreational fisheries have grown substantially over the past decades placing fish stocks under increasing pressure. Fisheries management aims to conserve and restore stocks to economically and environmentally sustainable levels. Stock assessments are mostly based on analyses of fishery-dependent data, however, this practice often neglects uneconomically important species, making ecosystem approaches to fisheries management challenging. Competitive recreational angling has the potential to provide accurate and consistent records of catch and effort data for a variety of unassessed fish species as well as data for currently assessed commercial species, but without the market influence on targeting. The data from five boat based recreational competitions in the Western Cape were studied. Records for the competitions varied in length with the longest dataset from running from 1994 to 2014, and the shortest from 2003 to 2014. The competitions were divided into three inshore and two offshore groups with each targeting different assemblages of fish. In total 38 species of teleost were caught, but at least 90% of the total catch for each competition was comprised of seven species or less. Catch composition was determined for each competition and the standardised catch per unit effort (CPUE) of the ten most abundant species across the competitions were assessed. CPUE trends for red roman, snoek and geelbek were comparable to commercial fishery-dependent CPUE data. The targeting of specific species in the multi-species fishery noticeably influenced CPUE values. Catch limits resulted in lower estimations of the CPUE for snoek, and potentially for red stump nose. Boat based competition data is accurate and consistent enough for the extraction of abundance indices for certain species. Further work on these data may involve the standardisation of CPUE values to account for targeting in the multi-species fishery. With a large number of boat based competitive anglers in the country, there is a scope for using these data for stock assessments, either as stand-alone data sources, or as an adjunct to well-established commercial catch time-series.
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Danielson-Francois, Anne. "Variation in Tetragnathid spermathecal structures and sperm competition with descriptions of natural history." Diss., The University of Arizona, 2002. http://hdl.handle.net/10150/279954.

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The study of variation in arachnid genitalic structures has contributed to the fields of systematics and sexual selection. Simon (1892--1903) in his Histoire Naturelle des Araignees first divided the ecribellate higher spiders into two groups, the Haplogynae and Entelegynae, using reproductive morphology. Spider genitalia have been used as a taxonomic tool for distinguishing between taxa because of their species-specific morphological variation. Variation in spider genitalic morphology has inspired evolutionary biologists to test mechanisms of sexual selection by which the variation could evolve, ranging from Fisherian run-away selection, chase-away selection, and sperm competition. The Tetragnathidae are particularly interesting for a comparison between haplogyne and entelegyne reproductive morphologies. Within this entelegyne family, a reversal to haplogyny has occurred. Fifteen representative members of this family and four outgroup taxa were examined with scanning and transmission electron microscopy in order to describe the fine structure of spermathecae, including the distribution and density of spermathecal gland pores. While the function(s) of the glandular secretion are unknown, the distribution and density of spermathecal gland pores is discussed with regard to possible functions of the glandular secretion. The potential influence of spermathecal gland secretions on mating behavior and sperm competition is considered. Sperm release patterns have been examined in entelegynes, but previously were not available for haplogynes. The relationship between copulation duration and sperm release was determined in Tetragnatha versicolor, the first examination of sperm release patterns in any haplogyne spider. In this species, copulation duration is not proportional to sperm release. To examine the relative influence of spermathecal morphology and numerical sperm competition on paternity, sperm release and paternity was assessed in the entelegyne Nephila clavipes and the haplogyne Tetragnatha versicolor. The data clearly support differential sperm release between males as the cause of previously reported first-male advantage in Nephila clavipes and the mixed paternity found for N. clavipes and Tetragnatha versicolor in this study. The natural history, mating behavior, and sperm release were determined for a previously unstudied tetragnathid species, Glenognatha emertoni . This is the second examination of haplogyne sperm release behavior as well as the first description of an unusual escape behavior.
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Sterkenburg, Neilda Jane. "Intraspecific competition in yellow nutsedge (Cyperus esculentus L.)." Thesis, McGill University, 1989. http://digitool.Library.McGill.CA:80/R/?func=dbin-jump-full&object_id=59234.

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The main objective of this study was to examine the effects of intraspecific competition on the growth and reproduction of yellow nutsedge. A field experiment was conducted to examine twelve tuber densities of yellow nutsedge, ranging from 1 to 1000 tubers/m$ sp2$. Results indicate that spring tuber populations of 100 tubers/m$ sp2$ and lower require close to 100% control of the infestation in order to prevent the yellow nutsedge population from increasing. Yellow nutsedge spring tuber population does not appear to influence tuber distribution in the soil profile. All tuber densities examined produced the greatest proportion of tubers in the top 20 cm of the soil profile. Tuber and shoot production increased as initial yellow nutsedge tuber populations increased from 1 to 1000 tubers/m$ sp2$, as did tuber and shoot biomass. Consequently, intraspecific competition does not appear to come into effect at tuber populations of 1000 tubers/m$ sp2$ and less.
Predictions were made to determine the spread of yellow nutsedge based on an infestation of a single tuber. A single yellow nutsedge tuber could grow to infest an area of 50 m$ sp2$ in 5 years. Information concerning the effect of spring tuber density on the reproduction and spread of yellow nutsedge should be used in formulating control strategies for this weed.
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Hunter, Fiona M. "Sperm competition in the Northern fulmar (Fulmaris glacialis)." Thesis, University of Sheffield, 1991. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.304668.

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Sharp, Martin A. "Social dominance and biology : investigating female hormonal response to non-physical competition." Thesis, University of Edinburgh, 2006. http://hdl.handle.net/1842/29359.

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The thesis explores the relationship between salivary testosterone (T), cortisol (F), and non-physical competition in women. In order to address widely acknowledged difficulties with determining levels of female T, particularly the biologically active ‘free’ fraction as measured in saliva, a highly sensitive ‘in-house’ enzyme-linked immunosorbant assay (ELISA) was optimised and validated. Assay sensitivity was 0.5pg/mL. By determining a comprehensive picture of the daily activity of salivary T in 34 healthy female subjects, it was possible to demonstrate that T follows a circadian rhythm the relative levels of which differ over two non-consecutive days. Moreover, throughout the course of the day T levels were highly variable, with episodic fluctuation of individual data points exceeding 83% of 9am levels. A quasi-experimental study examined changes in T and F in relation to non-physical dyadic encounters. Twenty-four females (ages 19-24 years) competed in a knockout tournament involving the wood-block game ‘Jenga’. They collected comprehensive salivary samples for baseline, pre- and post-competition phases. Subjects additionally reported mood states and answered questions concerning their participation in the competition. Whilst the comprehensive T data resist easy interpretation, compared against baseline, pre-comp T appeared un-responsive in anticipation of competition even though F levels did rise in the 3 hours prior to competition. Compared with levels immediately pre-competition, 1 hr post-competition T levels were higher in winners than losers. F-levels, conversely, rose in losers and fell in winners. These results illustrate that, similar to males, women demonstrate a dynamic endocrine response to competition. Moreover, choice of competitive task and salivary sampling regimens may, to a large extent, account for the equivocal findings in the literature.
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Books on the topic "Competition (Biology)"

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Keddy, Paul A. Competition. London: Chapman and Hall, 1989.

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Grover, James Patrick. Resource competition. London: Chapman & Hall, 1997.

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Fullick, Ann. Adaptation and competition. Chicago, Ill: Heinemann Library, 2005.

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Arthur, Wallace. The niche in competition and evolution. Chichester [West Sussex]: Wiley, 1987.

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Pfennig, Karin S. (Karin Susan), 1969-, ed. Evolution's wedge: Competition and the origins of diversity. Berkeley: University of California Press, 2012.

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Longstaff, P. H. Competition and cooperation: From biology to business regulation. Cambridge, Mass: Program on Information Resources Policy, Harvard University, Center for Information Policy Research, 1998.

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Walker, Denise. Adaptation and survival. North Mankato, MN: Smart Apple Media, 2006.

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Management, United States Bureau of Land. Will the desert tortoise win the race-- for survival? Washington, D.C.?]: Bureau of Land Management, 1991.

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Ross, J. M. Forward to basics: Back from the brink ; can humanity rescue itself? Edinburgh: Pentland, 1999.

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Alan, McGregor, ed. Evolution, creative intelligence, and intergroup competition. Washington, D.C: Cliveden Press, 1986.

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Book chapters on the topic "Competition (Biology)"

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Hastings, Alan. "Competition." In Population Biology, 129–49. New York, NY: Springer New York, 1997. http://dx.doi.org/10.1007/978-1-4757-2731-9_7.

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Porcar, Manuel, and Juli Peretó. "The iGEM Competition." In Synthetic Biology, 55–62. Dordrecht: Springer Netherlands, 2014. http://dx.doi.org/10.1007/978-94-017-9382-7_6.

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Christiansen, F. B., and V. Loeschcke. "Evolution and Competition." In Population Biology, 367–94. Berlin, Heidelberg: Springer Berlin Heidelberg, 1990. http://dx.doi.org/10.1007/978-3-642-74474-7_13.

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Broom, Mark, and Jan Rychtář. "Food competition." In Game-Theoretical Models in Biology, 403–30. 2nd ed. Boca Raton: Chapman and Hall/CRC, 2022. http://dx.doi.org/10.1201/9781003024682-19.

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Zhan, Yi, Kang Ning, and Dan Zhao. "iGEM: The Competition on Synthetic Biology." In Synthetic Biology and iGEM: Techniques, Development and Safety Concerns, 23–30. Singapore: Springer Nature Singapore, 2023. http://dx.doi.org/10.1007/978-981-99-2460-8_2.

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Mulcahy, David L., and Mirella Sari-Gorla. "Gametophytic Competition and Plant Breeding." In Reproductive Biology and Plant Breeding, 77–85. Berlin, Heidelberg: Springer Berlin Heidelberg, 1992. http://dx.doi.org/10.1007/978-3-642-76998-6_8.

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Costa, David G., and Paul J. Schulte. "Competition Models with Logistic Term." In An Invitation to Mathematical Biology, 57–64. Cham: Springer International Publishing, 2023. http://dx.doi.org/10.1007/978-3-031-40258-6_10.

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Lubkowska, Lucyna, and Maria L. Kireeva. "Direct Competition Assay for Transcription Fidelity." In Methods in Molecular Biology, 153–64. New York, NY: Springer New York, 2015. http://dx.doi.org/10.1007/978-1-4939-2392-2_8.

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Carlson, Robert. "Competition and the Future of Reading and Writing DNA." In Synthetic Biology, 1–13. Weinheim, Germany: Wiley-VCH Verlag GmbH & Co. KGaA, 2018. http://dx.doi.org/10.1002/9783527688104.ch1.

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Morgan, Mary S. "Evolutionary Metaphors in Explanations of American Industrial Competition." In Biology as Society, Society as Biology: Metaphors, 311–37. Dordrecht: Springer Netherlands, 1991. http://dx.doi.org/10.1007/978-94-011-0673-3_13.

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Conference papers on the topic "Competition (Biology)"

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Chrobak, Joanna M., Henar Herrero, Alberto Cabada, Eduardo Liz, and Juan J. Nieto. "Mathematical model of cancer with competition." In MATHEMATICAL MODELS IN ENGINEERING, BIOLOGY AND MEDICINE: International Conference on Boundary Value Problems: Mathematical Models in Engineering, Biology and Medicine. AIP, 2009. http://dx.doi.org/10.1063/1.3142956.

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"EMBS Student Paper Competition Finalists." In 2007 29th Annual International Conference of the IEEE Engineering in Medicine and Biology Society. IEEE, 2007. http://dx.doi.org/10.1109/iembs.2007.4352192.

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Belotelov, N. V., and A. V. Brovko. "A Model of Competition between Two Populations, Taking into Account Their Structurality." In Mathematical Biology and Bioinformatics. Pushchino: IMPB RAS - Branch of KIAM RAS, 2022. http://dx.doi.org/10.17537/icmbb22.29.

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"Competition and collaboration in the miRNA science field." In Bioinformatics of Genome Regulation and Structure/ Systems Biology. institute of cytology and genetics siberian branch of the russian academy of science, Novosibirsk State University, 2020. http://dx.doi.org/10.18699/bgrs/sb-2020-011.

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Zhu, Yang. "TERMINAL FLOWER 1 chromatin recruitment, competition with FLOWERING LOCUS T and target genes." In ASPB PLANT BIOLOGY 2020. USA: ASPB, 2020. http://dx.doi.org/10.46678/pb.20.1049088.

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"EMBS Student Paper & Design Competition Finalists." In Conference Proceedings. Annual International Conference of the IEEE Engineering in Medicine and Biology Society. IEEE, 2006. http://dx.doi.org/10.1109/iembs.2006.4461648.

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"SINE and LINE-1 competition for energy resources determines cell fate." In Bioinformatics of Genome Regulation and Structure/ Systems Biology. institute of cytology and genetics siberian branch of the russian academy of science, Novosibirsk State University, 2020. http://dx.doi.org/10.18699/bgrs/sb-2020-093.

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Si, Si, Luigi M. Ricciardi, Aniello Buonocore, and Enrica Pirozzi. "Some Applications of Hida Distributions to Biology." In COLLECTIVE DYNAMICS: TOPICS ON COMPETITION AND COOPERATION IN THE BIOSCIENCES: A Selection of Papers in the Proceedings of the BIOCOMP2007 International Conference. AIP, 2008. http://dx.doi.org/10.1063/1.2965099.

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RIO DOCE, ANA PAULA, REGINA ALMEIDA, and MICHEL COSTA. "A STAGE-STRUCTURED FINITE ELEMENT MODEL FOR THE POPULATION DYNAMICS OF TWO INTERTIDAL BARNACLES WITH INTERSPECIFIC COMPETITION." In International Symposium on Mathematical and Computational Biology. WORLD SCIENTIFIC, 2007. http://dx.doi.org/10.1142/9789812708779_0021.

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Garg, S., K. U. Kiran, R. Mohan, and U. S. Tiwary. "Multilevel Medical Image Fusion using Segmented Image by Level Set Evolution with Region Competition." In 2005 IEEE Engineering in Medicine and Biology 27th Annual Conference. IEEE, 2005. http://dx.doi.org/10.1109/iembs.2005.1616291.

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Reports on the topic "Competition (Biology)"

1

Devine, Joshua W. Follow-On Biologic Competition in the Biopharmaceutical Marketplace". Fort Belvoir, VA: Defense Technical Information Center, March 2005. http://dx.doi.org/10.21236/ada431410.

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