953 research outputs found
Bleijenberg, Mathys Jacob, [No Service Number]
This record was harvested from a previous catalogue system and will be withdrawn in 2025. Information in this record may be superseded or incomplete. Visit this record in UMA's new catalogue at: https://archives.library.unimelb.edu.au/nodes/view/372237Surname: BLEIJENBERG
Given Name(s) or Initials: MATHYS JACOB
Military Service Number or Last Known Location: No Service Number
Missing, Wounded and Prisoner of War Enquiry Card Index Number: 55387183157
Item: [2016.0049.04564] "Bleijenberg, Mathys Jacob, [No Service Number]
Sechelleptus variabilis VandenSpiegel & Golovatch 2007
Sechelleptus variabilis VandenSpiegel & Golovatch, 2007 Fig. 2 Material examined Holotype UNION OF THE COMOROS • ♂; Mohéli, Fomboni; 12°15′ S, 043°45′ E; 21 May 2003; dead wood; R. Jocqué and D. VandenSpiegel leg.; BE_RMCA_MYR.Dip.21733. New material FRANCE – Department of Mayotte (Comoros archipelago) • ♂; Mereni, back of mangrove; 19 Nov. 2019; hand collecting; D. VandenSpiegel and A. Mathys leg.; BE_RMCA_MYR.Dip.22878 • 1 ♂, 1 ♀; same collection data as for preceding; 21 Nov. 2019; BE_RMCA_MYR.Dip.22879 • 1 ♂; same collection data as for preceding; BE_RMCA_MYR.Dip.22983 • 1 ♂, 1 ♀; Mont Benara; 12°52′ S, 045°09′ E; 21 Nov. 2019; hand collecting & sieving, litter; D. VandenSpiegel and A. Mathys leg.; BE_ RMCA_MYR.Dip.22883 • 1 ♂; Mont Combani, 500 m before Lodge; 12°47′ S, 045°09′ E; 15 Nov. 2019; sieving; litter; D. VandenSpiegel and A. Mathys leg.; BE_RMCA_MYR.Dip.22930. Remarks In the original description of the species, the length unit given for the specimens’ sizes is wrong and should have been cm instead of mm. Correct measurements are: length ♂♂: 3.4–8.0 cm; ♀♀: 5.0– 7.0 cm; midbody width 0.34–0.5 cm and 0.3 – 0.5 cm, respectively. Taking this modification into account, the recently collected specimens agree with the description (VandenSpiegel & Golovatch 2007).Published as part of Vandenspiegel, Didier, Henrard, Arnaud & Mathys, Aurore, 2021, Sechelleptus arborivagus sp. nov., a new arboreal spirostreptid millipede (Diplopoda, Spirostreptidae) endemic to Mayotte Island (Comoros Archipelago), Indian Ocean, pp. 1-21 in European Journal of Taxonomy 755 (1) on pages 7-8, DOI: 10.5852/ejt.2021.755.1395, http://zenodo.org/record/496600
Sechelleptus arborivagus Vandenspiegel & Henrard & Mathys 2021, sp. nov.
<i>Sechelleptus arborivagus</i> sp. nov. <p>urn:lsid:zoobank.org:act: 0F7B3368-17F8-4CAD-8B11-C34B564FE8DE</p> <p>Figs 3–8</p> Diagnosis <p> A medium-sized arboreal millipede with relatively long legs, particularly similar to <i>S. variabilis</i> by sharing the structure of the male first leg and rather simple gonopods with the metaplica widened and a little higher than proplica, the latter without lateral cone. The two species differ by the gonotelopodite being apically divided in two branches in <i>S. arborivagus</i> sp. nov. and simple in <i>S. variabilis.</i></p> Etymology <p>Referring to the ecology of the species, which has always been observed climbing trees.</p> Material examined <p> <b>Holotype</b></p> <p> FRANCE – <b>Department of Mayotte</b> (Comoros archipelago) • ♂; Mt. Tchaourembo; 12°52′14″ S, 045°08′44″ E; 540–550 m a.s.l.; 25 Nov. 2019; D. VandenSpiegel and A. Mathys leg.; on tree; by hand; GenBank accession numbers: MW168813 (COI), MW148622 (16S rRNA); BE_RMCA_MYR. Dip.22874.</p> <p> <b>Paratypes</b></p> <p> FRANCE – <b>Department of Mayotte</b> (Comoros archipelago) • 1 ♂, 1 ♀; same collection data as for holotype; GenBank accession numbers: MW168814 (COI), MW148623 (16S rRNA); BE_RMCA_ MYR.Dip.22875 • 9 ♀♀; same collection data as for holotype; GenBank accession numbers: MW168815 (COI), MW148624 (16S rRNA); BE_RMCA_MYR.Dip.22876.</p> Additional material <p> FRANCE – <b>Department of Mayotte</b> (Comoros archipelago) • 1 ♀; Mt. Benara; 12°52′ S, 045°11′ E; 23 Jan. 1999; R. Jocqué and G. De Smet leg.; forest; by hand; GenBank accession numbers: MW148621 (16S rRNA); BE_RMCA_MYR.Dip.17917.</p> Description <p> <b>Holotype</b></p> <p>With 57 body rings (plus telson, no apodous rings); ca 100 mm long, 7 mm wide.</p> <p>LIVE COLORATION (Fig. 3). Head, collum, antennae, telson, anal valves and legs uniformly light brownish to dark brownish. Metazonae light brown to red-brown. Posterior margin of metazonites dark brown.</p> <p>HEAD. Smooth. Each eye patch with circa 60 ommatidia arranged in seven horizontal rows (Fig. 4A), Labrum with three smoothly rounded teeth and a single row of 21 short labral setae (Fig. 4G). Clypeus with four supra-labral setae, two on each side (Fig. 4G). Antennae moderately long (Fig. 3), protruding back to ring 2. Relative length of antennomeres: 1>2>3=4=5>6. Terminal antennomere (disc) with four large sensory cones located together inside a membranous area. Each of antennomeres 5 and 6 apicolaterally with a field of narrow and long sensilla basiconica (Fig. 4B). Gnathochilarium, usual for spirostreptideans (Fig. 4D). Prementum (pm) smooth and straight, not depressed. Mentum (me) smooth. Lamellae linguales each with two strong apical setae, one equally strong seta behind these, plus, basally, an oblique line of four setae. Stipites with a basal longitudinal field of setae, lateral margin in distal half with a row of setae; one isolated, subapical, stout seta or sensillum; cardo small, kidney-shaped. Mandibles (Fig. 4E, F) with stipes devoid of differentiation. Odontomere (od) long, moveable. Sectile edge (se) of psectromere (ps) with four lobes; eight pectinate lamellae (pl). One wide molar furrow (mf).</p> <p>COLLUM. Smooth, ventrally with six longitudinal furrows, anteroventral angle 80–90°.</p> <p>BODY RINGS. Prozonae smooth. Metazonae with longitudinal striae ventrally from ca ⅔ ring length below ozopore. Ozopores located on metazonae, starting with ring 6, located close to, but not touching the suture between pro- and metazonae. Limbus simple (Fig. 4H). Defensive glands well-developed (Fig. 4I).</p> <p>TELSON. Preanal ring with a shallow submarginal depression. Anal valves smooth, without submarginal depression. Hypoproct, small, widely triangular.</p> <p>LEGS. Length 0.45–0.5 × body diameter, postfemoral and tibial pads (Fig. 4J) from third male leg-pair until beyond midbody, pads decreasing in size posteriorly; claw large, curved (Fig. 4K). First pair of male legs with a well-developed prefemoral process ending in an inward curved tip (Fig. 5A). Coxosternum with a laterobasal field of four strong setae on anterior side.</p> <p>GONOPODS (Figs 5B–E, 6). Sternum (st) triangular, not reaching as far distad as paracoxite (px). Metaplica (mp) higher than proplica, rounded apically (Fig. 5C; mp). Proplica with straight sides, in apical part with scattered short setae, ending apically in a more or less spiniform mesapical projection (Fig. 5C; mpp) and a well-developed, apicolateral, lamellose lobe (Fig. 6C; al); telopodite (Fig. 5B, E; tlp) long and slender, without a distinct demarcation between femoral and postfemoral parts, femorite with a small and pointed antetorsal process (Fig. 5E; ats), postfemorite spiralled, ribbon-shaped, broad and long, with a divided tip, the longer branch carrying the terminal opening of the solenomere (Fig. 5B; sl).</p> <p> <b>Paratypes</b></p> <p>Male similar to holotype.</p> <p>Female coloration as in male, but generally larger in size than male (up to 120 mm long 9 mm wide (58–61 body rings plus telson, no apodous rings). Vulvae located in membranous pouches attached to coxae 2 and 3 and to the inner lateral margin of ring 1, simple, consisting of two simple, subequallysized, moderately sclerotized valves, the aboral valve with an apical cluster of setae; ridge between valves covered with a lateral longitudinal operculum (Fig. 7).</p> Distribution <p>The species seems endemic to Mayotte (Fig. 8).</p> Affinities <p> On the basis of the gonopod structure having the telopodite with a spine arising well distad of the knee, a ribbon-shaped distal part, and a small free solenomerite arising just near the apex, the new species is manifestly a new member of the large genus <i>Sechelleptus</i>. Following the key published by Jeekel in 1999, <i>arborivagus</i> keys out close to <i>sulcicollis</i> and <i>macilentus</i>. Indeed the three species have a rather simple gonocoxite with a distally widened metaplica without a strong lateral cone but the new species do not show the small lateral uncus present on the metaplica of <i>sulcicolis</i> and possess a more or less spiniform mesapical projection on the proplica which is not present in <i>sulcicolis</i> neither in <i>macilentus</i>. By the overall shape of the male first leg and gonocoxite, the new species seems to be especially close to <i>S. variabilis</i>, also from the Comoros, but it differs strikingly by the structure of the gonotelopodite (in <i>S. variabilis</i> the gonotelopodite has a simple and pointed tip carrying the terminal opening of the seminal groove whereas in the new species the gonotelopodite has a divided tip, the longer branch carrying the terminal opening of the seminal groove) as well as by the larger body size and the longer and curved claws (Fig. 4K vs Fig. 2C). Other important differences concern the defensives glands, large in <i>S. arborivagus</i> sp. nov. (Fig. 4I) (vs inconspicuous in <i>S. variabilis</i> (Fig. 2A)), and the size of eyes: in the new specie the eyes are larger and include 60 ± 5 ommatidia (n = 10) arranged in 12 rows; whereas in <i>S. variabilis</i> the eyes, smaller, include 34 ± 3 (n = 10) ommatidia arranged in 9 rows.</p> Natural history <p> Most of the specimens belonging to the new species were collected on Mt Tchaourembo (see Fig. 8) in a forest fragment at 500–550 m a.s.l. All specimens were seen in trees and never in pairs, the males being rare (sex ratio> <b>1/6</b>). The species possesses enlarged ommatidia, relatively long legs with strongly curved tarsal claws, as well as a tendency for specimens to secrete extremely copiously from their defensive glands when irritated. Such modifications are considered by several authors as an adaptation to tree climbing and to arboreal life (Enghoff & Enghoff 1976; Hoffman & Howell 1983; VandenSpiegel 2001).</p> Discussion <p> Millipede systematics is mainly based on male gonopods because they use to be species-specific (Bond <i>et al</i>. 2003). However, studies based on DNA have demonstrated that molecular divergence in different millipede groups may not reflect divergence in morphology-based identifications and may hide considerable variation (Bond & Sierwald 2002; Bond <i>et al</i>. 2003; Adams <i>et al</i>. 2009; Mwabvu <i>et al</i>. 2013, 2015; Tinago <i>et al</i>. 2017). Although our relatively small taxon sampling, the phylogenetic analysis strongly recovers <i>Sechelleptus</i> as monophyletic and discriminates at least two or three different groups. Furthermore, the mean inter-specific distance values (14.9% for COI and 5.1% for 16S) were remarkably similar to previous studies that reported the presence of high genetic divergence among population of different spirostreptid species (Mwabvu <i>et al</i>. 2013, 2015), suggesting the existence of more than one species in those taxa. It is argued that high level of divergence between identified spirostreptid species may indicate that changes in genital morphology occur rather slowly relative to the high rate of substitution in mitochondrial sequences (especially for COI), and may underestimate species diversity. This also appears to be the case among the different forms of Mayottan <i>Sechelleptus</i>, which also share strongly similar gonopods. At the first glance, the new species of <i>Sechelleptus</i> seems to be a giant form of <i>S. variabilis.</i> However, although only subtle morphological differences are observed within the gonopods, the comparatively large body size and the behavior of <i>S. arborivagus</i> sp. nov. are remarkable. These observations finally corroborate our molecular analyses that clearly show sufficient genetic difference between the different <i>Sechelleptus</i> species collected on Mayotte (22.6% for COI and 6.6% for 16S between <i>S. arborivagus</i> sp. nov. and <i>S. variabilis</i>).</p> <p> The genetic analyses also suggest the presence of another different species, i.e., DU1, although its phylogenetic position remains unresolved. This unique specimen found at Mont Combani is a sub-adult female that could not allow a formal identification, but, judging from its general appearance, appears to be an intermediate from between the two <i>Sechelleptus</i> species collected on Mayotte. The genetic divergences, along with adaptations to arboreal life observed in the novel species, may indicate an “adaptive micro-radiation” on Mayotte Island or even the Comoros. However, the inclusion of more specimens, including adult males, in phylogenetic analyses is needed to test this hypothesis and evaluate the status of that putative new species.</p>Published as part of <i>Vandenspiegel, Didier, Henrard, Arnaud & Mathys, Aurore, 2021, Sechelleptus arborivagus sp. nov., a new arboreal spirostreptid millipede (Diplopoda, Spirostreptidae) endemic to Mayotte Island (Comoros Archipelago), Indian Ocean, pp. 1-21 in European Journal of Taxonomy 755 (1)</i> on pages 8-16, DOI: 10.5852/ejt.2021.755.1395, <a href="http://zenodo.org/record/4966001">http://zenodo.org/record/4966001</a>
R.A. Stucky, unter Mitarbeit von S. Stucky und mit Beiträgen von A. Loprieno, H.-P. Mathys und R. Wachter, Das Eschmun-Heiligtum von Sidon : Architektur und Inschriften, Antike Kunst Beiheft 19, Vereinigung der Freunde antiker Kunst, Bâle (2005)
Yon Jean-Baptiste. R.A. Stucky, unter Mitarbeit von S. Stucky und mit Beiträgen von A. Loprieno, H.-P. Mathys und R. Wachter, Das Eschmun-Heiligtum von Sidon : Architektur und Inschriften, Antike Kunst Beiheft 19, Vereinigung der Freunde antiker Kunst, Bâle (2005). In: Topoi, volume 16/2, 2009. pp. 589-598
Cortical Coupling Reflects Bayesian Belief Updating in the Deployment of Spatial Attention
The deployment of visuospatial attention and the programming of saccades are governed by the inferred likelihood of events. In the present study, we combined computational modeling of psychophysical data with fMRI to characterize the computational and neural mechanisms underlying this flexible attentional control. Sixteen healthy human subjects performed a modified version of Posner's location-cueing paradigm in which the percentage of cue validity varied in time and the targets required saccadic responses. Trialwise estimates of the certainty (precision) of the prediction that the target would appear at the cued location were derived from a hierarchical Bayesian model fitted to individual trialwise saccadic response speeds. Trial-specific model parameters then entered analyses of fMRI data as parametric regressors. Moreover, dynamic causal modeling (DCM) was performed to identify the most likely functional architecture of the attentional reorienting network and its modulation by (Bayes-optimal) precision-dependent attention. While the frontal eye fields (FEFs), intraparietal sulcus, and temporoparietal junction (TPJ) of both hemispheres showed higher activity on invalid relative to valid trials, reorienting responses in right FEF, TPJ, and the putamen were significantly modulated by precision-dependent attention. Our DCM results suggested that the precision of predictability underlies the attentional modulation of the coupling of TPJ with FEF and the putamen. Our results shed new light on the computational architecture and neuronal network dynamics underlying the context-sensitive deployment of visuospatial attention.
SIGNIFICANCE STATEMENT:
Spatial attention and its neural correlates in the human brain have been studied extensively with the help of fMRI and cueing paradigms in which the location of targets is pre-cued on a trial-by-trial basis. One aspect that has so far been neglected concerns the question of how the brain forms attentional expectancies when no a priori probability information is available but needs to be inferred from observations. This study elucidates the computational and neural mechanisms under which probabilistic inference governs attentional deployment. Our results show that Bayesian belief updating explains changes in cortical connectivity; in that directional influences from the temporoparietal junction on the frontal eye fields and the putamen were modulated by (Bayes-optimal) updates
From Nitrogen to Protein: Harnessing the Power of Nitrogen-Fixing Cyanobacteria for Protein-Rich Biomass Production
To meet the increasing demand for food and protein sources sustainably, innovative dietary alternatives must be explored. Nitrogen-fixing cyanobacteria represent a promising option for producing biomass with high nutritional value while promoting a more efficient and ecofriendly use of nitrogen resources. Most efforts still focus on optimizing the biomass and nutrient content, in terms of total protein, lipid, and carbohydrate composition. However, a systematic investigative approach to how the production system influences the nutritional value of biomass is still lacking. Crucial aspects, such as amino acid profile and bioaccessibility, are typically presented only as a final product characterization. This study presents the diazo-phototrophic continuous cultivation of the heterocystous cyanobacterium Nostoc PCC 7120 as a strategy for the stable production of protein-rich biomass without the need for a nitrogen fertilizer. Findings indicate that light intensity and residence time significantly affect the biomass nutritional value. Production under diazo-phototrophic conditions with a residence time of 1.07 +/- 0.11 days led to a notable increase in the essential amino acid content, which reached 15.06 +/- 0.35%. Considering also the conditionally indispensable amino acids for infant nutrition requirements-arginine, cysteine, and tyrosine-the percentage increased to 23.14 +/- 0.53%. Furthermore, protein bioaccessibility was measured at 81.3 +/- 3.6%, comparable to that of conventional vegetal protein sources like soy. In conclusion, continuous cultivation of Nostoc diazo-phototrophically presents a promising strategy for producing well-balanced biomass from a nutritional perspective, eliminating the need for an external nitrogen fertilizer
Role of the Medial Prefrontal Cortex in Impaired Decision Making in Juvenile Attention-Deficit/Hyperactivity Disorder
Importance Attention-deficit/hyperactivity disorder (ADHD) has been associated with deficient decision making and learning. Models of ADHD have suggested that these deficits could be caused by impaired reward prediction errors (RPEs). Reward prediction errors are signals that indicate violations of expectations and are known to be encoded by the dopaminergic system. However, the precise learning and decision-making deficits and their neurobiological correlates in ADHD are not well known. Objective To determine the impaired decision-making and learning mechanisms in juvenile ADHD using advanced computational models, as well as the related neural RPE processes using multimodal neuroimaging. Design, Setting, and Participants Twenty adolescents with ADHD and 20 healthy adolescents serving as controls (aged 12-16 years) were examined using a probabilistic reversal learning task while simultaneous functional magnetic resonance imaging and electroencephalogram were recorded. Main Outcomes and Measures Learning and decision making were investigated by contrasting a hierarchical Bayesian model with an advanced reinforcement learning model and by comparing the model parameters. The neural correlates of RPEs were studied in functional magnetic resonance imaging and electroencephalogram. Results Adolescents with ADHD showed more simplistic learning as reflected by the reinforcement learning model (exceedance probability, Px = .92) and had increased exploratory behavior compared with healthy controls (mean [SD] decision steepness parameter β: ADHD, 4.83 [2.97]; controls, 6.04 [2.53]; P = .02). The functional magnetic resonance imaging analysis revealed impaired RPE processing in the medial prefrontal cortex during cue as well as during outcome presentation (P < .05, family-wise error correction). The outcome-related impairment in the medial prefrontal cortex could be attributed to deficient processing at 200 to 400 milliseconds after feedback presentation as reflected by reduced feedback-related negativity (ADHD, 0.61 [3.90] μV; controls, -1.68 [2.52] μV; P = .04). Conclusions and Relevance The combination of computational modeling of behavior and multimodal neuroimaging revealed that impaired decision making and learning mechanisms in adolescents with ADHD are driven by impaired RPE processing in the medial prefrontal cortex. This novel, combined approach furthers the understanding of the pathomechanisms in ADHD and may advance treatment strategies
Schwerpunktthema: Erzählen, Träumen, Erinnern. Erträge klinischer Erzählforschung
Erzählen im Kontext von Krankheit, Leiden und Konflikt
Elisabeth Gülich, Heike Knerich & Katrin Lindemann
Rekonstruktion und (Re-)Interpretation in Krankheitserzählungen – Ein Beitrag aus der linguistischen Gesprächsforschung
Armin Koerfer & Karl Köhle
Was ist erzählenswert? Das Relevanzproblem in einer narrativen Medizin
Gabriele Lucius-Hoene
Erzählen als Bewältigung
Cybèle de Silveira
„Die Gefühle der Entlastung waren so stark“ – Narrative Distanzierung von Müttern mit unsicherer Bindungsrepräsentation
Arnulf Deppermann
Therapeutisches Fragen als Hebammenkunst
Traum, Beziehung und Not des Lebens
Viktoria Heine & Jörg Frommer
„dann hat ich n Traum gehabt […] da wusst ich was kämpfen is“ – Träume in autobiografisch narrativen Interviews mit Überlebenden einer akuten Leukämie
Hanspeter Mathys
Die Traummitteilung als triangulierender Mitteilungsmodus
Judith Brändle
Träume erzählen in der Psychotherapie – Eine erzählanalytische Untersuchung der Träume von Frau W.
Susanne Döll-Hentschker
Die Veränderung von Träumen im Laufe einer analytischen Behandlung
Psychodynamische Erzählanalyse
Hermann Staats
Das zählen, was zählt – Zentrale Beziehungskonfliktthemen in Forschung und Praxis
Franziska Stärk
Geschwisterbeziehung in den Erzählungen von Frau W. – Eine narrative Einzelfallstudie der Psychodynamik in einer Geschwisterbeziehung auf der Basis der Erzählanalyse JAKOB
Vera Luif
Narrative im therapeutischen Dialog
Marc Luder
Konstruktionen in der Erzählanalyse JAKOB
Identität und Gedächtnis
Geneviève Grimm
Funktionen des Erinnerns im Lebensrückblick älterer Menschen
Hans J. Markowitsch
Stressbedingte Erinnerungsblockaden – Neuropsychologie und Hirnbildgebung
Identität und Selbstkonstitution
Timo Storck
Künstlerische Selbstkonstitution und erzählte Beziehungsfantasie
David Lätsch
Identifizierung mit der Kunstfigur – Einige Überlegungen zum Zusammenhang zwischen Fiktion und Identifizierung
Daniel Sollberger
Diskurse im Narrativ – Diskursive Konstruktionen einer liminalen und medialen Identität in den narrativen Bewältigungen von erwachsenen Kindern psychisch kranker Eltern
Wolfgang Kraus
Ich, wir und die anderen – Individualisierungstheoretische Anfragen an eine Theorie narrativer Identität
Zugehörigkeit und Integration
Renate Höfer
Exklusionsgefährdung und Inklusionsbegehren
Heidrun Schulze
Narration und Figuration – Zum Aspekt biografischer, kultureller und institutioneller Interdependenz beim Erzählen von Krankheitserleben im Kontext von Migrationserfahrung
Alba Polo
Die Vaterimago in der weiblichen Adoleszenz – Werkstattbericht einer erzählanalytischen Studi
Morphological evolution of birds recently introduced to islands: patterns of diversification
Evolution was originally considered to be observable only over geological time scales. It has recently become apparent that evolutionary changes can be detected over contemporary time periods. Exotic species often experience intense selection, making them good model systems for investigating evolutionary changes over contemporary time. We often know details of the introductions, such as exact time, location of the source population, founding propagule size, and establishment history. These details allow us to formulate hypotheses concerning the evolutionary changes expected in these species' exotic ranges.
I examined contemporary morphological evolution of passerine birds introduced to islands. Passerine birds have been introduced to many islands world-wide, making them conducive for examining patterns of insular evolution. In chapters one and two, I evaluated whether these species conform to the Island Rule, an ecogeographic rule based on the study of native insular species. It states that, on islands, small species should increase in body size while large species should decrease body size. All of the species I studied are small, therefore they were expected to increase in body size. I found equivocal results concerning the Island Rule. In chapter one, I found that the great kiskadee (Pitangus sulphuratus) follows the Island Rule, as it is larger in its exotic island range than in the native source range. However, in chapter two, I found no clear Island Rule pattern examining 39 insular populations. However, I did find a clear pattern of decrease in wing length and increase in tail length. Although these populations may not be following an overall Island Rule pattern, they are still adapting to their exotic environments. In chapter three, I evaluated among-island diversification of six passerine species introduced to the Hawaiian archipelago. Five of these six species show some morphological differentiation between islands, and at least some of this differentiation cannot be accounted for by genetic drift.
The results of this dissertation provide further support for the idea that evolutionary divergence can happen over contemporary time scales. The passerine bird populations examined in these chapters have adapted to local conditions, giving us insights into the genesis of evolutionary diversity.Ph.D.Includes bibliographical referencesby Blake Mathy
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