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51.
Derek A. Roff 《Journal of evolutionary biology》1989,2(2):109-123
This paper presents the results of an empirical test of the hypothesis that the evolution of dealation, or self-inflicted removal of wings, is favored in some insect species by the pre-existence of a physiological response of enhanced reproduction following dealation. Two Orthopteran species that do not naturally shed their wings are studied, Teleogryllus oceanicus and Gryllus firmus. The hypothesis that enhanced reproduction following dealation is accompanied by histolysis of the wing muscles is also examined. Dealation increases the rate of egg production in both species. However, total fecundity is not increased by dealation. Wing muscle histolysis is increased by dealation and there is a significant correlation between the degree of histolysis and cumulative egg production to days 4 and 7. It is suggested that Orthoptera are “preadapted” for the evolution of dealation and that ecological factors rather than physiological are most important in determining its appearance in various species. 相似文献
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The evolution of robust jaws, hypsodont teeth, and large chewing muscles among grazing ruminants is a quintessential example of putative morphological adaptation. However, the degree of correlated evolution (i.e., to what extent the grazer feeding apparatus represents an evolutionary module), especially of soft and hard tissues, remains poorly understood. Recent generation of large datasets and phylogenetic information has made testing hypotheses of correlated evolution possible. We, therefore, test for correlated evolution among various traits of the ruminant masticatory apparatus including tooth crown height, jaw robustness, chewing muscle size, and characters of the molar occlusal surfaces, using phylogenetic and nonphylogenetic comparative methods as well as phylogenetic evolutionary model selection. We find that the large masseter muscles of grazing ruminants evolved with the inclusion of grass in the diet, an increase in the proportion of occlusal enamel bands oriented parallel to the chewing stroke, and possibly hypsodonty. We suggest that the masseter evolved under two evolutionary regimes: i) selection for higher masticatory forces during chewing and ii) flattening of the tooth profile, which resulted in reduced tooth guidance and, thus, a requirement for more chewing muscle activity during each chewing stroke, in agreement with previous research. The linear jaw metrics (depth of the mandibular angle, mandibular angle width, and length of the superficial masseteric scar) all show correlated evolution with hypsodonty and the proportion of enamel bands oriented parallel to the chewing stroke. We suggest that changes in the shape of the mandible represent the combined effects of selection for a reorientation of the chewing stroke, so as to emphasize horizontal translation of the teeth, and accommodation of high‐crowned teeth. Our analyses show that the ruminant feeding apparatus is an evolutionary mosaic with its various components showing both correlated and independent evolution. J. Morphol. 275:1093–1102, 2014. © 2014 Wiley Periodicals, Inc. 相似文献
53.
Carlos Martel Demetra Rakosy Pedro E. Romero Jana Jersáková Manfred Ayasse 《植物分类学报:英文版》2023,61(3):487-497
Among terrestrial orchids, and particularly among the subtribe Orchidinae, flies are underrepresented as pollinators. The European Neotinea ustulata, which developed specialized pollination by tachinid flies, is known to produce high relative concentrations of the floral cuticular alkenes (Z)-11-tricosene and (Z)-11-pentacosene (referred to as (Z)-11-C23/C25enes), which seem to be uncommon among orchid flowers. If the evolution of tachinid pollination is related to that of (Z)-11-C23/C25enes, we can expect that closely related species have a different floral chemical pattern and significantly small or no production of (Z)-11-C23/C25enes, independently of their pollinator guild identity (e.g., bees, flies, moths). We chemically compared the floral cuticular composition among Neotinea species, performed electrophysiological analyses, reconstructed the phylogenetic Orchidinae tree, and identified the evolutionary history of pollinator guild and (Z)-11-C23/C25enes production within the Orchidinae. Neotinea ustulata has evolved a markedly different floral cuticular composition compared to other Neotinea and produces both compounds ((Z)-11-C23/C25enes) in high relative quantities (i.e., above 8% in combination), which are detectable by tachinid antennae. Moreover, most Orchidinae taxa have minimal or no production of these alkenes, independently of the identity of their pollinator guild. Our ancestral reconstruction suggested that (Z)-11-C23/C25enes production was an evolutionary exaptation in Neotinea, whereas tachinid pollination was a unique evolutionary innovation for N. ustulata. Floral cuticular composition and, in particular, the combined production of (Z)-11-C23/C25enes at relatively high concentrations is intimately linked to the evolution of tachinid pollination within the Orchidinae. 相似文献
54.
Metamorphosis and evolution of feeding behaviour in salamanders of the family
Plethodontidae 总被引:2,自引:0,他引:2
Plethodontid salamanders capture prey with enhanced tongue protraction relative to other salamander taxa, yet metamorphosing plethodontids are hypothesized to be constrained relative to direct-developing plethodontids in their degree of tongue evolution (protraction length and velocity) by the presence of a larval stage in development. In this biphasic life history the hyobranchial apparatus serves the conflicting functions of larval suction feeding and adult tongue protraction. The deletion of the larval stage removes one of the conflicting functions and has thus permitted direct-developing plethodontids to circumvent this constraint and evolve extremely long tongues, which in some species can be projected to 80% of body length. To evaluate this constraint hypothesis and explore taxonomic diversity of feeding behaviours, we studied feeding in larvae, adults and metamorphosing individuals of seven species of metamorphosing plethodontids from the basal taxa Desmognathinae and Hemidactyliini using direct observations, high-speed videography and kinematic analysis. We found that larval plethodontids suction feed, but feeding is suspended entirely during metamorphosis, and aquatic adults do not suction feed. Adults have exapted the terrestrial modes of tongue and jaw prehension for aquatic prey capture. These findings substantiate the premise that suction feeding and tongue protraction are conflicting functions, and thus our results support the constraint hypothesis. Plethodontid adults have evolved their extreme tongue protraction ability at the expense of adult suction feeding. The rapid metamorphosis that characterizes plethodontids may be an adaptation that minimizes the non-feeding period imposed by the evolution of derived tongue protraction in adults. © 2002 The Linnean Society of London, Zoological Journal of the Linnean Society , 2002, 134 , 375–400. 相似文献
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