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Male Reproductive Tactics (male + reproductive_tactic)

Distribution by Scientific Domains
Life Sciences75%

Selected Abstracts

Seasonal plasticity of brain aromatase mRNA expression in glia: Divergence across sex and vocal phenotypes

DEVELOPMENTAL NEUROBIOLOGY, Issue 1 2005
Paul M. Forlano
Abstract Although teleost fishes have the highest levels of brain aromatase (estrogen synthase) compared to other vertebrates, little is known of its regulation and function in specific brain areas. Previously, we characterized the distribution of aromatase in the brain of midshipman fish, a model system for identifying the neural and endocrine basis of vocal-acoustic communication and alternative male reproductive tactics. Here, we quantified seasonal changes in brain aromatase mRNA expression in the inter- and intrasexually dimorphic sonic motor nucleus (SMN) and in the preoptic area (POA) in males and females in relation to seasonal changes in circulating steroid hormone levels and reproductive behaviors. Aromatase mRNA expression was compared within each sex throughout non-reproductive, pre-nesting, and nesting periods as well as between sexes within each season. Intrasexual (male) differences were also compared within the nesting period. Females had higher mRNA levels in the pre-nesting period when their steroid levels peaked, while acoustically courting (type I) males had highest expression during the nesting period when their steroid levels peaked. Females had significantly higher levels of expression than type I males in all brain areas, but only during the pre-nesting period. During the nesting period, non-courting type II males had significantly higher levels of aromatase mRNA in the SMN but equivalent levels in the POA compared to type I males and females. These results demonstrate seasonal and sex differences in brain aromatase mRNA expression in a teleost fish and suggest a role for aromatase in the expression of vocal-acoustic and alternative male reproductive phenotypes. © 2005 Wiley Periodicals, Inc. J. Neurobiol, 2005 [source]

The genetic basis of early-life morphological traits and their relation to alternative male reproductive tactics in Atlantic salmon

JOURNAL OF EVOLUTIONARY BIOLOGY, Issue 4 2010
D. J. PáEZ
Abstract Although heritability estimates for traits potentially under natural selection are increasingly being reported, their estimation remains a challenge if we are to understand the patterns of adaptive phenotypic change in nature. Given the potentially important role of selection on the early life phenotype, and thereby on future life history events in many fish species, we conducted a common garden experiment, using the Atlantic salmon (Salmo salar L.), with two major aims. The first objective is to determine how the site of origin, the paternal sexual tactic and additive genetic effects influence phenotypic variation of several morphological traits at hatching and emergence. The second aim is to test whether a link exists between phenotypic characteristics early in life and the incidence of male alternative tactics later in life. We found no evidence of a site or paternal effect on any morphological trait at hatching or emergence, suggesting that the spatial phenotypic differences observed in the natural river system from which these fish originated are mainly environmentally driven. However, we do find significant heritabilities and maternal effects for several traits, including body size. No direct evidence was found correlating the incidence of precocious maturation with early life characteristics. We suggest that under good growing conditions, body size and other traits at early developmental stages are not reliable cues for the surpassing of the threshold values associated with male sexual development. [source]

The evolution of reproductive and genomic diversity in ray-finned fishes: insights from phylogeny and comparative analysis

JOURNAL OF FISH BIOLOGY, Issue 1 2006
J. E. Mank
Collectively, ray-finned fishes (Actinopterygii) display far more diversity in many reproductive and genomic features than any other major vertebrate group. Recent large-scale comparative phylogenetic analyses have begun to reveal the evolutionary patterns and putative causes for much of this diversity. Several such recent studies have offered clues to how different reproductive syndromes evolved in these fishes, as well as possible physiological and genomic triggers. In many cases, repeated independent origins of complex reproductive strategies have been uncovered, probably reflecting convergent selection operating on common suites of underlying genes and hormonal controls. For example, phylogenetic analyses have uncovered multiple origins and predominant transitional pathways in the evolution of alternative male reproductive tactics, modes of parental care and mechanisms of sex determination. They have also shown that sexual selection in these fishes is repeatedly associated with particular reproductive strategies. Collectively, studies on reproductive and genomic diversity across the Actinopterygii illustrate both the strengths and the limitations of comparative phylogenetic approaches on large taxonomic scales. [source]

Isolation and characterization of microsatellite markers from the Hypoptychus dybowskii (Pisces, Gasterosteiformes)

MOLECULAR ECOLOGY RESOURCES, Issue 1 2002
Hiroyuki Munehara
Abstract Hypoptychus dybowskii (Gasterosteiformes) exhibits allopaternal care frequently caused by various types of male reproductive tactics (sneaking, egg desertion and taking over). In order to understand this interesting reproductive system, we isolated microsatellites loci from H. dybowskii. Five microsatellites showed 2,10 alleles and expected heterozygosities ranged from 0.15 to 0.84. These were not significant deviations from Hardy,Weinberg expectations. These results suggest that these novel polymorphic loci should be useful for parentage analysis of H. dybowskii. [source]