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131.
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133.
Using inbreeding theory as applied to neutral alleles inherited maternally,
we generate expected probability distributions of times to identity by
descent for random pairs of mitochondrial genotypes within a population or
within an entire species characterized by high gene flow. For comparisons
with these expectations, empirical distributions of times to most recent
common ancestry were calculated (by conventional mtDNA clock calibrations)
from mtDNA haplotype distances observed within each of three vertebrate
species--American eels, hardhead catfish, and redwinged blackbirds. These
species were chosen for analysis because census population size in each is
currently large and because both genetic and life-history data are
consistent with the postulate that historical gene flow within these
species has been high. The observed molecular distances among mtDNA
lineages were two to three orders of magnitude lower than predicted from
census sizes of breeding females, suggesting that rate of mtDNA evolution
is decelerated in these species and/or that long-term effective population
size is vastly smaller than present-day population size. Several
considerations point to the latter possibility as most likely. The genetic
structure of any species is greatly influenced by historical demography;
even for species that are currently abundant, mtDNA gene lineages appear to
have been channeled through fairly small numbers of ancestors.
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135.
Previous studies of the impacts of climate change on lichens and fungi have focused largely on alpine and subalpine habitats, and have not investigated the potential impact on narrowly endemic species. Here, we estimate the impacts of climate change on high-elevation, endemic lichens in the southern Appalachians, a global diversity hotspot for many groups of organisms, including lichens. We conducted extensive field surveys in the high elevations of the region to accurately document the current distributions of eight narrowly endemic lichen species. Species distribution modeling was used to predict how much climatically suitable area will remain within, and north of, the current range of the target species under multiple climate change scenarios at two time points in the future. Our field work showed that target species ranged from extreme rarity to locally abundant. Models predicted over 93 % distributional loss for all species investigated and very little potentially suitable area north of their current distribution in the coming century. Our results indicate that climate change poses a significant threat to high-elevation lichens, and provide a case study in the application of current modeling techniques for rare, montane species. 相似文献
136.
DNA fingerprints from hypervariable mitochondrial genotypes 总被引:4,自引:0,他引:4
Conventional surveys of restriction-fragment polymorphisms in mitochondrial
DNA of menhaden fish (Brevoortia tyrannus/patronus complex) and chuckwalla
lizards (Sauromalus obesus) revealed exceptionally high levels of genetic
variation, attributable to differences in mtDNA size as well as in
restriction sites. The observed probabilities that any two randomly drawn
individuals differed detectably in mtDNA genotype were 0.998 and 0.983 in
the two species, respectively. Thus, the variable gel profiles provided
unique mtDNA "fingerprints" for most conspecific animals assayed. mtDNA
fingerprints differ from nuclear DNA fingerprints in several empirical
respects and should find special application in the genetic assessment of
maternity.
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140.
Camarodont sea urchins possess a rapidly evolving actin gene family whose
members are expressed in distinct cell lineages in a developmentally
regulated fashion. Evolutionary changes in the actin gene family of
echinoids include alterations in number of family members, site of
expression, and gene linkage, and a dichotomy between rapidly and slowly
evolving isoform-specific 3' untranslated regions. We present sequence
comparisons and an analysis of the actin gene family in two congeneric sea
urchins that develop in radically different modes, Heliocidaris
erythrogramma and H. tuberculata. The sequences of several actin genes from
the related species Lytechinus variegatus are also presented. We compare
the features of the Heliocidaris and Lytechinus actin genes to those of the
the actin gene families of other closely related sea urchins and discuss
the nature of the evolutionary changes among sea urchin actins and their
relationship to developmental mode.
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