Browsing by Subject "Trade-offs"
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Item Open Access Mistakes and Small Steps Can Take You Far: Exploring Fern Variation and Biogeography in Cheilanthes (Pteridaceae), with a Focus on Spore Diversity and Range Expansion in Cheilanthes distans(2022) Sosa, KarlaWhy do species exist where they do? Understanding the forces and processes that shape species’ ranges—and that affect their dispersal and range expansion—have long fascinated biologists. In this work, I focus on understanding diversity and dispersal in Cheilanthes ferns. I first describe a species new to science, Cheilanthes ecuadorensis, from among the understudied South American members of this genus. I then turn to studying the widely distributed, asexual, Australasian species C. distans. Careful review of samples from this species allowed me to find sexual specimens previously unknown to science that exist in a narrow range, as well as to catalogue extensive spore diversity that has gone unrecorded. I find strong evidence for trade-offs related to spore size, with larger spores having higher germination while smaller spores have greater dispersal. Excitingly, I find that spores previously catalogued as abortive are in fact viable, and contribute to the spore size diversity I observe. I then place these findings into phylogenetic context by building a phylogeny for all Australasian Cheilanthes, and use it to explore the relationships of sexual and asexual lineages, of different ploidy levels, and of geographic distributions. These analyses reveal that most dispersal in C. distans occurs over shorter rather than longer distances, in contrast to previous hypotheses posited by fern biologists. I observe that lineages are not limited to particular geographic regions, as well finding that dispersal is asymmetrical and seems to be tracking trade winds. For all my work I rely heavily on herbarium specimens and use them to catalogue morphological variation as well as to obtain DNA sequences that are used for phylogenetic analysis. I implement a variety of statistical and systematic analyses to explore correlations between spore size, reproductive mode, ploidy, germination, and dispersal. While this work expands our knowledge of fern diversity and biogeography, much still remains to be understood, including cataloguing possible novel species, understanding the biology behind spore size determination, and exploring the role of niche in the dispersal and range expansion of C. distans.
Item Open Access Puzzling role of genetic risk factors in human longevity: "risk alleles" as pro-longevity variants.(Biogerontology, 2016-02) Ukraintseva, Svetlana; Yashin, Anatoliy; Arbeev, Konstantin; Kulminski, Alexander; Akushevich, Igor; Wu, Deqing; Joshi, Gaurang; Land, Kenneth C; Stallard, EricComplex diseases are major contributors to human mortality in old age. Paradoxically, many genetic variants that have been associated with increased risks of such diseases are found in genomes of long-lived people, and do not seem to compromise longevity. Here we argue that trade-off-like and conditional effects of genes can play central role in this phenomenon and in determining longevity. Such effects may occur as result of: (i) antagonistic influence of gene on the development of different health disorders; (ii) change in the effect of gene on vulnerability to death with age (especially, from "bad" to "good"); (iii) gene-gene interaction; and (iv) gene-environment interaction, among other factors. A review of current knowledge provides many examples of genetic factors that may increase the risk of one disease but reduce chances of developing another serious health condition, or improve survival from it. Factors that may increase risk of a major disease but attenuate manifestation of physical senescence are also discussed. Overall, available evidence suggests that the influence of a genetic variant on longevity may be negative, neutral or positive, depending on a delicate balance of the detrimental and beneficial effects of such variant on multiple health and aging related traits. This balance may change with age, internal and external environments, and depend on genetic surrounding. We conclude that trade-off-like and conditional genetic effects are very common and may result in situations when a disease "risk allele" can also be a pro-longevity variant, depending on context. We emphasize importance of considering such effects in both aging research and disease prevention.