Diet dependent sex ratios in Tigriopus californicus: Evidence for environmental sex determination in a system with polygenic sex determination

Hornell, Erin Charmaine

19 October 2017

By controlling the inheritance of sex, the sex determination mechanism constrains sex allocation strategies and sex ratio adaptation; however, sex ratio selection also influences the evolution of sex determination mechanisms. Much of the sex determination literature focuses on how sex determination mechanisms transition between genetic and environmental factors (i.e. GSD vs. ESD), and if genetic sex factors are involved, how many (e.g. chromosomal vs polygenic systems). The study of sex allocation largely focuses on deviations in sex ratio from a theoretically 1:1 evolutionarily stable strategy, such as when sex ratios reflect ‘cost’ differences between the sexes. Tigriopus californicus is a tidepool copepod with polygenic sex determination, and shows wide variability in sex ratios in the field and lab that cannot be explained by genetic and stochastic processes alone, which suggests that an environmental variable might influence sex ratio. Females and their offspring were fed diets of different nutritional quality in a crossed design, and the sex ratio of each clutch was recorded for up to 8 clutches from a given female: this design allowed the influence of female diet vs. that of her offspring to be distinguished. The clutch sex ratio changed over the laying order according to the offspring’s diet, which is evidence for environmental sex determination in this species. Sex ratio also showed the influence of maternal diet, consistent with sex allocation theory. While dietary carotenoids showed no association with sex ratio or clutch size, long chain polyunsaturated fatty acids (particularly EPA and DHA) were implicated as the agent of sex ratio effect, providing a direction for future studies. The situation of T. californicus at the intersection of major themes in sex evolution makes this system an ideal model for selection studies. / Graduate / 2018-09-13

copepod

Tigriopus californicus

environmental sex determination

polygenic sex determination

diet dependence

sex ratio

Sex Expression in a Rainforest Understory Herb, Begonia urophylla

Cozza, John

18 December 2008

Monoecy, the production of distinct male and female flowers on the same plant, is an important, though little studied, sexual strategy in the rainforest understory. This study of a monoecious plant discovered a cue to induce flowering, explored the interplay of gender constraint vs. plasticity in a natural population, and tested possible causes of gender in two laboratory experiments. An experiment in the lab found that reduced photoperiod for three weeks is an unambiguous cue for flowering. The remarkably long inductive period is followed by a long and variable period of floral initiation. This results in only partial synchronization of flowering among plants in a patch, which enhances mating opportunities in this protandrous plant. Inflorescence architecture is highly constrained, and ideally produces a phenotypic gender (proportion female) of about 0.5. However, in the forest at Las Cruces, Costa Rica, most plants were less female than predicted, mostly through abortion of female buds. Plants showed gender plasticity between and within years. Large plants produced more flowers and were more female in gender, and less variable in gender, than small plants. Reproduction was poorly correlated with environmental resource availability, measured as canopy openness, soil moisture, pH, and soil phosphorus, ammonium and nitrate. Phenotypic selection analysis on seed production suggests an optimal gender of 50-60% female, yet plasticity to be less female than this optimum, and in particular to express only male function, has been maintained. In a factorial experiment in the lab, high light or high nitrogen caused plants to produce more flowers and to be proportionally more female, and larger in weight, than low light or nitrogen. The effects of light and nitrogen on reproduction, plant size, and leaf greenness suggest an energy based determination of gender. Gender may be mostly influenced by plant size, but sometimes also opportunistically by environment. Inoculation with mycorrhizas caused plants to be less female in gender, and smaller in weight, than plants that were not inoculated. This suggests a net cost of mycorrhizas under experimental conditions, and supports the emerging view of the mycorrhizal symbiosis as not necessarily mutualistic under all circumstances.

Hona eller hane? En inblick i olika könsbestämningssystem hos vertebrater : Samt hur det kan tillämpas i biologiundervisningen på gymnasiet / Female or male? An insight into different sex determination systems in vertebrates : And how it can be applied in biology education in high school

Kristensson, Erica, Youssif, Makarios

January 2023

Könsbestämning hos vertebrater är ett komplext område som har intresserat forskare under en lång tid, trots detta är det i dagens forskningsläge inte helt självklart vad det är som avgör kön. Syftet med denna litteraturstudie är att identifiera och sammanställa kunskap om avgörande könsbestämningsmekanismer utifrån det aktuella forskningsläget. I samband med detta kommer arbetet undersöka hur exempel från könsbestämningssystem hos vertebrater kan användas och tillämpas i biologiundervisning på gymnasiet. Arbetet kom fram till att det är flera gener och proteiner som deltar i könsbestämningen, samt att många av dessa konserverats genom evolutionen. Dock betyder inte detta att alla grupper har samma könsbestämningsmekanismer utan det fanns en stor variation mellan vertebratgrupper. Jämförelser av könsbestämningssystemen visade på nya evolutionära samband mellan genetisk och miljöbetingad könsbestämning. Avslutningsvis konstateras möjliga tillämpningar i biologiundervisningen på gymnasiet. Exempel från olika könsbestämningssystem hos vertebrater kan eventuellt användas för att ge elever nya naturvetenskapliga perspektiv på könsbestämning och utveckla biologilärarens arbete med sexualitet, samtycke och relationer. / Sex-determination in vertebrates is a complex area of research that has interested researchers for a long time, still to this day it is not entirely clear what determines sex. The purpose of this literature review is to identify and summarize knowledge about crucial sex-determining mechanisms based on the current state of research. Regarding this review it will investigate how examples from the sex determination system in vertebrates can be used and applied in biology education at high school. The work concludes that there are several genes and proteins that are a part of the sex-determination, and that many of these have been conserved during evolution. However, this does not mean that all the vertebrates have the same sex-determining systems; rather there is a large variance within the vertebrates. Comparison of the sex-determining systems revealed new evolutionary relationships between the genetical- and the environmental sex-determining system. Finally, possible applications in biology education in high school were discussed. Examples from different sex-determining systems in vertebrates could potentially be used to provide students a new scientific perspective of sex-determination and develop the teacher’s work with sexuality, consent and relationships.

: Sex determination

Vertebrates

Genetic sex determination

GSD

Environmental sex determination

ESD

Biology education

Könsbestämningssystem

Vertebrater

Genetisk könsbestämning

GSD

Miljöbetingad könsbestämning

ESD

Biologiundervisning

Genetics

Genetik

The evolution, ecology and genetics of sex determination in Mercurialis annua

Russell, John R. W.

January 2012

The allocation of resources to male or female progeny, or to male or female reproductive function more generally, is one of the most important life history decisions a sexually reproducing individual must ever make. Sex determination is thus a fundamental process, yet the mechanisms which control it are surprisingly diverse. In this thesis, I examine sex determination in the plant species Mercurialis annua L. (Euphorbiaceae). I assess the mechanism of sex determination operating in dioecious and androdioecious populations of M. annua and also investigate the conservation and evolution of sex-determining mechanisms across the annual mercury clade, the lineages of which display exceptional variation in sexual system. First, using crosses, I establish that sex in dioecious M. annua is controlled by a single-locus genetic mechanism, consistent with recent work that identified a single male-linked DNA marker in the species. My search for new sex-linked genes revealed none, however, suggesting that M. annua possesses at most a small non-recombining region around sex-determining loci. Why many dioecious plants lack heteromorphic sex chromosomes is still poorly understood and I consider explanations for this. I extend my investigation by comparing genetic diversity between loci that differ in their linkage to the sex-determining locus. I find a single male-linked marker to possess significantly lower diversity than autosomal loci, but no difference in the diversity of partially sex-linked and non-sex-linked genes. I also assess the conservation of a sex-linked marker among annual mercury lineages and conduct crosses between lineages to examine the conservation of sex determination. My findings indicate a conserved mechanism of single-locus genetic sex determination and I consider the role polyploidisation and hybridisation have played in sexual system evolution and the modification of sex-determining mechanisms in the clade. Finally, I assess the presence of environmental sex determination in androdioecious M. annua, concluding that although male frequency is not influenced by growing density, a degree of sexual lability exists in the lineage.

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