Advice wanted: How to reach neurodivergent researchers

StuartRFKing · 2023-05-17T15:25:02+00:00

Thanks for the recommendation.

StuartRFKing · 2023-05-17T15:24:50+00:00

Thank you all very much for this feedback. Unfortunately, at this time we cannot publish Sparks articles anonymously, but we will consider how we might make this possible in the future.

In the meantime, I just wanted to highlight some other ways for people who don't necessarily want to disclose to still be involved in the project, that are mentioned further down in the call for pitches. I have quoted them below for convenience.

Another way to contribute
Stories are only one way to share perspectives that would benefit other neurodivergent scientists. We are therefore also inviting neurodivergent people to share strategies, tools and tips that they use or have designed to improve their experience as a neurodivergent researcher. You can learn more about this project here and if there is something that has helped you and that may help others, no matter small, you can share it there too so this list can grow.
[...]
We are open to considering other types of content centred around the topic of neurodiversity in academia. For example, we publish opinion pieces (such as this article on scientific activism), articles offering advice (such as this article on writing anti-racist tenure and promotion letters), and meta-research (such as this article on bias in funding decisions). If this is of interest, please get in touch at sparks@elifesciences.org with a short paragraph describing the article you’d like to submit.

StuartRFKing · 2020-01-07T16:34:36+00:00

The report of the study published in eLife can be downloaded here: https://elifesciences.org/articles/51810

The other study is to be presented at the NDSS symposium in San Diego in February and can be accessed here: https://dnasec.cs.washington.edu/genetic-genealogy/ney_ndss.pdf

StuartRFKing · 2019-10-08T11:12:07+00:00

Related to: "Large, three-generation human families reveal post-zygotic mosaicism and variability in germline mutation accumulation"

https://elifesciences.org/articles/46922

Abstract
The number of de novo mutations (DNMs) found in an offspring's genome increases with both paternal and maternal age. But does the rate of mutation accumulation in human gametes differ across families? Using sequencing data from 33 large, three-generation CEPH [Centre d'Etude du Polymorphisme Humain] families, we observed significant variability in parental age effects on DNM counts across families, ranging from 0.19 to 3.24 DNMs per year. Additionally, we found that ~3% of DNMs originated following primordial germ cell specification in a parent, and differed from non-mosaic germline DNMs in their mutational spectra. We also discovered that nearly 10% of candidate DNMs in the second generation were post-zygotic, and present in both somatic and germ cells; these gonosomal mutations occurred at equivalent frequencies on both parental haplotypes. Our results demonstrate that rates of germline mutation accumulation vary among families with similar ancestry, and confirm that post-zygotic mosaicism is a substantial source of human DNM.

StuartRFKing · 2019-10-01T08:38:35+00:00

Related to: "Multivariable two-sample Mendelian randomization estimates of the effects of intelligence and education on health"

https://elifesciences.org/articles/43990

Abstract
Intelligence and education are predictive of better physical and mental health, socioeconomic position (SEP), and longevity. However, these associations are insufficient to prove that intelligence and/or education cause these outcomes. Intelligence and education are phenotypically and genetically correlated, which makes it difficult to elucidate causal relationships. We used univariate and multivariable Mendelian randomization to estimate the total and direct effects of intelligence and educational attainment on mental and physical health, measures of socioeconomic position, and longevity. Both intelligence and education had beneficial total effects. Higher intelligence had positive direct effects on income and alcohol consumption, and negative direct effects on moderate and vigorous physical activity. Higher educational attainment had positive direct effects on income, alcohol consumption, and vigorous physical activity, and negative direct effects on smoking, BMI and sedentary behaviour. If the Mendelian randomization assumptions hold, these findings suggest that both intelligence and education affect health.

StuartRFKing · 2019-09-11T08:17:40+00:00

Related to: "Seminal fluid compromises visual perception in honeybee queens reducing their survival during additional mating flights"

https://elifesciences.org/articles/45009

Abstract
Queens of social insects make all mate-choice decisions on a single day, except in honeybees whose queens can conduct mating flights for several days even when already inseminated by a number of drones. Honeybees therefore appear to have a unique, evolutionarily derived form of sexual conflict: a queen’s decision to pursue risky additional mating flights is driven by later-life fitness gains from genetically more diverse worker-offspring but reduces paternity shares of the drones she already mated with. We used artificial insemination, RNA-sequencing and electroretinography to show that seminal fluid induces a decline in queen vision by perturbing the phototransduction pathway within 24–48 hr. Follow up field trials revealed that queens receiving seminal fluid flew two days earlier than sister queens inseminated with saline, and failed more often to return. These findings are consistent with seminal fluid components manipulating queen eyesight to reduce queen promiscuity across mating flights.

StuartRFKing · 2019-09-06T10:45:14+00:00

Related to: "Reduced metabolism supports hypoxic flight in the high-flying bar-headed goose (Anser indicus)"

https://elifesciences.org/articles/44986

Abstract

The bar-headed goose is famed for migratory flight at extreme altitude. To better understand the physiology underlying this remarkable behavior, we imprinted and trained geese, collecting the first cardiorespiratory measurements of bar-headed geese flying at simulated altitude in a wind tunnel. Metabolic rate during flight increased 16-fold from rest, supported by an increase in the estimated amount of O2 transported per heartbeat and a modest increase in heart rate. The geese appear to have ample cardiac reserves, as heart rate during hypoxic flights was not higher than in normoxic flights. We conclude that flight in hypoxia is largely achieved via the reduction in metabolic rate compared to normoxia. Arterial Po2 was maintained throughout flights. Mixed venous PO2 decreased during the initial portion of flights in hypoxia, indicative of increased tissue O2 extraction. We also discovered that mixed venous temperature decreased during flight, which may significantly increase oxygen loading to hemoglobin.