The lead author of "Genetic influences on core self-evaluations, job satisfaction, work stress, and employee health: A behavioral genetics mediated model," published in Organizational Behavior and Human Decision Processes, Judge studied nearly 600 twins – some identical, some fraternal – who were raised together and reared apart.
He found that being raised in the same environment had very little effect on personality, stress and health. Shared genes turned out to be about four times as important as shared environment.
"Assume James and Sandy both work in the same organization," Judge says. "James reports more stress than Sandy. Does it mean that James' job is objectively more stressful than Sandy's? Not necessarily. Our study suggests strong heritabilities to work stress and the outcomes of stress. This means that stress may have less to do with the objective features of the environment than to the genetic 'code' of the individual."
The battle of nature vs. nurture shows that even at work, nature wins. Changing a job to free yourself of stress is probably not going to do the trick unless you appreciate your own predispositions toward stress.
"This doesn't mean we shouldn't do things as employers or individuals to avoid stressful jobs," Judge says. "However, we also shouldn't assume that we're 'a blank slate' and therefore be overly optimistic about what the work environment can and can't do as far as stress is concerned. More of it has to do with what's inside of us than what we encounter outside in the work environment."
Specializing in personality, leadership, moods, emotions and career and life success, Judge has published more than 130 articles in refereed journals, including more than 80 in top-tier journals. His studies "Do Nice Guys — and Gals — Really Finish Last?" and "On the Value of Aiming High: The Causes and Consequences of Ambition," both published last year, were widely cited in the media.
Timothy Judge | EurekAlert!
Rutgers-led innovation could spur faster, cheaper, nano-based manufacturing
14.02.2018 | Rutgers University
New study from the University of Halle: How climate change alters plant growth
12.01.2018 | Martin-Luther-Universität Halle-Wittenberg
Animal photoreceptors capture light with photopigments. Researchers from the University of Göttingen have now discovered that these photopigments fulfill an...
On 15 March, the AWI research aeroplane Polar 5 will depart for Greenland. Concentrating on the furthest northeast region of the island, an international team...
The world’s second-largest ice shelf was the destination for a Polarstern expedition that ended in Punta Arenas, Chile on 14th March 2018. Oceanographers from...
At the 2018 ILA Berlin Air Show from April 25–29, the Fraunhofer Institute for Laser Technology ILT is showcasing extreme high-speed Laser Material Deposition (EHLA): A video documents how for metal components that are highly loaded, EHLA has already proved itself as an alternative to hard chrome plating, which is now allowed only under special conditions.
When the EU restricted the use of hexavalent chromium compounds to special applications requiring authorization, the move prompted a rethink in the surface...
At the ILA Berlin, hall 4, booth 202, Fraunhofer FHR will present two radar sensors for navigation support of drones. The sensors are valuable components in the implementation of autonomous flying drones: they function as obstacle detectors to prevent collisions. Radar sensors also operate reliably in restricted visibility, e.g. in foggy or dusty conditions. Due to their ability to measure distances with high precision, the radar sensors can also be used as altimeters when other sources of information such as barometers or GPS are not available or cannot operate optimally.
Drones play an increasingly important role in the area of logistics and services. Well-known logistic companies place great hope in these compact, aerial...
16.03.2018 | Event News
13.03.2018 | Event News
08.03.2018 | Event News
16.03.2018 | Earth Sciences
16.03.2018 | Physics and Astronomy
16.03.2018 | Life Sciences