Downplaying positive impressions: Warmth versus competence (Journal of Experimental Social Psychology)

Posted on by Catherine Zandonella

By Michael Hotchkiss, Office of Communications

When people want to appear warm, they tend to agree, compliment, perform favors and encourage others to talk. When they want to appear competent, they emphasize their accomplishments, exude confidence and control the conversation. But people trying to manage how others see them also take advantage of a negative relationship between warmth and competence, according to Princeton University researchers Deborah Son Holoien, a graduate student in psychology, and Susan Fiske, the Eugene Higgins Professor of Psychology. Four studies detailed in this article found that people will act less competent to appear warm and act less warm to appear competent.

Holoien, Deborah Son and Susan Fiske. 2013 Downplaying positive impressions: Compensation between warmth and competence in impression management. Journal of Experimental Social Psychology 49: 33–41.

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This work was supported by a National Science Foundation Graduate Research Fellowship.

Nursing gerbils unravel benefit of multiple mothers in collective mammals (Mammalian Biology)

Posted on by Catherine Zandonella

By Morgan Kelly, Office of Communications

In mammals such as rodents that raise their young as a group, infants will nurse from their mother as well as other females, a dynamic known as allosuckling. Ecologists have long hypothesized that allosuckling lets newborns stockpile antibodies to various diseases, but the experimental proof has been lacking until now.

An in-press report in the journal Mammalian Biology found that infant Mongolian gerbils that suckled from females given separate vaccines for two different diseases wound up with antibodies for both illnesses.

The findings not only demonstrate the potential purpose of allosuckling, but also provide the first framework for further studying it in the wild by using traceable antibodies, said first author Romain Garnier, a postdoctoral researcher in Princeton University’s Department of Ecology and Evolutionary Biology. Garnier conducted the research with Sylvain Gandon and Thierry Boulinier of the Center for Functional and Evolutionary Ecology in France, and with Yannick Chaval and Nathalie Charbonnel at the Center for Biology and Management of Populations in France.

Garnier and his coauthors administered an influenza vaccine to one group of female gerbils, and a vaccine for Borrelia burgdorferi — the bacterial agent of Lyme disease — to another group. Once impregnated, female gerbils from each vaccine group were paired and, as the gerbils do in nature, kept separate from the male gerbils to birth and rear their young. In the wild, females can choose which young to nurse and infant gerbils can likewise choose which female to suckle. In the typical lab, however, one male, one female and their young are housed together, the researchers wrote.

When screened upon birth, all the infant gerbils had no detectable antibodies against influenza while one had antibodies against B. burgdorferi, according to the paper. But after eight days of nursing, all the infants contained high levels of antibodies for both influenza and B. burgdorferi, suggesting that the females nursed the young — their own and those of the other female — evenly. These results suggest that allosuckling is indeed intended to expose newborn animals to a host of antibodies.

This benefit sheds light on a peculiar arrangement in cooperative mammals that ecologists have puzzled over, the authors wrote. In social species, females usually fall into dominant or subordinate groups with the subordinate females typically involved in tending to the young produced by dominant females. Yet, in many cases, subordinate females are “allowed” to breed. Garnier and his colleagues suggest that the potentially larger antibody pool available through nursing might be one of the reasons why.

Cita­tion: Garnier, R., et al., Evidence of cross-transfer of maternal antibodies through allosuckling in a mammal: Potential importance for behavioral ecology. Mammal. Biol. (2012).

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Gypsy moth caterpillar takes bite out of forest carbon storage (Environmental Research Letters)

Posted on by Catherine Zandonella

Forests are important carbon dioxide storage mechanisms, but a voracious leaf-eating caterpillar is cutting into the trees’ capacity to remove the greenhouse gas from the atmosphere, according to new research by scientists at Princeton University, Rutgers University and the United States Forest Service.

The gypsy moth caterpillar, widespread in the northeastern United States, can wreak devastation on forests as it devours the leaves of oak, pine, and other tree species. The new research found that this defoliation has a significant detrimental effect on the ecosystem’s capacity to act as a carbon sink.

The study found that an oak-pine forest in the New Jersey pinelands hit by the gypsy moth every five years would store about one-third less of the above-ground carbon as an unharmed similar forest, according to David Medvigy, assistant professor of geosciences at Princeton University.

The research was conducted by Medvigy and Karina Schäfer, assistant professor of ecosystem ecology at Rutgers University as well as researchers from the US Forest Service: Kenneth Clark of the Silas Little Experimental Forest in New Jersey and Nicholas Skowronski of the Northern Research Station in West Virginia.

The research was published in the journal Environmental Research Letters. (Read the open access article.) A news article about the study can be found here.

Citation: Medvigy, D., K. L. Clark, N. S. Skowronskiand and K. V. R. Schäfer. 2012. Simulated impacts of insect defoliation on forest carbon dynamics. Environ. Res. Lett. 7 045703

 

Study explores the boundaries of embryonic development (eLife)

Posted on by Catherine Zandonella

If all of the DNA in a human cell was stretched out, it would be about two meters long. The nucleus of a human cell, on the other hand, has a diameter of just 6 micrometers, more than 300,000 times smaller, so the DNA molecules that carry all the genetic information in the cell need to be carefully folded to fit inside the nucleus. Cells meet this challenge by combining their DNA molecules with proteins to form a compact and highly organized structure called chromatin. Packaging DNA into chromatin also reduces damage to it.

But what happens when the cell needs to express the genes carried by the DNA as proteins or other gene products? The answer is that the compact structure of chromatin relaxes and opens up, which allows the DNA to be transcribed into messenger RNA. Indeed, packing DNA into chromatin makes this process more reliable, thus ensuring that the cell only produces proteins and other gene products when it needs them. However, because cross-talk between neighboring genes could potentially disrupt or change gene expression patterns, cells evolved special elements called boundaries or insulators to stop this from happening. These boundary factors divide the chromosomes into subdomains that can function independently of each other.

Since the protein factors implicated in boundary function seemed to be active in all tissues and cell types, it was assumed for many years that these boundaries and the resulting chromatin domains were fixed. However, a number of recent studies have shown that boundary activity can be subject to regulation, and thus chromatin domains are dynamic structures that can be defined and redefined during development to alter patterns of gene expression.

New research from the laboratory of Paul Schedl at Princeton University has uncovered a new fruit fly boundary factor that, unlike previously characterized factors, is active only during a specific stage of development. The Elba factor is also unusual in that it is made of three different proteins, known as Elba1, Elba2, and Elba3, and all three must be present for it to bind to DNA. The lead author of the study was Tsutomo Aoki of the Princeton University Department of Molecular Biology. Aoki worked with co-authors Ali Sarkeshik and John Yates from the Scripps Research Institute in La Jolla, CA.

While Elba2 is present during most stages of development, the other two Elba proteins are only present during early embryonic development, so the boundary factor is only active in early embryos. In addition to revealing a new mechanism for controlling boundary activity as an organism develops, the studies of Aoki et al. provide further evidence that chromatin domains can be dynamic.

Aoki, Tsutomu, Ali Sarkeshik, John Yang, and Paul Schedl. Elba, a novel developmentally regulated chromatin boundary factor is a hetero-tripartite DNA binding complex. eLife 2012;1:e00171

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Article summary provided by eLife.

Truths we must tell ourselves to manage climate change (Vanderbilt Law Review)

Posted on by Catherine Zandonella

Climate change is unwelcome news, and the best and worst outcomes consistent with current science are very different, says Princeton University’s Robert Socolow, professor of mechanical and aerospace engineering, in a new review article published in the Vanderbilt Law Review.  There are novel ways the environmental community, in its role as messenger, could tell the story about climate change using greater empathy and candor.  This essay, which was delivered as a keynote address at a symposium held Feb. 24, 2012 at the Vanderbilt Law School, addresses new ways to freshen the conversation.

The era of consciousness of climate change began in 1958 when Charles David Keeling began the first accurate measurements of carbon dioxide in the atmosphere. The seasonal oscillations were unexpected and the annual average has become a new index (the Keeling Curve) of global human impact.

Fifty-four years later, climate change negotiations in the United States and internationally are in paralysis. The current impasse has little social value and a “restart” button is needed. Such a button will be found when those already concerned about climate change become better at telling truths first to themselves and then to the general public. One can begin with acknowledgements that 1) climate change is unwelcome news, a challenge we would rather not have; and 2) the best and worst outcomes consistent with today’s climate change science are very different. Moreover, every nominal energy “solution” to climate change has a dark side and the solution’s proponents are not the ones to be counted upon to identify what can go wrong.

Accordingly, climate change is a problem of risk management requiring balancing the risks of disruption from climate change and the risks of disruption from mitigation and adaptation. Both public and private institutions need to find ways to overcome their reluctance to verify whether intended carbon reduction goals have actually occurred, so that progress can be accurately monitored and learning can occur. Individuals can be helped to become more aware of how their every-day activities create their carbon footprint. Population must reenter the conversation.

There are grounds for optimism. Science has discovered threats fairly early. Many helpful technologies are being developed and deployed. And, our moral compass is in working order, insisting that we care both for those alive today and for the collective future of our species.

Citation: Robert H. Socolow, “Truths We Must Tell Ourselves to Manage Climate Change.” Vanderbilt Law Review, Vol. 65, Number 6, pp. 1455-1478.

Read the full article: http://www.vanderbiltlawreview.org/content/articles/2012/11/Socolow_-65_Vand_L_Rev_1455.pdf

Transition from individual to group behavior in bacteria (Journal of Bacteriology)

Posted on by Catherine Zandonella

Bacteria use a chemical communication process called quorum sensing to control transitions between individual and group behaviors. In the bacteria known as Vibrio harveyi, two master “switches” of gene regulation, or transcription factors, coordinate the quorum-sensing response.The researchers found that one of the regulators, LuxR, acts as a sort of master switch that regulates quorum-sensing, while the other regulator, AphA, does the fine-tuning. Together the two regulators generate a precise pattern of activity as bacteria transition from acting as individuals to acting as a group.

Julia C. van Kessel, Steven T. Rutherford, Yi Shao, Alan F. Utria, and Bonnie L. Bassler. The master regulators AphA and LuxR control the Vibrio harveyi quorum-sensing regulon: analysis of their individual and combined effects
J. Bacteriol. published 30 November 2012, 10.1128/JB.01998-12

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New approach can rapidly estimate damage from earthquakes (Bulletin of the Seismological Society of America)

Posted on by Catherine Zandonella

A new approach that can rapidly estimate damage to tall buildings following a large earthquake has been developed by researchers. The approach involves creating a database of building responses to typical earthquake-related ground motions. After an earthquake, an analysis of the ground motions can indicate what type of damage is likely to have occurred to nearby buildings. The results could be useful for emergency response decision making.

Swaminathan Krishnan, Emanuele Casarotti, Jim Goltz, Chen Ji, Dimitri Komatitsch, Ramses Mourhatch, Matthew Muto, John H. Shaw, Carl Tape, and Jeroen Tromp. Rapid Estimation of Damage to Tall Buildings Using Near Real‐Time Earthquake and Archived Structural Simulations. Bulletin of the Seismological Society of America. 2012; 102:2646-2666.

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Effects of climate and land management on the type and location of vegetation in wetlands (PNAS)

Posted on by Catherine Zandonella

Periodic floods are a normal occurrence in wetlands. To find out how these floods impact niches of different plant species in wetlands, Princeton researchers studied plant species in Everglades National Park (ENP) in Florida. They found that the sizes of the clusters of each species follow a power law probability distribution and that such clusters have well-defined fractal characteristics. They modeled the effect that periodic flooding and neighboring vegetation have on plant clusters. They found that climate and land management have a predictable impact on the type of vegetation and its spatial organization in wetlands. The findings are highly relevant for the management of wetland ecosystems.

R Foti, M Del Jesus, A Rinaldo, and I Rodriguez-Iturbe. Hydroperiod regime controls the organization of plant species in wetlands.
PNAS, November 13, 2012

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The role of breast structure in tumor development (PNAS)

Posted on by Catherine Zandonella

Why do some breast tumors grow aggressively while others grow slowly? In this study, researchers found that the stiffness of the cells in the area around an emerging tumor influences its ability to grow and invade the breast. Using a 3-D fabrication process, the researchers created artificial breast ducts containing normal breast cells and a single tumor cell. They found that regions characterized by stiffness among the normal cells were more likely to give rise to tumors that are aggressive and invasive, while regions that were less stiff gave rise to tumors that are less invasive.

Eline Boghaert, Jason P. Gleghorn, KangAe Lee, Nikolce Gjorevski, Derek C. Radisky, and Celeste M. Nelson. Host epithelial geometry regulates breast cancer
cell invasiveness. Published online before print November 12, 2012, doi: 10.1073/pnas.1118872109 PNAS November 12, 2012

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Fiber optics could monitor health of pipelines in earthquake zones (Structural Health Monitoring)

Posted on by Catherine Zandonella

Earthquakes can damage pipelines with disastrous consequences to the environment and human health. Real-time monitoring of damage to pipelines after an earthquake can be obtained via fiber optic sensors, which are sensitive to strain at every point along their lengths. The sensors are both bonded to the pipeline and embedded in the soil near the pipeline. Two validation tests have now confirmed the ability of the method to reliably detect the location of damage to a pipeline.

Branko Glisic and Yao Yao. Fiber optic method for health assessment of pipelines subjected to earthquake-induced ground movement.  Structural Health Monitoring November 2012 vol. 11 no. 6 696-711 Published online before print August 15, 2012, doi: 10.1177/1475921712455683

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