Prolonged care and cannibalism of infant corpse by relatives in semi-free-ranging capuchin monkeys. Cinzia Trapanese et al. Primates, September 3 2019. https://link.springer.com/article/10.1007/s10329-019-00747-8
Abstract: Cannibalism is a quite common behaviour in animals that can have survival value when food is scarce or in the case of overpopulation. Conversely, cannibalism can also increase pathogen transmission and reduce fitness. In primates, some cases of cannibalism are associated with infanticide or are performed by mothers after their newborn has died (filial cannibalism). We report here the first observation of cannibalism, specifically infant cannibalism, in a semi-free-ranging group of brown capuchin monkeys (Sapajus apella). The baby was likely stillborn, as parts of the cranial bones were missing and no fresh injuries were visible. After half a day of taking care of the dead infant, the mother ate part of the corpse’s skin and the highly nutritional viscera, possibly thereby compensating for the physiological costs of pregnancy. After attentively watching his mother’s behaviour, the older brother of the dead newborn similarly ate parts of the corpse. Although we cannot rule out idiosyncrasy and vertical social transmission, it is possible that cannibalism is a normal—albeit rare—part of the behavioural repertoire of capuchin monkeys.
Keywords: Cannibalism Filial cannibalism Death Thanatology Maternal care Sapajus apella
Check also Grieving Orca Carries Dead Calf for More Than 3 Days: ‘She’s Just Not Letting Go.’ Mihir Zaveri. The New York Times, Jul 27 2018. https://www.bipartisanalliance.com/2018/07/grieving-orca-carries-dead-calf-for.html
And Prolonged transport and cannibalism of mummified infant remains by a Tonkean macaque mother. Arianna De Marco, Roberto Cozzolino, and Bernard Thierry. Primates, https://www.bipartisanalliance.com/2017/09/prolonged-transport-and-cannibalism-of.html
And Nishie H, Nakamura M. A newborn infant chimpanzee snatched and cannibalized immediately after birth: Implications for “maternity leave” in wild chimpanzee. Am J Phys Anthropol. 2017;00:1–6. https://www.bipartisanalliance.com/2017/10/a-newborn-infant-chimpanzee-snatched.html
Bipartisan Alliance, a Society for the Study of the US Constitution, and of Human Nature, where Republicans and Democrats meet.
Tuesday, September 3, 2019
The brain, sensing the internal & external milieu, & consulting its database, predicts what is likely to be needed; it computes the best response; it rewards a better-than-predicted result with a pulse of dopamine, encouraging learning
Allostasis: A Brain-Centered, Predictive Mode of Physiological Regulation. Jay Schulkin, Peter Sterling. Trends in Neurosciences, September 2 2019. https://doi.org/10.1016/j.tins.2019.07.010
Highlights
. Allostasis – brain-centered predictive regulation – starts with a hypothalamic clock that synchronizes clocks in every tissue.
. On this diurnal cycle of metabolic variation, the brain superimposes an episodic rest–activity cycle that coordinates change in key systems (respiration, heart rate, blood pressure, body temperature, and physical activity).
. The brain predicts upcoming needs for food, water, salt, warmth, or cooling and satisfies them by adjusting physiology and behavior to prevent errors that would require homeostatic correction.
. The brain rewards a better-than-predicted result with a pulse of dopamine, thereby encouraging the organism to learn effective regulatory behaviors.
Abstract: Although the concept of allostasis was proposed some 30 years ago, doubts persist about its precise meaning and whether it is useful. Here we review the concept in the context of recent studies as a strategy to efficiently regulate physiology and behavior. The brain, sensing the internal and external milieu, and consulting its database, predicts what is likely to be needed; then, it computes the best response. The brain rewards a better-than-predicted result with a pulse of dopamine, thereby encouraging the organism to learn effective regulatory behaviors. The brain, by prioritizing behaviors and dynamically adjusting the flows of energy and nutrients, reduces costly errors and exploits more opportunities. Despite significant costs of computation, allostasis pays off and can now be recognized as a core principle of organismal design.
Highlights
. Allostasis – brain-centered predictive regulation – starts with a hypothalamic clock that synchronizes clocks in every tissue.
. On this diurnal cycle of metabolic variation, the brain superimposes an episodic rest–activity cycle that coordinates change in key systems (respiration, heart rate, blood pressure, body temperature, and physical activity).
. The brain predicts upcoming needs for food, water, salt, warmth, or cooling and satisfies them by adjusting physiology and behavior to prevent errors that would require homeostatic correction.
. The brain rewards a better-than-predicted result with a pulse of dopamine, thereby encouraging the organism to learn effective regulatory behaviors.
Abstract: Although the concept of allostasis was proposed some 30 years ago, doubts persist about its precise meaning and whether it is useful. Here we review the concept in the context of recent studies as a strategy to efficiently regulate physiology and behavior. The brain, sensing the internal and external milieu, and consulting its database, predicts what is likely to be needed; then, it computes the best response. The brain rewards a better-than-predicted result with a pulse of dopamine, thereby encouraging the organism to learn effective regulatory behaviors. The brain, by prioritizing behaviors and dynamically adjusting the flows of energy and nutrients, reduces costly errors and exploits more opportunities. Despite significant costs of computation, allostasis pays off and can now be recognized as a core principle of organismal design.
Drop of compliance over time: While in 2003 the foot-in-the-door strategy was effective in Ukraine and ineffective in Poland, in 2013, the effect was insignificant in both Ukraine and Poland
The Foot-in-the-Door Phenomenon 40 and 50 Years Later: A Direct Replication of the Original Freedman and Fraser Study in Poland and in Ukraine. Malgorzata Gamian-Wilk, Dariusz Dolinski. Psychological Reports, September 2, 2019. https://doi.org/10.1177/0033294119872208
Abstract: Since the original Freedman and Fraser studies were published, a great amount of research using the foot-in-the-door tactic has revealed its effectiveness. Nevertheless, the effect sizes reported in meta-analysis studies tend to be low and the effect size obtained by Freedman and Fraser in their studies has never been obtained again. We conducted a direct replication of the original foot-in-the-door experiment in two time intervals and in two countries. The results indicate a drop of compliance over time. The results reveal that, while in 2003 the foot-in-the-door strategy was effective in Ukraine and ineffective in Poland, in 2013, the effect was insignificant in both Ukraine and Poland. The results are explained by high ecological validity of the foot-in-the-door procedure.
Keywords: Replication, social influence, compliance, foot-in-the-door, ecological validity
Abstract: Since the original Freedman and Fraser studies were published, a great amount of research using the foot-in-the-door tactic has revealed its effectiveness. Nevertheless, the effect sizes reported in meta-analysis studies tend to be low and the effect size obtained by Freedman and Fraser in their studies has never been obtained again. We conducted a direct replication of the original foot-in-the-door experiment in two time intervals and in two countries. The results indicate a drop of compliance over time. The results reveal that, while in 2003 the foot-in-the-door strategy was effective in Ukraine and ineffective in Poland, in 2013, the effect was insignificant in both Ukraine and Poland. The results are explained by high ecological validity of the foot-in-the-door procedure.
Keywords: Replication, social influence, compliance, foot-in-the-door, ecological validity
A Large-Scale Test of Gender Bias in the Media
Shor, Eran, Arnoutvan de Rijt, and Babak Fotouhi.2019. “A Large-Scale
Test of Gender Bias in the Media.” Sociological Science 6: 526-550.
September 3, 2019. DOI:10.15195/v6.a20
Abstract: A large body of studies demonstrates that women continue to receive less media coverage than men do. Some attribute this difference to gender bias in media reporting—a systematic inclination toward male subjects. We propose that in order to establish the presence of media bias, one has to demonstrate that the news coverage of men is disproportional even after accounting for occupational inequalities and differences in public interest. We examine the coverage of more than 20,000 successful women and men from various social and occupational domains in more than 2,000 news sources as well as web searches for these individuals as a behavioral measure of interest. We find that when compared with similar-aged men from the same occupational strata, women enjoy greater public interest yet receive less media coverage.
Keywords:gender; bias; media coverage; computational analysis
Abstract: A large body of studies demonstrates that women continue to receive less media coverage than men do. Some attribute this difference to gender bias in media reporting—a systematic inclination toward male subjects. We propose that in order to establish the presence of media bias, one has to demonstrate that the news coverage of men is disproportional even after accounting for occupational inequalities and differences in public interest. We examine the coverage of more than 20,000 successful women and men from various social and occupational domains in more than 2,000 news sources as well as web searches for these individuals as a behavioral measure of interest. We find that when compared with similar-aged men from the same occupational strata, women enjoy greater public interest yet receive less media coverage.
Keywords:gender; bias; media coverage; computational analysis
FAO highlights the great potential of genetic improvements in aquaculture for better food security, since we are still largely farming wild fish, with 45 pct of cultured species being little different from their wild counterparts
FAO highlights the great potential of genetic improvements in aquaculture for better food security. FAO Press Release, Aug 23 2019. http://www.fao.org/news/story/en/item/1205417/icode/
Wider appropriate application of genetic improvement in aquaculture will significantly boost sustainable food supply for future generations
Aug 23 2019, Rome - Wider, appropriate and long-term application of genetic improvement in aquaculture, with a focus on selective breeding, will help boost food production to meet a projected increase in demand for fish and fish products with relatively little extra feed, land, water and other inputs, according to a new FAO report launched today.
The State of the World's Aquatic Genetic Resources for Food and Agriculture reviews our use of aquatic genetic resources both in capture fisheries and in aquaculture, in areas under national jurisdiction. The first-ever global report of its kind is based on information provided by 92 countries, together representing 96 percent of global aquaculture production and over 80 percent of capture fisheries production.
Aquaculture is lagging far behind terrestrial agriculture - both crops and livestock - in terms of the characterization, domestication and improvement of its genetic resources for food production. The report concludes that we have the opportunity to significantly enhance sustainable aquaculture production through the strategic management and development of some of the more than 550 species currently used in aquaculture.
According to the report, we are still largely farming wild fish, with 45 percent of cultured species being little different from their wild counterparts. The report also notes that just over half of the reporting countries consider that genetic improvement is having a significant impact on their aquaculture production, in contrast with the extensive use of improved breeds and varieties in livestock and crop production. The report stresses the potential for sustainable production gains through the genetic improvement of farmed aquatic resources.
"I strongly welcome this report which is the fruit of a multi-year, country-driven process of data collection and analysis," said FAO Director-General Qu Dongyu. "It highlights the pressures that a growing demand for fish and fish products will place on farmed species, their wild relatives, and the habitats they depend on, as well as the opportunities for sustainable growth. This is why it is crucial that we safeguard, manage and further develop the planet's aquatic genetic resources, allowing organisms to grow, to adapt to natural and human-induced impacts such as climate change, to resist diseases and parasites, and to continue to evolve to help achieve the Sustainable Development Goals and our continued fight for a Zero Hunger world."
Unleashing the potential of aquaculture
According to FAO, a growing human population is expected to drive an increase in fish consumption of approximately 1.2 percent per annum over the next decade. Production of fish and fish products is estimated to reach over 200 million tonnes by 2030.
Given that production from the world's capture fisheries has stabilized at about 90-95 million tonnes per annum, with nearly a third of marine fish stocks being overfished, there is little scope for additional production in the foreseeable future except through loss and waste and efficiencies management. The expected growth in demand for fish and fish products therefore needs to be largely met from aquaculture. In this context, the responsible and sustainable use of aquatic genetic resources will be essential to fulfill this role.
Numerous technologies are available to improve aquatic genetic resources with FAO recommending a focus on well-designed, long-term selective breeding programmes, which can increase productivity of aquatic species by 10 percent per generation.
Many wild species are under threat
The report notes that all farmed species still have wild relatives in nature but many of these wild species are under threat and are in need of targeted and prioritized conservation. The report calls on countries to develop policies and actions to address this need.
According to the report, the most depleted wild relatives of cultured species are Russian sturgeon, huchen, beluga sturgeon, Atlantic salmon and brown trout.
The report also notes the potential impacts of escapes including of non-native species, from aquaculture farms, on biodiversity and ecosystems, and calls for the responsible exchange and use of native and non-native aquatic genetic resources.
Strengthening policies and cross-sectoral approach
Food and nutrition security depend on a diverse and healthy food basket, of which aquatic food is an important component. Therefore, aquatic genetic resources should be included in broader food security and nutrition policies.
These policies must consider long-term development strategies for aquaculture, including the transboundary management of aquatic genetic resources, access and benefit-sharing, genetic improvement and conservation, and must involve many sectors and disciplines to be effective.
The report also highlights the need for greater awareness-raising and capacity-building to develop and sustain genetic characterization and improvement, especially in developing countries, including training of geneticists to support selective breeding programmes.
At the request of FAO's Commission on Genetic Resources for Food and Agriculture, a voluntary and collaborative policy response is already under development to address the gaps and needs identified in the report. FAO member countries will review and negotiate this response prior to its adoption as a Global Plan of Action for the conservation, sustainable use and development of aquatic genetic resources for food and agriculture.
Wider appropriate application of genetic improvement in aquaculture will significantly boost sustainable food supply for future generations
Aug 23 2019, Rome - Wider, appropriate and long-term application of genetic improvement in aquaculture, with a focus on selective breeding, will help boost food production to meet a projected increase in demand for fish and fish products with relatively little extra feed, land, water and other inputs, according to a new FAO report launched today.
The State of the World's Aquatic Genetic Resources for Food and Agriculture reviews our use of aquatic genetic resources both in capture fisheries and in aquaculture, in areas under national jurisdiction. The first-ever global report of its kind is based on information provided by 92 countries, together representing 96 percent of global aquaculture production and over 80 percent of capture fisheries production.
Aquaculture is lagging far behind terrestrial agriculture - both crops and livestock - in terms of the characterization, domestication and improvement of its genetic resources for food production. The report concludes that we have the opportunity to significantly enhance sustainable aquaculture production through the strategic management and development of some of the more than 550 species currently used in aquaculture.
According to the report, we are still largely farming wild fish, with 45 percent of cultured species being little different from their wild counterparts. The report also notes that just over half of the reporting countries consider that genetic improvement is having a significant impact on their aquaculture production, in contrast with the extensive use of improved breeds and varieties in livestock and crop production. The report stresses the potential for sustainable production gains through the genetic improvement of farmed aquatic resources.
"I strongly welcome this report which is the fruit of a multi-year, country-driven process of data collection and analysis," said FAO Director-General Qu Dongyu. "It highlights the pressures that a growing demand for fish and fish products will place on farmed species, their wild relatives, and the habitats they depend on, as well as the opportunities for sustainable growth. This is why it is crucial that we safeguard, manage and further develop the planet's aquatic genetic resources, allowing organisms to grow, to adapt to natural and human-induced impacts such as climate change, to resist diseases and parasites, and to continue to evolve to help achieve the Sustainable Development Goals and our continued fight for a Zero Hunger world."
Unleashing the potential of aquaculture
According to FAO, a growing human population is expected to drive an increase in fish consumption of approximately 1.2 percent per annum over the next decade. Production of fish and fish products is estimated to reach over 200 million tonnes by 2030.
Given that production from the world's capture fisheries has stabilized at about 90-95 million tonnes per annum, with nearly a third of marine fish stocks being overfished, there is little scope for additional production in the foreseeable future except through loss and waste and efficiencies management. The expected growth in demand for fish and fish products therefore needs to be largely met from aquaculture. In this context, the responsible and sustainable use of aquatic genetic resources will be essential to fulfill this role.
Numerous technologies are available to improve aquatic genetic resources with FAO recommending a focus on well-designed, long-term selective breeding programmes, which can increase productivity of aquatic species by 10 percent per generation.
Many wild species are under threat
The report notes that all farmed species still have wild relatives in nature but many of these wild species are under threat and are in need of targeted and prioritized conservation. The report calls on countries to develop policies and actions to address this need.
According to the report, the most depleted wild relatives of cultured species are Russian sturgeon, huchen, beluga sturgeon, Atlantic salmon and brown trout.
The report also notes the potential impacts of escapes including of non-native species, from aquaculture farms, on biodiversity and ecosystems, and calls for the responsible exchange and use of native and non-native aquatic genetic resources.
Strengthening policies and cross-sectoral approach
Food and nutrition security depend on a diverse and healthy food basket, of which aquatic food is an important component. Therefore, aquatic genetic resources should be included in broader food security and nutrition policies.
These policies must consider long-term development strategies for aquaculture, including the transboundary management of aquatic genetic resources, access and benefit-sharing, genetic improvement and conservation, and must involve many sectors and disciplines to be effective.
The report also highlights the need for greater awareness-raising and capacity-building to develop and sustain genetic characterization and improvement, especially in developing countries, including training of geneticists to support selective breeding programmes.
At the request of FAO's Commission on Genetic Resources for Food and Agriculture, a voluntary and collaborative policy response is already under development to address the gaps and needs identified in the report. FAO member countries will review and negotiate this response prior to its adoption as a Global Plan of Action for the conservation, sustainable use and development of aquatic genetic resources for food and agriculture.
Beauty automatically engages our hand movement: Both attractive & unattractive faces captured greater visual attention compared to moderate faces; attractive faces attracted hand movement more strongly
Beauty in the eyes and the hand of the beholder: Eye and hand movements' differential responses to facial attractiveness. Natalie T. Faust, Anjan Chatterjee, George I. Christopoulos. Journal of Experimental Social Psychology, Volume 85, November 2019, 103884. https://doi.org/10.1016/j.jesp.2019.103884
Highlights
• Facial attractiveness guides attention for actions differently through eye and hand movement.
• Hand movement was found to be mostly driven by attractive (but not unattractive or moderate) faces.
• Eye movement was driven by faces on the ends of the attractiveness spectrum (attractive and unattractive but not moderate).
• “Being moved” by beauty might not simply be a metaphor. Rather, beauty automatically engages our hand movement.
• Besides eye movement, hand movement discloses additional information on facial attention mechanisms.
Abstract: Faces carry significant social information and, as such, humans need to allocate attention to them. In particular, facial attractiveness is an important dimension that considerably influences social judgment. The allocation of attentional resources to facial attractiveness has been widely examined in social psychology, however mostly by measures of eye movement. While this literature demonstrates the influence of facial attractiveness on overt attention, how facial attractiveness drives covert attention is less known. In two studies, we tracked eye and hand movements while participants were engaged in a numerical task in the presence of faces of various degrees of attractiveness. Results show that both attractive and unattractive faces captured greater visual attention compared to moderate faces, whereas attractive faces attracted hand movement more strongly than both unattractive and moderate faces. The present study suggests that facial attractiveness guides attention for actions differently through eye and hand movements.
Highlights
• Facial attractiveness guides attention for actions differently through eye and hand movement.
• Hand movement was found to be mostly driven by attractive (but not unattractive or moderate) faces.
• Eye movement was driven by faces on the ends of the attractiveness spectrum (attractive and unattractive but not moderate).
• “Being moved” by beauty might not simply be a metaphor. Rather, beauty automatically engages our hand movement.
• Besides eye movement, hand movement discloses additional information on facial attention mechanisms.
Abstract: Faces carry significant social information and, as such, humans need to allocate attention to them. In particular, facial attractiveness is an important dimension that considerably influences social judgment. The allocation of attentional resources to facial attractiveness has been widely examined in social psychology, however mostly by measures of eye movement. While this literature demonstrates the influence of facial attractiveness on overt attention, how facial attractiveness drives covert attention is less known. In two studies, we tracked eye and hand movements while participants were engaged in a numerical task in the presence of faces of various degrees of attractiveness. Results show that both attractive and unattractive faces captured greater visual attention compared to moderate faces, whereas attractive faces attracted hand movement more strongly than both unattractive and moderate faces. The present study suggests that facial attractiveness guides attention for actions differently through eye and hand movements.