How Do Hunter-Gatherer Children Learn Subsistence Skills?

Hunting and gathering is, evolutionarily, the defining subsistence strategy of our species. Studying how children learn foraging skills can, therefore, provide us with key data to test theories about the evolution of human life history, cognition, and social behavior. Modern foragers, with their vast cultural and environmental diversity, have mostly been studied individually. However, cross-cultural studies allow us to extrapolate forager-wide trends in how, when, and from whom hunter-gatherer children learn their subsistence skills. We perform a meta-ethnography, which allows us to systematically extract, summarize, and compare both quantitative and qualitative literature. We found 58 publications focusing on learning subsistence skills. Learning begins early in infancy, when parents take children on foraging expeditions and give them toy versions of tools. In early and middle childhood, children transition into the multi-age playgroup, where they learn skills through play, observation, and participation. By the end of middle childhood, most children are proficient food collectors. However, it is not until adolescence that adults (not necessarily parents) begin directly teaching children complex skills such as hunting and complex tool manufacture. Adolescents seek to learn innovations from adults, but they themselves do not innovate. These findings support predictive models that find social learning should occur before individual learning. Furthermore, these results show that teaching does indeed exist in hunter-gatherer societies. And, finally, though children are competent foragers by late childhood, learning to extract more complex resources, such as hunting large game, takes a lifetime.     

Correlation Networks from Flows. The Case of Forced and Time-Dependent Advection-Diffusion Dynamics

Complex network theory provides an elegant and powerful framework to statistically investigate different types of systems such as society, brain or the structure of local and long-range dynamical interrelationships in the climate system. Network links in climate networks typically imply information, mass or energy exchange. However, the specific connection between oceanic or atmospheric flows and the climate network’s structure is still unclear. We propose a theoretical approach for verifying relations between the correlation matrix and the climate network measures, generalizing previous studies and overcoming the restriction to stationary flows. Our methods are developed for correlations of a scalar quantity (temperature, for example) which satisfies an advection-diffusion dynamics in the presence of forcing and dissipation. Our approach reveals that correlation networks are not sensitive to steady sources and sinks and the profound impact of the signal decay rate on the network topology. We illustrate our results with calculations of degree and clustering for a meandering flow resembling a geophysical ocean jet.     

Species traits and environmental characteristics together regulate ant‐associated biodiversity

Host‐associated organisms (e.g., parasites, commensals, and mutualists) may rely on their hosts for only a portion of their life cycle. The life‐history traits and physiology of hosts are well‐known determinants of the biodiversity of their associated organisms. The environmental context may strongly influence this interaction, but the relative roles of host traits and the environment are poorly known for host‐associated communities. We studied the roles of host traits and environmental characteristics affecting ant‐associated mites in semi‐natural constructed grasslands in agricultural landscapes of the Midwest USA. Mites are frequently found in ant nests and also riding on ants in a commensal dispersal relationship known as phoresy. During nonphoretic stages of their development, ant‐associated mites rely on soil or nest resources, which may vary depending on host traits and the environmental context of the colony. We hypothesized that mite diversity is determined by availability of suitable host ant species, soil detrital resources and texture, and habitat disturbance. Results showed that that large‐bodied and widely distributed ant species within grasslands support the most diverse mite assemblages. Mite richness and abundance were predicted by overall ant richness and grassland area, but host traits and environmental predictors varied among ant hosts: mites associated with Aphaenogaster rudis depended on litter depth, while Myrmica americana associates were predicted by host frequency and grassland age. Multivariate ordinations of mite community composition constructed with host ant species as predictors demonstrated host specialization at both the ant species and genus levels, while ordinations with environmental variables showed that ant richness, soil texture, and grassland age also contributed to mite community structure. Our results demonstrate that large‐bodied, locally abundant, and cosmopolitan ant species are especially important regulators of phoretic mite diversity and that their role as hosts is also dependent on the context of the interaction, especially soil resources, texture, site age, and area.     

Mapping studies of the serum cholinesterase-2 locus (CHE2)

Summary Serum cholinesterase (butyrylcholinesterase, EC 3.1.1.8, BChE) is controlled by two genetic loci, CHE1 and CHE2. The CHE1 locus has been mapped to 3q, but the map location of CHE2 is uncertain. In an effort to clarify the location of CHE2, we combined all the published linkage analysis data for CHE2 (as summarized in the Keats Linkage Database) with the data from the UCLA Linkage Database. Exclusions with substantial portions of the genome could be made (notably with portions of chromosomes 1, 2, 3, 4, 6, 7, 8, 9, 14, 16, 18, 19, 20, 22, and LG1). Although not quite statistically significant , loose linkage (=0.32) of CHE2 with the haptoglobin locus on 16q22 was the most likely conclusion from the family data. In addition, calculating the lod score between CHE2 and the available linkage map of chromosome 16 (markers HBA, PGP, FRA16A, and HP) resulted in an overall lod score of 3.2. This result is particularly intriguing given the hybridization of a BChE cDNA (designated CHEL3) to the same region. Resolution of the issue will require more detailed linkage studies of CHE2 on chromosome 16 and a better understanding of the relationship between the CHE1 and CHE2 loci with respect to production of serum cholinesterases.     

Temporal adjustments in sympathoadrenal activity in rats with obesity-producing hypothalamic knife cuts

Sympathoadrenal activity was assessed in adult rats with obesity-producing hypothalamic knife cuts prior to and after the onset of gross obesity by measuring urinary excretion of norepinephrine and epinephrine and by determining rates of norepinephrine turnover in selected organs. Urinary excretion of norepinephrine, as an index of overall sympathetic nervous system activity, was approximately doubled throughout the 4-week study in knife-cut rats, as was intake of the high-fat diet. Three days after knife-cut surgery (before the onset of gross obesity) rates of norepinephrine turnover (ng X organ-1 X hr-1) were 23-33% lower in three of the four organs examined than in the corresponding organs of control rats; rates of norepinephrine turnover were depressed in pancreas, interscapular brown adipose tissue, and abdominal white adipose tissue and unchanged in hearts. Four weeks after surgery when gross obesity was evident, rates of norepinephrine turnover were accelerated in heart (+82%) and pancreas (+63%), but remained low in interscapular brown adipose tissue (-27%) and abdominal white adipose tissue (-28%). Adrenal medullary activity, assessed by urinary excretion of epinephrine, was suppressed within the 1st day after knife-cut surgery and remained suppressed for several weeks. Brown adipose tissue and white adipose tissue appear to be selectively excluded from the generalized activation of the sympathetic nervous system in adult hyperphagic rats with obesity-producing hypothalamic knife cuts. Activation of the sympathetic nervous system was associated with reciprocal suppression of adrenal medullary responses in knife-cut rats.