Reimagining the relationship between Gondwanan forests and Aboriginal land management in Australia's "Wet Tropics".

The "Wet Tropics" of Australia host a unique variety of plant lineages that trace their origins to the super-continent of Gondwanaland. While these "ancient" evolutionary records are rightly emphasized in current management of the region, multidisciplinary research and lobbying by Rainforest Aboriginal Peoples have also demonstrated the significance of the cultural heritage of the "Wet Tropics." Here, we evaluate the existing archeological, paleoenvironmental, and historical evidence to demonstrate the diverse ways in which these forests are globally significant, not only for their ecological heritage but also for their preservation of traces of millennia of anthropogenic activities, including active burning and food tree manipulation. We argue that detailed paleoecological, ethnobotanical, and archeological studies, working within the framework of growing national and world heritage initiatives and active application of traditional knowledge, offer the best opportunities for sustainable management of these unique environments in the face of increasingly catastrophic climate change and bushfires.

Maternal and pregnancy related predictors of cardiometabolic traits in newborns.

BACKGROUND: The influence of multiple maternal and pregnancy characteristics on offspring cardiometabolic traits at birth is not well understood and was evaluated in this study. METHODS AND FINDINGS: The Family Atherosclerosis Monitoring In earLY life (FAMILY) Study prospectively evaluated 11 cardiometabolic traits in 901 babies born to 857 mothers. The influence of maternal age, health (pre-pregnancy weight, blood pressure, glycemic status, lipids), health behaviors (diet, activity, smoking) and pregnancy characteristics (gestational age at birth, gestational weight gain and placental-fetal ratio) were examined. Greater gestational age influenced multiple newborn cardiometabolic traits including cord blood lipids, glucose and insulin, body fat and blood pressure. In a subset of 442 singleton mother/infant pairs, principal component analysis grouped 11 newborn cardiometabolic traits into 5 components (anthropometry/insulin, 2 lipid components, blood pressure and glycemia), accounting for 74% of the variance of the 11 outcome variables. Determinants of these components, corrected for sex and gestational age, were examined. Baby anthropometry/insulin was independently predicted by higher maternal pre-pregnancy weight (standardized estimate 0.30) and gestational weight gain (0.30; both p<0.0001) and was inversely related to smoking during pregnancy (-0.144; p = 0.01) and maternal polyunsaturated to saturated fat intake (-0.135;p = 0.01). Component 2 (HDL-C/Apo Apolipoprotein1) was inversely associated with maternal age. Component 3 (blood pressure) was not clustered with any other newborn cardiometabolic trait and no associations with maternal pregnancy characteristics were identified. Component 4 (triglycerides) was positively associated with maternal hypertension and triglycerides, and inversely associated with maternal HDL and age. Component 5 (glycemia) was inversely associated with placental/fetal ratio (-0.141; p = 0.005). LDL-C was a bridging variable between the lipid factors and glycemia. CONCLUSIONS: Maternal health, health behaviours and placenta to fetal weight ratio are associated with newborn cardiometabolic traits over and above gestational age. Future investigations are needed to determine if these factors remain important determinants of cardiometabolic health throughout childhood.

The Family Atherosclerosis Monitoring In earLY life (FAMILY) study: rationale, design, and baseline data of a study examining the early determinants of atherosclerosis.

BACKGROUND: Complex interactions among genetic, epigenetic, and environmental exposures, further modified by a child's postnatal environment, underlie the relationship among maternal health, fetal growth, and the development of cardiovascular disease (CVD) risk factors in the child and disease in the adult. Few available studies consider the genetic and environmental influences of the family, beyond maternal health. The purpose of this study is to examine the fetal and early childhood family-based determinants for the development of adiposity, CVD risk factors, and atherosclerosis in childhood. METHOD: A cohort of 850 children and their families (mother, father, eldest sibling) are being recruited during pregnancy to a prospective longitudinal study to investigate the relative contribution of (a) prenatal and postnatal determinants and (b) individual and family (maternal/paternal) determinants for the development of adiposity and CVD risk factors at 3, 5, and 10 years of age and carotid intima media thickness at 10 years. IMPLICATIONS: The FAMILY study will advance understanding of the fetal and early childhood determinants for CVD development and will contribute to the design of primary prevention programs based on identification of the most important modifiable determinants for early childhood adiposity and CVD risk factor development.