The life history and ecology of the Pink-tailed Worm-lizard Aprasia parapulchella Kluge a review

This review synthesises research on the Pink-tailed Worm-lizard Aprasia parapukhella - a threatened species with life-history traits and habitat and dietary preferences that make it particularly vulnerable to decline. Further information on the ecology of A. parapukhella is required in order to develop effective approaches to conservation and management, particularly given the conservation status of the species. Aprasia parapukhella is a dietary specialist living in the burrows of small ants, the eggs and larvae of which it preys upon. It is late maturing (adult size probably attained in the third or fourth year of life), has a small clutch, is thought to be longlived and has specific habitat preferences. It has a strong association with landscapes that are characterised by outcroppings of lightly-embedded surface rocks.The lizard is associated with a particular suite of ant species and ground cover tending towards open native vegetation (grasses and shrubs) at most sites, but with regional differences. Although the highest densities have been recorded in areas without tree cover, the species has also been found in open-forest and woodland.The relative density of populations and the snout-vent length and weight of specimens reveal regional differences, suggesting that further analysis of the genetic status of the population across its range is warranted. There is still much to learn about the ecology of the species, in particular with respect to movement, breeding, dispersal and the relationship between lizards and ants. Further survey for new populations remains a key priority

Towards a re-conceptualisation of risk in early childhood education

© The Author(s) 2019. Children’s engagement in risk-taking has been on the agenda for early childhood education for the past 10–15 years. At a time when some say the minority world has become overly risk averse, early childhood education aims to support confident, competent and resilient children through the inclusion of beneficial risk in early childhood education. The concept of risk is a complex phenomenon. Beneficial risk is engaging in experiences that take a person outside of their comfort zone and include outcomes that may be beneficial to learning, development and life satisfaction. To date, research on beneficial risk in early childhood has focused on children’s risk-taking in outdoor play. This focus has led to a predominant conceptualisation of beneficial risk in early childhood as an outdoor physical play activity for children. In this article, the authors problematise this conceptualisation. Drawing on both broad and early childhood education specific literature, the authors explore the current discourse on risk in both childhood and early childhood education. The authors identify the development of the current conceptualisation of risk as an experience for children within play, outdoors and as a physical activity, and highlight the limitations of this conceptualisation. The authors argue that for risk-taking to be in line with the predominantly holistic approach of early childhood education, a broad view of risk is needed. To achieve this broad view, the authors argue for a re-conceptualisation of risk that encompasses a wide range of risk experiences for both children and educators. The authors suggest further research is needed to expand our understanding of beneficial risk in early childhood education. They propose further research will offer a significant contribution to the early childhood sector

Supernova remnants: the X-ray perspective

Supernova remnants are beautiful astronomical objects that are also of high scientific interest, because they provide insights into supernova explosion mechanisms, and because they are the likely sources of Galactic cosmic rays. X-ray observations are an important means to study these objects.And in particular the advances made in X-ray imaging spectroscopy over the last two decades has greatly increased our knowledge about supernova remnants. It has made it possible to map the products of fresh nucleosynthesis, and resulted in the identification of regions near shock fronts that emit X-ray synchrotron radiation. In this text all the relevant aspects of X-ray emission from supernova remnants are reviewed and put into the context of supernova explosion properties and the physics and evolution of supernova remnants. The first half of this review has a more tutorial style and discusses the basics of supernova remnant physics and thermal and non-thermal X-ray emission. The second half offers a review of the recent advances.The topics addressed there are core collapse and thermonuclear supernova remnants, SN 1987A, mature supernova remnants, mixed-morphology remnants, including a discussion of the recent finding of overionization in some of them, and finally X-ray synchrotron radiation and its consequences for particle acceleration and magnetic fields.Comment: Published in Astronomy and Astrophysics Reviews. This version has 2 column-layout. 78 pages, 42 figures. This replaced version has some minor language edits and several references have been correcte

The crown-of-thorns starfish genome as a guide for biocontrol of this coral reef pest

The crown-of-thorns starfish (COTS, the Acanthaster planci species group) is a highly fecund predator of reef-building corals throughout the Indo-Pacific region. COTS population outbreaks cause substantial loss of coral cover, diminishing the integrity and resilience of reef ecosystems. Here we sequenced genomes of COTS from the Great Barrier Reef, Australia and Okinawa, Japan to identify gene products that underlie species-specific communication and could potentially be used in biocontrol strategies. We focused on water-borne chemical plumes released from aggregating COTS, which make the normally sedentary starfish become highly active. Peptide sequences detected in these plumes by mass spectrometry are encoded in the COTS genome and expressed in external tissues. The exoproteome released by aggregating COTS consists largely of signalling factors and hydrolytic enzymes, and includes an expanded and rapidly evolving set of starfish-specific ependymin-related proteins. These secreted proteins may be detected by members of a large family of olfactory-receptor-like G-protein-coupled receptors that are expressed externally, sometimes in a sex-specific manner. This study provides insights into COTS-specific communication that may guide the generation of peptide mimetics for use on reefs with COTS outbreaks