Can we study whisker movements to gain insights into the natural sensory behaviours of mammals?

Neuroscientists, behavioural scientists, mechanical engineers and roboticists collaborate in the broad field of whisker science to investigate tactile sensing and movement in mammals. Much of this research is focussed on the study of laboratory rodents, with important insights already gained from studying their whisker movements, control behaviours and the sensory processing of whisker signals. The findings of whisker behaviour studies in the laboratory have also formed the foundation for research in other captive settings, such as in zoos. However, without inspiration from more natural environments and stimuli, researchers are probably missing out on describing other important whisker behaviours, which may in turn give researchers better insights into the brain areas, signals and behaviours associated with active whisker touch sensing. Taking inspiration from recent findings from the field and zoo, developing more social and active foraging tasks for the laboratory would probably enrich whisker behaviour studies, as would including a wider variety of species. In the longer-term, a more integrated approach, with collaboration across laboratory, captive and field settings, will help to develop more natural behavioural tasks representative of what an animal experiences in the real world, which would give us greater insights into the natural sensory behaviours of mammals. This has implications for the fields of neuroscience, sensory biology and evolutionary biology, as well important applications for captive mammal health and welfare

How Americans Feel About Terrorism And Security: Two Years After 9/11

Understanding attitudes, concerns and reactions of individuals and families is critical to emergency planning efforts on all levels. In order to have effective implementation of a disaster plan, people need to be confident in (a) the reliability of information from official sources, (b) the capacity of government to perform effectively in a crisis and (c) the capability of response systems, particularly the health systems and first responders. Absence of confidence in response systems or leadership may undermine the best of crisis plans, leading to unnecessary panic and potential excess loss of life. In August 2003, The National Center for Disaster Preparedness at Columbia University's Mailman School of Public Health, in collaboration with The Children's Health Fund, commissioned the Marist Institute for Public Opinion to conduct a survey of adults nearly two years after the multiple terrorist attacks on New York, Washington, D.C. and Pennsylvania. The survey included both a national and a New York City representative sample of households contacted by telephone. Questions covered a wide range of issues including people's concern about potential new additional acts of terrorism in the U.S., the government's ability to protect citizens, and the health system's capacity to respond. Throughout, specific questions were asked of a subset of parents of children from four to eighteen years of age. To the extent possible, specific questions were replicated from four previous surveys commissioned by The Children's Health Fund since September 11, 2001 to identify trends in public attitudes and perceptions

Whisker touch guides canopy exploration in a nocturnal, arboreal rodent, the Hazel dormouse (Muscardinus avellanarius)

Dormouse numbers are declining in the UK due to habitat loss and fragmentation. We know that dormice are nocturnal, arboreal, and avoid crossing open spaces between habitats, yet how they navigate around their canopy is unknown. As other rodents use whisker touch sensing to navigate and explore their environment, this study investigates whether Hazel dormice (Muscardinus avellanarius) employ their whiskers to cross between habitats. We analysed high-speed video footage of dormice exploring freely in flat and climbing arenas in near darkness and using infrared light illumination. We confirm that, like rats and mice, dormice move their whiskers back and forth continuously (~10 Hz) in a motion called whisking and recruit them to explore small gaps (<10 cm) by increasing the amplitude and frequency of whisking and also the asymmetry of movement between the left and right whisker fields. When gaps between platforms are larger than 10-15 cm dormice spend more time travelling on the floor. These findings suggest that dormice can actively and purposively move their whiskers to gather relevant information from their canopy at night. As this species is vulnerable to threats on the ground, we also provide evidence that joining habitat patches between dormouse populations is important for promoting natural behaviours and movement between patches

Demonstrating a measurement protocol for studying comparative whisker movements with implications for the evolution of behaviour

Background Studying natural, complex behaviours over a range of different species provides insights into the evolution of the brain and behaviour. Whisker movements reveal complex behaviours; however, there does not yet exist a protocol that is able to capture whisker movements and behaviours in a range of different species. New method We develop a new protocol and make recommendations for measuring comparative whisker movements and behaviours. Using two set-ups – an enclosure camera set-up and a high-speed video set-up - we capture and measure the whisker movements of sixteen different captive mammal species from four different animal collections. Results We demonstrate the ability to describe whisker movements and behaviours across a wide range of mammalian species. We describe whisker movements in European hedgehog, Cape porcupine, domestic rabbit, domestic ferret, weasel, European otter and red fox for the first time. We observe whisker movements in all the species we tested, although movement, positions and behaviours vary in a species-specific way. Comparison with existing method(s) The high-speed video set-up is based on the protocols of previous studies. The addition of an enclosure video set-up is entirely new, and allows us to include more species, especially large and shy species that cannot be moved into a high-speed filming arena. Conclusions We make recommendations for comparative whisker behaviour studies, particularly incorporating individual and species-specific considerations. We believe that flexible, comparative behavioural protocols have wide-ranging applications, specifically to better understand links between the brain and complex behaviours

Investigating foot morphology in rock climbing mammals: inspiration for biomimetic climbing shoes

The sporting goods sector can serve as a proving ground for new technologies. We propose that climbing shoes are an excellent case study for showcasing a systematic approach to bio-inspired design. Foot adaptations to climbing have been described before in some animals and have even been incorporated into bio-inspired products. However, there has not yet been a systematic description of climbing adaptations in mammals, and especially in rock climbing species. We present a description of foot morphology in mammals and compare rock climbing species to those with other locomotion types. Our results show that rock climbing species in our sample had fewer digits and larger anterior pads than arboreal species. Rock climbing species often had hooves or, if they had foot pads, these were relatively smooth. These examples look a bit like current climbing shoe designs, perhaps suggesting convergent evolution. However, there was also variation, with rock climbing species having pads varying in shape, placement and texture. Much of this variation is likely to be dependent on the relatedness of species, with those that are more related having more similar feet. We suggest that incorporation of novel textures and compliant pads might be an interesting focus for future climbing shoe designs

Generating novel tennis racket shape concepts using a theoretical morphospace

Statistical shape analysis, or morphometrics, is a technique commonly used in evolutionary biology to summarise a population of samples. Theoretical morphometrics extends the current population of samples into a theoretical space. Using the lawn tennis racket as an example, this paper showcases the potential of morphometrics as a tool for inspiring design concepts for novel sporting goods. It showcases how morphometrics can be applied to summarise the shape of a sample of rackets and applies theoretical morphometrics to systematically present new candidate designs that fall outside of the inputted existing, racket population. The input population was 514 tennis rackets dating back to the origins of the game. The shape analysis was performed on “front-on” silhouette images of the rackets using the R Package Momocs. The outline shape of each racket was reconstructed using the elliptical Fourier transform curve fitting technique. A principal component analysis performed on the reconstructed outlines showed that >90% of the variance in the shape of the rackets was captured by the first two principal components. An evenly spaced grid of theoretical racket shape outlines was then created in a principal component 2 vs. principal component 1 “morphospace”. The limits of this space were then expanded to give a theoretical morphospace that extended beyond the range of the first two principal components for the 514 samples. We propose that the shapes located within such a theoretical morphospace could inspire designers and help them to systematically identify candidates for novel products. Specifically, we suggest that experimenting with wide-angled throats and heads with angled sides might be an interesting starting point for exploring future tennis racket design concepts. The novel technique presented here could be used by a sporting goods brand during the ideation phase of product development to schematically summarise current designs and identify candidates for new ones

Rare Record of Albinism in a New Zealand Fur Seal (Arctocephalus forsteri) Pup With Observations Through the Weaning Period

The rarity of heritable pigment anomalies in marine mammals makes it challenging to assess their fitness ramifications. Potential negative effects include reduced visual acuity, greater predation risk, increased disease vulnerability, lower fertility and decreased heat absorption. Logging instances of heritable pigment anomalies can improve understandings of their impacts and potentially permit their use in understanding metapopulation dynamics. We report on a rare observation of albinism in a male New Zealand fur seal/kekeno (Arctocephalus forsteri) pup. The pup was discovered near Kaikōura during colony monitoring in February 2025. He had honey-coloured natal pelage, bluish-white pupils, white/translucent whiskers and pink skin on his flippers, nose, ears and around his eyes. He appeared to experience reduced visual acuity. When observed on September 1, 2025, the pup lacked muscle tone, potentially a result of his eyesight precluding typical muscle development behaviours. His survival chances postweaning may be reduced by his poor eyesight, although a previous record of albinism in a subadult conspecific demonstrates postweaning survival is possible. While abnormally pigmented individuals from other Arctocephalus species have typically been sighted at remote colonies where year-round observations are not possible, this birth in central mainland New Zealand provides opportunities for longitudinal tracking

Anatomy of bristles on the nares and rictus of western barn owls (Tyto alba)

Many nocturnal avian species, such as Strigiformes, Caprimulgiformes and Apterygiformes, have sensitive vibrotactile bristles on their upper bill, especially on their rictus. The anatomy of these bristles can vary, especially in terms of sensitivity (Herbst corpuscle number), bristle length and bristle number. This variation is thought to be associated with foraging – such that diurnal, open foragers have smaller and less-sensitive bristles. Here, we describe bristle morphology and follicle anatomy in the western barn owl (Tyto alba) for the first time, using both live and roadkill wild owls. We show that T. alba have both narial and rictal bristles that are likely to be vibrotactile, since they have Herbst corpuscles around their follicles. We observed more numerous (~8) and longer bristles (~16 mm) on the nares of T. alba, than on the rictal region (~4 and ~13 mm respectively). However, the narial bristle follicles contained fewer Herbst corpuscles in their surroundings (~5) than the rictal bristles (~7); indicating that bristle length is not indicative of sensitivity. As well as bristle length and number varying between different facial regions, they also varied between individuals, although the cause of this variation remains unclear. Despite this variation, the gross anatomy of facial bristle follicles appears to be conserved between nocturnal Strigiformes, Caprimulgiformes and Apterygiformes. Understanding more about how T. alba use their bristles would, therefore, give us greater insights into the function of avian bristles in general

The Status of Folate, Vitamin B-12 and Homocysteine among Australian Vegetarian and Non-Vegetarian Teenagers

Background/Aims: Vegetarians have a high risk of abnormal vitamin B-12 (B-12), and homocysteine (Hcy), status. The objectives included assessment of: 1) folate, B-12, and Hcy status; 2) incidence rate of abnormal folate, B-12, and Hcy; and 3) associations between folate and B-12 with Hcy status among vegetarian and non-vegetarian adolescents. Methods: A cross-sectional plasma folate, B-12, and Hcyassessment in 49 vegetarian and 639 non-vegetarian, 14-17 year-old, participants from New South Wales, Australia. Results: Mean (range) folate (nmol/L), B-12 (pmol/L), and Hcy (μmol/L), were: 33.4 (9.57-101) vs. 27.7 (2.7-86), p=0.033; 287.81 (134-702) vs. 392.22 (119-1300), p Conclusions: B-12 is a nutrient of a concern for vegetarian teenagers. To improve B-12 status, vegetarian adolescents should consume foods fortified with B-12, and/or take B-12 supplements