A One-Health Model for Reversing Honeybee (Apis mellifera L.) Decline

Global insect decline impacts ecosystem resilience; pollinators such as honeybees (Apis mellifera L.) have suffered extensive losses over the last decade, threatening food security. Research has focused discretely on in-hive threats (e.g., Nosema and Varroa destructor) and broader external causes of decline (e.g., agrochemicals, habitat loss). This has notably failed to translate into successful reversal of bee declines. Working at the interdisciplinary nexus of entomological, social and ecological research, we posit that veterinary research needs to adopt a “One-Health” approach to address the scope of crises facing pollinators. We demonstrate that reversing declines will require [1] integration of hive-specific solutions, [2] a reappraisal of engagement with the many stakeholders whose actions affect bee health, and [3] recontextualising both of these within landscape scale efforts. Other publications within this special issue explore novel technologies, emergent diseases and management approaches; our aim is to place these within the “One-Health” context as a pathway to securing honeybee health. Governmental policy reform offers a particularly timely pathway to achieving this goal. Acknowledging that healthy honeybees need an interdisciplinary approach to their management will enhance the contributions of veterinary research in delivering systemic improvements in bee health

Co-producing agricultural policy with beekeepers: obstacles and opportunities

Dominant agricultural practices are widely recognised as one of many factors leading to severe declines in honey bees and other pollinators. Improving the agri-environment for pollinators and other species is an urgent ecological priority. Beekeepers have long been at the forefront of recognising agricultural and environmental challenges to their bees; many of these also impact other pollinators. As the UK moves towards a post-Brexit agricultural policy, this should be an excellent time for beekeepers’ observations and concerns to be recognised, and contribute to a system where farmers and land managers ensure the delivery of ‘public goods’. However, evidence suggests significant obstacles to effectively co-producing agricultural policy that ensures pollinator wellbeing. This paper is based on archival and interview data on long-term beekeepers throughout the UK. Beekeepers’ past experience of engaging with agricultural, and pollinator health policy stakeholders highlights significant obstacles to effective co-production of policy. Beekeepers’ experiential observations are commonly dismissed as anecdotal, and subsequently irrelevant knowledge, according to scientifically and politically acknowledged epistemological categories. Multiple stakeholders in agriculture and land management have opposing priorities, and unequal access to power. This presents significant challenges to government efforts to overcome boundaries and co-produce actionable policy. Internationally, significant steps have been made to incorporate hybrid knowledge, and its associated value systems into environmental governance. Developing agricultural policy which acknowledges and incorporates multiple forms of evidence and pro-environmental values is necessary for a successful post-Brexit agricultural system focused on Environmental Land Management, public goods, and multiple values of nature

Beekeeping, stewardship and multispecies care in rural contexts

Rural society consists of both humans and other‐than‐human species, whose needs may appear to contradict each other. There is a growing awareness of the shared ecological fate of all members of this interspecies community and the importance of transitioning to more caring, sustainable relationships between species. Various rural activities, and relationships with other species, are considered to be avenues for promoting care and stewardship of other‐than‐human species. Using interviews, archives and ethnographic research, this article explores how beekeepers navigate multiple and interrelated challenges as they care for their bees and the implications of this care for other species. The beekeeping community is heterogeneous and experiencing dramatic changes. This article finds that beekeepers have different motivations underpinning their diverse practices, yet all share a sense of stewardship for their own bees and for the wider physical environment; this manifests in their understanding of and interactions with other members of rural society. We propose that interspecies understandings and caring relationships, as exemplified within beekeeping, can support efforts towards sustainable socio‐ecological transitions

Considering tradeoffs in “local” food policies: examples from school feeding programmes

City, national, and multinational governments are increasingly leveraging nutrition programme spending, specifically pursuing policies that require or incentive “local” procurement, to meet a myriad of goals. However, these policies involve tradeoffs that are often not fully considered by government officials, planners, and advocates. This perspective article provides some examples of those tradeoffs from the peer-reviewed literature, which, we argue, are useful to consider in setting school feeding programme policies to achieve sustainability goals

Tempo and mode of performance evolution across multiple independent origins of adhesive toe pads in lizards

Understanding macroevolutionary dynamics of trait evolution is an important endeavor in evolutionary biology. Ecological opportunity can liberate a trait as it diversifies through trait space, while genetic and selective constraints can limit diversification. While many studies have examined the dynamics of morphological traits, diverse morphological traits may yield the same or similar performance and as performance is often more proximately the target of selection, examining only morphology may give an incomplete understanding of evolutionary dynamics. Here, we ask whether convergent evolution of pad‐bearing lizards has followed similar evolutionary dynamics, or whether independent origins are accompanied by unique constraints and selective pressures over macroevolutionary time. We hypothesized that geckos and anoles each have unique evolutionary tempos and modes. Using performance data from 59 species, we modified Brownian motion (BM) and Ornstein–Uhlenbeck (OU) models to account for repeated origins estimated using Bayesian ancestral state reconstructions. We discovered that adhesive performance in geckos evolved in a fashion consistent with Brownian motion with a trend, whereas anoles evolved in bounded performance space consistent with more constrained evolution (an Ornstein–Uhlenbeck model). Our results suggest that convergent phenotypes can have quite distinctive evolutionary patterns, likely as a result of idiosyncratic constraints or ecological opportunities

The evolution of active vibrissal sensing in mammals: evidence from vibrissal musculature and function in the marsupial opossum Monodelphis domestica

Facial vibrissae, or whiskers, are found in nearly all extant mammal species and are likely to have been present in early mammalian ancestors. A sub-set of modern mammals, including many rodents, move their long mystacial whiskers back and forth at high speed whilst exploring in a behaviour known as ‘whisking’. It is not known whether the vibrissae of early mammals moved in this way. The grey short-tailed opossum, Monodelphis domestica, is considered a useful species from the perspective of tracing the evolution of modern mammals. Interestingly, these marsupials engage in whisking bouts similar to those seen in rodents. To better assess the likelihood that active vibrissal sensing was present in ancestral mammals, we examined the vibrissal musculature of the opossum using digital miscroscopy to see whether this resembles that of rodents. Although opossums have fewer whiskers than rats, our investigation found that they have a similar vibrissal musculature. In particular, in both rats and opossums, the musculature includes both intrinsic and extrinsic muscles with the intrinsic muscles positioned as slings linking pairs of large vibrissae within rows. We identified some differences in the extrinsic musculature which, interestingly, matched with behavioural data obtained through high-speed video recording, and indicated additional degrees of freedom for positioning the vibrissae in rats. These data show that the whisker movements of opossum and rat exploit similar underlying mechanisms. Paired with earlier results suggesting similar patterns of vibrissal movement, this strongly implies that early therian (marsupial and placental) mammals were whisking animals that actively controlled their vibrissae

Surface structure and frictional properties of the skin of the Amazon tree boa Corallus hortulanus (Squamata, Boidae)

The legless locomotion of snakes requires specific adaptations of their ventral scales to maintain friction force in different directions. The skin microornamentation of the snake Corallus hortulanus was studied by means of scanning electron microscopy and the friction properties of the skin were tested on substrates of different roughness. Skin samples from various parts of the body (dorsal, lateral, ventral) were compared. Dorsal and lateral scales showed similar, net-like microornamentation and similar friction coefficients. Average friction coefficients for dorsal and lateral scales on the epoxy resin surfaces were 0.331 and 0.323, respectively. In contrast, ventral scales possess ridges running parallel to the longitudinal body axis. They demonstrated a significantly lower friction coefficient compared to both dorsal and lateral scales (0.191 on average). In addition, ventral scales showed frictional anisotropy comparing longitudinal and perpendicular direction of the ridges. This study clearly demonstrates that different skin microstructure is responsible for different frictional properties in different body regions

Sticky Gecko Feet: The Role of Temperature and Humidity

Gecko adhesion is expected to be temperature insensitive over the range of temperatures typically experienced by geckos. Previous work is limited and equivocal on whether this expectation holds. We tested the temperature dependence of adhesion in Tokay and Day geckos and found that clinging ability at 12°C was nearly double the clinging ability at 32°C. However, rather than confirming a simple temperature effect, our data reveal a complex interaction between temperature and humidity that can drive differences in adhesion by as much as two-fold. Our findings have important implications for inferences about the mechanisms underlying the exceptional clinging capabilities of geckos, including whether performance of free-ranging animals is based solely on a dry adhesive model. An understanding of the relative contributions of van der Waals interactions and how humidity and temperature variation affects clinging capacities will be required to test hypotheses about the evolution of gecko toepads and is relevant to the design and manufacture of synthetic mimics