Bound for Specific Sounds: Vocal Predisposition in Animal Communication

Mechanical constraints imposed by anatomical adaptations are a ubiquitous feature of animal sound production. They can give rise to ‘vocal predispositions’ (i.e., acoustic structures strictly determined by vocal anatomy). Such predispositions are crucial to the investigation of the cognitive and evolutionary processes underlying acoustic communication in vertebrates, including human speech

Gemüserüstabfälle für Schweine

Die Fütterung von Schweinen stellt eine grosse Herausforderung dar, da sie hauptsächlich von Futtermitteln abhängt, die auf Ackerflächen produziert werden. Diese Flächen könnten stattdessen für den direkten Anbau von Nahrungsmitteln für Menschen genutzt werden. Dazu fallen in der Lebensmittelproduktion erhebliche Mengen an Nebenprodukten an, die oft nicht optimal genutzt werden, sondern etwa für die Biogasproduktion

Field Propagation Experiments of Male African Savanna Elephant Rumbles: A Focus on the Transmission of Formant Frequencies.

African savanna elephants live in dynamic fission⁻fusion societies and exhibit a sophisticated vocal communication system. Their most frequent call-type is the 'rumble', with a fundamental frequency (which refers to the lowest vocal fold vibration rate when producing a vocalization) near or in the infrasonic range. Rumbles are used in a wide variety of behavioral contexts, for short- and long-distance communication, and convey contextual and physical information. For example, maturity (age and size) is encoded in male rumbles by formant frequencies (the resonance frequencies of the vocal tract), having the most informative power. As sound propagates, however, its spectral and temporal structures degrade progressively. Our study used manipulated and resynthesized male social rumbles to simulate large and small individuals (based on different formant values) to quantify whether this phenotypic information efficiently transmits over long distances. To examine transmission efficiency and the potential influences of ecological factors, we broadcasted and re-recorded rumbles at distances of up to 1.5 km in two different habitats at the Addo Elephant National Park, South Africa. Our results show that rumbles were affected by spectral⁻temporal degradation over distance. Interestingly and unlike previous findings, the transmission of formants was better than that of the fundamental frequency. Our findings demonstrate the importance of formant frequencies for the efficiency of rumble propagation and the transmission of information content in a savanna elephant's natural habitat

A micro-macro economic analysis of pension auto-enrolment options. ESRI WP640, October 2019

Like many other countries, Ireland faces challenges in relation to the adequacy and sustainability of pensions. These challenges have been examined in detail in a series of reports (Government of Ireland, 2007; OECD, 2014; Government of Ireland, 2018a). All of these reports identify pension coverage in the private sector as a key issue. Burke and Gilhawley (2018) estimate that only 30% of the private sector in Ireland had a supplementary pension1 in 2017. As the State Contributory Pension (SCP) is paid at a flat rate, almost 70% of private sector workers are therefore set to retire without an earnings-related pension. For many of them, this will result in a sharp fall in living standards, as confirmed in our analysis. With the ageing of the Irish population, over time, pensioners will account for a greater proportion of the population and such income losses would represent a further macroeconomic risk of a fall in aggregate consumer spending (Government of Ireland, 2018a, p. 15)

Testing the acoustic adaptation hypothesis with vocalizations from three mongoose species

Acoustic signals degrade and attenuate as they propagate through the environment, thus transmitting information with lower efficiency. The acoustic adaptation hypothesis (AAH) states that selection should shape the vocalizations of a species to maximize transmission through their habitat. A specific prediction of the AAH is that vocalizations will transmit better when emitted in their native habitat versus non-native habitats. We tested this prediction using vocalizations of three mongoose species that dwell in structurally different habitats: banded mongooses, Mungos mungo, dwarf mongooses, Helogale parvula, and meerkats, Suricata suricatta. Representative vocalizations of the three species were broadcast and rerecorded in each habitat at six distances from the source. Rerecorded vocalizations were compared to nondegraded calls through spectrogram correlation. Using generalized linear mixed models, we then quantified the differences in transmission fidelity of each species' vocalizations. Overall, we found partial support for the AAH within the mongoose family: habitat type strongly affected sound transmission, but depending on the species, vocalizations did not always transmit best in their native habitat, suggesting various degrees of acoustic adaptation. Vegetation cover within habitat type was also found to have a significant influence on the transmission properties of vocalizations. In addition, we found evidence that by changing their behaviour, either by producing vocalizations at different amplitudes or by choosing a specific calling location, mongooses can reduce sound degradation and attenuation over distance, thereby enhancing their communication efficiency. Our work highlights how habitat features may be key determinants of vocalization structure in mongooses, and is generalizable to other species living in similar conditions. It also suggests that, given a species and habitat, other selective pressures might prevail and limit acoustic adaptation in animal communication systems. Finally, our study provides insights into how mammals can adjust their vocal behaviour to compensate for environmental constraints on the transmission of their vocalizations

Acoustic allometry revisited: morphological determinants of fundamental frequency in primate vocal production

A fundamental issue in the evolution of communication is the degree to which signals convey accurate (“honest”) information about the signaler. In bioacoustics, the assumption that fundamental frequency (fo) should correlate with the body size of the caller is widespread, but this belief has been challenged by various studies, possibly because larynx size and body size can vary independently. In the present comparative study, we conducted excised larynx experiments to investigate this hypothesis rigorously and explore the determinants of fo. Using specimens from eleven primate species, we carried out an inter-specific investigation, examining correlations between the minimum fo produced by the sound source, body size and vocal fold length (VFL). We found that, across species, VFL predicted minimum fo much better than body size, clearly demonstrating the potential for decoupling between larynx size and body size in primates. These findings shed new light on the diversity of primate vocalizations and vocal morphology, highlighting the importance of vocal physiology in understanding the evolution of mammal vocal communication

How to Identify and Authenticate Users in Massive Unsourced Random Access

Identification and authentication are two basic functionalities of traditional random access protocols. In ALOHA-based random access, the packets usually include a field with a unique user address. However, when the number of users is massive and relatively small packets are transmitted, the overhead of including such field becomes restrictive. In unsourced random access (U-RA), the packets do not include any address field for the user, which maximizes the number of useful bits that are transmitted. However, by definition an U-RA protocol does not provide user identification. This paper presents a scheme that builds upon an underlying U-RA protocol and solves the problem of user identification and authentication. In our scheme, the users generate a message authentication code (MAC) that provides these functionalities without violating the main principle of unsourced random access: the selection of codewords from a common codebook is i.i.d. among all users

Influence du contexte paysager sur les attaques de processionnaire du pin en ville. Quelles perspectives de méthodes de lutte alternatives ?

We conducted an inventory of all the potential host trees of this species and of its winter tents over an urban area of about 6500 ha. Here we present the preliminary results of a spatial ecology approach and of a neighbourhood analysis exploring relationships between the level of infestation on a given tree and the features of the other host trees occurring around it. The ultimate goal of this work is to help defining urban green infrastructures unfavourable to the spread of this pest.La processionnaire du pin est un insecte défoliateur et urticant inféodé à des résineux forestiers. Elle se propage dans les milieux non forestiers en utilisant les plantations ornementales de ses arbres-hôtes. Dans les zones urbanisées, sa présence pose des problèmes de santé publique auxquels les collectivités territoriales doivent faire face. Nous avons réalisé un inventaire de tous les pins, cèdres et Douglas, et des nids d’hiver qu’ils hébergent, sur le territoire de cinq communes de l’agglomération orléanaise. Nous avons commencé à conduire sur ce jeu de données des analyses d’écologie spatiale et des analyses de voisinage prenant en compte l’influence sur le niveau d’infestation d’un arbre des caractéristiques des autres arbres-hôtes présents dans son environnement. Nous présentons ici les résultats préliminaires de cette approche paysagère en milieu urbain. A terme, l’objectif de ce travail est d’explorer les possibilités de concevoir des infrastructures vertes qui, au lieu de fournir des corridors d’expansion à cette espèce, pourraient en réduire le niveau de nuisance