The Primate Frontal and Temporal Lobes and Their Role in Multisensory Vocal Communication

Deficits in central auditory processing may occur in a variety of clinical conditions including traumatic brain injury, neurodegenerative disease, auditory neuropathy/dyssynchrony syndrome, neurological disorders associated with aging, and aphasia. Deficits in central auditory processing of a more subtle nature have also been studied extensively in neurodevelopmental disorders in children with learning disabilities, ADD, and developmental language disorders. Illustrative cases are reviewed demonstrating the use of an audiological test battery in patients with auditory neuropathy/dyssynchrony syndrome, bilateral lesions to the inferior colliculi, and bilateral lesions to the temporal lobes. Electrophysiological tests of auditory function were utilized to define the locus of dysfunction at neural levels ranging from the auditory nerve, midbrain, and cortical levels.

Download Full-text

Primate Vocal Communication and the Evolution of Speech

Current Directions in Psychological Science ◽

10.1177/0963721420979580 ◽

2021 ◽

Vol 30 (1) ◽

pp. 55-60

Author(s):

Julia Fischer

Keyword(s):

Nonhuman Primate ◽

Nonhuman Primates ◽

Vocal Communication ◽

Internal State ◽

Multiple Sources ◽

Primate Communication ◽

Evolution Of Speech ◽

Primate Vocal Communication ◽

Species Specific ◽

Shed Light

Studies of nonhuman primate communication are often motivated by the desire to shed light on the evolution of speech. In contrast to human speech, the vocal repertoires of nonhuman primates are evolutionarily highly conserved. Within species-specific constraints, calls may vary in relation to the internal state of the caller or social experience. Receivers can use signalers’ calls to predict upcoming events or behavioral dispositions. Yet nonhuman primates do not appear to express or comprehend communicative or informative intent. Signalers are sensitive to the relation between their own actions and receivers’ responses, and thus, signaling behavior can be conceived as goal directed. Receivers’ ability to integrate information from multiple sources renders the system flexible and powerful. Researchers who take a linguistic or biological perspective on nonhuman primate communication should be aware of the strengths and limitations of their approaches. Both benefit from a focus on the mechanisms that underpin signaling and responses to signals.

Download Full-text

Born to sing! Song development in a singing primate

Current Zoology ◽

10.1093/cz/zoab018 ◽

2021 ◽

Author(s):

Chiara De Gregorio ◽

Filippo Carugati ◽

Vittoria Estienne ◽

Daria Valente ◽

Teresa Raimondi ◽

...

Keyword(s):

Vocal Communication ◽

Developmental Trajectories ◽

Ontogenetic Changes ◽

Call Structure ◽

Historical View ◽

Singing Behavior ◽

Vocal Behaviour ◽

Temporal Features ◽

Vocal Activity ◽

Song Development

Abstract In animal vocal communication, the development of adult-like vocalization is fundamental to interact appropriately with conspecifics. However, the factors that guide ontogenetic changes in the acoustic features remains poorly understood. In contrast with a historical view of nonhuman primate vocal production as substantially innate, recent research suggests that inheritance and physiological modification can only explain some of the developmental changes in call structure during growth. A particular case of acoustic communication is the indris' singing behavior, a peculiar case among Strepsirrhine primates. Thanks to a decade of intense data collection, this work provides the first long-term quantitative analysis on song development in a singing primate. To understand the ontogeny of such a complex vocal output, we investigated juvenile and sub-adult indris' vocal behaviour, and we found that young individuals started participating in the chorus years earlier than previously reported. Our results indicated that spectro-temporal song parameters underwent essential changes during growth. In particular, the age and sex of the emitter influenced the indris' vocal activity. We found that frequency parameters showed consistent changes across the sexes, but the temporal features showed different developmental trajectories for males and females. Given the low level of morphological sexual dimorphism and the marked differences in vocal behavior, we hypothesize that factors like social influences and auditory feedback may affect songs' features, resulting in high vocal flexibility in juvenile indris. This trait may be pivotal in a species that engages in choruses with rapid vocal turn-taking.

Download Full-text

Evidence for a gradient within the medial temporal lobes for flexible retrieval under hierarchical task rules

Hippocampus ◽

10.1002/hipo.23365 ◽

2021 ◽

Author(s):

Thackery I. Brown ◽

Qiliang He ◽

Irem Aselcioglu ◽

Chantal E. Stern

Keyword(s):

Medial Temporal Lobes ◽

Temporal Lobes

Download Full-text

Structural Changes in Thalamic Nuclei Across Prodromal and Clinical Alzheimer’s Disease

Journal of Alzheimer s Disease ◽

10.3233/jad-201583 ◽

2021 ◽

pp. 1-11

Author(s):

Adam S. Bernstein ◽

Steven Z. Rapcsak ◽

Michael Hornberger ◽

Manojkumar Saranathan ◽

Keyword(s):

Alzheimer’S Disease ◽

Alzheimer's Disease ◽

Large Scale ◽

Structural Changes ◽

Thalamic Nuclei ◽

Medial Temporal Lobes ◽

Cognitive Changes ◽

Temporal Lobes ◽

Medial Geniculate ◽

Healthy Control

Background: Increasing evidence suggests that thalamic nuclei may atrophy in Alzheimer’s disease (AD). We hypothesized that there will be significant atrophy of limbic thalamic nuclei associated with declining memory and cognition across the AD continuum. Objective: The objective of this work was to characterize volume differences in thalamic nuclei in subjects with early and late mild cognitive impairment (MCI) as well as AD when compared to healthy control (HC) subjects using a novel MRI-based thalamic segmentation technique (THOMAS). Methods: MPRAGE data from the ADNI database were used in this study (n = 540). Healthy control (n = 125), early MCI (n = 212), late MCI (n = 114), and AD subjects (n = 89) were selected, and their MRI data were parcellated to determine the volumes of 11 thalamic nuclei for each subject. Volumes across the different clinical subgroups were compared using ANCOVA. Results: There were significant differences in thalamic nuclei volumes between HC, late MCI, and AD subjects. The anteroventral, mediodorsal, pulvinar, medial geniculate, and centromedian nuclei were significantly smaller in subjects with late MCI and AD when compared to HC subjects. Furthermore, the mediodorsal, pulvinar, and medial geniculate nuclei were significantly smaller in early MCI when compared to HC subjects. Conclusion: This work highlights nucleus specific atrophy within the thalamus in subjects with early and late MCI and AD. This is consistent with the hypothesis that memory and cognitive changes in AD are mediated by damage to a large-scale integrated neural network that extends beyond the medial temporal lobes.

Download Full-text

Previously unknown behavior in parasitic cuckoo females: male-like vocalization during migratory activity

Avian Research ◽

10.1186/s40657-021-00246-9 ◽

2021 ◽

Vol 12 (1) ◽

Author(s):

Swetlana G. Meshcheryagina ◽

Alexey Opaev

Keyword(s):

Vocal Communication ◽

Harmonic Spectrum ◽

Common Cuckoo ◽

Neck Extension ◽

Migratory Activity ◽

Call Production ◽

In Captivity ◽

In The Wild ◽

Combined Features ◽

Female Call

Abstract Background In the last decade, enigmatic male-like cuckoo calls have been reported several times in East Asia. These calls exhibited a combination of vocal traits of both Oriental Cuckoo (Cuculus optatus) and Common Cuckoo (Cuculus canorus) advertising calls, and some authors therefore suggested that the enigmatic calls were produced by either Common × Oriental Cuckoo male hybrids or Common Cuckoo males having a gene mutation. However, the exact identity of calling birds are still unknown. Methods We recorded previously unknown male-like calls from three captive Oriental Cuckoo females, and compared these calls with enigmatic vocalizations recorded in the wild as well as with advertising vocalizations of Common and Oriental Cuckoo males. To achieve this, we measured calls automatically. Besides, we video-recorded captive female emitting male-like calls, and compared these recordings with the YouTube recordings of calling males of both Common and Oriental Cuckoos to get insight into the mechanism of call production. Results The analysis showed that female male-like calls recorded in captivity were similar to enigmatic calls recorded in the wild. Therefore, Oriental Cuckoo females might produce the latter calls. Two features of these female calls appeared to be unusual among birds. First, females produced male-like calls at the time of spring and autumn migratory activity and on migration in the wild. Because of this, functional significance of this call remained puzzling. Secondly, the male-like female call unexpectedly combined features of both closed-mouth (closed beak and simultaneous inflation of the ‘throat sac’) and open-mouth (prominent harmonic spectrum and the maximum neck extension observed at the beginning of a sound) vocal behaviors. Conclusions The Cuculus vocalizations outside the reproductive season remain poorly understood. Here, we found for the first time that Oriental Cuckoo females can produce male-like calls in that time. Because of its rarity, this call might be an atavism. Indeed, female male-like vocalizations are still known in non-parasitic tropical and apparently more basal cuckoos only. Therefore, our findings may shed light on the evolution of vocal communication in avian brood parasites.

Download Full-text