Trade-offs between sociality and gastrointestinal parasite infection in the context of a natural disaster

This work was supported by ANID-Chilean scholarship [number 72190290], the National Institutes of Health Grants [R01AG060931] to N.S-M., L.J.N.B. and J.P.H., [R00AG051764] to N.S-M, [R01MH118203] to M.L.P., M.J.M, L.J.N.B. and N.S-M., [R01MH096875] to M.L.P., L.J.N.B. and M.J.M., [U01MH121260] to N.S-M., M.L.P. and M.J.M., a European Research Council Consolidator Grant to L.J.N.B. [Friend Origins - 864461].Parasites and infectious diseases constitute important challenges particularly for group-living animals. Social contact and shared space can both increase parasite transmission risk, while individual differences in social capital can help prevent infections. For example, high social status individuals and those with more or stronger affiliative partnerships may have better immunity and, thus, lower parasitic burden. To test for health trade-offs in the costs and benefits of sociality, we quantified how parasitic load varied with an individual's social status, as well as with their affiliative relationships with weakly and strongly bonded partners, in a free-ranging population of rhesus macaques, Macaca mulatta. We found that high status was associated with a lower risk of protozoa infection at older ages compared to younger and low-status animals. Social resources can also be protective against infection under environmentally challenging situations, such as natural disasters. Using cross-sectional data, we additionally examined the impact of a major hurricane on the sociality - parasite relationship in this system and found that the hurricane influenced the prevalence of specific parasites independent of sociality. Overall, our study adds to the growing evidence for social status as a strong predictor of infection risk and highlights how extreme environmental events could shape vulnerability and resistance to infection.Peer reviewe

Sociality predicts individual variation in the immunity of free-ranging rhesus macaques

This work was supported by CONICYT-Chilean scholarship [number 72190290], NIH grant [number R01AG060931] to N.S-M., L.J.N.B. and J.P.H., NIH grant [number R00AG051764] to N.S-M., NIH grant [number MH118203] to L.J.N.B.. and M.L.P, and NSF grant [number 1800558] to J.P.H. and Susan Anton. The CPRC is supported by the National Institutes of Health. An Animal and Biological Material Resource Center Grant [P40OD012217] was awarded to UPR from the Office of Research Infrastructure Programs (ORIP), and a Research Facilities Construction Grant [C06OD026690] was awarded for the renovation of CPRC facilities after Hurricane Maria.Social integration and social status can substantially affect an individual's health and survival. One route through which this occurs is by altering immune function, which can be highly sensitive to changes in the social environment. However, we currently have limited understanding of how sociality influences markers of immunity in naturalistic populations where social dynamics can be fully realized. To address this gap, we asked if social integration and social status in free-ranging rhesus macaques (Macaca mulatta) predict anatomical and physiological markers of immunity. We used data on agonistic interactions to determine social status, and social network analysis of grooming interactions to generate measures of individual variation in social integration. As measures of immunity, we included the size of two of the major organs involved in the immune response, the spleen and liver, and counts of three types of blood cells (red blood cells, platelets, and white blood cells). Controlling for body mass and age, we found that neither social status nor social integration predicted the size of anatomical markers of immunity. However, individuals that were more socially connected, i.e., with more grooming partners, had lower numbers of white blood cells than their socially isolated counterparts, indicating lower levels of inflammation with increasing levels of integration. These results build upon and extend our knowledge of the relationship between sociality and the immune system in humans and captive animals to free-ranging primates, demonstrating generalizability of the beneficial role of social integration on health.Publisher PDFPeer reviewe

Sociality predicts individual variation in the immunity of free-ranging rhesus macaques

This is the final version. Available from Elsevier via the DOI in this record. R- code used for models and plots available at https://github.com/MPavFox/Sociality-and-Immunity-rhesus.gitSocial integration and social status can substantially affect an individual's health and survival. One route through which this occurs is by altering immune function, which can be highly sensitive to changes in the social environment. However, we currently have limited understanding of how sociality influences markers of immunity in naturalistic populations where social dynamics can be fully realized. To address this gap, we asked if social integration and social status in free-ranging rhesus macaques (Macaca mulatta) predict anatomical and physiological markers of immunity. We used data on agonistic interactions to determine social status, and social network analysis of grooming interactions to generate measures of individual variation in social integration. As measures of immunity, we included the size of two of the major organs involved in the immune response, the spleen and liver, and counts of three types of blood cells (red blood cells, platelets, and white blood cells). Controlling for body mass and age, we found that neither social status nor social integration predicted the size of anatomical markers of immunity. However, individuals that were more socially connected, i.e., with more grooming partners, had lower numbers of white blood cells than their socially isolated counterparts, indicating lower levels of inflammation with increasing levels of integration. These results build upon and extend our knowledge of the relationship between sociality and the immune system in humans and captive animals to free-ranging primates, demonstrating generalizability of the beneficial role of social integration on health.National Institutes of HealthNational Institute for Mental Health ResearchCONICYT-Chilean scholarshipNational Institute of HealthAnimal and Biological Material Resource Cente

Correspondence between the habitat of the threatened pudú (Cervidae) and the national protected-area system of Chile

BACKGROUND: Currently, many species are facing serious conservation problems due to habitat loss. The impact of the potential loss of biodiversity associated with habitat loss is difficult to measure. This is particularly the case with inconspicuous species such as the threatened pudú (Pudu puda), an endemic Cervidae of temperate forests of Chile and Argentina. To evaluate the effectiveness of the Chilean protected-area system in protecting the habitat of the pudú, we measured the congruence between this specie’s potential distribution and the geographical area occupied by the protected areas in central and southern Chile. The measurements of congruency were made using the Maxent modeling method. RESULTS: The potential habitat of the pudú was found to be poorly represented in the system (3–8 %) and even the most suitable areas for the species are not currenly protected. According to these results, the protected area network cannot be considered as a key component of the conservation strategy for this species. CONCLUSIONS: The results presented here also serve as a guide for the reevaluation of current pudú conservation strategies, for the design of new field studies to detect the presence of this species in human-disturbed areas or remaining patches of native forest, and for the implementation of corridors to maximize the success of conservation efforts. ELECTRONIC SUPPLEMENTARY MATERIAL: The online version of this article (doi:10.1186/s12898-015-0055-7) contains supplementary material, which is available to authorized users

Correspondence between the habitat of the threatened pudú (Cervidae) and the national protected‑area system of Chile

BACKGROUND: Currently, many species are facing serious conservation problems due to habitat loss. The impact of the potential loss of biodiversity associated with habitat loss is difficult to measure. This is particularly the case with inconspicuous species such as the threatened pudú (Pudu puda), an endemic Cervidae of temperate forests of Chile and Argentina. To evaluate the effectiveness of the Chilean protected-area system in protecting the habitat of the pudú, we measured the congruence between this specie’s potential distribution and the geographical area occupied by the protected areas in central and southern Chile. The measurements of congruency were made using the Maxent modeling method. RESULTS: The potential habitat of the pudú was found to be poorly represented in the system (3–8 %) and even the most suitable areas for the species are not currenly protected. According to these results, the protected area network cannot be considered as a key component of the conservation strategy for this species. CONCLUSIONS: The results presented here also serve as a guide for the reevaluation of current pudú conservation strategies, for the design of new field studies to detect the presence of this species in human-disturbed areas or remaining patches of native forest, and for the implementation of corridors to maximize the success of conservation efforts. ELECTRONIC SUPPLEMENTARY MATERIAL: The online version of this article (doi:10.1186/s12898-015-0055-7) contains supplementary material, which is available to authorized users

Muzzle morphology and food consumption by pudu (Pudu puda Molina 1782) in south-central Chile

The southern pudu (Pudu puda) is one of the smallest living deer of the world. It inhabits the temperate rainforest of Chile and Argentina, where it is considered vulnerable due to decreasing populations. To improve the existing information concerning its feeding ecology, we performed morphometric measurements on skulls and jaws (n = 22), and observed feeding behavior on individual deer (n = 14). The pudu presented an oral morphology adapted to select specific parts of plants, and a brachyodont molar type, which is consistent with the selective browsing style and consumption of primarily dicotyledonous plants. This information can be used to infer habitat relationships and needs of the pudu during the growth season.El pudú del sur (Pudu puda) en uno de los ciervos más pequeños del mundo y habita el bosque templado lluvioso de Chile y Argentina. Es considerado vulnerable debido a una continua reducción de sus poblaciones. Con el fin de añadir información concerniente a su ecología y uso de hábitat, se realizaron mediciones morfométricas en cráneos y mandíbulas (n=22), además de observaciones del comportamiento de alimentación en individuos de esta especie (n=14). El pudú presentó una morfología bucal adaptada para seleccionar partes específicas de la vegetación que consumen y molares braquiodontos, siendo coherente con el estilo de ramoneador selectivo y el consumo, principalmente, de dicotiledóneas.</p