Paradoxer Schlaf als Parameter zur Messung der Stressbelastung bei Giraffen (Giraffa camelopardalis)

Das Wohlbefinden von Tieren zu schützen ist im Grundgesetz der Bundesrepublik Deutschland festgeschrieben. Das Wohlbefinden eines Tieres wissenschaftlich zu bewerten ist jedoch eine bislang ungelöste Herausforderung. Die Biologie nähert sich dem Problem, subjektive Empfindungen eines Tieres objektiv darzustellen, vorrangig über die Messung der Stressbelastung. Die Stressantwort eines Organismus setzt sich allgemein aus einer Kombination von vier Systemen zusammen: einer Verhaltensreaktion, einer Antwort des vegetativen Nervensystems, einer neuroendokrinen Antwort und einer Immunantwort. Der in Zoos am häufigsten untersuchte Parameter zur Messung der Stressbelastung ist die Analyse der Cortisolmetaboliten-Konzentration im Kot der Tiere. Da jedoch nicht in jeder Stresssituation das „Stresshormon“ Cortisol ausgeschüttet wird, ist es für eine exakte Bewertung der Stressbelastung notwendig, weitere Systeme der Stressantwort wie beispielsweise das Verhalten zu erfassen. Die Chronoethologie verfolgt diesen Ansatz, indem sie Änderungen des Zeitmusters im Verhalten eines Tieres als Antwort auf Veränderungen in der Umwelt oder eines endogenen Faktors erfasst und diese nach Kriterien der Befindlichkeit bewertet. Hier könnte zukünftig das Schlafverhalten eine herausragende Stellung einnehmen, da es von allen vier Stressantwortsystemen beeinflusst wird. Zudem wird aus der medizinischen Schlafforschung berichtet, dass sich insbesondere die Dauer, die ein Organismus im Paradoxen Schlaf (PS) verbringt, durch Stress verändert. Dennoch fand das Schlafverhalten zur Messung der Stressbelastung bei Zoo- und Wildtieren bislang kaum Beachtung. Ziel dieser Arbeit war es daher, die Anwendbarkeit des PS als Parameter zur Messung der Stressbelastung bei Zoo- und Wildtieren zu erforschen, um letztlich die Beurteilung des Wohlbefindens von Tieren weiter zu objektivieren. Aufgrund ihrer einzigartigen Schlafstellung während des PS sowie ihrer hohen Sensibilität gegenüber Umweltveränderungen wurde die Giraffe (Giraffa camelopardalis) als Modelltier für diesen non-invasiven Forschungsansatz gewählt. Im Rahmen der Arbeit wurde in 645 Nächten das Schlafverhalten von 17 Giraffen unterschiedlichen Alters und Geschlechts beobachtet und analysiert. Um stressbedingte Veränderungen im PS-Muster erkennen zu können, wurden die Giraffen zunächst unter „Normalbedingungen“ beobachtet, um hieraus Referenzwerte zu generieren. Anschließend wurden unterschiedliche als stressintensiv einzustufende Situationen wie Nahrungsmangel, Transport, Veränderungen in der Herdenstruktur, Auswirkungen einer Geburt auf das Muttertier sowie verschiedene singuläre Ereignisse hinsichtlich ihrer Auswirkungen auf das PS-Muster der Giraffen untersucht und den Referenzwerten gegenübergestellt. Um die Methode der Schlafbeobachtung als Parameter der Stressbelastung zu validieren, wurde zusätzlich ein bei Wiederkäuern etablierter, bereits genannter Stress-Parameter eingesetzt: die Messung der Cortisolmetaboliten-Konzentration im Kot mit Hilfe eines Enzymimmunoassays. Diese Methode wurde hier erstmalig an Giraffen angewendet. Durchschnittlich hielt eine Giraffe unter Normalbedingungen 27 Minuten pro Nacht paradoxen Schlaf. Dabei war die nächtliche PS-Dauer in hohem Maße vom Alter abhängig. Während juvenile Giraffen im Mittel 63 Minuten PS pro Nacht aufwiesen, verbrachten gealterte Giraffen nur 4,5 Minuten pro Nacht in der PS-Stellung. Infolge eines Stressors veränderte sich die PS-Dauer der Tiere: So zeigten alle vier transportierten Giraffen in den ersten Nächten nach ihrem Transport keinen PS oder stark reduzierte PS-Zeiten. Parallel erhöhte sich nach dem Transport die Cortisolmetaboliten-Konzentration im Kot aller Giraffen für mehrere Tage. Auch die untersuchten Veränderungen in der Herdenstruktur hatten in den meisten Fällen signifikante Veränderungen der PS-Dauer zur Folge. Die stärkste im Rahmen dieser Arbeit beobachtete Veränderung des Schlafverhaltens bewirkte der Tod eines Giraffenbullen: Die adulte Giraffenkuh hielt in der Folge für eine Dauer von 21 Tagen keinen paradoxen Schlaf mehr. Ihre Cortisolmetaboliten-Konzentration im Kot stieg nach dem Tod des Bullen hingegen nicht an. Die beobachteten Giraffenmütter zeigten nach der Geburt ihrer jeweiligen Jungtiere ebenfalls eine reduzierte PS-Dauer. Hingegen hatten neugeborene Giraffen, die an Nahrungsmangel litten und innerhalb weniger Tage verstarben, eine höchst signifikant längere PS-Dauer als gleichalte Jungtiere, die überlebten. Während bei Nahrungsknappheit eine erhöhte PS-Dauer helfen kann Energie zu sparen, ist eine Reduktion der PS-Dauer als Resultat erhöhter Aufmerksamkeit zu interpretieren, wie sie im Zuge der Feindvermeidung in Stress-Situationen sinnvoll ist. Zusammenfassend lässt sich feststellen, dass die PS-Dauer im Gegensatz zur Cortisolmetaboliten-Konzentration von allen beobachteten Stressoren beeinflusst wurde. Dabei veränderte sich die PS-Dauer in Abhängigkeit des jeweiligen Stressors graduell unterschiedlich, was Rückschlüsse auf die Intensität des Stressors ermöglicht. Der PS ist infolge dieser Ergebnisse hervorragend als Parameter zur Messung der Stressbelastung bei Giraffen geeignet. Die Analyse des PS kann dabei helfen, die Auswirkungen von subjektiv als stressintensiv oder stressarm eingestuften Situationen auf das Wohlbefinden eines Tieres objektiv zu bewerten. Darüber hinaus ermöglicht die kontinuierliche Überwachung des PS-Musters, z.B. mit Hilfe moderner Videosoftware, Beeinträchtigungen des Wohlbefindens, wie sie beispielsweise durch Unterernährung, Verletzung oder Krankheit hervorgerufen werden, frühzeitig zu erkennen, was ein zeitnahes Eingreifen zum Wohle des Tieres möglich macht

Environmental stressors may cause equine herpesvirus reactivation in captive Grévy’s zebras (Equus grevyi)

Equine Herpesviruses (EHV) are common and often latent pathogens of equids which can cause fatalities when transmitted to non-equids. Stress and elevated glucocorticoids have been associated with EHV reactivation in domestic horses, but little is known about the correlation between stress and viral reactivation in wild equids. We investigated the effect of an environmental stressor (social group restructuring following a translocation event) on EHV reactivation in captive Grévy’s zebras (Equus grevyi). A mare was translocated by road transport from Zoo Mulhouse, France, to join a resident group of three mares in Tierpark Berlin, Germany. We used an indirect sampling method to assess the frequency of EHV shedding for 14 days immediately after the translocation event (termed the ‘experimental period’). The results were compared with those from two control periods, one preceding and one subsequent to the experimental period. In addition, we measured fecal glucocorticoid metabolite (fGCM) concentrations daily in all individuals from 6 days before, to 14 days after translocation. We found significantly higher EHV shedding frequencies during the experimental period, compared to each of the two control periods. All animals showed significantly elevated fGCM concentrations, compared to fGCM levels before translocation. Finally, we found that an increase in fGCM concentration was significantly associated with an increased likelihood of EHV shedding. Although the small number of animals in the study limits the conclusions that can be drawn from the study, taken together, our results support the hypothesis that environmental stressors induce viral reactivation in wild equids. Our results suggest that potentials stressors such as group restructuring and translocation should be considered in the management of zoological collections to reduce the risk of fatal EHV infections in novel hosts. Moreover, environmental stressors may play an important role in EHV reactivation and spread in wild equid populations

Non-invasive assessment of adrenocortical activity as a measure of stress in giraffe (Giraffa camelopardalis)

BACKGROUND : Numbers of giraffes are declining rapidly in their native habitat. As giraffe research and conservation efforts increase, the demand for more complete measures of the impact of conservation interventions and the effects of captive environments on animal health and welfare have risen. We compared the ability of six different enzyme immunoassays to quantify changes in fecal glucocorticoid metabolites (FGM) resulting from three sources: adrenocorticotropic hormone stimulation test, transport, and time of day that samples were collected. RESULTS : Two male giraffes underwent ACTH injections; all six assays detected FGM increases following injection for Giraffe 1, while only three assays detected FGM increases following injection for Giraffe 2. Consistent with other ruminant species, the two 11-oxoetiocholanolone assays (one for 11,17-dioxoandrostanes and the other for 3α,11-oxo metabolites) measured the most pronounced and prolonged elevation of FGM, while an assay for 3β,11β-diol detected peaks of smaller magnitude and duration. Both of the 11-oxoetiocholanolone assays detected significant FGM increases after transport in Giraffes 3–7, and preliminary data suggest FGM detected by the assay for 11,17-dioxoandrostanes may differ across time of day. CONCLUSIONS : We conclude the assay for 11,17-dioxoandrostanes is the most sensitive assay tested for FGM in giraffes and the assay for FGM with a 5β-3α-ol-11-one structure is also effective. 11-oxoetiocholanolone enzyme immunoassays have now been demonstrated to be successful in a wide variety of ruminant species, providing indirect evidence that 5β-reduction may be a common metabolic pathway for glucocorticoids in ruminants. As FGM peaks were detected in at least some giraffes using all assays tested, giraffes appear to excrete a wide variety of different FGM. The assays validated here will provide a valuable tool for research on the health, welfare, and conservation of giraffes.Additional file 1: Full dataset in Microsoft Excel workbook format.The Association of Friends and Supporters of Goethe University Frankfurt provided financial support for F. Sicks to travel to Vienna to analyze fecal samples and von Opel Hessische Zoostiftung supported a studentship for F. Sicks. One commercial funder [Tierpark Berlin] provided support in the form of salary for F. Sicks during data analysis and preparation of this manuscript. The specific role of this author is articulated in the ‘Author Contributions’ section.http://www.biomedcentral.com/bmcvetresam2016Anatomy and PhysiologyParaclinical Science

Ecology impacts the decrease of Spirochaetes and Prevotella in the fecal gut microbiota of urban humans

Compared to the huge microbial diversity in most mammals, human gut microbiomes have lost diversity while becoming specialized for animal-based diets - especially compared to chimps, their genetically closest ancestors. The lowered microbial diversity within the gut of westernized populations has also been associated with different kinds of chronic inflammatory diseases in humans. To further deepen our knowledge on phylogenetic and ecologic impacts on human health and fitness, we established the herein presented biobank as well as its comprehensive microbiota analysis. In total, 368 stool samples from 38 different animal species, including Homo sapiens, belonging to four diverse mammalian orders were collected at seven different locations and analyzed by 16S rRNA gene amplicon sequencing. Comprehensive data analysis was performed to (i) determine the overall impact of host phylogeny vs. diet, location, and ecology and to (ii) examine the general pattern of fecal bacterial diversity across captive mammals and humans.By using a controlled study design with captive mammals we could verify that host phylogeny is the most dominant driver of mammalian gut microbiota composition. However, the effect of ecology appears to be able to overcome host phylogeny and should therefore be studied in more detail in future studies. Most importantly, our study could observe a remarkable decrease of Spirochaetes and Prevotella in westernized humans and platyrrhines, which is probably not only due to diet, but also to the social behavior and structure in these communities.Our study highlights the importance of phylogenetic relationship and ecology within the evolution of mammalian fecal microbiota composition. Particularly, the observed decrease of Spirochaetes and Prevotella in westernized communities might be associated to lifestyle dependent rapid evolutionary changes, potentially involved in the establishment of dysbiotic microbiomes, which promote the etiology of chronic diseases

Extended and continuous decline in effective population size results in low genomic diversity in the world’s rarest hyena species, the brown hyena

Hyenas (family Hyaenidae), as the sister group to cats (family Felidae), represent a deeply diverging branch within the cat-like carnivores (Feliformia). With an estimated population size of <10,000 individuals worldwide, the brown hyena (Parahyaena brunnea) represents the rarest of the four extant hyena species and has been listed as Near Threatened by the IUCN. Here, we report a high-coverage genome from a captive bred brown hyena and both mitochondrial and low-coverage nuclear genomes of 14 wild-caught brown hyena individuals from across southern Africa. We find that brown hyena harbor extremely low genetic diversity on both the mitochondrial and nuclear level, most likely resulting from a continuous and ongoing decline in effective population size that started ∼1 Ma and dramatically accelerated towards the end of the Pleistocene. Despite the strikingly low genetic diversity, we find no evidence of inbreeding within the captive bred individual and reveal phylogeographic structure, suggesting the existence of several potential subpopulations within the species

Non-invasive assessment of adrenocortical activity as a measure of stress in giraffe (Giraffa camelopardalis)

Additional file 1: Full dataset in Microsoft Excel workbook format.BACKGROUND : Numbers of giraffes are declining rapidly in their native habitat. As giraffe research and conservation efforts increase, the demand for more complete measures of the impact of conservation interventions and the effects of captive environments on animal health and welfare have risen. We compared the ability of six different enzyme immunoassays to quantify changes in fecal glucocorticoid metabolites (FGM) resulting from three sources: adrenocorticotropic hormone stimulation test, transport, and time of day that samples were collected. RESULTS : Two male giraffes underwent ACTH injections; all six assays detected FGM increases following injection for Giraffe 1, while only three assays detected FGM increases following injection for Giraffe 2. Consistent with other ruminant species, the two 11-oxoetiocholanolone assays (one for 11,17-dioxoandrostanes and the other for 3α,11-oxo metabolites) measured the most pronounced and prolonged elevation of FGM, while an assay for 3β,11β-diol detected peaks of smaller magnitude and duration. Both of the 11-oxoetiocholanolone assays detected significant FGM increases after transport in Giraffes 3–7, and preliminary data suggest FGM detected by the assay for 11,17-dioxoandrostanes may differ across time of day. CONCLUSIONS : We conclude the assay for 11,17-dioxoandrostanes is the most sensitive assay tested for FGM in giraffes and the assay for FGM with a 5β-3α-ol-11-one structure is also effective. 11-oxoetiocholanolone enzyme immunoassays have now been demonstrated to be successful in a wide variety of ruminant species, providing indirect evidence that 5β-reduction may be a common metabolic pathway for glucocorticoids in ruminants. As FGM peaks were detected in at least some giraffes using all assays tested, giraffes appear to excrete a wide variety of different FGM. The assays validated here will provide a valuable tool for research on the health, welfare, and conservation of giraffes.The Association of Friends and Supporters of Goethe University Frankfurt provided financial support for F. Sicks to travel to Vienna to analyze fecal samples and von Opel Hessische Zoostiftung supported a studentship for F. Sicks. One commercial funder [Tierpark Berlin] provided support in the form of salary for F. Sicks during data analysis and preparation of this manuscript. The specific role of this author is articulated in the ‘Author Contributions’ section.http://www.biomedcentral.com/bmcvetresam2016Anatomy and PhysiologyParaclinical Science

Behaviour Classification on Giraffes (Giraffa camelopardalis) Using Machine Learning Algorithms on Triaxial Acceleration Data of Two Commonly Used GPS Devices and Its Possible Application for Their Management and Conservation

Averting today’s loss of biodiversity and ecosystem services can be achieved through conservation efforts, especially of keystone species. Giraffes (Giraffa camelopardalis) play an important role in sustaining Africa’s ecosystems, but are ‘vulnerable’ according to the IUCN Red List since 2016. Monitoring an animal’s behavior in the wild helps to develop and assess their conservation management. One mechanism for remote tracking of wildlife behavior is to attach accelerometers to animals to record their body movement. We tested two different commercially available high-resolution accelerometers, e-obs and Africa Wildlife Tracking (AWT), attached to the top of the heads of three captive giraffes and analyzed the accuracy of automatic behavior classifications, focused on the Random Forests algorithm. For both accelerometers, behaviors of lower variety in head and neck movements could be better predicted (i.e., feeding above eye level, mean prediction accuracy e-obs/AWT: 97.6%/99.7%; drinking: 96.7%/97.0%) than those with a higher variety of body postures (such as standing: 90.7–91.0%/75.2–76.7%; rumination: 89.6–91.6%/53.5–86.5%). Nonetheless both devices come with limitations and especially the AWT needs technological adaptations before applying it on animals in the wild. Nevertheless, looking at the prediction results, both are promising accelerometers for behavioral classification of giraffes. Therefore, these devices when applied to free-ranging animals, in combination with GPS tracking, can contribute greatly to the conservation of giraffes

Disinfection of Transparent Screens by Side-Coupled UVA LED Radiation

(1) Background: Applications using touch screens are increasingly deployed in medical facilities, as well as in public areas. When touching the display with fingers, potentially pathogenic microorganisms such as methicillin-resistant Staphylococcus aureus (MRSA) can be transmitted. An automated process to decontaminate the device in between users would be highly useful. (2) Methods: Thin glass plates were superficially contaminated with the non-pathogenic Staphylococcus carnosus in a controlled manner. Subsequently, UVA radiation of 400 or 380 nm was laterally coupled into the glass plate, which acted as a light guide. Contact agar plates recorded the change in the staphylococci concentration over time. Additionally, the UVA radiation emitted by the glass plates was measured and the potential risk to humans assessed. (3) Results: Staphylococci concentration decreased as a result of UVA radiation for both wavelengths. At 400 nm, it took about 7.5 h and at 380 nm about 1 h until a reduction of 90% was reached. To meet higher disinfection requirements, disproportionately longer irradiation times were necessary. The potential UVA irradiation of humans in front of the glass pane was about 35 µW/cm2 or less and posed no risk to humans. (4) Conclusions: Side-coupled UVA radiation is in principle capable of safely automatically disinfecting microorganisms on touch screens. However, the required irradiation times are still in the hour range, so that a rapid disinfection within a minute or less is not yet possible with the presented setup. However, higher UVA intensities might reduce the current disinfection durations

Noninvasive Detection of Equid Herpesviruses in Fecal Samples

Equid herpesviruses (EHVs) are pathogens of equid and nonequid hosts that can cause disease and fatalities in captivity and in the wild. EHVs establish latent infections but can reactivate, and most EHVs are shed via the nasal passage. Therefore, nasal swabs are generally used for EHV monitoring. However, invasive sampling of wild equids is difficult. While feces is a commonly used substrate for detecting other pathogens, to our knowledge, EHVs have never been detected in feces of naturally infected equids. We systematically tested zebra feces for EHV presence by (i) establishing nested PCR conditions for fecal DNA extracts, (ii) controlling for environmental EHV contamination, and (iii) large-scale testing on a free-ranging zebra population. A dilution minimizing inhibition while maximizing viral DNA concentrations was determined in captive Grévy's zebra (Equus grevyi) fecal samples from individuals shedding EHV nasally. Sixteen of 42 fecal samples (38%) were EHV positive. To demonstrate that the EHV positivity was not a result of environmental contamination, rectal swabs of wild zebras were screened (n = 18 [Equus quagga and E. zebra]), and 50% were EHV positive, indicating that the source of EHV in feces is likely the intestinal mucosa and not postdefecation contamination. Out of 270 fecal samples of wild zebras, 26% were EHV positive. Quantitative PCRs showed that the amount of virus DNA in feces was not significantly smaller than that in other samples. In summary, fecal sampling facilitates large-scale screening and may be useful to noninvasively investigate phylogenetic EHV diversity in wild and domestic equids.IMPORTANCE Equid herpesviruses (EHVs) establish latent infections, and many EHVs are shed and transmitted via nasal discharge primarily through droplet and aerosol infection. Obtaining nasal swabs and other invasive samples from wildlife is often not possible without capture and physical restraint of individuals, which are resource intensive and a health risk for the captured animals. Fecal EHV shedding has never been demonstrated for naturally infected equids. We established the conditions for fecal EHV screening, and our results suggest that testing fecal samples is an effective noninvasive approach for monitoring acute EHV shedding in equids

Fecal glucocorticoid metabolites in captive Grévys zebras, and acute shedding of equine Herpesvirus

Equine Herpesviruses (EHV) are highly prevalent and often latent pathogens of equids which can be fatal when transmitted to non-equids. Stress and elevated glucocorticoids have been associated with EHV reactivation in domestic horses, but little is known about the correlation of stress and viral reactivation in wild equids. We investigated the effect of environmental stressors (long-distance transport and social group restructuring) on EHV reactivation in captive Grévys zebras. One mare was translocated by road transport from Zoo Mulhouse, France, to join a resident group of three mares in Tierpark Berlin, Germany. We measured fecal glucocorticoid metabolite (fGCM) concentrations daily in each individual from 6 days before the translocation event, to 14 days after translocation. EHV shedding was screened for all animals at Tierpark Berlin using an indirect sampling method. Following the translocation event we found significantly elevated fGCM concentrations in all animals compared to fGCM levels before the translocation event, which coincided with increased rates of EHV shedding. Our results support the hypothesis that environmental stressors induce viral reactivation in wild equids. This finding suggests that potentials stressors such as translocation and group restructuring should be considered in the management of zoological collections to reduce the risk of fatal EHV infections in novel hosts. Moreover, environmental stressors may also play an important role regarding EHV reactivation and spreading in wild equid populations