Subtotal hysterectomy causes fewer long-term detrimental effects on ovary tissues than total hysterectomy

Background. Hysterectomy is the basic surgical procedure of gynecological surgery. Traditionally, it is divided into total hysterectomy (TH) and subtotal hysterectomy (STH) according to the scope of surgery. The ovary is a dynamic organ appended with the uterus, and the uterus provides vascular supply to the developing ovary. However, the long-term impacts of TH and STH on ovary tissues need to be evaluated. Method. In this study, rabbit models of different ranges of hysterectomy were successfully created. The estrous cycle of animals was determined by vaginal exfoliated cell smear 4 months after the operation. The apoptosis rate of ovarian cells in each group was determined by flow cytometry, and the morphology of ovarian tissue and granulosa cells in the control group, triangular hysterectomy group and total hysterectomy group were observed under microscope and electron microscope, respectively. Results. After total hysterectomy, the apoptotic events in ovarian tissues were significantly increased when compared to the sham and triangle hysterectomy group. Increased apoptosis was accompanied with the morphological changes and disrupted organelle structures in ovarian granulosa cells. The follicles in the ovarian tissue were dysfunctional and immature, with more atretic follicles being observed. In contrast, ovary tissues in triangular hysterectomy groups showed no obvious defects on the morphology of ovarian tissue and granulosa cells. Conclusions. Our data suggest that subtotal hysterectomy may serve as an alternative to total hysterectomy, with fewer long-term detrimental effects on ovary tissues

Effect of Climate and Land-Use Changes on a Threatened Forest Resident Bird

Endangered species are being threatened by climate and land-use changes. However, the relative effects of climate and land-use changes on forest resident birds remain unclear. In this study, we employed an ecological niche model to forecast the potential influence of climate and land-use changes on Reeves’s pheasant (Syrmaticus reevesii), while taking into account topographical limitations. We observed that climate and land-use changes would have a remarkably negative impact on Syrmaticus reevesii, and climate change would play a dominant role. Consequently, the potential distribution range of Syrmaticus reevesii would sharply decrease, and this species may face a significant risk of extinction in 2070. In addition, we found that the area change predicted by climate and land-use changes would be significantly lower inside the China Nature Reserve Network (NNR) than outside the NNR. However, less than 15% of the area suitable for Syrmaticus reevesii has been covered by NNR. Furthermore, our results showed that the response of Syrmaticus reevesii to climate and land-use changes largely depended on topographical factors, and Syrmaticus reevesii would face greater impacts from climate and land-use changes under topographical limitations. Taken together, we highlight that it is imperative to adjust and develop nature reserve networks and conservation strategies to cope with rapid global environmental change

Effects of Livestock Grazing on Spatio-Temporal Patterns and Behaviour of Reeves’s Pheasant Syrmaticus reevesii

Protected areas are seeing an increase in anthropogenic disturbances in the world. Previous studies have demonstrated the impact of livestock grazing and human presence on the habitat use of birds, whereas little is known about the effect of free-ranging livestock on bird behaviour. Reeves’s Pheasant (Syrmaticus reevesii) is endemic to China and has been threatened by habitat loss and fragmentation, illegal logging, and human disturbance over the past 20 years. Based on camera trapping in the Liankangshan National Nature Reserve (LKS) and the Zhonghuashan Birds Provincial Nature Reserve (ZHS), we explore the effects of livestock grazing and human activities on the spatio-temporal distribution and behavioural patterns of Reeves’s Pheasant. Livestock does not appear to affect habitat use by the pheasant but changes its behavioural patterns. In addition, pheasants in areas with livestock foraged mostly during the early morning, while in areas without livestock, they foraged at dusk. Therefore, the study concludes that livestock intensity in nature reserves may have reduced pheasant suitability through altered patterns of vigilance and foraging behaviour

COVID-19 lockdown has indirect, non-equivalent effects on activity patterns of Reeves’s Pheasant (Syrmaticus reevesii) and sympatric species

The outbreak of the COVID-19 pandemic has brought massive shifts in human activities through a global blockade, directly affecting wildlife survival. However, the indirect impacts of changes in human activities are often easily overlooked. We conducted surveys of Reeves’s Pheasant (Syrmaticus reevesii) and its sympatric species by camera traps in forest-type nature reserves in three different scenarios: pre-lockdown, lockdown and post-lockdown. An increase in livestock activities observed during the lockdown and post-lockdown period in our study area provided us an opportunity to investigate the indirect impact of the lockdown on wildlife. The pre-lockdown period was used as a baseline to compare any changes in trends of relative abundance index, activity patterns and temporal spacing of targeted species and livestock. During the lockdown period, the relative abundance index of livestock increased by 50% and there was an increase in daytime activity. Reeves's Pheasant showed avoidance responses to almost all sympatric species and livestock in three different periods, and the livestock avoidance level of Reeves's Pheasant during the lockdown period was significantly and positively correlated with the relative abundance index of livestock. Species-specific changes in activity patterns of study species were observed, with reduced daytime activities of Hog Badger and Raccoon Dog during and after the confinement periods. This study highlights the effect of the COVID-19 lockdown on the responses of wildlife by considering the changes in their temporal and spatial use before, during and after lockdown. The knowledge gained on wildlife during reduced human mobility because of the pandemic aids in understanding the effect of human disturbances and developing future conservation strategies in the shared space, to manage both wildlife and livestock

The clutch size, incubation behavior of Reeves's Pheasant (Syrmaticus reevesii) and their responses to ambient temperature and precipitation

Weather conditions play a pivotal role in embryo development and parental incubation costs, potentially impacting the clutch size and incubation behavior of birds. Understanding these effects is crucial for bird conservation. Reeves's Pheasant (Syrmaticus reevesii) is a threatened species endemic to China, which is characterized by female-only incubation. However, there is a lack of information regarding the impact of weather conditions on clutch size and incubation behavior in this species. Using satellite tracking, we tracked 27 wild female Reeves's Pheasants from 2020 to 2023 in Hubei Province, China. We explored their clutch size and incubation behavior, as well as their responses to ambient temperature and precipitation. Clutch size averaged 7.75 ± 1.36, had an association with average ambient temperature and average daily precipitation during the egg-laying period, and was potentially linked to female breeding attempts. Throughout the incubation period, females took an average of 0.73 ± 0.46 recesses every 24 h, with an average recess duration of 100.80 ± 73.37 min and an average nest attendance of 92.98 ± 5.27%. They showed a unimodal recess pattern in which nest departures peaked primarily between 13:00 and 16:00. Furthermore, females rarely left nests when daily precipitation was high. Recess duration and nest attendance were influenced by the interaction between daily mean ambient temperature and daily precipitation, as well as day of incubation. Additionally, there was a positive correlation between clutch size and recess duration. These results contribute valuable insights into the life-history features of this endangered species