Identifying core habitats and corridors for giant pandas by combining multiscale random forest and connectivity analysis

Sun, Xue; Long, Zexu; Jia, Jidong

doi:10.1002/ece3.8628

Cited by 5 publications

(3 citation statements)

References 118 publications

(166 reference statements)

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“…It also increased the likelihood of a continued increase in the population. The results complement previous studies demonstrating that ecological corridors are highly connected, link different patches and increase species movement between patches [70,71]. This suggests that conservationists should focus on connectivity between patches so that biodiversity continues to function [72].…”

Section: Discussionsupporting

confidence: 87%

A Survey of the Wild Giant Panda Population and Habitat Reflects an Urgent In Situ Conservation Need: A Case of Meigu Dafengding National Nature Reserve

Zhang,

Wei,

Qubi

et al. 2023

Diversity

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An important tool for conserving species and their habitats and achieving sustainable development is the establishment of national parks. The population ecology of the species to be conserved, including their population size and suitable habitat, needs to be assessed prior to integrating protected areas into national parks. The Liangshan Mountains are currently the southernmost habitat of giant pandas and lie outside the newly established Giant Panda National Park (GPNP). The population is threatened with extinction due to severe isolation and human disturbance. However, there has been a ten-year gap in the census of giant pandas in this critical area. This means that conservation managers are unable to keep up to date with population and habitat dynamics. The Meigu Dafengding National Nature Reserve is the core area of the giant panda population in Liangshan and the link for gene exchange. The focus of this study is to assess the spatial distribution pattern of suitable habitat, habitat fragmentation and the habitat selection characteristics of giant pandas in the Meigu Dafengding Nature Reserve in Liangshan in order to lay the foundation for the future inclusion of Liangshan into the national park. A total of 151 giant panda fecal samples were collected in 2023. Using the distance–bamboo stem fragments method, this indicated that nearly 28 to 29 giant pandas exist within the reserve. Based on MaxEnt and FRAGSTATS, the giant panda population is concentrated in Wahei–Yiziyakou. They tend to choose gentle slopes of 10–30°, at altitudes between 2500 m and 3500 m, with average annual temperatures between 8.5 °C and 10 °C. They also select the areas close to roads and settlements for their frequent activities. Unsuitable habitat is widespread and surrounds low-, medium- and high-suitability habitats with poor habitat connectivity. In situ conservation measures are urgently needed due to the restricted distribution of populations and poor habitat suitability. This lays the foundation for the future inclusion of Liangshan into the national park, providing greater protection for the giant panda and other species in the region, and for other national parks to integrate all habitats into a single management unit. This will address conservation gaps and overlapping management, and promote the conservation of rare or endangered species.

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Section: Discussionsupporting

confidence: 87%

A Survey of the Wild Giant Panda Population and Habitat Reflects an Urgent In Situ Conservation Need: A Case of Meigu Dafengding National Nature Reserve

Zhang,

Wei,

Qubi

et al. 2023

Diversity

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“…Although human disturbance did not emerge as a prominent factor in our results, it should certainly not be overlooked. Without factoring in climate change, other research has underscored the significance of anthropogenic disturbance in the Liangshan Mountains (Li et al, 2019), other mountain (Sun et al, 2022), and even in future projections (Zhigang et al, 2023). Our result might not have highlighted anthropogenic disturbance as a critical factor, likely due to China's conservation efforts, which encompass the prohibition of commercial logging in 1999 and the launch of two major programs—the Natural Forest Conservation Program and the Grain‐to‐Green Program (Li et al, 2013).…”

Section: Discussionmentioning

confidence: 99%

Giant pandas are losing their edge: Population trend and distribution dynamic drivers of the giant panda

Li,

Rao,

Gai

et al. 2023

Global Change Biology

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Comprehending the population trend and understanding the distribution range dynamics of species are necessary for global species protection. Recognizing what causes dynamic distribution change is crucial for identifying species' environmental preferences and formulating protection policies. Here, we studied the rear‐edge population of the flagship species, giant pandas (Ailuropoda melanoleuca), to (1) assess their population trend using their distribution patterns, (2) evaluate their distribution dynamics change from the second (1988) to the third (2001) survey (2–3 Interval) and third to the fourth (2013) survey (3–4 Interval) using a machine learning algorithm (eXtremely Gradient Boosting), and (3) decode model results to identify driver factors in the first known use of SHapley Additive exPlanations. Our results showed that the population trends in Liangshan Mountains were worst in the second survey (k = 1.050), improved by the third survey (k = 0.97), but deteriorated by the fourth survey (k = 0.996), which indicates a worrying population future. We found that precipitation had the most significant influence on distribution dynamics among several potential environmental factors, showing a negative correlation between precipitation and giant panda expansion. We recommend that further research is needed to understand the microenvironment and animal distribution dynamics. We provide a fresh perspective on the dynamics of giant panda distribution, highlighting novel focal points for ecological research on this species. Our study offers theoretical underpinnings that could inform the formulation of more effective conservation policies. Also, we emphasize the uniqueness and importance of the Liangshan Mountains giant pandas as the rear‐edge population, which is at a high risk of population extinction.

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“…Previously, studies have been conducted to predict the potential distribution of snails in China; however, large-scale predictions are no longer sufficient to meet the requirements for fine control of snails at this stage [ 14 , 15 ]. Studies have shown that factors influencing species distribution may vary at different scales, leading to differences in distribution ranges and even producing opposite conclusions [ 16 , 17 ]. In addition, there are three types of schistosomiasis-endemic areas in China according to the geographical environment and the epidemiological pattern of schistosomiasis: (1) marshland and lake regions, (2) mountainous and hilly regions, and (3) water network regions [ 18 ].…”

Section: Introductionmentioning

confidence: 99%

Prediction of Oncomelania hupensis distribution in association with climate change using machine learning models

Xu,

Zhang,

et al. 2023

Parasites Vectors

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Background Oncomelania hupensis is the sole intermediate host of Schistosoma japonicum. Its emergence and recurrence pose a constant challenge to the elimination of schistosomiasis in China. It is important to accurately predict the snail distribution for schistosomiasis prevention and control. Methods Data describing the distribution of O. hupensis in 2016 was obtained from the Yunnan Institute of Endemic Disease Control and Prevention. Eight machine learning algorithms, including eXtreme Gradient Boosting (XGB), support vector machine (SVM), random forest (RF), generalized boosting model (GBM), neural network (NN), classification and regression trees (CART), k-nearest neighbors (KNN), and generalized additive model (GAM), were employed to explore the impacts of climatic, geographical, and socioeconomic variables on the distribution of suitable areas for O. hupensis. Predictions of the distribution of suitable areas for O. hupensis were made for various periods (2030s, 2050s, and 2070s) under different climate scenarios (SSP126, SSP245, SSP370, and SSP585). Results The RF model exhibited the best performance (AUC: 0.991, sensitivity: 0.982, specificity: 0.995, kappa: 0.942) and the CART model performed the worst (AUC: 0.884, sensitivity: 0.922, specificity: 0.943, kappa: 0.829). Based on the RF model, the top six important variables were as follows: Bio15 (precipitation seasonality) (33.6%), average annual precipitation (25.2%), Bio2 (mean diurnal temperature range) (21.7%), Bio19 (precipitation of the coldest quarter) (14.5%), population density (13.5%), and night light index (11.1%). The results demonstrated that the overall suitable habitats for O. hupensis were predominantly distributed in the schistosomiasis-endemic areas located in northwestern Yunnan Province under the current climate situation and were predicted to expand north- and westward due to climate change. Conclusions This study showed that the prediction of the current distribution of O. hupensis corresponded well with the actual records. Furthermore, our study provided compelling evidence that the geographical distribution of snails was projected to expand toward the north and west of Yunnan Province in the coming decades, indicating that the distribution of snails is driven by climate factors. Our findings will be of great significance for formulating effective strategies for snail control. Graphical Abstract

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Identifying core habitats and corridors for giant pandas by combining multiscale random forest and connectivity analysis

Cited by 5 publications

References 118 publications

A Survey of the Wild Giant Panda Population and Habitat Reflects an Urgent In Situ Conservation Need: A Case of Meigu Dafengding National Nature Reserve

A Survey of the Wild Giant Panda Population and Habitat Reflects an Urgent In Situ Conservation Need: A Case of Meigu Dafengding National Nature Reserve

Giant pandas are losing their edge: Population trend and distribution dynamic drivers of the giant panda

Prediction of Oncomelania hupensis distribution in association with climate change using machine learning models

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