9 results on '"Wu, Daifu"'
Search Results
2. Lipidomics for Determining Giant Panda Responses in Serum and Feces Following Exposure to Different Amount of Bamboo Shoot Consumption: A First Step towards Lipidomic Atlas of Bamboo, Giant Panda Serum and Feces by Means of GC-MS and UHPLC-HRMS/MS.
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Zhu, Chenglin, Pan, Xin, Li, Guo, Li, Caiwu, Wu, Daifu, Tang, Junni, Huang, Yan, Zou, Likou, and Laghi, Luca
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GIANT panda , *SHORT-chain fatty acids , *BAMBOO shoots , *LIPIDOMICS , *GAS chromatography/Mass spectrometry (GC-MS) - Abstract
Lipidic metabolites play essential roles in host physiological health and growth performance, serving as the major structural and signaling components of membranes, energy storage molecules, and steroid hormones. Bamboo, as wild giant pandas' exclusive diet, is the main determinant of giant pandas' lipidome, both as a direct source and through microbiota activity. Interestingly, the consumption of bamboo has attracted little attention from a lipidomic perspective. In the current study, we outline the lipidomic atlas of different parts of bamboo. By gas chromatography—mass spectrometry (GC-MS), we have been able to obtain the absolute quantification of 35 fatty acids pertaining to short chain fatty acids (8), medium chain fatty acids (6), long chain fatty acids (17), and very long chain fatty acids (4), while liquid chromatography coupled to high-resolution mass spectrometry (UHPLC-HRMS/MS) allowed us to obtain the relative quantification of another 1638 lipids. Among the fatty acids quantified in absolute terms, eight showed significantly distinct concentrations among different bamboo parts. Subsequently, we investigated how the giant panda's serum and fecal lipidome adapt to the most important annual change in their diet, represented by the consumption of high amounts of bamboo shoots, typical of spring, the weight-gaining season. Five fatty acids were significantly altered in feces and two in serum, respectively, due to the different levels of bamboo shoot consumption. Furthermore, significant differences of the main bacteria strains were observed in feces between the two groups at the genus level, pertaining to Streptococcus, Leuconostoc, and Vagococcus. Correlations between giant panda fecal microbiome and lipidome were evaluated by Pearson correlation analysis. These findings suggest that a balanced diet, important for the overall lipidomic function and giant panda health, could be reached even in this remarkable case of a single food-based diet, by administering to the giant panda's combinations of different parts of bamboo, with specific lipidome profiles. [ABSTRACT FROM AUTHOR]
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- 2022
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3. Field experiment reveals complex warming impacts on giant pandas' bamboo diet.
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Yang, Hongbo, Zhang, Dongyao, Winkler, Julie Ann, Huang, Qiongyu, Zhang, Yuanbin, Wu, Peihua, Liu, Jianguo, Ouyang, Zhiyun, Xu, Weihua, Chen, Xiaodong, Wu, Daifu, Zhang, Jindong, and Songer, Melissa
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GIANT panda , *FIELD research , *BAMBOO , *KEYSTONE species , *EVIDENCE gaps , *GLOBAL warming , *ECOSYSTEMS - Abstract
Understanding the impacts of global warming on keystone species is fundamental to addressing the threat of climate change to biodiversity. Understory bamboo species play a crucial role in many forest ecosystems and provide food and shelter for numerous animals, including the giant panda (Ailuropoda melanoleuca). While previous studies projected that global warming would cause substantial shrinkage of bamboo distribution and threaten giant pandas, substantial uncertainties persist due to an incomplete understanding of the impacts of warmer temperatures on both the quantity and quality of bamboo as the food source for giant pandas. To address this research gap, we conducted the first field experiment in giant panda habitats to assess the impacts of warmer temperatures on the population dynamics and dietary quality of arrow bamboo, a main food source of giant pandas. We observed that warming generated a nonlinear impact on bamboo survival, with a potential warming threshold between 1.5 °C and 3 °C, beyond which warmer temperatures substantially reduced the survival rate of bamboo. Additionally, our plant content analysis showed that warmer temperatures lowered bamboo's nutritional value but enhanced its palatability as food for giant pandas. Furthermore, we found that warming could jeopardize the bamboo food supply for giant pandas by intensifying aphid infections in bamboo. These findings advanced the understanding of food web dynamics under global warming and provided crucial information for effective giant panda conservation planning in the face of climate change. • Warming generated a nonlinear impact on the survival of arrow bamboo. • Warming lowered bamboo's nutritional value but enhanced its palatability to pandas. • Warming jeopardized pandas' food supply by intensifying aphid infections in bamboo. [ABSTRACT FROM AUTHOR]
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- 2024
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4. Antimicrobial resistance of Escherichia coli, Enterobacter spp., Klebsiella pneumoniae and Enterococcus spp. isolated from the feces of giant panda.
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Wang, Xin, Zhang, Yi, Li, Caiwu, Li, Guo, Wu, Daifu, Li, Ti, Qu, Yuanyuan, Deng, Wenwen, He, Yongguo, Penttinen, Petri, Zhang, Hemin, Huang, Yan, Zhao, Ke, and Zou, Likou
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KLEBSIELLA pneumoniae , *ENTEROCOCCUS , *GIANT panda , *DRUG resistance in microorganisms , *ENTEROBACTER , *ESCHERICHIA coli , *WHOLE genome sequencing , *FECES - Abstract
Background: Escherichia coli, Enterobacter spp., Klebsiella pneumoniae and Enterococcus spp., common gut bacteria in giant pandas, include opportunistic pathogens. The giant panda is an endangered species, classified as vulnerable by the World Wildlife Foundation. Continuous monitoring for the emergence of antimicrobial resistance (AMR) among bacterial isolates from giant pandas is vital not only for their protection but also for public health. Results: A total of 166 E. coli, 68 Enterobacter spp., 116 K. pneumoniae and 117 Enterococcus spp. isolates were collected from fecal samples of 166 giant pandas. In the antimicrobial susceptibility tests, 144 E. coli isolates, 66 Enterobacter spp. isolates, 110 K. pneumoniae isolates and 43 Enterococcus spp. isolates were resistant to at least one antimicrobial. The resistant isolates carried antimicrobial resistance genes (ARGs), including sul3, blaTEM, blaSHV and tetA. The differences in the prevalence of the bla types implied that the genetic basis for β-lactam resistance among the E. coli, Enterobacter spp. and K. pneumoniae isolates was different. The strain K. pneumoniae K85 that was resistant to sixteen antimicrobials was selected for whole genome sequencing. The genome contained Col440I, IncFIBK and IncFIIK plasmids and altogether 258 ARGs were predicted in the genome; 179 of the predicted ARGs were efflux pump genes. The genetic environment of the β-lactamase genes blaCTX-M-3 and blaTEM-1 in the K. pneumoniae K85 genome was relatively similar to those in other sequenced K. pneumoniae genomes. In comparing the giant panda age groups, the differences in the resistance rates among E. coli, K. pneumoniae and Enterobacter spp. isolates suggested that the infections in giant pandas of different age should be treated differently. Conclusions: Antimicrobial resistance was prevalent in the bacterial isolates from the giant pandas, implying that the gut bacteria may pose serious health risks for captive giant pandas. The resistance genes in the genome of K. pneumoniae K85 were associated with insertion sequences and integron-integrase genes, implying a potential for the further spread of the antimicrobial resistance. [ABSTRACT FROM AUTHOR]
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- 2022
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5. Chromosome-scale genomes provide new insights into subspecies divergence and evolutionary characteristics of the giant panda.
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Guang, Xuanmin, Lan, Tianming, Wan, Qiu-Hong, Huang, Yan, Li, Hong, Zhang, Mingchun, Li, Rengui, Zhang, Zhizhong, Lei, Yinghu, Zhang, Ling, Zhang, Heming, Li, Desheng, Li, Xiaoping, Li, Haimeng, Xu, Yan, Qiao, Maiju, Wu, Daifu, Tang, Keyi, Zhao, Pengpeng, and Lin, Jian-Qing
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GIANT panda , *SUBSPECIES , *GENOMICS , *MALE reproductive organs , *BODY size - Abstract
[Display omitted] Extant giant pandas are divided into Sichuan and Qinling subspecies. The giant panda has many species-specific characteristics, including comparatively small organs for body size, small genitalia of male individuals, and low reproduction. Here, we report the most contiguous, high-quality chromosome-level genomes of two extant giant panda subspecies to date, with the first genome assembly of the Qinling subspecies. Compared with the previously assembled giant panda genomes based on short reads, our two assembled genomes increased contiguity over 200-fold at the contig level. Additional sequencing of 25 individuals dated the divergence of the Sichuan and Qinling subspecies into two distinct clusters from 10,000 to 12,000 years ago. Comparative genomic analyses identified the loss of regulatory elements in the dachshund family transcription factor 2 (DACH2) gene and specific changes in the synaptotagmin 6 (SYT6) gene, which may be responsible for the reduced fertility of the giant panda. Positive selection analysis between the two subspecies indicated that the reproduction-associated IQ motif containing D (IQCD) gene may at least partly explain the different reproduction rates of the two subspecies. Furthermore, several genes in the Hippo pathway exhibited signs of rapid evolution with giant panda-specific variants and divergent regulatory elements, which may contribute to the reduced inner organ sizes of the giant panda. [ABSTRACT FROM AUTHOR]
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- 2021
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6. Reference gene catalog and metagenome-assembled genomes from the gut microbiome reveal the microbial composition, antibiotic resistome, and adaptability of a lignocellulose diet in the giant panda.
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Yang, Shengzhi, Deng, Wenwen, Li, Guo, Jin, Lei, Huang, Yan, He, Yongguo, Wu, Daifu, Li, Desheng, Zhang, Anyun, Liu, Chengxi, Li, Caiwu, Zhang, Hemin, Xu, Huailiang, Penttinen, Petri, Zhao, Ke, and Zou, Likou
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GIANT panda , *CROSS references (Information retrieval) , *GUT microbiome , *METAGENOMICS , *LIGNOCELLULOSE , *SHORT-chain fatty acids , *MICROBIAL metabolites - Abstract
The giant panda, a strict herbivore that feeds on bamboo, still retains a typical carnivorous digestive system. Reference catalogs of microbial genes and genomes are lacking, largely limiting the antibiotic resistome and functional exploration of the giant panda gut microbiome. Here, we integrated 177 fecal metagenomes of captive and wild giant pandas to construct a giant panda integrated gene catalog (GPIGC) comprised of approximately 4.5 million non-redundant genes and reconstruct 393 metagenome-assembled genomes (MAGs). Taxonomic and functional characterization of genes revealed that the captivity of the giant panda significantly changed the core microbial composition and the distribution of microbial genes. Higher abundance and prevalence of antibiotic resistance genes (ARGs) were detected in the guts of captive giant pandas, and ARG distribution was influenced by geography, for both captive and wild individuals. Escherichia, as the prevalent genus in the guts of captive giant pandas, was the main carrier of ARGs, meaning there is a high risk of ARG transmission by Escherichia. We also found that multiple mcr gene variants, conferring plasmid-mediated mobile colistin resistance, were widespread in the guts of captive and wild giant pandas. There were low proportions of carbohydrate-active enzyme (CAZyme) genes in GPIGC and MAGs compared with several omnivorous and herbivorous mammals. Many members of Clostridium MAGs were significantly enriched in the guts of adult, old and wild giant pandas. The genomes of isolates and MAGs of Clostridiaceae harbored key genes or enzymes in complete pathways for degrading lignocellulose and producing short-chain fatty acids (SCFAs), indicating the potential of these bacteria to utilize the low-nutrient bamboo diet. Overall, our data presented an exhaustive reference gene catalog and MAGs in giant panda gut and provided a comprehensive understanding of the antibiotic resistome and microbial adaptability for a high-lignocellulose diet. [Display omitted] • Captivity of giant panda changed the composition and diversity of gut microbiome. • Lifestyle and geography influenced on ARGs abundance and distribution, respectively. • Escherichia was the main carrier of ARGs in the guts of captive giant pandas. • Clostridium harbored key genes in metabolisms of lignocellulose. [ABSTRACT FROM AUTHOR]
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- 2024
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7. Effects of environmental disinfection on microbial population and resistance genes: A case study of the microecology within a panda enclosure.
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Yan, Min, Xu, Chunzhong, Li, Caiwu, Feng, Yongqi, Duan, Juntang, Zhao, Ke, Wu, Daifu, Li, Guo, Yang, Shengzhi, Han, Xinfeng, Xie, Yue, Huang, Yan, Yu, Xiumei, Wu, Jiawei, and Zou, Likou
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MICROORGANISM populations , *MICROBIAL ecology , *AIR ducts , *GIANT panda , *MICROBIAL cultures , *PANDAS , *PATHOGENIC bacteria - Abstract
Widespread use of disinfectants raises concerns over their involvement in altering microbial communities and promoting antimicrobial resistance. This study explores the influence of disinfection protocols on microbial populations and resistance genes within an isolated enclosure environment and in the gut of giant pandas (GPs) held within. Samples of panda feces, air conditioning ducts, soil and bamboo were collected before and after disinfection. High-throughput sequencing characterized the microbial flora of GP gut and environmental microbes inside the artificial habitat. Microbial cultures showed that Escherichia coli (34.6%), Enterococcus (15.4%) and other pathogenic bacteria deposited in feces and the enclosure. Isolates exhibit a consistent resistance to disinfectant, with the greatest resistance shown to cyanuric acid, and the lowest to glutaraldehyde-dodecyl dimethyl ammonium bromide (GD-DDAB) and dodecyl dimethyl ammonium bromide (DDAB). The total number of the culturable bacteria in soil and bamboo were significantly diminished after disinfection but increased in the gut. After disinfection, the richness (Chao1 index) of environment samples increased significantly (P < 0.05), while the richness in gut decreased significantly (P < 0.05). Ten genera showed significant change in feces after disinfection. Metagenome sequencing showed that 126 types of virulence genes were present in feces before disinfection and 37 in soil. After disinfection, 110 virulence genes localized in feces and 53 in soil. Eleven virulence genes including ECP and T2SS increased in feces. A total of 182 antibiotic resistance genes (ARGs) subtypes, potentially conferring resistance to 20 classes of drugs, were detected in the soils and feces, with most belonging to efflux pump protein pathways. After disinfection, the number of resistance genes increased both in gut and soil, which suggests disinfection protocols increase the number of resistance pathways. Our study shows that the use of disinfectants helps to shape the microbial community of GPs and their habitat, and increases populations of resistant strain bacteria. [Display omitted] • Bacteria from giant pandas and environment have similar trend resistance. • Disinfection decreased the abundance of some pathogens in feces and environment. • Disinfection shapes microbial populations of the giant panda gut and habitat. • Disinfection results in increased antibiotic resistance genes. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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8. Diet, habitat environment and lifestyle conversion affect the gut microbiomes of giant pandas.
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Jin, Lei, Huang, Yan, Yang, Shengzhi, Wu, Daifu, Li, Caiwu, Deng, Wenwen, Zhao, Ke, He, Yongguo, Li, Bei, Zhang, Guiquan, Xiong, Yaowu, Wei, Rongping, Li, Guo, Wu, Hongning, Zhang, Hemin, and Zou, Likou
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- 2021
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9. Acoustic recordings provide detailed information regarding the behavior of cryptic wildlife to support conservation translocations.
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Yan, Xiao, Zhang, Hemin, Li, Desheng, Wu, Daifu, Zhou, Shiqiang, Sun, Mengmeng, Hu, Haiping, Liu, Xiaoqiang, Mou, Shijie, He, Shengshan, Owen, Megan A., and Huang, Yan
- Abstract
For translocated animals, behavioral competence may be key to post-release survival. However, monitoring behavior is typically limited to tracking movements or inferring behavior at a gross scale via collar-mounted sensors. Animal-bourne acoustic monitoring may provide a unique opportunity to monitor behavior at a finer scale. The giant panda is an elusive species of Ursid that is vulnerable to extinction. Translocation is an important aspect of the species' recovery, and survival and recruitment for pandas likely hinge on behavioral competence. Here we tested the efficacy of a collar-mounted acoustic recording unit (ARU) to remotely monitor the behavior of panda mothers and their dependent young. We found that trained human listeners could reliably identify 10 behaviors from acoustic recordings. Through visual inspection of spectrograms we further identified 5 behavioral categories that may be detectable by automated pattern recognition, an approach that is essential for the practical application of ARU. These results suggest that ARU are a viable method for remotely observing behaviors, including feeding. With targeted effort directed towards instrumentation and computing advances, ARU could be used to document how behavioral competence supports or challenges post-release survival and recruitment, and allow for research findings to be adaptively integrated into future translocation efforts. [ABSTRACT FROM AUTHOR]
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- 2019
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