Your search keyword '"Xu, Qianghua"' showing total 6 results

1. Gut Microbial Divergence Between Three Hadal Amphipod Species from the Isolated Hadal Trenches

Author

Chan, Jiulin, Geng, Daoqiang, Pan, Binbin, Zhang, Qiming, and Xu, Qianghua

Published

2022

2. Trace Elemental Analysis of the Exoskeleton, Leg Muscle, and Gut of Three Hadal Amphipods

Author

Zhu, Lingyue, Geng, Daoqiang, Pan, Bingbing, Li, Wenhao, Jiang, Shouwen, and Xu, Qianghua

Published

2022

3. Development of Single-Nucleotide Polymorphism Markers and Population Genetic Analysis of the Hadal Amphipod Alicella gigantea across the Mariana and New Britain Trenches.

Author

Chen, Lei, Jiang, Shouwen, Pan, Binbin, and Xu, Qianghua

Subjects

HADAL zone, SINGLE nucleotide polymorphisms, PRINCIPAL components analysis, GENETIC markers, DEFICIENCY diseases

Abstract

Alicella gigantea, the largest amphipod scavengers found to date, play key roles in the food web of the hadal ecosystem. However, the genetic structure of A. gigantea populations among different trenches has not been reported yet. In this study, SNP (single-nucleotide polymorphism) markers were developed for three A. gigantea geographic populations collected from the southern Mariana Trench (SMT), the central New Britain Trench (CNBT), and the eastern New Britain Trench (ENBT), based on the SLAF-seq (specific locus amplified fragment sequencing) technology. A total of 570,168 filtered SNPs were screened out for subsequent population genetic analysis. Results showed that the inbreeding levels across the three geographic populations were relatively low, and the genomic inbreeding coefficients of the three populations were similar in magnitude. Based on the results of phylogenetic analysis, population structure analysis, and principal component analysis, it is believed that the three A. gigantea geographic populations belong to the same population, and the kinship relationship between the ENBT and CNBT populations is close. Moreover, the differential candidate adaptive sites on the SNPs suggest that there may be variations in metabolic rates among the three geographic populations, possibly linked to differences in food availability and sources in different trenches, ultimately resulting in different survival strategies in A. gigantea populations within distinct trenches. Compared with the Mariana Trench, the New Britain Trench has a richer organic matter input, and it is speculated that the A. gigantea Mariana Trench population may adopt a lower metabolic rate to cope with the harsher environment of nutrient deficiency. [ABSTRACT FROM AUTHOR]

Published

2024

4. Metal Accumulations in Two Extreme-Environment Amphipods, Hadal Eurythenes gryllus and Antarctic Pseudorchomene plebs.

Author

Huang, Shaojun, Zhu, Lingyue, Jiang, Shouwen, Zhai, Wanying, Pan, Binbin, Wu, Zhichao, and Xu, Qianghua

Subjects

MARIANA Trench, TRACE elements, INDUCTIVELY coupled plasma mass spectrometry, AMPHIPODA, GRYLLUS, OCEAN zoning

Abstract

The hadal zone and Antarctic Ocean are two of the least-explored habitats. Knowledge about human impacts on these two extreme environments is limited. Here, we analyzed the metal accumulations of two amphipod species, Eurythenes gryllus, from the Mariana Trench (6040 m, 11.36° N, 142.41° E) in the West Pacific Ocean, and Pseudorchomene plebs, from the Ross Sea (600 m, 77.12° S, 167,67° E) in the Antarctic. Bioaccumulation of thirteen elements (Na, Mg, K, Ca, Cu, Fe, Al, Cr, Mn, Zn, As, Se, and Cd) in three tissues (exoskeleton, leg muscle, and gut) of the two amphipods was investigated using inductively coupled plasma mass spectrometry (ICP-MS). Comparing the trace element concentrations between the different amphipoda species, we found higher element concentrations in the Antarctic amphipod, and an oligotrophication of the Mariana Trench. The concentrations of Cu, Zn, As, and Se in the three tissues all had a significant difference in abundance, and the Cd in the gut of P. plebs was comparably higher than that in E. gryllus, consistent with special environment adaptation. Compared with non-abyssal and shallow water decapoda and amphipoda species, hadal amphipods possessed comparably higher concentrations of Cd and Cr elements and displayed a very high environmental specificity for amphipods' metal-element bioaccumulation strategy. This study reveals the amphipods of remote and uncontaminated areas as potential indicator species for metal-element bioaccumulation to measure anthropogenic impacts. [ABSTRACT FROM AUTHOR]

Published

2023

5. Trimethylamine N-Oxide (TMAO) and Trimethylamine (TMA) Determinations of Two Hadal Amphipods.

Author

Liu, Qi, Jiang, Shouwen, Li, Wenhao, Pan, Binbin, and Xu, Qianghua

Subjects

MARIANA Trench, AMPHIPODA, TRIMETHYLAMINE, LIQUID chromatography-mass spectrometry, PROTEIN structure, WHITELEG shrimp, HYDROSTATIC pressure

Abstract

Hadal trenches are a unique habitat with high hydrostatic pressure, low temperature and scarce food supplies. Amphipods are the dominant scavenging metazoan species in this ecosystem. Trimethylamine (TMA) and trimethylamine oxide (TMAO) have been shown to play important roles in regulating osmotic pressure in mammals, hadal dwellers and even microbes. However, the distributions of TMAO and TMA concentrations of hadal animals among different tissues have not been reported so far. Here, the TMAO and TMA contents of eight tissues of two hadal amphipods, Hirondellea gigas and Alicella gigantea from the Mariana Trench and the New Britain Trench, were detected by using the ultrahigh performance liquid chromatography–mass spectrometry (UPLC-MS/MS) method. Compared with the shallow water Decapoda, Penaeus vannamei, the hadal amphipods possessed significantly higher TMAO concentrations and a similar level of TMA in all the detected tissues. A higher level of TMAO was detected in the external organs (such as the eye and exoskeleton) for both of the two hadal amphipods, which indicated that the TMAO concentration was not evenly distributed, although the same hydrostatic pressure existed in the outer and internal organs. Moreover, a strong positive correlation was found between the concentrations of TMAO and TMA in the two hadal amphipods. In addition, evolutionary analysis regarding FMO3, the enzyme to convert TMA into TMAO, was also conducted. Three positive selected sites in the conserved region and two specific mutation sites in two conserved motifs were found in the A. gigantea FMO3 gene. Combined together, this study supports the important role of TMAO for the environmental adaptability of hadal amphipods and speculates on the molecular evolution and protein structure of FMO3 in hadal species. [ABSTRACT FROM AUTHOR]

Published

2022

6. Metagenomic Insights Into the Structure and Function of Intestinal Microbiota of the Hadal Amphipods.

Author

Chan, Jiulin, Geng, Daoqiang, Pan, Binbin, Zhang, Qiming, and Xu, Qianghua

Subjects

MARIANA Trench, GUT microbiome, AMPHIPODA, BIOLOGICAL transport, CELL motility, PROBIOTICS, CARBOHYDRATE metabolism, BACTERIAL genes

Abstract

Hadal trenches are the deepest known areas of the ocean. Amphipods are considered to be the dominant scavengers in the hadal food webs. The studies on the structure and function of the hadal intestinal microbiotas are largely lacking. Here, the intestinal microbiotas of three hadal amphipods, Hirondellea gigas , Scopelocheirus schellenbergi , and Alicella gigantea , from Mariana Trench, Marceau Trench, and New Britain Trench, respectively, were investigated. The taxonomic analysis identified 358 microbial genera commonly shared within the three amphipods. Different amphipod species possessed their own characteristic dominant microbial component, Psychromonas in H. gigas and Candidatus Hepatoplasma in A. gigantea and S. schellenbergi. Functional composition analysis showed that "Carbohydrate Metabolism," "Lipid Metabolism," "Cell Motility," "Replication and Repair," and "Membrane Transport" were among the most represented Gene Ontology (GO) Categories in the gut microbiotas. To test the possible functions of "Bacterial Chemotaxis" within the "Cell Motility" category, the methyl-accepting chemotaxis protein (MCP) gene involved in the "Bacterial Chemotaxis" pathway was obtained and used for swarming motility assays. Results showed that bacteria transformed with the gut bacterial MCP gene showed significantly faster growths compared with the control group, suggesting MCP promoted the bacterial swimming capability and nutrient utilization ability. This result suggested that hadal gut microbes could promote their survival in poor nutrient conditions by enhancing chemotaxis and motility. In addition, large quantities of probiotic genera were detected in the hadal amphipod gut microbiotas, which indicated that those probiotics would be possible contributors for promoting the host's growth and development, which could facilitate adaptation of hadal amphipods to the extreme environment. [ABSTRACT FROM AUTHOR]

Published

2021