Your search keyword '"An, Hui-Ru"' showing total 3 results

1. Low but highly geographically structured genomic diversity of East Asian Eurasian otters and its conservation implications.

Author

Li, Shou‐Hsien, Yeh, Chia‐fen, Jang‐Liaw, Nian‐Hong, Chang, Shih‐Wei, Lin, Yu‐Hsiu, Tsai, Cheng‐En, Chiu, Chi‐Cheng, Chen, Chien‐Wen, Ke, Hui‐Ru, Wang, Qiaoyun, Lu, Yiwei, Zheng, Kaidan, Fan, Pengfei, Zhang, Lu, and Liu, Yang

Subjects

OTTERS, TOP predators, INFORMATION resources management, CLIMATE change, HOLOCENE Epoch

Abstract

Populations of Eurasian otters Lutra lutra, one of the most widely distributed apex predators in Eurasia, have been depleted mainly since the 1950s. However, a lack of information about their genomic diversity and how they are organized geographically in East Asia severely impedes our ability to monitor and conserve them in particular management units. Here, we re‐sequenced and analyzed 20 otter genomes spanning continental East Asia, including a population at Kinmen, a small island off the Fujian coast, China. The otters form three genetic clusters (one of L. l. lutra in the north and two of L. l. chinensis in the south), which have diverged in the Holocene. These three clusters should be recognized as three conservation management units to monitor and manage independently. The heterozygosity of the East Asian otters is as low as that of the threatened carnivores sequenced. Historical effective population size trajectories inferred from genomic variations suggest that their low genomic diversity could be partially attributed to changes in the climate since the mid‐Pleistocene and anthropogenic intervention since the Holocene. However, no evidence of genetic erosion, mutation load, or high level of inbreeding was detected in the presumably isolated Kinmen Island population. Any future in situ conservation efforts should consider this information for the conservation management units. [ABSTRACT FROM AUTHOR]

Published

2024

2. Occurrence of Nighttime Irregularities and Their Scale Evolution in the Ionosphere Due To the Solar Eclipse Over East Asia on 21 June 2020.

Author

Sun, Yang‐Yi, Chen, Chieh‐Hung, Su, Xiaoning, Wang, Jing, Yu, Tao, Xu, Hui‐Ru, and Liu, Jann‐Yenq

Subjects

SOLAR eclipses, GLOBAL Positioning System, HILBERT-Huang transform, IONOSPHERE, IONOSPHERIC plasma

Abstract

Solar eclipse is a daytime phenomenon that significantly disturbs the ionosphere, but whether the eclipse induces ionospheric irregularities in the nighttime remains unknown. In this study, we analyzed the dense total electron content (TEC) observations from the ground‐based Global Navigation Satellite System receivers over East and South Asia to examine the development of the irregularities in the nighttime on the day of the 21 June 2020 annular solar eclipse. The rate of TEC index (period <5 min) indicates the occurrence of the irregularities that evolve from the large or coarse structures with a period ranging from hours to dozens of minutes in the nighttime due to the eclipse. We take advantage of the data‐adaptive analysis method, Hilbert‐Huang transform, to derive the instantaneous amplitude and frequency of the TEC time series, which exposes the temporal and spatial evolutions of the irregularities from larger structures continuously. Plain Language Summary: The moon obscuration of a solar eclipse suddenly reduces solar irradiation in the daytime, which generates large atmospheric and ionospheric perturbations. The massive total electron content observations from the dense ground‐based Global Navigation Satellite System network recorded the occurrence of the large‐scale ionospheric perturbations and plasma irregularities in the nighttime on 21 June 2020. The occurrence of nighttime irregularities due to a solar eclipse was never known. This study further shows that the Hilbert‐Huang transform is an efficient technique to sift out the structures with large, coarse, or fine scales (Figure S1 in Supporting Information S1) from the total electron content time series. This data‐adaptive method benefits capturing the transient evolution of the ionospheric weather. Key Points: Development of ionospheric plasma irregularities after the solar eclipse in postsunset hoursEvolution of the irregularities from the convergence of large enhancementsHilbert‐Huang transform analysis sifts out the density structures with scales from coarse to fine [ABSTRACT FROM AUTHOR]

Published

2023

3. Binding properties of odorant‐binding protein 4 from bean bug Riptortus pedestris to soybean volatiles.

Author

Zhu, Xiu‐Yun, Li, Jin‐Bu, Liu, Jia, Dewer, Youssef, Zhang, Hui, Zhang, Hui‐Ru, Zhang, Dong, Zhang, Xiao‐Ya, Wan, Zhi‐Wei, Yin, Mao‐Zhu, Li, Xiao‐Ming, and Zhang, Ya‐Nan

Subjects

ODORANT-binding proteins, SOYBEAN diseases & pests, SOYBEAN, LIGAND binding (Biochemistry), AMINO acid residues, BINDING site assay, BEANS

Abstract

The bean bug Riptortus pedestris is a notorious insect pest that can damage various crops, especially soybean, in East Asia. In insects, the olfactory system plays a crucial role in host finding and feeding behaviour in which the odorant‐binding proteins (OBPs) are believed to be involved in initial step in this system. In this study, we produced the R. pedestris adult antennae‐expressed RpedOBP4 protein using a recombinant expression system in E. coli. Fluorescence competitive binding confirmed that RpedOBP4 has binding affinities to 7 of 20 soybean volatiles (ligands), and that a neutral condition is the best environment for it. The binding property of RpedOBP4 to these ligands was further revealed by integrating data from molecular docking, site‐directed mutagenesis and ligand binding assays. This demonstrated that five amino acid residues (I30, L33, Y47, I57 and Y121) are involved in the binding process of RpedOBP4 to corresponding ligands. These findings will not only help us to more thoroughly explore the olfactory mechanism of R. pedestris during feeding on soybean, but also lead to the identification of key candidate targets for developing environmental and efficient behaviour inhibitors to prevent population expansion of R. pedestris in the future. [ABSTRACT FROM AUTHOR]

Published

2022