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Publications

Journal

#	Author, title, journal name, year of publication and page number	URL in CUHK Research Portal / DOI
1	Contador, C. A., Liu, A., Ng, M.-S., Ku, Y.-S., Chan, S. H. J., & Lam, H.-M. (2024). Contextualized Metabolic Modelling Revealed Factors Affecting Isoflavone Accumulation in Soybean Seeds.ÊPlant, Cell and Environment. https://doi.org/10.1111/pce.15140	Click Here
2	Law, S. T. S., Nong, W., Li, C., Chong, T. K., Yip, H. Y., Swale, T., Chiu, S. W., Chung, R. Y., Lam, H., Wong, S. Y. S., Wong, H., & Hui, J. H. L. (2024). Genome of tropical bed bug Cimex hemipterus (Cimicidae, Hemiptera) reveals tetraspanin expanded in bed bug ancestor.ÊInsect Science,Ê32(1), 42Ð54. https://doi.org/10.1111/1744-7917.13388	Click Here
3	Zhang, Y., Ku, Y.-S., Cheung, T.-Y., Cheng, S.-S., Xin, D., Gombeau, K., Cai, Y., Lam, H.-M., & Chan, T.-F. (2024). Challenges to rhizobial adaptability in a changing climate: Genetic engineering solutions for stress tolerance.ÊMicrobiological Research,Ê288, 127886-. https://doi.org/10.1016/j.micres.2024.127886	Click Here
4	Ku, Y., Liao, Y., Chiou, S., Lam, H., & Chan, C. (2024). From trade_off to synergy: microbial insights into enhancing plant growth and immunity. Plant Biotechnology Journal, 22(9), 2461Ð2471. https://doi.org/10.1111/pbi.14360	Click Here
5	Wang, Z., Yung, W. S., Gao, Y., Huang, C., Zhao, X., Chen, Y., Li, M. W., & Lam, H. M. (2024). From phenotyping to genetic mapping: identifying water-stress adaptations in legume root traits.ÊBMC Plant Biology,Ê24(1), 749Ð749. https://doi.org/10.1186/s12870-024-05477-8	Click Here
6	Feng, L., Teng, F., Li, N., Zhang, J.-C., Zhang, B.-J., Tsai, S.-N., Yue, X.-L., Gu, L.-F., Meng, G.-H., Deng, T.-Q., Tong, S.-W., Wang, C.-M., Li, Y., Shi, W., Zeng, Y.-L., Jiang, Y.-M., Yu, W., Ngai, S.-M., An, L.-Z., É He, J.-X. (2024). A reference-grade genome of the xerophyte Ammopiptanthus mongolicus sheds light on its evolution history in legumes and drought-tolerance mechanisms. Plant Communications, 5(7), 100891-. https://doi.org/10.1016/j.xplc.2024.100891	Click Here
7	Niu, Y., Yung, W. S., Sze, C. C., Wong, F. L., Li, M. W., Chung, G., & Lam, H. M. (2024). Developing an SNP dataset for efficiently evaluating soybean germplasm resources using the genome sequencing data of 3,661 soybean accessions. BMC Genomics, 25(1), 475Ð475. https://doi.org/10.1186/s12864-024-10382-3	Click Here
8	Li, C., Nong, W., Boncan, D. A. T., So, W. L., Yip, H. Y., Swale, T., Jia, Q., Vicentin, I. G., Chung, G., Bendena, W. G., Ngo, J. C. K., Chan, T. F., Lam, H. M., & Hui, J. H. L. (2024). Elucidating the ecophysiology of soybean pod-sucking stinkbug Riptortus pedestris (Hemiptera: Alydidae) based on de novo genome assembly and transcriptome analysis. BMC Genomics, 25(1), 327Ð15. https://doi.org/10.1186/s12864-024-10232-2	Click Here
9	Cisternas, F., Sun, C., Contador, C. A., Anders, S., Chu, M., Phan, N., Hu, B., Liu, Z., Lam, H.-M., & Tse, L. A. (2024). Cultural and generational factors shape AsiansÕ sustainable food choices: Insights from choice experiments and information nudges. Cell Reports Sustainability, 1(2), 100020-. https://doi.org/10.1016/j.crsus.2024.100020	Click Here
10	Stinson, I., Li, H.-H., Tsui, M. T.-K., Ku, P., Ulus, Y., Cheng, Z., & Lam, H.-M. (2024). Tree foliage as a net accumulator of highly toxic methylmercury. Scientific Reports, 14(1), 1757Ð1757. https://doi.org/10.1038/s41598-024-51469-x	Click Here
11	Law, C.-H., Chan, L.-Y., Chan, T.-Y., Ku, Y.-S., & Lam, H.-M. (2023). The application of electrophoresis in soil research. IntechOpen. doi: 10.5772/intechopen.1003908	Click Here
12	Yung, W., Chan, T., Kong, F., & Lam, H. (2023). The Plant Genome special section: Epigenome and epitranscriptome in plantÐenvironment interactions.ÊThe Plant Genome,Ê16(4), e20404-n/a. https://doi.org/10.1002/tpg2.20404	Click Here
13	Lee, I. H. T., Nong, W., So, W. L., Cheung, C. K. H., Xie, Y., Baril, T., Yip, H. Y., Swale, T., Chan, S. K. F., Wei, Y., Lo, N., Hayward, A., Chan, T. F., Lam, H. ming, & Hui, J. H. L. (2023). The genome and sex-dependent responses to temperature in the common yellow butterfly, Eurema hecabe.ÊBMC Biology,Ê21(1), 1Ð200. https://doi.org/10.1186/s12915-023-01703-1	Click Here
14	Law, S. T. S., Nong, W., Yip, H. Y., Liu, E. K. Y., Ng, T. P. T., Tsang, R. H. L., Xia, N., Shaw, P. C., Lam, H. M., Lau, D. T. W., & Hui, J. H. L. (2023). Population genomic analyses of protected incense trees Aquilaria sinensis reveal the existence of genetically distinct subpopulations.ÊFrontiers in Ecology and Evolution,Ê11. https://doi.org/10.3389/fevo.2023.1216370	Click Here
15	Chu, M., Anders, S., Deng, Q., Contador, C. A., Cisternas, F., Caine, C., Zhu, Y., Yang, S., Hu, B., Liu, Z., Tse, L. A., & Lam, H. (2023). The future of sustainable food consumption in China.ÊFood and Energy Security,Ê12(2). https://doi.org/10.1002/fes3.405	Click Here
16	Law, S. T. S., Nong, W., Li, C., Chong, T. K., Yip, H. Y., Swale, T., Chiu, S. W., Chung, R. Y., Lam, H., Wong, S. Y. S., Wong, H., & Hui, J. H. L. (2024). Genome of tropical bed bug Cimex hemipterus (Cimicidae, Hemiptera) reveals tetraspanin expanded in bed bug ancestor. Insect Science, 32(1), 42Ð54. https://doi.org/10.1111/1744-7917.13388	Click Here
17	Voolstra, C.R., Raina, J.-B., Drr, M., Crdenas, A., Pogoreutz, C., Silveira, C.B., Mohamed, A.R., Bourne, D.G., Luo, H., Amin, S.A. and Peixoto, R.S. (2024). The coral microbiome in sickness, in health and in a changing world. Nature Reviews Microbiology 22:460-475.	Click Here
18	Zhang, H., Hellweger, F.L. and Luo, H. (2024). Genome reduction occurred in early Prochlorococcus with an unusually low effective population size. The ISME Journal 18(1):wrad035.	Click Here
19	Liao, T., Wang, S., Zhang, H., Stu_eken, E.E. and Luo, H. (2024). Dating ammonia-oxidizing bacteria with abundant eukaryotic fossils. Molecular Biology and Evolution 41(5):msae096.	Click Here
20	Feng, X., Xing, P., Tao, Y., Wang, X., Wu, Q.L., Liu, Y. and Luo, H. (2024). Functional traits and adaptation of lake microbiomes on the Tibetan Plateau. Microbiome 12:264.	Click Here
21	Luo, H. (2025). How Big Is Big? The Effective Population Size of Marine Bacteria. Annual Review of Marine Science, 17(1), 537Ð560. https://doi.org/10.1146/annurev-marine-050823-104415	Click Here
22	Guo, K., Niu, Z., Tu, Z., Chen, C.* (2025). Rapidly dissolving nanofiber filters for efficient sampling and on-site detection of airborne bacteria. Journal of Hazardous Materials, 485, 136850.	Click Here
23	Xiao, C., Huang, W., Guo, K., Chen, C.* (2025). Advanced algorithm for locating an air contaminant source by means of a sensing robot with pre-calculated air contaminant distribution database. Building and Environment, 269, 112353.	Click Here
24	Zhang, H., Pan, Y., Deng, C., Niu, Z., You, R., Chen, C.* (2024). Experimental investigation of interpersonal particle transport in an aircraft cabin mockup with nanofiber air filters. Science of the Total Environment, 954, 176059.	Click Here
25	Niu, Z., He, Q., Chen, C. (2024). A PM2.5 pollution-level adaptive air filtration system based on elastic filters for reducing energy consumption. Journal of Hazardous Materials, 478, 135546.	Click Here
26	Guo, K., Wan, Z., Jiang, Y., Ho, K.-F., Chen, C. (2024). A liquid culture method assisted by ATP analysis for accelerating laboratory experiments on ultraviolet disinfection of airborne bacteria. Journal of Hazardous Materials, 478, 135518.	Click Here
27	Huang, W., Pan, Y., Zhou, Y., Chen, C.* (2024). Optimal location design for multiple far-UVC lamps to enhance indoor bioaerosol disinfection by CFD-based Bayesian optimization. Building and Environment, 264, 111948.	Click Here
28	Pan, Y.^, Zhang, H.^, Huang, W., Liu, W., You, R., Chen, C.* (2024). Enhancing removal of air contaminants in existing aircraft cabins by optimizing supply air direction based on Re-field synergy and Bayesian optimization. Science of the Total Environment, 928, 172363.	Click Here
29	Dai, H.K., Shi, Y., Chen, C.* (2024). Developing a deep neural network model for predicting ventilation rates in public housing buildings in Hong Kong. Energy and Buildings, 307, 113993.	Click Here
30	Huang, W., Chen, C.* (2024). Fast prediction of particle transport in complex indoor environments using a Lagrangian-Markov chain model with coarse grids. Energy and Buildings, 306, 113910.	Click Here
31	Guo, K., Chen, C.* (2024). Investigation of far-UVC (222 nm) disinfection of bioaerosols deposited on surfaces with different material properties. Journal of Hazardous Materials, 465, 133358.	Click Here
32	Huang, W., Guo, K., Pan, Y., Chen, C.* (2024). Enhancing the effectiveness of bioaerosol disinfection in indoor environments by optimizing far-UVC lamp locations based on Markov chain model. Science of the Total Environment, 912, 168803.	Click Here
33	Bian, Y.^, Niu, Z^., Zhang, C., Pan, Y., Wang, Y., Chen, C. (2024). Encrusting MOF nanoparticles onto nanofibers via spray-initiated synthesis to boost the filtration performances of nanofiber membranes. Separation and Purification Technology, 331, 125569.	Click Here
34	Guo, K., Pan, Y., Chan, H.F.R., Ho, K.-F., Chen, C.* (2023). Far-UVC disinfection of airborne and surface virus in indoor environments: laboratory experiments and numerical simulations. Building and Environment, 245, 110900.	Click Here
35	Yu, X., Chan, H.F.R., Xiao, C., Chen, C.* (2023). Cheaper radiative cooling paint by milling larger glass bubbles. Energy and Buildings, 298, 113578.	Click Here
36	Pan, Y., Guo, K., Lin, C.-H., Wei, D., Ho, K.-F., Chen, C.* (2023). Developing a survival probability-based Lagrangian model for predicting ultraviolet disinfection of bioaerosols in enclosed environments. Building and Environment, 244, 110765.	Click Here
37	Pan, Y., Huang, W., Dai, H.K., Bian, Y., Ho, K.-F., Chen, C. (2023). Evaluation of intervention measures in reducing the driverÕs exposure to respiratory particles in a taxi with infected passengers. Science of the Total Environment, 902, 166099.	Click Here
38	An, Y., Chen, C.* (2023). Energy-efficient control of indoor PM2.5 and thermal comfort in a real room using deep reinforcement learning. Energy and Buildings, 295, 113340.	Click Here
39	Li, C., Chan, K. K., Nong, W., Chen, S., So, W. L., Qu, Z., Wu, H. Y. C., Yip, H. Y., Chan, C. B., Tobe, S. S., Bendena, W. G., Kai, Z. P., & Hui, J. H. L. (2024). Insect metamorphosis is regulated differently between sexes by members of a microRNA cluster. eLife, 13:RP100499.	Click Here
40	Hong Kong Biodiversity Genomics Consortium. (2024). Chromosomal-level genome assembly and single-nucleotide polymorphism sites of black-faced spoonbillÊPlatalea minor.ÊGigaByte (Hong Kong, China),Ê2024, 1Ð13.	Click Here
41	Law, S. T. S., Nong, W., Li, C., Chong, T. K., Yip, H. Y., Swale, T., Chiu, S. W., Chung, R. Y., Lam, H. M., Wong, S. Y. S., Wong, H., & Hui, J. H. L. (2024). Genome of tropical bed bug Cimex hemipterus (Cimicidae, Hemiptera) reveals tetraspanin expanded in bed bug ancestor.ÊInsect science, 10.1111/1744-7917.13388.	Click Here
42	Hong Kong Biodiversity Genomics Consortium. (2024). Genome assembly of the rare and endangered Grantham's camellia,ÊCamellia granthamiana.ÊGigaByte (Hong Kong, China),Ê2024, gigabyte124.	Click Here
43	Hong Kong Biodiversity Genomics Consortium. (2024). Genome assembly of the milky mangroveÊExcoecaria agallocha.ÊGigaByte (Hong Kong, China),Ê2024, gigabyte119.	Click Here
44	Hong Kong Biodiversity Genomics Consortium. (2024). Chromosomal-level genome assembly of golden birdwingÊTroides aeacusÊ(Felder & Felder, 1860).ÊGigaByte (Hong Kong, China),Ê2024, gigabyte122.	Click Here
45	Hong Kong Biodiversity Genomics Consortium. (2024). Genome assembly of the edible jelly fungusÊDacryopinax spathularia (Dacrymycetaceae).ÊGigaByte (Hong Kong, China),Ê2024, gigabyte120.	Click Here
46	Hong Kong Biodiversity Genomics Consortium. (2024). Chromosome-level genome assembly of the common chiton,ÊLiolophura japonicaÊ(Lischke, 1873).ÊGigaByte (Hong Kong, China),Ê2024, gigabyte123.	Click Here
47	Hong Kong Biodiversity Genomics Consortium. (2024). Chromosomal-level genome assembly of the long-spined sea urchinÊDiadema setosumÊ(Leske,Ê1778).ÊGigaByte (Hong Kong, China),Ê2024, gigabyte121.	Click Here
48	Li, C., Nong, W., Boncan, D. A. T., So, W. L., Yip, H. Y., Swale, T., Jia, Q., Vicentin, I. G., Chung, G., Bendena, W. G., Ngo, J. C. K., Chan, T. F., Lam, H. M., & Hui, J. H. L. (2024). Elucidating the ecophysiology of soybean pod-sucking stinkbug Riptortus pedestris (Hemiptera: Alydidae) based on de novo genome assembly and transcriptome analysis.ÊBMC genomics,Ê25(1), 327.	Click Here
49	So, W. L., Chong, T. K., Lee, I. H. T., So, M. T. W., Liu, A. M. Y., Leung, S. T. C., Ching, W., Yip, H. Y., Shaw, P. C., & Hui, J. H. L. (2024). Cytochrome oxidase I DNA barcodes of crocodilians meat selling in Hong Kong.ÊScientific data,Ê11(1), 46.	Click Here
50	Wu, H. Y., Wong, K. L., Law, S. T., Nong, W., Chan, K. T., Hui, J. H., Lin, G., Chan, W. H., & Shaw, P. C. (2024). Determination of ITS1 haplotypes of Fritillariae Cirrhosae Bulbus by amplicon sequencing.ÊChinese medicine,Ê19(1), 33.	Click Here
51	McIlroy, S. E., Guibert, I., Archana, A., Chung, W. Y. H., Duffy, J. E., Gotama, R., Hui, J., Knowlton, N., Leray, M., Meyer, C., Panagiotou, G., Paulay, G., Russell, B., Thompson, P. D., & Baker, D. M. (2024). Life goes on: Spatial heterogeneity promotes biodiversity in an urbanized coastal marine ecosystem.ÊGlobal change biology,Ê30(4), e17248.	Click Here
52	Law, S. T. S., Yu, Y., Nong, W., So, W. L., Li, Y., Swale, T., Ferrier, D. E. K., Qiu, J., Qian, P., & Hui, J. H. L. (2023). The genome of the deep-sea anemoneÊActinernusÊsp. contains a mega-array of ANTP-class homeobox genes.ÊProceedings. Biological sciences,Ê290(2009), 20231563.	Click Here
53	Lee, I. H. T., Nong, W., So, W. L., Cheung, C. K. H., Xie, Y., Baril, T., Yip, H. Y., Swale, T., Chan, S. K. F., Wei, Y., Lo, N., Hayward, A., Chan, T. F., Lam, H. M., & Hui, J. H. L. (2023). The genome and sex-dependent responses to temperature in the common yellow butterfly, Eurema hecabe.ÊBMC biology,Ê21(1), 200.	Click Here
54	Lin, D., Hong, J., Sanogo, B., Du, S., Xiang, S., Hui, J. H., Ding, T., Wu, Z., & Sun, X. (2023). Core gut microbes Cloacibacterium and Aeromonas associated with different gastropod species could be persistently transmitted across multiple generations.ÊMicrobiome,Ê11(1), 267.	Click Here
55	Law, S. T. S., Nong, W., Yip, H. Y., Liu, E. K. Y., Ng, T. P. T., Tsang, R. H. L., Xia, N., Shaw, P-C., Lam, H. M., Lau, D. T. W., & Hui, J. H. L. (2023). Population genomic analyses of protected incense treesÊAquilaria sinensisÊreveal the existence of genetically distinct subpopulations.ÊFrontiers in Ecology and Evolution, 11:1216370.	Click Here
56	Au, M. F. F., Williams, G. A., & Hui, J. H. L. (2023). Status Quo and Future Perspectives of Molecular and Genomic Studies on the GenusÊBiomphalaria-The Intermediate Snail Host ofÊSchistosoma mansoni.ÊInternational journal of molecular sciences,Ê24(5), 4895.	Click Here
57	Wong, K. H., Siu, T. Y., Tsang, S. S. K., Kong, B. L. H., Wu, H. Y., But, G. W. C., Hui, J. H. L., Shaw, P. C., & Lau, D. T. W. (2023). The Complete Chloroplast Genomes of Nine Smilacaceae Species from Hong Kong: Inferring Infra- and Inter-Familial Phylogeny.ÊInternational Journal of Molecular Sciences,Ê24(8), 7460.	Click Here
58	Chan, K. K., Chan, T. F., Bendena, W., & Hui, J. H. L. (2023). Noncoding RNA Regulation of Hormonal and Metabolic Systems in the Fruit FlyÊDrosophila.ÊMetabolites,Ê13(2), 152.	Click Here
59	So, W. L., Nong, W., Xie, Y., Baril, T., Ma, H. Y., Qu, Z., Haimovitz, J., Swale, T., Gaitan-Espitia, J. D., Lau, K. F., Tobe, S. S., Bendena, W. G., Kai, Z. P., Hayward, A., & Hui, J. H. L. (2022). Myriapod genomes reveal ancestral horizontal gene transfer and hormonal gene loss in millipedes.ÊNature communications,Ê13(1), 3010.	Click Here
60	Nong, W., Yu, Y., Aase-Remedios, M. E., Xie, Y., So, W. L., Li, Y., Wong, C. F., Baril, T., Law, S. T. S., Lai, S. Y., Haimovitz, J., Swale, T., Chen, S. S., Kai, Z. P., Sun, X., Wu, Z., Hayward, A., Ferrier, D. E. K., & Hui, J. H. L. (2022). Genome of the ramshorn snail Biomphalaria straminea-an obligate intermediate host of schistosomiasis.ÊGigaScience,Ê11, giac012.	Click Here
61	Shum, C. W. Y., Nong, W., So, W. L., Li, Y., Qu, Z., Yip, H. Y., Swale, T., Ang, P. O., Chan, K. M., Chan, T. F., Chu, K. H., Chui, A. P. Y., Lau, K. F., Ngai, S. M., Xu, F., & Hui, J. H. L. (2022). Genome of the sea anemoneÊExaiptasia pallidaÊand transcriptome profiles during tentacle regeneration.ÊFrontiers in cell and developmental biology,Ê10, 900321.	Click Here
62	Yu, Y., Nong, W., So, W. L., Xie, Y., Yip, H. Y., Haimovitz, J., Swale, T., Baker, D. M., Bendena, W. G., Chan, T. F., Chui, A. P. Y., Lau, K. F., Qian, P.-Y., Qiu, J.-W., Thibodeau, B., Xu, F., & Hui, J. H. L. (2022). Genome of elegance coral Catalaphyllia jardinei (Euphylliidae). Frontiers in Marine Science, 9, 991391.	Click Here
63	Law, S. T. S., Nong, W., So, W. L., Baril, T., Swale, T., Chan, C. B., Tobe, S. S., Kai, Z. P., Bendena, W. G., Hayward, A., & Hui, J. H. L. (2022). Chromosomal-level reference genome of the moth Heortia vitessoides (Lepidoptera: Crambidae), a major pest of agarwood-producing trees.ÊGenomics,Ê114(4), 110440.	Click Here
64	So, W. L., Ting, K. W., Lai, S. Y., Huang, E. Y. Y., Ma, Y., Chong, T. K., Yip, H. Y., Lee, H. T., Cheung, B. C. T., Chan, M. K., Consortium, H. K. S. B., Nong, W., Law, M. M. S., Lai, D. Y. F., & Hui, J. H. L. (2022). Revealing the millipede and other soil-macrofaunal biodiversity in Hong Kong using a citizen science approach.ÊBiodiversity data journal,Ê10, e82518.	Click Here
65	Li, Y., & Hui, J. H. L. (2022). Small RNAs in Cnidaria: A review.ÊEvolutionary applications,Ê16(2), 354Ð364.	Click Here
66	Huang, E. Y. Y., Law, S. T. S., Nong, W., Yip, H. Y., Uea-Anuwong, T., Magouras, I., & Hui, J. H. L. (2022). The screening for anticoagulant rodenticide gene VKORC1 polymorphism in the rat Rattus norvegicus, Rattus tanezumi and Rattus losea in Hong Kong.ÊScientific reports,Ê12(1), 12545.	Click Here
67	So, W. L., Kai, Z., Qu, Z., Bendena, W. G., & Hui, J. H. L. (2022). Rethinking Sesquiterpenoids: A Widespread Hormone in Animals.ÊInternational journal of molecular sciences,Ê23(11), 5998.	Click Here
68	Wang, L., Xiong, Q., Saelim, N., Wang, L., Nong, W., Wan, A. T., Shi, M., Liu, X., Cao, Q., Hui, J. H. L., Sookrung, N., Leung, T. F., Tungtrongchitr, A., & Tsui, S. K. W. (2023). Genome assembly and annotation of Periplaneta americana reveal a comprehensive cockroach allergen profile.ÊAllergy,Ê78(4), 1088Ð1103.	Click Here
69	Tse, J., Li, T. H., Zhang, J., Lee, A. C. K., Lee, I., Qu, Z., Lin, X., Hui, J., & Chan, T. F. (2022). Single-Cell Atlas of theÊDrosophilaÊLeg Disc Identifies a Long Non-Coding RNA in Late Development.ÊInternational journal of molecular sciences,Ê23(12), 6796.	Click Here
70	Wong, K. H., Wu, H. Y., Kong, B. L. H., But, G. W. C., Siu, T. Y., Hui, J. H. L., Shaw, P. C., & Lau, D. T. W. (2022). Characterisation of the Complete Chloroplast Genomes of SevenÊHyacinthus orientalisÊL. Cultivars: Insights into Cultivar Phylogeny.ÊHorticulturae,Ê8(5), 453.	Click Here
71	Kong, B. L., Nong, W., Wong, K. H., Law, S. T., So, W. L., Chan, J. J., Zhang, J., Lau, T. D., Hui, J. H., & Shaw, P. C. (2022). Chromosomal level genome of Ilex asprella and insight into antiviral triterpenoid pathway.ÊGenomics,Ê114(3), 110366.	Click Here
72	Xiong, Q., Wan, A. T., Liu, X., Fung, C. S., Xiao, X., Malainual, N., Hou, J., Wang, L., Wang, M., Yang, K. Y., Cui, Y., Leung, E. L., Nong, W., Shin, S. K., Au, S. W., Jeong, K. Y., Chew, F. T., Hui, J. H., Leung, T. F., Tungtrongchitr, A., É Tsui, S. K. (2022). Comparative Genomics Reveals Insights into the Divergent Evolution of Astigmatic Mites and Household Pest Adaptations.ÊMolecular biology and evolution,Ê39(5), msac097.	Click Here
73	Fan, K., Yip, H. Y., Taddi, S., Huang, Y. Y., Wong, F. L., Hui, J. H., & Lam, H. M. (2022). Pursuing greener farming by clarifying legume-insect pest interactions and developing marker-assisted molecular breeding.ÊAdvances in Botanical Research,Ê102, 211-258.	Click Here
74	Li, C., Nong, W., Zhao, S., Lin, X., Xie, Y., Cheung, M. Y., Xiao, Z., Wong, A. Y. P., Chan, T. F., Hui, J. H. L., & Lam, H. M. (2022). Differential microRNA expression, microRNA arm switching, and microRNA:long noncoding RNA interaction in response to salinity stress in soybean.ÊBMC genomics,Ê23(1), 65.	Click Here
75	Xie, Y., Huang, E. Y. Y., Nong, W., Law, S. T. S., Yu, Y., Cheung, K., Li, Y., Wong, C. F., Yip, H. Y., Joyce, P. W. S., Chan, K. M., Chu, K. H., Russell, B. D., Falkenberg, L. J., & Hui, J. H. L. (2022). Population Genomics, Transcriptional Response to Heat Shock, and Gut Microbiota of the Hong Kong OysterÊMagallana hongkongensis.ÊJournal of Marine Science and Engineering,Ê10(2), 237.	Click Here
76	Law, S. T. S., Nong, W., Li, C., Chong, T. K., Yip, H. Y., Swale, T., Chiu, S. W., Chung, R. Y., Lam, H., Wong, S. Y. S., Wong, H., & Hui, J. H. L. (2025). Genome of tropical bed bug Cimex hemipterus (Cimicidae, Hemiptera) reveals tetraspanin expanded in bed bug ancestor. Insect Science, 32(1), 42Ð54. https://doi.org/10.1111/1744-7917.13388	Click Here
77	Bolch, T., Yao, T., Bhattacharya, A., Hu, Y., King, O., Liu, L., Pronk, J. B., Rastner, P., and Zhang, G. (2022), Earth Observation to Investigate Occurrence, Characteristics and Changes of Glaciers, Glacial Lakes and Rock Glaciers in the Poiqu River Basin (Central Himalaya), Remote Sensing, 14, 1927	Click Here
78	Hu et al. (2022), Geomorphologic characteristics and thermal state of Jingxian rock glacier on the Qinghai-Tibet Plateau, American Geophysical Union Fall Meeting 2022	Click Here
79	Hu, Y., Liu, L., Huang, L., Zhao, L., Wu, T., Wang, X., and Cai, J. (2023), MappingandCharacterizing Rock Glaciers in the Arid Western Kunlun Mountains Supported by InSAR and Deep Learning, Journal of Geophysical Research: Earth Surface, 128, e2023JF007206	Click Here
80	Hu et al., (2023), Rock Glacier Velocity as a new product of Essential Climate Variable for Permafrost, American Geophysical Union Fall Meeting 2023	Click Here
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120	Tai, A. P. K.*, Yung, D. H. Y., & Lam, T. (2024). Terrestrial Ecosystem Model in R (TEMIR) version 1.0: simulating ecophysiological responses of vegetation to atmospheric chemical and meteorological changes. Geoscientific Model Development, 17(9), 3733Ð3764. https://doi.org/10.5194/gmd-17-3733-2024	Click Here
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124	Bhattarai, H., Tai, A. P. K., Val Martin, M., & Yung, D. H. Y. (2024). Impacts of changes in climate, land use, and emissions on global ozone air quality by mid-21st century following selected Shared Socioeconomic Pathways. Science of The Total Environment, 906, 167759. https://doi.org/10.1016/j.scitotenv.2023.167759	Click Here
125	Yuan, T., Tai, A. P. K.*, Mao, J., Tam, O. H. F., Li, R. K. K., Wu, J., & Li, S. (2023). Effects of different irrigation methods on regional climate in North China Plain: A modeling study. Agricultural and Forest Meteorology, 342, 109728. https://doi.org/10.1016/j.agrformet.2023.109728	Click Here
126	Val Martin, M.*, Blanc-Betes, E., Fung, K. M., Kantzas, E. P., Kantola, I. B., Chiaravalloti, I., Taylor, L. L., Emmons, L. K., Wieder, W. R., Planavsky, N. J., Masters, M. D., DeLucia, E. H., Tai, A. P. K., & Beerling, D. J. (2023). Improving nitrogen cycling in a land surface model (CLM5) to quantify soil N2O, NO, and NH3 emissions from enhanced rock weathering with croplands. Geoscientific Model Development, 16(20), 5783-5801. https://doi.org/10.5194/gmd-16-5783-2023	Click Here
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128	Clifton, O. E.*, Schwede, D., Hogrefe, C., Bash, J. O., Bland, S., Cheung, P., Coyle, M., Emberson, L., Flemming, J., Fredj, E., Galmarini, S., Ganzeveld, L., Gazetas, O., Goded, I., Holmes, C. D., Horvth, L., Huijnen, V., Li, Q., Makar, P. A., Mammarella, I., Manca, G., Munger, J. W., Prez-Camanyo, J. L., Pleim, J., Ran, L., San Jose, R., Silva, S. J., Staebler, R., Sun, S., Tai, A. P. K., Tas, E., Vesala, T., Weidinger, T., Wu, Z., & Zhang, L. (2023). A single-point modeling approach for the intercomparison and evaluation of ozone dry deposition across chemical transport models (Activity 2 of AQMEII4). Atmospheric Chemistry and Physics, 23(17), 9911-9961. https://doi.org/10.5194/acp-23-9911-2023	Click Here
129	Lam, J. C. Y., Tai, A. P. K.*, Ducker, J. A., & Holmes, C. D. (2023). Development of an ecophysiology module in the GEOS-Chem chemical transport model version 12.2.0 to represent biosphereÐatmosphere fluxes relevant for ozone air quality. Geoscientific Model Development, 16(9), 2323-2342. https://doi.org/10.5194/gmd-16-2323-2023	Click Here
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131	Wang, Y. X.*, Lin, N., Li, W., Guenther, A., Lam, J. C. Y., Tai, A. P. K., Potosnak, M. J., & Seco, R. (2022). Satellite-derived constraints on the effect of drought stress on biogenic isoprene emissions in the southeastern US. Atmospheric Chemistry and Physics, 22(21), 14189-14208. https://doi.org/10.5194/acp-22-14189-2022	Click Here
132	Wu, R., Agathokleous, E., Yung, D. H. Y., Tai, A. P. K., Shang, B., & Feng, Z.* (2022). Joint impacts of ozone pollution and climate change on yields of Chinese winter wheat. Atmospheric Pollution Research, 13(8), 101509. https://doi.org/10.1016/j.apr.2022.101509	Click Here
133	Leung, F.*, Sitch, S., Tai, A. P. K., Wiltshire, A. J., Gornall, J. L., Folberth, G. A., & Unger, N. (2022). CO2 fertilization of crops offsets yield losses due to future surface ozone damage and climate change. Environmental Research Letters, 17(7), 074007. https://doi.org/10.1088/1748-9326/ac7246	Click Here
134	Sun, S., Tai, A. P. K.*, Yung, D. H. Y., Wong, A. Y. H., Ducker, J. A., & Holmes, C. D. (2022). Influence of plant ecophysiology on ozone dry deposition: Comparing between multiplicative and photosynthesis-based dry deposition schemes and their responses to rising CO2 level. Biogeosciences, 19(6), 1753-1776. https://doi.org/10.5194/bg-19-1753-2022	Click Here
135	Fung, K. M., Val Martin, M., & Tai, A. P. K.* (2022). Modeling the interinfluence of fertilizer-induced NH3 emission, nitrogen deposition, and aerosol radiative effects using modified CESM2. Biogeosciences, 19(6), 1635-1655. https://doi.org/10.5194/bg-19-1635-2022	Click Here
136	Zhu, J., Tai, A. P. K., & Yim, S. H. L. (2022). Effects of ozone-vegetation interactions on meteorology and air quality in China using a two-way coupled land-atmosphere model. Atmospheric Chemistry and Physics, 22(2), 765-782. https://doi.org/10.5194/acp-22-765-2022	Click Here