Recent publications (5 years):

Google Scholar page (https://scholar.google.com/citations?user=qurICzcAAAAJ&hl=en) for a full publication list: 

1. Huang, L., Levintal Elad, Christian B. Erikson. Coyotl Adolfo, Dahlke Helen E., Horwath William R, &Rodrigues Jorge L. Mazza. (2023). Molecular and dual-isotopic profiling of the microbial controls on nitrogen leaching in agricultural soils under managed aquifer recharge. Environmental Science & Technology, 2023, 57, 30, 11084–11095.

2. Zhao J., Huang L., Chakrabarti S., Cooper J., Choi E., Ganan C., Tochinsky B., Triplett E., Daroub S.H., &Martens-Habbena W. (2023). Nitrogen and phosphorous acquisition strategies drive coexistence patterns among archaeal lineages in soil. ISME J. 17 (11), 1839-1850.

3. Levintal, E., Huang, L., García, C. P., Coyotl, A., Fidelibus, M. W., ... Rodrigues, J. L. & Dahlke, H. E. (2023). Nitrogen Fate During Agricultural Managed Aquifer Recharge: Linking Plant Response, Hydrologic, and Geochemical Processes. Science of the Total Environment, 864:161206.

 

4. Zhang, G., Bai, J., Wang, W., Jia, J., Huang, L., Kong, F., & Xi, M. (2023). Plant invasion reshapes the latitudinal pattern of soil microbial necromass and its contribution to soil organic carbon in coastal wetlands. Catena, 222, 106859.

5. Huang, L., Bai, J., Wang J., Zhang G., Wang W., Wang X., Zhang L., Wang Y., Liu X., & Cui B. (2022). Different stochastic processes regulate bacterial and fungal community assembly in estuarine wetland soils. Soil Biology and Biochemistry, 167: 108586.

6. Zhang, G., Bai, J., Tebbe, C.C., Huang, L., Jia, J., Wang, W., Wang, X., Yu, L. & Zhao, Q. (2022). Plant invasion reconstructs soil microbial assembly and functionality in coastal salt marshes. Molecular Ecology, 31:4478–4494.

7. Yu, L., Bai, J., Huang, L., Zhang, G., Wang, W., Wang, X., & Yu, Z. (2022). Carbon-rich substrates altered microbial communities with indication of carbon metabolism functional shifting in a degraded salt marsh of the Yellow River Delta, China. Journal of Cleaner Production, 331, 129898.

8. Zhang, G., Bai, J., Tebbe, C.C., Huang, L., Jia, J., Wang, W., Wang, X., Zhao, Q., Wen, L., Kong, F. & Xi, M. (2022). Habitat-specific responses of soil organic matter decomposition to Spartina alterniflora invasion along China's coast. Ecological Applications, e2741.

9. Huang, L., Chakrabarti, S., Cooper, J., Perez, A., John, S., Daroub, S., & Martens-Habbena, W. (2021). Ammonia-oxidizing archaea are integral to nitrogen cycling in a highly fertile agricultural soil. ISME Communications, 1(1), 1-12.

10. Huang, L., Bea, H., Young, C., Pain, A., Martin, J.B., and Ogram, A. 2021. Campylobacterota dominate the microbial communities in a tropical karst subterranean estuary, with implications for cycling and export of nitrogen to coastal waters. Environmental Microbiology, 23(11), 6749–6763.

11. Huang, L., Zhang G., Bai J., Xia Z., Wang W., Jia J., Wang X., Liu X., & Cui B. 2021. Desalinization via freshwater restoration highly improved microbial diversity, co-occurrence patterns and functions in coastal wetland soils. Science of the Total Environment, 765: 142769.

12. Yu, M., Su, W., Huang, L., Parikh, S.J., Tang, C., Dahlgren, R.A., &Xu, J. 2021. Bacterial community structure and putative nitrogen-cycling functional traits along a charosphere gradient under waterlogged conditions. Soil Biology and Biochemistry, 162, 108420.

13. Wang, L., Chen, H., Wu, J., Huang, L., Brookesa, P., Rodriguesc, J., Xu, J., and Liu, X. (2021). Effects of magnetic biochar-microbe composite on Cd remediation and microbial responses in paddy soil. Journal of hazardous materials, 44: 125494.

14. Zhang, G.L., Bai, J., Tebbe, C.C., Huang, L., Jia, J., Wang, W., Wang, X., Yu, L., & Zhao, Q. 2020. Spartina alterniflora invasions reduce soil fungal diversity and simplify co-occurrence networks in a salt marsh ecosystem. Science of The Total Environment, 143667.

15. Huang, L., Bai, J., Wen, X., Zhang, G., Zhang, C., Cui, B. &Liu, X. (2020). Microbial resistance and resilience in response to environmental changes under the higher intensity of human activities than global average level. Global Change Biology, 26: 2377-2389.

16. Behnke, G. D., Zabaloy, M. C., Riggins, C. W., Rodríguez-Zas, S., Huang, L., and Villamil, M. B. (2020). Acidification in corn monocultures favors fungi, ammonia-oxidizing bacteria, and nirK-denitrifier groups. Science of The Total Environment, 720(10):137514.

17. Huang, L., Riggins C. W., Rodríguez-Zas S., Zabaloy M. C., & Villamil M. B. (2019). Long-term N fertilization imbalances potential N acquisition and transformations by soil microbes. Science of the Total Environment, 691: 562-571.

18. Pain, A., Martin, J.B., Young, C.R., Huang, L., and Valle-Levison, A. (2019). Organic carbon quantity and quality across salinity gradients in conduit-versus diffuse flow-dominated subterranean estuaries. Limnology & Oceanography, 64(3): 1368-1402.

19. Bae, H., Huang, L., White, J., Wang, J., Delaune, R., & Ogram, A. (2018). Response of microbial populations regulating nutrient biogeochemical cycles to oiling of coastal saltmarshes from the Deepwater Horizon oil spill. Environmental pollution, 241, 136-147.