26. T.P. McKenna, L. Koziol, J. Crain, T.E. Crews, B.A. Sikes, L.R. DeHaan. 2024. Selection for agronomic traits in intermediate wheatgrass increases responsiveness to arbuscular mycorrhizal fungi. Plants, People, Planet. In press. 

​

25. L. Koziol, Terra Lubin, and J. D. Bever. 2024. An assessment of twenty-three mycorrhizal inoculants reveals limited viability of AM fungi, pathogen contamination, and negative microbial effect on crop growth for commercial products. Applied Soil Ecology 202, 105559.  

24. L. Koziol, J. D. Bever, P. A. Schultz, and Terra Lubin. 2023. INVAM is now at the University of Kansas. IMS Newsletter 4 (2) 19-21. 

23. L. Koziol and J. D. Bever. 2023. Crop Productivity Boosters: Native Mycorrhizal Fungi from an Old-Growth Grassland Benefits Tomato (Solanum lycopersicum) and Pepper (Capsicum annuum) Varieties in Organically Farmed Soils. Microorganisms. 11(8), 2012.

​

22. L. Koziol, TP McKenna, JD Bever. 2023. Native Microbes Amplify Native Seedling Establishment and Diversity While Inhibiting a Non-Native Grass. Plants 12 (5), 1184.

​

21. J Jia, J Zhang, Y Li, L. Koziol, L Podzikowski, M Delgado-Baquerizo. 2023. Relationships between soil biodiversity and multifunctionality in croplands depend on salinity and organic matter. Geoderma 429, 116273.

​

20. L. Koziol, TP McKenna, TE Crews, JD Bever. 2023. Native arbuscular mycorrhizal fungi promote native grassland diversity and suppress weeds 4 years following inoculation. Restoration Ecology, e13772.

​

19. L. Koziol, J.T. Bauer, E. Duell, K. Hickman, G.L. House, P.A. Schultz, A. Tipton, Gail W. T. Wilson and James D. Bever. 2022. Manipulating plant microbiomes in the field: native mycorrhizae improve restoration quality. Journal of Applied Ecology. 59 (8), 1976-1985.

​

18. L. Koziol, Peggy A. Schultz, Sheena Parsons, and James D. Bever. 2022.  Native mycorrhizal fungi improve milkweed growth, latex, and establishment while some commercial fungi may inhibit them. Ecosphere. 13 (5), e4052.

​

17. G. Wang, Bryan Foster, L. Koziol and James D. Bever. 2022. Microbial mediators of plant community response to long‐term N and P fertilization: Evidence of a role of plant responsiveness to mycorrhizal fungi. Global Change Biology. 28(8), 2721-2735.

​

16. Alice G Tipton, Donald Nelson, L. Koziol, Eric B. Duell, Geoffrey House, Gail Wilson, Peggy A Schultz, James D Bever. 2022. Phylogenetic, host, environmental, and temporal patterns of micro-scale AMF dispersal in prairie restorations. Frontiers in Microbiology. 13.

​

15. L. Koziol, T.E. Crews, J.D. Bever. 2020. Native plant abundance, diversity and richness increases in prairie restoration with field inoculation density of native mycorrhizal amendments. Restoration Ecology. 28, S373-S380.

​

14. T.P. McKenna, L. Koziol, J. D. Bever, T. E. Crews, and B.A. Sikes. 2020. Abiotic and biotic context dependency of overyielding in mixtures of perennial crops. PloS one. 15 (6), e0234546.

​

13. J.T. Bauer, L. Koziol, and J.D. Bever. 2020. Local adaptation of mycorrhizae communities changes plant community composition and increases above-ground productivity. Oecologicia. 192 (3) 735-744.

​

12. Zhen Wang, Risu Na, L. Koziol, Michael P Schellenberg, Xiliang Li, Na Ta, Ke Jin, Hai Wang. 2020. Response of bacterial communities and plant-mediated soil processes to nitrogen deposition and precipitation in a desert steppe. Plant and soil. 1-21.

​

11. Cheeke, T.E., C. Zheng, L. Koziol, C.R. Gurholt, J.D. Bever. 2019 Sensitivity to AMF species is greater in late-successional than early-successional native or nonnative grassland plants. Ecology e02855.

​

10. Koziol, L. T.E. Crews and J.D. Bever 2019. Benefits of native mycorrhizal amendments to perennial agroecosystems increases with field inoculation density. Agronomy 9(7), 353.

​

9. Koziol, L., and J.D. Bever. 2019. Mycorrhizal feedbacks generate positive frequency dependence accelerating grassland succession. Journal of Ecology 107(2), 622-632.

​

8. G. Wang, C. Ye, J. Zhang, L. Koziol, J.D. Bever, X. Li. 2019. Asymmetric facilitation induced by inoculation with arbuscular mycorrhizal fungi leads to overyielding in maize/faba bean intercropping. Journal of Plant Interactions 14 (1), 10-20.

​

7. Koziol, L., P.A. Schultz, G.L. House, J.T. Bauer, E.L. Middleton. J.D. Bever. 2018. The plant microbiome and native plant restoration: the example of native mycorrhizal fungi. BioScience 68 (12), 996-1006.

​

6. Bauer, J.T., L. Koziol and J.D. Bever. 2018. Ecology of Floristic Quality Assessment: testing for correlations between coefficient of conservatism, species traits and mycorrhizal responsiveness. American Journal of Botany 10(1) plx073.

​

5. Koziol, L., and J.D. Bever. 2017. The missing link in grassland restoration: arbuscular mycorrhizal fungi inoculation increases plant diversity and accelerates succession. Journal of Applied Ecology 54(5) 1301:1309.

​

4. Koziol, L., and J.D. Bever. 2016. AMF, phylogeny, and succession: specificity of response  to mycorrhizal fungi increases for late‐successional plants. Ecosphere 7:e1555.

​

3. Koziol, L., and J.D. Bever. 2015. Mycorrhizal Responsiveness Increases with Plant Successional stage and Demonstrates Trade-Offs with Root Fibrosity.  Ecology 96: 1768:1774.

​

2. Middleton, E., S. Richardson, L. Koziol, C. Palmer, Z. Yermakov, J. Henning, P.A. Schultz, J.D. Bever. 2015. Locally-adapted arbuscular mycorrhizal fungi improve vigor and resistance to herbivory of native prairie plant species.  Ecosphere 6(12):1-16.

​

1. Koziol, L., L.H. Rieseberg, N. Kane, and J.D. Bever. 2012.  Reduced Drought Tolerance During Domestication and the Evolution of Weediness Results from Tolerance-Growth Trade-Offs. Evolution 66: 3803–3814.