32.Xia M#,McCormack LM, Suseela V, Kennedy P, Tharayil N. 2024. Formations of mycorrhizal symbiosis alter the phenolic heteropolymers in roots and leaves of four temperate woody species. New Phytologist (in press). 31.Xia M#,Suseela V, McCormack LM, Kennedy P, Tharayil N. 2023#. Common and lifestyle-specific traits of mycorrhiza-associated metabolite alterations in plant roots reflects strategies of root-mycorrhizal interactions. Journal of Ecology, 601-616. View PDF.
30.Xia M#, Valverde-Barrantes O, Suseela V, Blackwood C, Tharayil N#. 2022. Characterizing natural variability of lignin abundance and composition in fine roots across temperate trees: a comparison of analytical methods. New Phytologist doi: 10.1111/nph.18515. View PDF. 29. Zhang Z*#, Kaye JP, Bradley BA, Amsili JP, Suseela V#. 2022. Cover crop functional types differentially alter the content and composition of soil organic carbon in particulate and mineral-associated fractions. Global Change Biologydoi.org/10.1111/gcb.16296. View PDF.
28. Zhang Z, Jatana B, Campbell B, Gill J‡, Suseela V#, Tharayil N#. 2022. Cross inoculation of rhizobiome from a congeneric ruderal plant imparts drought tolerance in maize (Zea mays) through changes in root morphology and proteome. The Plant Journal, doi:10.1111/tpj.15775. View PDF. 27. Singh G, Ward BK, Wechter PW, Katawczik ML, Farmaha BS, Suseela V, Cutulle MA. 2022. Assessment of Agro-Industrial Wastes as a Carbon Source in Anaerobic Disinfestation of Soil Contaminated with Weed Seeds and Phytopathogenic Bacterium (Ralstonia solanacearum) in Tomato (Solanum lycopersicum). ACS Agriculture Science and Technology. https://doi.org/10.1021/acsagscitech.2c00071. View PDF.
26. Kaur S‡, Campbell BJ, Suseela V#. 2022. Root Metabolome of plant-arbuscular mycorrhizal symbiosis mirrors the mutualistic or parasitic mycorrhizal phenotype. New Phytologist, doi:10.1111/nph.17994. View PDF.
25. Suseela V#, Williams A, Gao C, Schneider H, Zhang Z*.2022. Root and Rhizosphere Processes under Drought: Digging Deeper to Enhance Ecosystem Resilience. Bulletin of the Ecological Society of America 00(00):e01970, doi.org/10.1002/bes2.1970.
24. Tamura M and Suseela V#. 2021. Warming and labile substrate addition alter enzyme activities and composition of soil organic carbon. Frontiers in Forests and Global Change, doi.org/10.3389/ffgc.2021.691302. View PDF.
23. Xia M, Valverde-Barrantes O, Suseela V, Blackwood C, Tharayil N. 2021. Coordination between compound-specific chemistry and morphology in plant roots aligns with ancestral mycorrhizal association in woody angiosperms. New Phytologist, doi: 10.1111/nph.17561. View PDF.
22. Zhang Z*#, Suseela V. 2021. Nitrogen availability modulates the impacts of plant invasion on the chemical composition of soil organic carbon. Soil Biology & Biochemistry, 156, doi.org/10.1016/j.soilbio.2021.108195.View PDF. 21. Kaur S‡ and Suseela V#. 2020. Unraveling Arbuscular Mycorrhiza-Induced Changes in Plant Primary and Secondary Metabolites. Metabolites,10: 8 (Invited review). View PDF.
19. Zhang Z*, Bhowmik P, Suseela V#. 2020. Effect of soil carbon amendments in reversing the legacy effect of plant invasion. Journal of Applied Ecology,58: 181-191. View PDF.
18. Min K J* and Suseela V#. 2020. Plant invasion alters the Michaelis-Menten kinetics of microbial extracellular enzymes and soil organic matter chemistry along soil depth. Biogeochemistry, 150, 181–196. View PDF.
17. Pereksta D, King D, Saki F, Maroli A, Leonard E, Suseela V, May S, Uribe MC, Tharayil N, and Hoewyk D V. 2020. Proteasome inhibition in Brassica napus roots causes broad metabolic dysregulation. Plant and Cell Physiology, 61: 1028–1040. View PDF.
16. Suseela V#., Tharayil N. 2018. Decoupling the direct and indirect effects of climate on plant litter decomposition and terrestrial nutrient cycling. Global Change Biology. 24: 1428-1451. View PDF.
15. Suseela V#, Tharayil N, Pendall E and Rao A. 2017. Warming and elevated CO2 alter the suberin chemistry in roots of photosynthetically divergent grass species. AOB Plants; doi.org/10.1093/aobpla/plx041; Editor’s choice). View PDF.
14. Tamura M*, Suseela V *#, Simpson M and Tharayil N. 2017. Plant invasions alter the content and molecular identity of organic carbon associated with soil mineral and aggregate fractions. Global Change Biology; 23: 4002-4018 (* co-first authors) View PDF.
13. Carey J C# et al. 2016. (Suseela V one of 43 authors). Temperature response of soil respiration largely unaltered with experimental warming. Proceedings of the National Academy of Sciences, 113: 13797-13802. View PDF.
12. Suseela V, Alpert P, Nakatsu H C, Amstrong A and Tharayil N#. 2016. Plant–soil interactions regulate the identity of soil carbon in invaded ecosystems: implication for legacy effects. Functional Ecology,203: 110-124. View PDF.
11. Suseela V#, Tharayil N, Xing B and Dukes JS. 2015. Warming and drought differentially influence the resorption of elemental and metabolite nitrogen pools in Quercus rubra. Global Change Biology,21: 4177-4195. View PDF.
10. Wang J#, Tharayil N, Chow A, Suseela V, Zeng H. 2015. Phenolic profile within the fine root branching orders of an evergreen species highlights a disconnect in root tissue quality predicted by elemental-and molecular-level carbon composition. New Phytologist,206: 1261–1273 (New Phytologist Editors' choice). View PDF.
9. Suseela V, Triebwasser D, Linsched N, Morgan, J and Tharayil N#. 2014. Litters of photosynthetically divergent grasses exhibit differential metabolic responses to warming and elevated CO2. Ecosphere, 5: article 106. View PDF.
8. Suseela V#, Tharayil N, Xing B and Dukes J S. 2014. Warming alters potential enzyme activity but precipitation regulates chemical transformations in grass litter exposed to simulated climatic changes. Soil Biology & Biochemistry, 75: 102-112. View PDF.
7. Vicca S# et al. 2014. (Suseela V one of 48 authors). Can current moisture responses of soil respiration be extrapolated into the future? A synthesis of precipitation manipulation experiments. Biogeosciences Discussion, 11:853-899. View PDF.
6. Suseela V#, Tharayil N, Xing B and Dukes J S. 2013. Labile compounds in plant litter reduce the sensitivity of decomposition to warming and altered precipitation. New Phytologist, 200:122-133. View PDF.
5. Suseela V#, and Dukes J S. 2013. The responses of soil and rhizosphere respiration to simulated climatic changes vary by season. Ecology, 94: 403-413. View PDF.
4. Auyeung D S N#, Suseela V, and Dukes J S. 2012. Warming and drought reduce temperature sensitivity of nitrogen transformations. Global Change Biology,19: 662-672. View PDF.
3. Suseela V #, Conant R T, Wallenstein M D and Dukes J S. 2012. Effects of soil moisture on the temperature sensitivity of heterotrophic respiration vary seasonally in an old- field climate change experiment. Global Change Biology,18:336-348. View PDF. (identified as a ‘Highly Cited Paper –placed in top 1% of papers in the field of Environment/Ecology’ by Thomson Reuters)
2. Tharayil N#, Suseela V, Triebwasser D, Preston C, Gerard P and Dukes JS. 2011. Changes in the structural composition and reactivity of Acer rubrum foliar-litter tannins exposed to warming and altered precipitation: climatic stress-induced tannins are more reactive. New Phytologist,191:132-145. View PDF.
1. Suseela V#, Abraham C T and Girija T. 2004. Weed Spectrum of Pokkali lands: The salt marsh rice ecosystems of Kerala. Indian Journal of Weed Science, 36: 157-159.
Book chapter Suseela V. 2019. Plant Biochemistry impacts ecosystem responses to soil warming and drought. Editor: Mohan J. In Ecosystem Consequences of Soil Warming: Microbes, Vegetation, Fauna and Soil Biogeochemistry. Elsevier.