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Bharath S, Borer ET, Biederman LA, et al. Nutrient addition increases grassland sensitivity to droughts. Ecology. 2020;101(5):e02981. doi:10.1002/ecy.2981.
Bharath S, Borer ET, Biederman LA, et al. Nutrient addition increases grassland sensitivity to droughts. Ecology. 2020;101(5):e02981. doi:10.1002/ecy.2981.
Bharath S, Borer ET, Biederman LA, et al. Nutrient addition increases grassland sensitivity to droughts. Ecology. 2020;101(5):e02981. doi:10.1002/ecy.2981.
Biederman LA, Mortensen B, Fay PA, et al. Nutrient addition shifts plant community composition towards earlier flowering species in some prairie ecoregions in the U.S. Central Plains. PLOS ONE. 2017;(5):e0178440. doi:10.1371/journal.pone.0178440.
Ebeling A, Strauss AT, Adler PB, et al. Nutrient enrichment increases invertebrate herbivory and pathogen damage in grasslands. Journal of Ecology. 2022;110(2):327 - 339. doi:10.1111/1365-2745.13801.
Ebeling A, Strauss AT, Adler PB, et al. Nutrient enrichment increases invertebrate herbivory and pathogen damage in grasslands. Journal of Ecology. 2022;110(2):327 - 339. doi:10.1111/1365-2745.13801.
Ebeling A, Strauss AT, Adler PB, et al. Nutrient enrichment increases invertebrate herbivory and pathogen damage in grasslands. Journal of Ecology. 2022;110(2):327 - 339. doi:10.1111/1365-2745.13801.
Ebeling A, Strauss AT, Adler PB, et al. Nutrient enrichment increases invertebrate herbivory and pathogen damage in grasslands. Journal of Ecology. 2022;110(2):327 - 339. doi:10.1111/1365-2745.13801.
Ebeling A, Strauss AT, Adler PB, et al. Nutrient enrichment increases invertebrate herbivory and pathogen damage in grasslands. Journal of Ecology. 2022;110(2):327 - 339. doi:10.1111/1365-2745.13801.
Carroll O, Batzer E, Bharath S, et al. Nutrient identity modifies the destabilising effects of eutrophication in grasslands. Peñuelas J. Ecology Letters. 2022;259(4):754 - 765. doi:10.1111/ele.v25.410.1111/ele.13946.
Carroll O, Batzer E, Bharath S, et al. Nutrient identity modifies the destabilising effects of eutrophication in grasslands. Peñuelas J. Ecology Letters. 2022;259(4):754 - 765. doi:10.1111/ele.v25.410.1111/ele.13946.
Carroll O, Batzer E, Bharath S, et al. Nutrient identity modifies the destabilising effects of eutrophication in grasslands. Peñuelas J. Ecology Letters. 2022;259(4):754 - 765. doi:10.1111/ele.v25.410.1111/ele.13946.
Carroll O, Batzer E, Bharath S, et al. Nutrient identity modifies the destabilising effects of eutrophication in grasslands. Peñuelas J. Ecology Letters. 2022;259(4):754 - 765. doi:10.1111/ele.v25.410.1111/ele.13946.
Carroll O, Batzer E, Bharath S, et al. Nutrient identity modifies the destabilising effects of eutrophication in grasslands. Peñuelas J. Ecology Letters. 2022;259(4):754 - 765. doi:10.1111/ele.v25.410.1111/ele.13946.
Carroll O, Batzer E, Bharath S, et al. Nutrient identity modifies the destabilising effects of eutrophication in grasslands. Peñuelas J. Ecology Letters. 2022;259(4):754 - 765. doi:10.1111/ele.v25.410.1111/ele.13946.
Chen Q, Wang S, Seabloom EW, et al. Nutrients and herbivores impact grassland stability across spatial scales through different pathways. 28. 2022;8:2678-2688. doi:10.1111/gcb.16086.
Chen Q, Wang S, Seabloom EW, et al. Nutrients and herbivores impact grassland stability across spatial scales through different pathways. 28. 2022;8:2678-2688. doi:10.1111/gcb.16086.
Chen Q, Wang S, Seabloom EW, et al. Nutrients and herbivores impact grassland stability across spatial scales through different pathways. 28. 2022;8:2678-2688. doi:10.1111/gcb.16086.
Borer ET, Harpole WS, Adler PB, et al. Nutrients cause grassland biomass to outpace herbivory. Nature Communications. 2020;11(1):6036. doi:10.1038/s41467-020-19870-y.
Borer ET, Harpole WS, Adler PB, et al. Nutrients cause grassland biomass to outpace herbivory. Nature Communications. 2020;11(1):6036. doi:10.1038/s41467-020-19870-y.
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Tank JL, Marti E, Riis T, et al. Partitioning assimilatory nitrogen uptake in streams: an analysis of stable isotope tracer additions across continents. Ecological Monographs. 2018;88(1):138. doi:10.1002/ecm.1280.
Knapp AK, Briggs JM, Blair JM, Turner CL. Patterns and controls of aboveground net primary production in tallgrass prairie. In: Knapp AK, Briggs JM, Hartnett DC, Collins SL Grassland Dynamics: Long-Term Ecological Research in Tallgrass Prairie. Grassland Dynamics: Long-Term Ecological Research in Tallgrass Prairie. New York: Oxford University Press; 1998:193 -221.
Knapp AK, Briggs JM, Blair JM, Turner CL. Patterns and controls of aboveground net primary production in tallgrass prairie. In: Knapp AK, Briggs JM, Hartnett DC, Collins SL Grassland Dynamics: Long-Term Ecological Research in Tallgrass Prairie. Grassland Dynamics: Long-Term Ecological Research in Tallgrass Prairie. New York: Oxford University Press; 1998:193 -221.
Knapp AK, Briggs JM, Blair JM, Turner CL. Patterns and controls of aboveground net primary production in tallgrass prairie. In: Knapp AK, Briggs JM, Hartnett DC, Collins SL Grassland Dynamics: Long-Term Ecological Research in Tallgrass Prairie. Grassland Dynamics: Long-Term Ecological Research in Tallgrass Prairie. New York: Oxford University Press; 1998:193 -221.
Williams EJ, Boyle WA. Patterns and correlates of within-season breeding dispersal: a common strategy in a declining grassland songbird. The Auk: Ornithological Advances. 2018;135(1):1-14. doi:10.1642/AUK-17-69.1.
Harms TK, Groffman PM, Aluwihare L, et al. Patterns and trends of organic matter processing and transport: Insights from the US Long-Term Ecological Research network. Climate Change Ecology. 2021;2:100025. doi:10.1016/j.ecochg.2021.100025.
Harms TK, Groffman PM, Aluwihare L, et al. Patterns and trends of organic matter processing and transport: Insights from the US Long-Term Ecological Research network. Climate Change Ecology. 2021;2:100025. doi:10.1016/j.ecochg.2021.100025.
Whiles MR, Snyder BA, Brock B, et al. Periodical cicada emergence resource pulse tracks forest expansion in a tallgrass prairie landscape. Ecosphere. 2019;10(7):e02779. 10.1002/ecs2.2779. doi:10.1002/ecs2.2019.10.issue-710.1002/ecs2.2779.
Whiles MR, Snyder BA, Brock B, et al. Periodical cicada emergence resource pulse tracks forest expansion in a tallgrass prairie landscape. Ecosphere. 2019;10(7):e02779. 10.1002/ecs2.2779. doi:10.1002/ecs2.2019.10.issue-710.1002/ecs2.2779.
Whiles MR, Snyder BA, Brock B, et al. Periodical cicada emergence resource pulse tracks forest expansion in a tallgrass prairie landscape. Ecosphere. 2019;10(7):e02779. 10.1002/ecs2.2779. doi:10.1002/ecs2.2019.10.issue-710.1002/ecs2.2779.
Eckhoff KD, Scott DA, Manning G, Baer SG. Persistent decadal differences in plant communities assembled under contrasting climate conditions. Ecological Applications. 2023;33(2):e2823. doi:10.1002/eap.2823.
Smith AB, Alsdurf J, Knapp M, Baer SG, Johnson LC. Phenotypic distribution models corroborate species distribution models: A shift in the role and prevalence of a dominant prairie grass in response to climate change. Global Change Biology. 2017;23(10):4365–4375. doi:10.1111/gcb.13666.
Ippolito JA, Blecker SW, Freeman CL, McCulley RL, Blair JM, Kelly EF. Phosphorus biogeochemistry across a precipitation gradient in grasslands of central North America. Journal of Arid Environments. 2010;74:954 -961. doi:10.1016/j.jaridenv.2010.01.003.
Ippolito JA, Blecker SW, Freeman CL, McCulley RL, Blair JM, Kelly EF. Phosphorus biogeochemistry across a precipitation gradient in grasslands of central North America. Journal of Arid Environments. 2010;74:954 -961. doi:10.1016/j.jaridenv.2010.01.003.
Bachle S, Nippert JB. Physiological and anatomical trait variability of dominant C4 grasses. Acta Oecologica. 2018;93:14 - 20. doi:10.1016/j.actao.2018.10.007.
Bachle S. Physiological and morphological responses of grass species to drought. Department of Biology. 2017;MS Thesis. Available at: http://krex.k-state.edu/dspace/handle/2097/36188.
Schimel DS, Kittel TGF, Knapp AK, Seastedt TR, Parton WJ, Brown VB. Physiological interactions along resource gradients in a tallgrass prairie. Ecology. 1991;72:672 -684. doi:10.2307/2937207.
Bach EM, Baer SG, Six J. Plant and soil responses to high and low diversity grassland restoration practices. Environmental Management. 2012;49:412 -424. doi:10.1007/s00267-011-9787-0.
Bach EM, Baer SG, Six J. Plant and soil responses to high and low diversity grassland restoration practices. Environmental Management. 2012;49:412 -424. doi:10.1007/s00267-011-9787-0.
Koerner SE, Burkepile DE, Fynn RWS, et al. Plant community response to loss of large herbivores differs between North American and South African savanna grasslands. Ecology. 2014;95:808 -816. doi:10.1890/13-1828.1.
Koerner SE, Burkepile DE, Fynn RWS, et al. Plant community response to loss of large herbivores differs between North American and South African savanna grasslands. Ecology. 2014;95:808 -816. doi:10.1890/13-1828.1.
Baer SG, Blair JM, Collins SL, Knapp AK. Plant community responses to resource availability and heterogeneity during restoration. Oecologia. 2004;139:617 -629. doi:10.1007/s00442-004-1541-3.
Baer SG, Blair JM, Collins SL, Knapp AK. Plant community responses to resource availability and heterogeneity during restoration. Oecologia. 2004;139:617 -629. doi:10.1007/s00442-004-1541-3.
Henning JA, Kinkel L, May G, Lumibao CY, Seabloom EW, Borer ET. Plant diversity and litter accumulation mediate the loss of foliar endophyte fungal richness following nutrient addition. Ecology. 2021;102(1):e03210. doi:10.1002/ecy.3210.
Prober SM, Leff JW, Bates ST, et al. Plant diversity predicts beta but not alpha diversity of soil microbes across grasslands worldwide. Ecology Letters. 2015;18:85 -95. doi:10.1111/ele.12381.

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