Konza LTER Publications
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. Freshwater ecology: concepts and environmental applications of limnology. 3rd ed. Elsevier; 2019:998. Available at: https://www.elsevier.com/books/freshwater-ecology/dodds/978-0-12-813255-5.
Trajectories and state changes of a grassland stream and riparian zone after a decade of woody vegetation removal. Ecological Applications. 2023;33(4):e2830. doi:10.1002/eap.2830.
. A technique for establishing reference nutrient concentrations across watersheds impacted by humans. Limnology and Oceanography Methods. 2004;2:333 -341. doi:10.4319/lom.2004.2.333.
Surprises and insights from long-term aquatic datasets and experiments. BioScience. 2012;62:709 -721. doi:10.1525/bio.2012.62.8.4.
. The role of periphyton in phosphorus retention in shallow freshwater aquatic systems. Journal of Phycology. 2003;39:830 -849. doi:10.1046/j.1529-8817.2003.02081.x.
. Nutrients and the Dead Zone: Ecological stoichiometry and depressed dissolved oxygen in the northern Gulf of Mexico. Frontiers in Ecology and the Environment. 2006;4:211 -217.
. Effect of standing dead plants on stem density in bluestem prairie. . 1978:78 -81.
. The amazing diversity of Poaceae: trait variation across space, time, and lineage. Department of Biology. 2022;MS Thesis.
Evolutionary lineage explains trait variation among 75 coexisting grass species. New Phytologist. 2023;239(3):887. doi:10.1111/nph.18983.
. Grass leaf structural and stomatal trait responses to climate gradients assessed over the 20th century and across the Great Plains, USA. AoB PLANTS. In Press. doi:10.1093/aobpla/plae055.
. Polymorphic microsatellite markers for the striped skunk, Mephitis mephitis, and other mephitids. Molecular Ecology Resources. 2009;9:383 -385. doi:10.1111/j.1755-0998.2008.02463.x.
. Potentially mineralizable N as an indicator of active soil nitrogen. In: Methods for Assessing Soil Quality. Methods for Assessing Soil Quality. Madison, WI: Soil Science Society of America Inc; 1996:217 -299.
. Climate affects plant-soil feedback of native and invasive grasses: negative feedbacks in stable but not in variable environments. Frontiers in Ecology and Evolution. 2019;7. doi:10.3389/fevo.2019.00419.
. Effects of burning on infiltration, overland flow, and sediment loss on tallgrass prairie. 1990;MS Thesis:1 -82.
. Above- and below-ground responses of native and invasive prairie grasses to future climate scenarios. Botany. 2016;94(6):471 - 479. doi:10.1139/cjb-2015-0238.
. Mycorrhizal‐herbivore interactions and the competitive release of subdominant tallgrass prairie speciesAbstract. Journal of Ecology. In Press. doi:10.1111/1365-2745.14351.
. Elevated temperatures and drought favor invasive grasses over native species. 2015;MS Thesis. Available at: https://shareok.org/handle/11244/45161.
. Biotic interactions between grazers and plants: Relationships contributing to atmospheric boundary layer dynamics. Journal of Atmospheric Sciences. 1998;55:1247 -1259. Available at: http://journals.ametsoc.org/doi/pdf/10.1175/1520-0469(1998)055%3C1247%3ABIBGAP%3E2.0.CO%3B2.
. Remote sensing measurements of production processes in grazing lands: the need for new methodologies. Agriculture, Ecosystems and Environment. 1991;34:495 -505. doi:10.1016/0167-8809(91)90132-H.
. Herbivory and its consequences. Ecological Applications. 1993;3:10 -16. doi:10.2307/1941781.
. Influence of mowing and fertilization on biomass, productivity and spectral reflectance in Bromus inermis plots. Ecological Applications. 1991;1:443 -452. doi:10.2307/1941901.
Nutrient enrichment increases invertebrate herbivory and pathogen damage in grasslands. Journal of Ecology. 2022;110(2):327 - 339. doi:10.1111/1365-2745.13801.
Loss of a large grazer impacts savanna grassland plant communities similarly in North America and South Africa. Oecologia. 2014;175:293 -303. doi:10.1007/s00442-014-2895-9.
. Persistent decadal differences in plant communities assembled under contrasting climate conditions. Ecological Applications. 2023;33(2):e2823. doi:10.1002/eap.2823.
. The effects of drought on plant and soil microbial communities and functioning during tallgrass prairie restoration. 2022;PhD Dissertation.
. Characterization of a groundwater community dominated by Asellus tridentata (Isopoda). 1992:91 -99.
. The ecology of a subterranean isopod, Caecidotea tridentata. Freshwater Biology. 1996;35:249 -259. doi:10.1046/j.1365-2427.1996.00497.x.
. Mycorrhizal community dynamics following nitrogen fertilization: A cross site test in five grasslands. Ecological Monographs. 2007;77:524 -544. doi:10.1890/06-1772.1.
. Microbial decomposition of elm and oak leaves in a karst aquifer. Applied Environmental Microbiology. 1993;59:3592 -3596. Available at: http://aem.asm.org/content/59/11/3592.short.
. Supply, bioavailability, and source of dissolved organic carbon in a prairie stream. 2007; MS Thesis:1 -87.
. Effects of fire and N to P availability ratio on nitrogen fixation in the tallgrass prairie. 1985;MS Thesis:1 -82.
. Effects of available P and N:P ratios on non-symbiotic dinitrogen fixation in tallgrass prairie soils. Oecologia. 1989;79:471 -474. doi:10.1007/BF00378663.
. The effects of fire on life history traits of tallgrass prairie forbs. 2001;PhD Dissertation.
. Bison increase the growth and reproduction of forbs in Tallgrass Prairie. American Midland Naturalist. 2017;178(2):259. doi:10.1674/0003-0031-178.2.245.
. Ecology of arbuscular mycorrhizas in tallgrass prairie. 1998;PhD Dissertation:1 -129.
. Effects of ungulate grazers on arbuscular mycorrhizal symbiosis and fungal community structure in tallgrass prairie. Mycology. 2001;93:233 -242. Available at: http://www.jstor.org/stable/3761643?seq=1#page_scan_tab_contents.
. Host plant species effects on arbuscular mycorrhizal fungal communities in tallgrass prairie. Oecologia. 2000;122:435 -444. doi:10.1007/s004420050050.
. The Effects of fire, mowing, and fertilizer amendments on arbuscular mycorrhizas in tallgrass prairie. American Midland Naturalist. 1999;142:55 -69. doi:10.1674/0003-0031(1999)142[0055:TEOFMA]2.0.CO;2.
Few multiyear precipitation–reduction experiments find a shift in the productivity–precipitation relationship. Global Change Biology. 2016;22(7):2570-2581. doi:10.1111/gcb.13269.
. Constraint to adaptive evolution in response to global warming. Science. 2001;294:151 -154. doi:10.1126/science.1063656.
. Grasshopper (Insecta: Orthoptera: Acrididae) assemblages of tallgrass prairie: influence of fire frequency, topography, and vegetation. Canadian Journal of Zoology. 1988;66:1495 -1501. doi:10.1139/z88-219.
. Absence of interspecific competition among tallgrass prairie grasshoppers during a drought. Ecology. 1992;73:1038 -1044. doi:10.2307/1940178.
. Experimental manipulation of herbivores in North American native tallgrass prairie: responses of aboveground arthropods. American Midland Naturalist. 1991;125:37 -46. doi:10.2307/2426367.
. Fire as a natural disturbance to grasshopper assemblages of tallgrass prairie. Oikos. 1984;43:9 -16. doi:10.2307/3544239.
Is fire a disturbance in grasslands?. . 1989:159 -161.
. Timing of reproduction in a prairie legume: seasonal impacts of insects consuming flowers and seeds. Oecologia. 1989;78:220 -230. doi:10.1007/BF00377159.
. Sampling grasshoppers (Orhoptera:Acrididae ) on burned and unburned tallgrass prairie: night trapping vs. sweeping. Environmental Entomology. 1983;12:1449 -1454. doi:10.1093/ee/12.5.1449 .
. Dynamics of an aggregation of blister beetles (Coleoptera: Meloidae) attacking a prairie legume. Journal of the Kansas Entomological Society. 1990;63:616 -625. doi:http://www.jstor.org/stable/25085226.