Konza LTER Publications

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Strauss EA, Dodds WK. Influence of protozoa and nutrient availability on nitrification rates in subsurface sediments. Microbial Ecology. 1997;34:155 -165. doi:10.1007/s002489900045.
Strauss EA. Protozoa-bacteria interactions in subsurface sediments and the subsequent effects on nitrification. 1995;MS Thesis:1 -74.
Strebel DE, Landis DR, Newcomer JA, et al. Collected data of the first ISLSCP field experiment: Volume 3: NS001 Imagery 1987 to 1989. 1992.
Strebel DE, Newcomer JA, Ormsby JP, Hall FG, Sellers PJ. Data management in the FIFE information system. 1989:42 -45.
Strebel DE, Landis DR, Newcomer JA, Elburg-Obler D, Meeson BW, Agbu PA. Collected data of the first ISLSCP field experiment: Volume 2: Satellite Imagery 1987-1989. 1992.
Strebel DE, Landis DR, Newcomer JA, Meeson BW, Agbu PA, McManus JMP. Collected data of the first ISLSCP field experiment: Volume 4: ASAS; PBMR Imagery 1987-1989. 1992.
Strickland TC, Sollins DSS, Kerle EA. Aggregation and aggregate stability in forest and range soils. Soil Science Society of America Journal. 1988;52:829 -833. doi:10.2136/sssaj1988.03615995005200030041x.
Strum KM, Alfaro M, Haase B, et al. Plasma cholinesterases for monitoring pesticide exposure in Nearctic-Neotropical migratory shorebirds. Ornithología Neotropical. 2008;19 (Suppl):641 -651. Available at: https://www.researchgate.net/publication/254414753_Plasma_cholinesterases_for_monitoring_pesticide_exposure_in_Nearctic-Neotropical_migratory_shorebirds.
Strum KM. Exposure of migratory shorebirds to organophosphorus and carbamate pesticides at migratory stopover and non-breeding sites in the western hemisphere. 2008;MS Thesis:1 -76. Available at: http://krex.k-state.edu/dspace/handle/2097/807.
Strum KM, Hooper MJ, Johnson KA, Lanctot RB, Zaccagnini ME, Sandercock BK. Exposure of nonbreeding migratory shorebirds to cholinesterase inhibiting contaminants in the Western Hemisphere. The Condor. 2010;112:15 -28. doi:10.1525/cond.2010.090026.
Su H, Kanemasu ET, Ransom MD, Yang S. Separability of soils in a tallgrass prairie using SPOT and DEM Data. Remote Sensing of the Environment. 1990;32:10 -17. doi:10.1016/0034-4257(90)90027-J.
Su H, Ransom MD, Kanemasu ET. Detecting soil information on a native prairie using Landsat TM and SPOT satellite data. Soil Science Society of America Journal. 1989;53:1479 -1483. doi:10.2136/sssaj1989.03615995005300050030x.
Su H, Knapp AK, Briggs JM. Effects of topography and fire on spatial and temporal distribution of soil moisture in a tallgrass prairie. In: Time Domain Reflectometry in Environmental, Infrastructure and Mining Applications. Time Domain Reflectometry in Environmental, Infrastructure and Mining Applications. United States Department of Interior Bureau of Mines; 1994:154 -162.
Su H. Detecting soil information on the Konza Prairie using high resolution satellite data. 1988;MS Thesis:1 -109.
Su H, Briggs JM, Knapp AK, Blair JM, Krummel JR. Detecting spatial and temporal patterns of aboveground production in a tallgrass prairie using remotely-sensed data. 1996:2361 -2365. doi:10.1109/IGARSS.1996.516987.
Subler S, Blair JM, Edwards CA. Using anion exchange membranes to measure soil nitrate availability and net nitrification. Soil Biology & Biochemistry. 1995;27:911 -917. doi:10.1016/0038-0717(95)00008-3.
Suding KN, Collins SL, Gough L, et al. Functional and abundance based mechanisms explain diversity loss due to nitrogen fertilization. Proceedings of the National Academy of Sciences. 2005;102:4387 -4392. doi:10.1073/pnas.0408648102.
Sullivan PL, Stops MW, Macpherson GL, Li L, Hirmas DR, Dodds WK. How landscape heterogeneity governs stream water concentration-discharge behavior in carbonate terrains (Konza Prairie, USA). Chemical Geology. 2019;527(20):118989. doi:10.1016/j.chemgeo.2018.12.002.
Sullivan PL, Billings SA, Hirmas D, et al. Embracing the dynamic nature of soil structure: A paradigm illuminating the role of life in critical zones of the Anthropocene. Earth-Science Reviews. 2022;225(91):103873. doi:10.1016/j.earscirev.2021.103873.
Sullivan PL, Zhang C, Behm M, Zhang F, Macpherson GL. Towards a new conceptual model for groundwater flow in merokarst systems: Insights from multiple geophysical approaches. Hydrology and Earth System Science. 2020;34(24):4697-4711. doi:10.1002/hyp.13898.
Sullivan PL, Macpherson GL, Martin JB, Price RM. Evolution of carbonate and karst critical zones. Chemical Geology. 2019;527(20):119223. doi:10.1016/j.chemgeo.2019.06.023.
Swemmer AM, Knapp AK, Smith MD. Growth responses of twodominant C4 grass species to altered water availability. InternationalJournal of Plant Sciences. 2006;167:1001 -1010. doi:10.1086/505611.
Swemmer AM. The effect of intra-seasonal variation in precipitation on the productivity of grasses and grasslands. 2007;PhD Dissertation:1 -173. Available at: https://search.proquest.com/docview/304859815/?pq-origsite=primo.
Swemmer AM, Knapp AK, Snyman HA. Intra-seasonal precipitation patterns and aboveground productivity in three perennial grasslands. Journal of Ecology. 2007;95:780 -788. doi:10.1111/j.1365-2745.2007.01237.x.
Swemmer AM, Knapp AK. Defoliation synchronizes above-ground growth of co-occurring C4 grass species. Ecology. 2008;89:2860 -2867. doi:10.1890/07-1434.1.
Swenson LJ, Zipper S, Peterson DM, et al. Changes in water age during dry‐down of a non‐perennial stream. Water Resources Research. 2024;60(1):e2023WR034623. doi:10.1029/2023WR034623.
Sylvain ZA, Wall DH, Cherwin KL, Peters DPC, Reichmann LG, Sala OE. Soil animal responses to moisture availability are largely scale, not ecosystem dependent: Insight from a cross-site study. Global Change Biology. 2014;20:2631 -2643. doi:10.1111/gcb.12522.
Sylvain ZL. The influence of moisture availability on terrestrial ecosystems: Effects on soil animal communities along a regional/global-scale climate gradient. 2013;PhD. Dissertation. Available at: http://hdl.handle.net/10217/80184.

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