Konza LTER Publications

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Wurtsbaugh WA, Paerl HW, Dodds WK. Nutrients, eutrophication and harmful algal blooms along the freshwater to marine continuum. WIRES Water. 2019;6(5):e1373. Available at: https://onlinelibrary.wiley.com/doi/abs/10.1002/wat2.1373.
Wu D, Ciais P, Viovy N, et al. Asymmetric responses of primary productivity to altered precipitation simulated by ecosystem models across three long-term grassland sites. Biogeosciences. 2018;15(11):3421 - 3437. doi:10.5194/bg-15-3421-2018.
Wright VF, Huber RL, Huber CL. Butterflies (Lepidoptera) of Konza Prairie Biological Station: An annotated checklist. Journal of the Kansas Entomological Society. 2003;76:469 -476. Available at: http://www.jstor.org/stable/25086135.
Worapong J, Dendy SP, Tang Z, Awl DJ, Garrett KA. Limiting temperatures for urediniospore germination are low in a systemic rust fungus of tallgrass prairie. Mycologia. 2009;101:390 -394. doi:10.3852/08-102.
Wooster D. The influence of food perishability on caching behavior by the eastern woodrat (Neotoma floridana). 1990;MS Thesis:1 -34.
Woods TM. A comparison of the reproductive systems of the invasive Lespedeza cuneata (Dum.-Cours.) G. Don (Fabaceae) with three native congeners in the Flint Hills region of the tallgrass prairie. 2006;MS Thesis:1 -95.
Woods TM, Strakosh SC, Nepal MP, et al. Introduced species in Kansas: floristic changes and patterns of collection based onan historical herbarium. Sida. 2005;21:1695 -1725.
Woods TM, Hartnett DC, Ferguson CJ. High propagule production and reproductive fitness homeostasis contribute to the invasiveness of Lespedeza cuneata (Fabaceae). Biological Invasions. 2009;11:1913 -1927. doi:10.1007/s10530-008-9369-0.
Woods TM, Jonas JL, Ferguson CJ. The invasive Lespedeza cuneata attracts more insect pollinators than native congeners in tallgrass prairie with variable impacts. Biological Invasions. 2012;14:1045 -1059. doi:10.1007/s10530-011-0138-0.
Wood HK, Macpherson GL. Sources of Sr and implications for weathering of limestone under tallgrass prairie, northeastern Kansas. Applied Geochemistry. 2005;20:2325 -2342. doi:10.1016/j.apgeochem.2005.08.002.
Wood HK. Seasonality and rates of mineral weathering in karst aquifers at the Konza Prairie. 2001;MS Thesis:1 -115.
Wolkovich EM, Davies TJ, Schaefer H, et al. Temperature dependant shifts in phenology contribute to the success of exotic species with climate change. American Journal of Botany. 2013;100:1407 -1421. doi:10.3732/ajb.1200478.
Wolf S, Keenan TF, Fisher JB, et al. Warm spring reduced carbon cycle impact of the 2012 US summer drought. Proceedings of the National Academy of Sciences. 2016:201519620. doi:10.1073/pnas.1519620113.
Wodika BR, Baer SG, Klopf RP. Colonization and recovery of invertebrate ecosystem engineers during prairie restoration. Restoration Ecology. 2014;22:456 -464. doi:10.1111/rec.12084.
Wisnoski NI, Andrade R, Castorani MCN, et al. Diversity–stability relationships across organism groups and ecosystem types become decoupled across spatial scales. Ecology. 2023;104(9):e4136. doi:10.1002/ecy.v104.910.1002/ecy.4136.
Winnicki S. Growing up prairie: Ecological drivers of grassland songbird nestling development. Department of Biology. 2019;MS Thesis. Available at: https://krex.k-state.edu/dspace/handle/2097/40070.
Winnicki SK, Munguía SM, Williams EJ, Boyle WA. Social interactions do not drive territory aggregation in a grassland songbird. Ecology. 2020;101(2):e02927. doi:10.1002/ecy.2927.
Winders K. Ecosystem Processes of Prairie Streams and the Impact of Anthropogenic Alteration on Stream Ecological Integrity. 2010;MS Thesis. Available at: http://hdl.handle.net/2097/6849.
Winder VL, McNew LB, Pitman JC, Sandercock BK. Space use of female greater Prairie-Chickens in response to fire and grazing interactions. Rangeland Ecology & Management. 2017;70(2):165–174. doi:10.1016/j.rama.2016.08.004.
Winder VL, McNew LB, Pitman JC, Sandercock BK. Effects of rangeland management on survival of female greater prairie‐chickens. The Journal of Wildlife Management. 2017. doi:10.1002/jwmg.21331.
Winder VL, Carrlson KM, Gregory AJ, et al. Factors affecting female space use in ten populations of prairie chickens. Ecosphere. 2015;6(9):art166. doi:10.1890/ES14-00536.1.
Wilson GT, Hartnett DC, Rice CW. Mycorrhizal-mediated phosphorus transfer between tallgrass prairie plants Sorghastrum nutans and Artemisia ludoviciana. Functional Ecology. 2006;20:427 -435. doi:10.1111/j.1365-2435.2006.01134.x.
Wilson IE, Harrington JJ, McLauchlan KK, Martinson EJ, Hutchinson SL. The water budget, climate variability, and climate impacts assessment in Northeast Kansas. 2009;32:189 -196.
Wilson GT, Rice CW, Rillig MC, Springer A, Hartnett DC. Soil aggregation and carbon sequestration are tightly correlated with the abundance of arbuscular mycorrhizal fungi: results from long-term field experiments. Ecology Letters. 2009;12:452 -461. doi:10.1111/j.1461-0248.2009.01303.x.
Wilson GT, Hartnett DC. Effects of mycorrhizae on plant productivity and species abundances in tallgrass prairie microcosms. American Journal of Botany. 1997;84:478 -482. Available at: http://www.ncbi.nlm.nih.gov/pubmed/21708601.
Wilson GT, Hickman KR, Williamson MM. Invasive warm-season grasses reduce mycorrhizal root colonization and biomass production of native prairie grasses. Mycorrhiza. 2012;22:327 -336. doi:10.1007/s00572-011-0407-x.
Wilson GT, Hetrick BAD, Kitt DG. Suppression of vesicular-arbuscular mycorrhizal fungus spore germination by nonsterile soil. Canadian Journal of Botany. 1989;67:18 -23. doi:10.1139/b89-003.
Wilson LOR. Facilitating nurse plant survival with mycorrhizal inoculum following eradication of a non-native grass. 2018;MS Thesis. Available at: https://shareok.org/handle/11244/317698.
Wilson GT. Mycorrhizal symbiosis in the tallgrass prairie: above- and belowground linkages. 2003;PhD Dissertation:1 -211.
Wilson GT, Hartnett DC. Interspecific variation in plant responses to mycorrhizal colonization in prairie grasses and forbs. American Journal of Botany. 1998;85:1732 -1738.
Wilson KC. Hyporheic oxygen flux and substratum spatial heterogeneity: effects on whole-stream dynamics. 2005;MS Thesis:1 -65.
Wilson KC, Dodds WK. Centimeter-scale stream substratum heterogeneity and metabolic rates. Hydrobiologia. 2009;623:53 -62. doi:10.1007/s10750-008-9647-y.
Wilson GT, Hartnett DC, Smith MD, Kobbeman K. Effects of mycorrhizas on growth and demography of tallgrass prairie forbs. American Journal of Botany. 2001;88:1452 -1457. Available at: http://www.ncbi.nlm.nih.gov/pubmed/21669678.
Wilson GT, Williamson MM. Topsin-M: the new benomyl for mycorrhizal-suppression experiments. Mycologia. 2008;100:548 -554. doi:10.3852/08-024R.
Wilson GT, Daniels BAH, Kitt DG. Suppression of mycorrhizal growth response of big bluestem by nonsterile soil. Mycologia. 1988;80:338 -343. doi:10.2307/3807630.
Williamson CE, Dodds WK, Kratz TK, Palmer M. Lakes and streams as sentinels of environmental change in terrestrial and atmospheric processes. Frontiers in Ecology and the Environment. 2008;6:247 -254. doi:10.1890/070140.
Williamson M, Wilson GT, Hartnett DC. Controls on bud activation and tiller initiation in C3 and C4 tallgrass prairie grasses: the role of light and nitrogen. Botany. 2012;90:1221 -1228. doi:10.1139/b2012-091.
Williamson MM. Controls on bud activation and tiller initiation in tallgrass prairie: The effect of light and nitrogen. 2010;MS Thesis:1 -52. Available at: http://hdl.handle.net/11244/9577.
Williams MA, Rice CW, Omay A, Owensby C. Carbon and nitrogen pools in a tallgrass prairie soil under elevated carbon dioxide. Soil Science Society of America Journal. 2004;68:148 -153. doi:10.2136/sssaj2004.1480.
Williams MA. Alterations in carbon and nitrogen cycling in irrigated tallgrass prairie soil. 2001;PhD Dissertation:1 -206.
Williams MA, Rice CW, Owensby CE. Nitrogen competition in a tallgrass prairie ecosystem exposed to elevated carbon dioxide. Soil Science Society of America Journal. 2001;65:340 -346. doi:10.2136/sssaj2001.652340x.
Williams MA, Rice CW, Owensby CE. Natural 15N abundances in a tallgrass prairie exposed to 8 years of elevated atmospheric CO2. Soil Biology & Biochemistry. 2006;37:409 -412. doi:10.1016/j.soilbio.2005.06.009.
Williams MA, Xia K. Characterization of the water soluble soil organic pool following the rewetting of dry soil in a drought-prone tallgrass prairie. Soil Biology & Biochemistry. 2009;41:21 -28. doi:10.1016/j.soilbio.2008.08.013.
Williams MA, Rice CW. Seven years of enhanced water availability influences the physiological, structural and functional attributes of a soil microbial community. Applied Soil Ecology. 2007;35:535 -545. doi:10.1016/j.apsoil.2006.09.014.
Williams EJ, Boyle WA. Causes and consequences of avian within-season dispersal decisions in a dynamic grassland environment. Animal Behaviour. 2019;155:77 - 87. doi:10.1016/j.anbehav.2019.06.009.
Williams MA. Response of microbial communities to water stress in irrigated anddrought-prone tallgrass prairie soils. Soil Biology & Biochemistry. 2007;39:2750 -2757. doi:10.1016/j.soilbio.2007.05.025.
Williams MA. Soil and microbial responses in tallgrass prairie to elevated CO2. 1998;MS Thesis:1 -111.
Williams EJ. Grasshopper sparrows on the move: patterns and causes of within-season breeding dispersal in a declining grassland songbird. 2016;MS Thesis. Available at: http://krex.k-state.edu/dspace/handle/2097/32705.
Williams MA, Rice CW, Owensby CE. Carbon dynamics and microbial activity in tallgrass prairie exposed to elevated CO2 for 8 years. Plant and Soil. 2000;227:127 -137. doi:10.1023/A:1026590001307.
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.

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