Konza LTER Publications

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Journal Article
Komatsu KJ, Avolio ML, Lemoine NP, et al. Global change effects on plant communities are magnified by time and the number of global change factors imposed. Proceedings of the National Academy of Sciences. 2019;116(36):17867-17873. doi:10.1073/pnas.1819027116.
Komatsu KJ, Avolio ML, Lemoine NP, et al. Global change effects on plant communities are magnified by time and the number of global change factors imposed. Proceedings of the National Academy of Sciences. 2019;116(36):17867-17873. doi:10.1073/pnas.1819027116.
Smith MD, La Pierre KJ, Collins SL, et al. Global environmental change and the nature of aboveground net primary productivity responses: insights from long-term experiments. Oecologia. 2015;177(4):935 - 947. doi:10.1007/s00442-015-3230-9.
Risch AC, Zimmermann S, Moser B, et al. Global impacts of fertilization and herbivore removal on soil net nitrogen mineralization are modulated by local climate and soil properties. Global Change Biology. 2020;26(12). doi:10.1111/gcb.15308.
Risch AC, Zimmermann S, Moser B, et al. Global impacts of fertilization and herbivore removal on soil net nitrogen mineralization are modulated by local climate and soil properties. Global Change Biology. 2020;26(12). doi:10.1111/gcb.15308.
Risch AC, Zimmermann S, Moser B, et al. Global impacts of fertilization and herbivore removal on soil net nitrogen mineralization are modulated by local climate and soil properties. Global Change Biology. 2020;26(12). doi:10.1111/gcb.15308.
Risch AC, Zimmermann S, Moser B, et al. Global impacts of fertilization and herbivore removal on soil net nitrogen mineralization are modulated by local climate and soil properties. Global Change Biology. 2020;26(12). doi:10.1111/gcb.15308.
Risch AC, Zimmermann S, Moser B, et al. Global impacts of fertilization and herbivore removal on soil net nitrogen mineralization are modulated by local climate and soil properties. Global Change Biology. 2020;26(12). doi:10.1111/gcb.15308.
Tiegs SD, Costello DM, Isken MW, et al. Global patterns and drivers of ecosystem functioning in rivers and riparian zones. Science Advances. 2019;5(1):eaav0486. doi:10.1126/sciadv.aav0486.
Tiegs SD, Costello DM, Isken MW, et al. Global patterns and drivers of ecosystem functioning in rivers and riparian zones. Science Advances. 2019;5(1):eaav0486. doi:10.1126/sciadv.aav0486.
Tiegs SD, Costello DM, Isken MW, et al. Global patterns and drivers of ecosystem functioning in rivers and riparian zones. Science Advances. 2019;5(1):eaav0486. doi:10.1126/sciadv.aav0486.
Tiegs SD, Costello DM, Isken MW, et al. Global patterns and drivers of ecosystem functioning in rivers and riparian zones. Science Advances. 2019;5(1):eaav0486. doi:10.1126/sciadv.aav0486.
Tiegs SD, Costello DM, Isken MW, et al. Global patterns and drivers of ecosystem functioning in rivers and riparian zones. Science Advances. 2019;5(1):eaav0486. doi:10.1126/sciadv.aav0486.
Tiegs SD, Costello DM, Isken MW, et al. Global patterns and drivers of ecosystem functioning in rivers and riparian zones. Science Advances. 2019;5(1):eaav0486. doi:10.1126/sciadv.aav0486.
Tiegs SD, Costello DM, Isken MW, et al. Global patterns and drivers of ecosystem functioning in rivers and riparian zones. Science Advances. 2019;5(1):eaav0486. doi:10.1126/sciadv.aav0486.
Tiegs SD, Costello DM, Isken MW, et al. Global patterns and drivers of ecosystem functioning in rivers and riparian zones. Science Advances. 2019;5(1):eaav0486. doi:10.1126/sciadv.aav0486.
Tiegs SD, Costello DM, Isken MW, et al. Global patterns and drivers of ecosystem functioning in rivers and riparian zones. Science Advances. 2019;5(1):eaav0486. doi:10.1126/sciadv.aav0486.
Tiegs SD, Costello DM, Isken MW, et al. Global patterns and drivers of ecosystem functioning in rivers and riparian zones. Science Advances. 2019;5(1):eaav0486. doi:10.1126/sciadv.aav0486.
Tiegs SD, Costello DM, Isken MW, et al. Global patterns and drivers of ecosystem functioning in rivers and riparian zones. Science Advances. 2019;5(1):eaav0486. doi:10.1126/sciadv.aav0486.
Parton WJ, Silver WL, Burke IC, et al. Global-scale similarities in nitrogen release patterns during long-term decomposition. Science. 2007;315:361 -364. doi:10.1126/science.1134853.
Parton WJ, Silver WL, Burke IC, et al. Global-scale similarities in nitrogen release patterns during long-term decomposition. Science. 2007;315:361 -364. doi:10.1126/science.1134853.
Bentivenga SP, Hetrick BAD. Glomus Mortonii sp. Nov., a previously undescribed species in the Glomaceae isolated from the tallgrass prairie in Kansas. Mycotoxon. 1991;42:9 -15.
Baer SG, Blair JM. Grassland establishment under varying resource availability: A test of positive and negative feedback. Ecology. 2008;89:1859 -1871. doi:10.1890/07-0417.1.
Baer SG, Blair JM. Grassland establishment under varying resource availability: A test of positive and negative feedback. Ecology. 2008;89:1859 -1871. doi:10.1890/07-0417.1.
Fay PA, Prober SM, Harpole WS, et al. Grassland productivity limited by multiple nutrients. Nature Plants. 2015;1(7):15080. doi:10.1038/nplants.2015.80.
Fay PA, Prober SM, Harpole WS, et al. Grassland productivity limited by multiple nutrients. Nature Plants. 2015;1(7):15080. doi:10.1038/nplants.2015.80.
Fay PA, Prober SM, Harpole WS, et al. Grassland productivity limited by multiple nutrients. Nature Plants. 2015;1(7):15080. doi:10.1038/nplants.2015.80.
Fay PA, Prober SM, Harpole WS, et al. Grassland productivity limited by multiple nutrients. Nature Plants. 2015;1(7):15080. doi:10.1038/nplants.2015.80.
Nellis MD, Briggs JM, Seyler HL. Growth and transition: Remote sensing and geographic information systems at Kansas State University. Photogrammetric Engineering and Remote Sensing. 1992;58:1159 -1161.
Bascompte J, Rodriguez MA. Habitat patchiness and plant species richness. Ecological Letters. 2001;4:417 -420. doi:10.1046/j.1461-0248.2001.00242.x.
Alfaro-Barrios M, Liguori L, Sandercock BK, Berazategui M, Arim M. Habitat selection and space use of Upland Sandpipers at nonbreeding grounds. Avian Conservation and Ecology. 2019;14(2):14:art18. doi:10.5751/ACE-01461-140218.
Bruckerhoff LA, R. Connell K, Guinnip JP, et al. Harmony on the prairie? Grassland plant and animal community responses to variation in climate across land‐use gradients. Ecology. 2020;101(5):e02986. doi:10.1002/ecy.2986.
Bruckerhoff LA, R. Connell K, Guinnip JP, et al. Harmony on the prairie? Grassland plant and animal community responses to variation in climate across land‐use gradients. Ecology. 2020;101(5):e02986. doi:10.1002/ecy.2986.
Bakker ES, Ritchie ME, Olff H, Milchunas DG, Knops JMH. Herbivore impact on grassland plant diversity depends on habitat productivity and herbivore size. Ecology Letters. 2006;9:780 -788. doi:10.1111/j.1461-0248.2006.00925.x.
Borer ET, Seabloom EW, Gruner DS, et al. Herbivores and nutrients control grassland plant diversity via light limitation. Nature. 2014;508(7497):517 - 520. doi:10.1038/nature13144.
Borer ET, Seabloom EW, Gruner DS, et al. Herbivores and nutrients control grassland plant diversity via light limitation. Nature. 2014;508(7497):517 - 520. doi:10.1038/nature13144.
Borer ET, Seabloom EW, Gruner DS, et al. Herbivores and nutrients control grassland plant diversity via light limitation. Nature. 2014;508(7497):517 - 520. doi:10.1038/nature13144.
Borer ET, Seabloom EW, Gruner DS, et al. Herbivores and nutrients control grassland plant diversity via light limitation. Nature. 2014;508(7497):517 - 520. doi:10.1038/nature13144.
Borer ET, Seabloom EW, Gruner DS, et al. Herbivores and nutrients control grassland plant diversity via light limitation. Nature. 2014;508(7497):517 - 520. doi:10.1038/nature13144.
Borer ET, Seabloom EW, Gruner DS, et al. Herbivores and nutrients control grassland plant diversity via light limitation. Nature. 2014;508(7497):517 - 520. doi:10.1038/nature13144.
Borer ET, Seabloom EW, Gruner DS, et al. Herbivores and nutrients control grassland plant diversity via light limitation. Nature. 2014;508(7497):517 - 520. doi:10.1038/nature13144.
Carter DL, Blair JM. High richness and dense seeding enhance grassland restoration establishment, but have little effect on drought response. Ecological Applications. 2012;22:1308 -1319. doi:10.1890/11-1970.1.
Grace T, Joern A, Brown SJ, Apple JL, Wisely SM. Highly polymorphic microsatellites in the North American snakeweed grasshopper, Hesperotettix viridis. Journal of Orthoptera Research. 2009;18:19 -21. doi:10.1665/034.018.0111.
Blevins E, Wisely SM, With KA. Historical processes and landscape context influence genetic structure in peripheral populations of the collared lizard (Crotaphytus collaris). Landscape Ecology. 2011;26:1125 -1136. doi:10.1007/s10980-011-9631-1.
Kaspari M, Beurs KM, Welti EAR. How and why plant ionomes vary across North American grasslands and its implications for herbivore abundance. Ecology. 2021;102(10):e03459. doi:10.1002/ecy.3459.
Biederman LA, Mortensen B, Fay PA, et al. How do extra nutrients affect the timing of flowering in prairies. Environmental Science Journal for Teens. 2017;(September, 2017). Available at: http://www.sciencejournalforkids.org/uploads/5/4/2/8/54289603/flowers_article.pdf.
Cusser S, Helms J, Bahlai CA, Haddad NM. How long do population level field experiments need to be? Utilising data from the 40‐year‐old LTER network. Chase J. Ecology Letters. 2021;24(5):1103 - 1111. doi:10.1111/ele.v24.510.1111/ele.13710.
Seybold EC, Bergstrom A, C. Jones N, et al. How low can you go? Widespread challenges in measuring low stream discharge and a path forward. Limnology and Oceanography Letters. In Press. doi:10.1002/lol2.10356.
Seybold EC, Bergstrom A, C. Jones N, et al. How low can you go? Widespread challenges in measuring low stream discharge and a path forward. Limnology and Oceanography Letters. In Press. doi:10.1002/lol2.10356.
Reed HE, Blair JM, Wall D, Seastedt TR. Impacts of management legacies on litter decomposition in response to reduced precipitation in a tallgrass prairie. Applied Soil Ecology. 2009;42:79 -85. doi:10.1016/j.apsoil.2009.01.009.

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