Konza LTER Publications
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Small mammals in anthropogenic brome fields as compared to native tallgrass prairie in the northern flint hills of kansas. Transactions of the Kansas Academy of Science. 2017;120(3-4):157 - 169. doi:10.1660/062.120.0402.
. Small mammals in anthropogenic brome fields as compared to native tallgrass prairie in the northern flint hills of kansas. Transactions of the Kansas Academy of Science. 2017;120(3-4):157 - 169. doi:10.1660/062.120.0402.
. Small mammals in northeastern Kansas: differences in use of interspersed woodland and grassland. The Prairie Naturalist. 1994;26:107 -116.
. Small mammals in tallgrass prairie: patterns associated with grazing and burning. The Prairie Naturalist. 1989;21:177 -184.
. Small mammals in tallgrass prairie: patterns associated with grazing and burning. The Prairie Naturalist. 1989;21:177 -184.
. Small mammals in the northern Flint Hills prairie: Overwinter changes in abundance. Transactions of the Kansas Academy of Science. 2018;121(3-4):297 - 315. doi:10.1660/062.121.0413.
. Small mammals in the northern Flint Hills prairie: Overwinter changes in abundance. Transactions of the Kansas Academy of Science. 2018;121(3-4):297 - 315. doi:10.1660/062.121.0413.
. Small mammals of wooded habitats of the Konza Prairie Research Natural Area, Kansas. The Prairie Naturalist. 1993;25:27 -32.
. Small mammals of wooded habitats of the Konza Prairie Research Natural Area, Kansas. The Prairie Naturalist. 1993;25:27 -32.
. Small-mammal use of experimental patches of tallgrass prairie: influence of topographic position and fire history. . 1995:59 -65.
. Small-mammal use of experimental patches of tallgrass prairie: influence of topographic position and fire history. . 1995:59 -65.
. Small-scale patch structure in North American and South African grasslands responds differently to grazing and fire. Landscape Ecology. 2013;28:1293 -1306. doi:10.1007/s10980-013-9866-0.
. SoDaH: the SOils DAta Harmonization database, an open-source synthesis of soil data from research networks, version 1.0. Earth System Science Data Discussion. 2020. doi:10.5194/essd-2020-195.
SoDaH: the SOils DAta Harmonization database, an open-source synthesis of soil data from research networks, version 1.0. Earth System Science Data. 2021;13(5):1843 - 1854. doi:10.5194/essd-13-1843-2021.
SoDaH: the SOils DAta Harmonization database, an open-source synthesis of soil data from research networks, version 1.0. Earth System Science Data. 2021;13(5):1843 - 1854. doi:10.5194/essd-13-1843-2021.
Sodium addition increases leaf herbivory and fungal damage across four grasslands. Functional Ecology. 2021;35(6):1212-1221. doi:10.1111/1365-2435.13796.
. Soil C and N responses to woody plant expansion in a mesic grassland. Plant and Soil. 2003;257:183 -192. doi:10.1023/A:1026255214393.
. Soil carbon stocks in temperate grasslands differ strongly across sites but are insensitive to decade‐long fertilization. Global Change Biology. 2022;28(4):1659 - 1677. doi:10.1111/gcb.15988.
Soil Degradation: Will Humankind Ever Learn?. Sustainability. 2015;7(9):12490 - 12501. doi:10.3390/su70912490.
. Soil heterogeneity effects on tallgrass prairie community heterogeneity: anapplication of ecological theory to restoration ecology. Restoration Ecology. 2005;13:413 -424. doi:10.1111/j.1526-100X.2005.00051.x.
. Soil net nitrogen mineralisation across global grasslands. Nature Communications. 2019;10(4981). doi:10.1038/s41467-019-12948-2.
Soil net nitrogen mineralisation across global grasslands. Nature Communications. 2019;10(4981). doi:10.1038/s41467-019-12948-2.
Soil resources regulate productivity and diversity in newly established tallgrass prairie. Ecology. 2003;84:724 -735. doi:10.1890/0012-9658(2003)084[0724:SRRPAD]2.0.CO;2.
. Soil structure is an important omission in Earth System Models. Nature Communications. 2020;11(522). doi:10.1038/s41467-020-14411-z.
Soil systems and nutrient cycles of the North American Prairie. In: The Changing Prairie. The Changing Prairie. Oxford University Press; 1995:157 -174.
. Soil water partitioning contributes to species coexistence in tallgrass prairie. Oikos. 2007;116:1017 -1029. doi:10.1111/j.0030-1299.2007.15630.x.
. Soils and soil biota. In: Grassland Dynamics: Long-Term Ecological Research in Tallgrass Prairie. Grassland Dynamics: Long-Term Ecological Research in Tallgrass Prairie. New York: Oxford University Press; 1998:48 -66.
. Spatial and temporal patterns of nitrogen concentrations in pristine and agriculturally- influenced prairie streams. Biogeochemistry. 2001;53:125 -141. doi:10.1023/A:1010707632340.
. Spatial ecology of eastern yellow-bellied Racer (Coluber constrictor flaviventris) and Great Plains rat snake (Pantherophis emoryi) in a contiguous tallgrass-prairie landscape. Herpetologica. 2011;67:428 -439. doi:10.1655/HERPETOLOGICA-D-10-00076.1.
. Spatial heterogeneity in species composition constrains plant community responses to herbivory and fertilisation. . Ecology Letters. 2018;21(9):1364 -1371. doi:10.1111/ele.13102.
Spatial heterogeneity of denitrification genes in a highly homogenous urban stream. Environmental Science & Technology. 2009;43:4273 -4279. doi:10.1021/es9001407.
. Spatial variability of nitrogen mineralization at the field scale. Soil Science Society of America Journal. 1997;61:1214 -1221. doi:10.2136/sssaj1997.03615995006100040029x.
. Spatio-temporal dynamics of soil moisture in tallgrass prairie using ERS-1 SAR image time series: first year results. 1996:166 -168. Available at: 10.1109/IGARSS.1996.516279.
. Species loss due to nutrient addition increases with spatial scale in global grasslands. . Ecology Letters. 2021;24(10):2100 - 2112. doi:10.1111/ele.v24.1010.1111/ele.13838.
Species loss due to nutrient addition increases with spatial scale in global grasslands. . Ecology Letters. 2021;24(10):2100 - 2112. doi:10.1111/ele.v24.1010.1111/ele.13838.
Species richness- productivity relationship for small mammals along a desert-grassland continuum: differential responses of functional groups. Journal of Mammalogy. 2006;87:777 -783. doi:10.1644/05-MAMM-A-253R2.1.
. Species richness- productivity relationship for small mammals along a desert-grassland continuum: differential responses of functional groups. Journal of Mammalogy. 2006;87:777 -783. doi:10.1644/05-MAMM-A-253R2.1.
. Sporulation of two vesicular-abuscular mycorrhizal fungi in nonsterile soil. Mycologia. 1987;79:896 -899. doi:10.2307/3807692.
. Stability of grassland soil C and N pools despite 25 years of an extreme climatic and disturbance regime. Journal of Geophysical Research: Biogeosciences. 2016;121(7):1934 - 1945. doi:10.1002/2016JG003370.
. Stability of tallgrass prairie during a 19-year increase in growing season precipitation. Functional Ecology. 2012;26(6):1450 - 1459. doi:10.1111/j.1365-2435.2012.01995.x.
Stable isotopes identify the natal origins of a generalist brood parasite, the brown‐headed cowbird Molothrus ater. Journal of AvianBiology. 2008;39:364 -367. doi:10.1111/j.0908-8857.2008.04170.x.
. Stoichiometric homeostasis predicts plant species dominance, temporal stability and responses to global change. Ecology. 2015;96(9):2335. doi:10.1890/14-1897.1.
. Stomatal and photosynthetic responses to variable light in sorghum, soybeans and eastern gammagrass. Physiologia Plantarum. 1995;94:613 -620. doi:10.1111/j.1399-3054.1995.tb00975.x.
. Stomatal responses to variable sunlight in Bur Oak (Quercus macrocarpa Michx.) leaves with different photosynthetic capacities. International Journal of Plant Science. 1994;155:583 -587. Available at: http://www.jstor.org/stable/2475031.
. Stronger fertilization effects on aboveground versus belowground plant properties across nine U.S. grasslands. Ecology. 2023;104(2):e3891. doi:10.1002/ecy.3891.
Stronger fertilization effects on aboveground versus belowground plant properties across nine U.S. grasslands. Ecology. 2023;104(2):e3891. doi:10.1002/ecy.3891.
Structure and dynamics of aquatic communities. In: Grassland Dynamics: Long-Term Ecological Research in Tallgrass Prairie. Grassland Dynamics: Long-Term Ecological Research in Tallgrass Prairie. New York: Oxford University Press; 1998:177 -189.
. The structure of mammalian faunas in the New World: from continents to communities. 1998;PhD Dissertation:1 -130.
. Studies of insect temporal trends must account for the complex sampling histories inherent to many long-term monitoring efforts. Nature Ecology & Evolution. 2021;5:589–591. doi:10.1038/s41559-021-01424-0.
Success of C4 photosynthesis in the field: lessons from communities dominated by C4 plants. In: C4 Plant Biology. C4 Plant Biology. New York: Academic Press; 1999:251 -283.
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