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An actively curated bibliography of high impact LTER research products dating from 1980.

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LTER Bibliography

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Journal Article
Morgan JA, Milchunas DG, LeCain DR, West MS, Mosier A. Carbon dioxide enrichment alters plant community structure and accelerates shrub growth in the shortgrass steppe. 2007;104(37):14724-14729.
LeCain DR, Morgan JA, Schuman GS, Reeder JD, Hart RH. Carbon exchange rates and species composition of grazed pastures and exclosures in the shortgrass steppe of Colorado. 2002;93:421-435.
LeCain DR, Morgan JA, Schuman GS, Reeder JD. Carbon exchange rates in grazed and ungrazed pastures of mixed grass prairie. 2000;53:199-206.
Nelson JA, Morgan JA, LeCain DR, Mosier AR, Milchunas DG, Parton WJ. CO2 enhances productivity, alters species composition, and reduces digestibility of shortgrass steppe vegetation. 2004;14:208-219.
Morgan JA, Mosier AR, Milchunas DG, LeCain DR, Nelson JA, Parton WJ. CO2 enhances productivity but alters species composition and reduces forage quality in the Colorado shortgrass steppe. 2004;14:208-219.
Morgan JA, Hunt HW, Monz CA, LeCain DR. Consequences of growth at two carbon dioxide concentrations and two temperatures for leaf gas exchange in Pascopyrum smithii (C3) and Bouteloua gracilis (C4). 1994;17:1023-1033.
Pendall E, White JWC, Del Grosso S, King JY, LeCain DR, Milchunas DG, Morgan JA, Mosier AR, Ojima DS, Parton WJ. Elevated atmospheric CO2 effects and soil water feedbacks on soil respiration componants in a Colorado grassland. 2003;17(15):1-15.
Morgan JA, LeCain DR, Mosier AR, Milchunas DG. Elevated CO2 enhances water relations and productivity and affects gas exchange in C3 and C4 grasses of the Colorado Shortgrass Steppe. 2001;7:451-466.
Nelson JA, Morgan JA, LeCain DR, Mosier AR, Milchunas DG, Patron WJ. Elevated CO2 increases soil moisture and inhances plant water relations in a long-term field study in sami-arid short grass steppe of Colorado. 2004;259:169-179.
McMaster GS, LeCain DR, Morgan JA, Aiguo L, Hendrix DL. Elevated CO2 increases wheat CER, leaf and tiller development, and shoot and root growth. 1999;183:119-128.
LeCain DR, Morgan JA. Growth, photosynthesis, leaf nitrogen and carbohydrate concentrations in NAD-ME and NAD-ME C4 grasses grown in elevated CO2. 1998;102:297-306.
Ferretti DF, Pendall E, Morgan JA, Nelson JA, LeCain DR, Mosier AR. Partitioning evapotranspiration fluxes from a Colorado grassland using stable isotopes: seasonal variations and implication for elevated atmospheric CO2. 2003;254(291):291-303.
King JY, Mosier AR, Morgan JA, LeCain DR, Milchunas DG, Parton WJ. Plant nitrogen dynamics in shortgrass steppe under elevated atmospheric carbon dioxide. 2004;7:147-160.
Morgan JA, Milchunas DG, LeCain DR, Mosier AR. Plant species and diversity responses to elevated CO2. 2006.
Reeder JD, Schuman GE, Morgan JA, LeCain DR. Response of organic and inorganic carbon and nitrogen stocks to long-term grazing of the shortgrass steppe. 2004;33:485-495.
Schuman GE, Morgan JA, Reeder JD, LeCain DR, Hart RH, Manley JT. Response of soil carbon and nitrogen to grazing on a mixed-grass prairie in Wyoming, USA. 1996;2:235-236.
LeCain DR, Morgan JA, Milchunas DG, Mosier AR, Nelson JA, Smith DP. Root biomass of individual species, and root size characteristics after five years of CO2 enrichment on native shortgrass steppe. 2006;279:219-228.
Milchunas DG, Morgan JA, Mosier AR, LeCain DR. Root dynamics and demography in shortgrass steppe under elevated CO2, and comments on minirhizotron methodology. 2005;11:1837-1855.
LeCain DR, Morgan JA, Mosier AR, Nelson JA. Soil and plant water relations determine photosynthetic responses of C3 and C4grasses in a semi-arid ecosystem under elevated CO2. 2003;92:12-Jan.
LeCain DR, Morgan JA, Mosier AR, Nelson JA. Soil and plant water relations, not photosynthetic pathway, primarily influence photosynthetic responses in a semi-arid ecosystem under elevated CO2. 2003;92:41-52.
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