CO₂ and Nitrogen Manipulation Publications

Braunschweig                     

Blagodatsky, S.A., Blagodatsky, E.V., Anderson, T.H., and Weigel, H.J.  2006.  Kinetics of the respiratory response of the soil and rhizosphere microbial communities in a field experiment with an elevated concentration of atmospheric CO₂.  Eurasian Soil Science  39:290–297.

 

Burkart, S., Manderscheid, R. and Weigel, H.J.  2002.  Interactive effects of atmospheric CO₂-concentration and plant available soil water content and canopy evapotranspiration and conductance of spring wheat. In: Villalobos, F.J. and Testi, L. (eds) 7th ESA Congress : Cordoba, Spain, 15-18 July 2002 ; book of proceedings. Sevilla, Espana :  Consejeria di Agricultura y Pesca.  p. 67-68.

 

Giesemann, A.  2005.  Changes in soil C isotopic composition in an agroecosystem under Free Air Carbon Dioxide Enrichment (FACE) treatment during a crop rotation period.  Rapid Communications in Mass Spectrometry  19:1373-1380.

 

Manderscheid, R., Fruhauf, C. and Weigel, H.J.  2002.  Effects of free-air CO₂ enrichment (FACE) and soil nitrogen fertilizer on radiation absorption, radiation use efficiency and yield of winter barley. In: Villalobos, F.J. and Testi, L (eds) Book of proceedings / 7th ESA Congress, 15-18 July, 2002. Cordoba, Spain. Sevilla, Espana :  Consejeria di Agricultura y Pesca,.  p. 207-208.

Soe, A., Giesemann, A., Anderson, T.H., Weigel, H.J. and Buchmann, N.  2004.  Influence of elevated CO₂ on soil respiration and its partitioning into recently assimilated and older carbon sources.  Plant and Soil  262: 85-94.

Sticht, C., Schrader, S., Giesemann, A., and Weigel, H.J.  2006.  Effects of elevated CO₂ and N fertilization on abundance, diversity and C isotopic signature of collembolan communities in arable soil.  Applied Soil Ecology  34:219-229.

 

Weigel, H.J. und Dammgen, U.  2003.  Das Braunschweiger Kohlenstoff-Projekt: Atmosphaerisches Fluss-Monitoring und Free Air Carbon Dioxide Enrichment (FACE). In: Esser, G.; Holm-Mueller, K; Prentice, C. (Hrsg.), Bedeutung der Wechselwirkungen Biosphäre-Atmosphäre für die nachhaltige Nutzung der Biosphäre und den Klimaschutz, Bonn. p.  55-63Weigel, H.J. and Manderscheid, R.  2004.  CO₂ enrichment effects on forage and grain nitrogen concentration of pasture and cereal plant species.  Journal of Crop production  13:73-89.

 

Weigel, H.J. and Dammgen, U.  2000.  The Braunschweig Carbon Project: atmospheric flux monitoring and Free Air Carbon Dioxide Enrichment (FACE).  Journal of Applied Botany 74:55-60.

 

Weigel, H.J., Fruhauf, C., Burkart, S. and Dammgen, U.  2002.  The Braunschweig Carbon Project: Free Air Carbon Dioxide Enrichment (FACE) and atmospheric flux monitoring in arable crop rotation systems. In: Villalobos FJ, Testi L (eds) Book of proceedings / 7th ESA Congress, 15-18 July, 2002. Cordoba, Spain. Sevilla, Espana :  Consejeria di Agricultura y Pesca.  p. 791-792.

 

Weigel, H.J., Manderscheid, R., Burkart, S., Pacholski, A., Waloszcyk, K., Fruhauf, C., and Heinemeyer, O.  2006.  Responses of an arable crop rotation system to elevated CO₂.  In: Nösberger, J., Long, S.P., Norby, R.J., Stitt, M., Hendrey, G.R., and Blum, H. (eds.), Managed Ecosystems and CO₂ - Case Studies, Processes, and Perspectives. Series:  Ecological Studies 187, Springer Verlag.  p. 121-137.

 

Weigel, H.J., Pacholski, A., Burkart, S., Helal, M., Heinemeyer, O., Kleikamp, B., Manderscheid, R., Fruhauf, C., Hendrey, G.R., Lewin, and Nagy, J.  2005.  Carbon turnover in a crop rotation under Free Air CO₂ Enrichment (FACE).  Pedosphere  15: 728-738.

Cedar Creek

Reich, P. B., J. Knops, D. Tilman, J. Craine, D. Ellsworth, M. Tjoelker, T. Lee, D. Wedin, S. Naeem, D. Bahauddin, G. Hendrey, S. Jose, K. Wrage, J. Goth and W. Bengston. 2001. Plant diversity enhances ecosystem responses to elevated CO2 and nitrogen deposition. Nature 410:809-810.

 

Duke Forest FACE Experiment: Forest-Atmosphere Carbon Transfer and Storage (FACTS-I)

 

Albani, M., Medvigy, D., Hurtt, G.C., and Moorcroft, P.  2006.  The contributions of land-use change, CO₂ fertilization, and climate variability to the Eastern US carbon sink.  Global Change Biology  12:2370-2390

 

Bernhardt, E., Barber, J., Pippen, J., Taneva, L., Andrews, J., and Schlesinger, W.  2006.  Long-term effects of free air CO₂ enrichment (FACE) on soil respiration.  Biogeochemistry  77(1):91-116. 

 

Billings, S. and Ziegler, S.  2005.  Linking microbial activity and soil organic matter transformations in forest soils under elevated CO₂.  Global Change Biology  11:203-212.

 

Ceulemans, R., De Angelis, P., Finzi, A., Karnosky, D., Kubiske, M., Lukac, M., Pregitzer, K., Scarascia-Mugnozza, G., Schlesinger, W.,  and Oren, R.  2005.  Forest response to elevated CO₂ is conserved across a broad range of productivity. In:  Proceedings of the National Academy of Sciences  102:18052-18056. 

 

Crous, K. and Ellsworth, D.  2004.  Canopy position affects photosynthetic adjustments to long-term elevated CO₂ concentration (FACE) in aging needles in a mature Pinus taeda forest.  Tree Physiology  24:961-970.

 

Davey, P., Hunt, S., Hymus, G., DeLucia, E., Drake, B., Karnosky, D., and Long, S.  2004.  Respiratory oxygen uptake is not decreased by an instantaneous elevation of [CO₂], but is increased by long-term growth in the field at elevated [CO₂].  Plant Physiology  134:520-527. 

 

DeLucia, E.H., Moore, D.J., Hamilton, J.G., Thomas, R.B., Springer, C.J., and Corby, R.J.  2005.  The Changing Role of Forests in the Global Carbon Cycle: Responding to Elevated Carbon Dioxide in the Atmosphere. In: Lal, R.,  Duxbury, J.,  Stewart, B.A.,  and Hansen, D.O. (eds.)  Climate Change and Global Food Security. CRC Press, Marcel Dekker. 

 

DeLucia, E., Moore, D., and Norby, R.  2005.  Contrasting responses of forest ecosystems to rising atmospheric CO₂: Implications for the global C cycle.  Global Biogeochemical Cycles  19(3): GB3006, doi:10.1029/2004GB002346. 

 

Ellsworth, D., Reich, P., Naumburg, E., Koch, G., Kubiske, M., and Smith, S.  2004.  Photosynthesis, carboxylation and leaf nitrogen responses of 16 species to elevated p CO₂ across four Free-Air CO₂ Enrichment experiments in forest, grassland and desert.  Global Change Biology  10:2121-2138. 

 

Finzi, A., DeLucia, E., and Schlesinger, W.  2004.  Canopy N and P dynamics of a southeastern US pine forest under elevated CO₂.  Biogeochemistry  69:363–378. 

 

Finzi, A.C., Moore, D.J., DeLucia, E.H., Kim, H-S., Jackson, R.L., Lichter, J., McCarthy, H., Oren, R., Pippen, J.S., and Schlesinger, W.H.  2006.  Progressive nitrogen limitation of ecosystem processes under elevated CO₂ in a warm-temperate forest.  Ecology  87(1):15-25. 

 

Finzi, A.C., Sinsabaugh, R.L., Long, T.M., and Osgood, M.P.  2006.  Microbial community responses to atmospheric carbon dioxide enrichment in a warm-temperate forest.  Ecosystems  9:215-226. 

 

Gonzalez-Meler, M.A. and Taneva, L.  2005.  Integrated effects of atmospheric CO₂ concentration on plant and ecosystem respiration. In: Lambers, H. and Ribas-Carbo, M. (eds.).  Plant Respiration. Kluwer-Academic Publishers, Dordrecht.  p. 211-259.

 

Gonzalez-Meler, M.A., Taneva, L., and Trueman, R.J.  2004.  Plant Respiration and Elevated Atmospheric CO₂ Concentration:  Cellular Responses and Global Significance Annals of Botany  94:647-656. 

 

Hamilton, J., Zangerl, A., Berenbaum, M., Pippen, J., Aldea, M., and DeLucia, E.  2004.  Insect herbivory in an intact forest understory under experimental CO₂ enrichment.  Oecologia  138:566-573. 

 

Herrick, J., Maherali, H., and Thomas, R.  2004.  Reduced stomatal conductance in sweetgum(Liquidambar styraciflua) sustained over long-term CO₂ enrichment.  New Phytologist  162:387-396. 

 

Hofmockel, K.S. and Schlesinger, W.H.  2007.  Carbon dioxide effects on heterotrophic dinitrogen fixation in a temperate pine forest.  Soil Science Society of America Journal  71(1):140-144. 

 

Hyvönen, R., Ågren, G.I., Linder, S., Persson, T., Cotrufo, M.F., Ekblad, A., Freeman, M., Grelle, A., Janssens, I.A., Jarvis, P.G., Kellomäki, S., Lindroth, A., Loustau, D., Lundmark, T., Norby, R.J., Oren, R., Pilegaard, K., Ryan, M.G., Sigurdsson, B.D., Strömgren, M., van Oijen, M., and Wallin. G.  2007.  The likely impact of elevated [CO₂], nitrogen deposition, increased temperature and management on carbon sequestration in temperate and boreal forest ecosystems:  a literature review.  New Phytologist  173:463-480. 

 

Johnson, D.W.  2006.  Progressive N limitation in forests: review and implications for long-term responses to elevated CO₂.  Ecology  87(1):64-75. 

 

King, J., Hanson, P., Bernhardt, E., DeAngelis, P., Norby, R., and Pregitzer, K.  2004.  A multiyear synthesis of soil respiration responses to elevated atmospheric CO₂ from four forest FACE experiments  Global Change Biology  10:1027-1042. 

 

Knepp, R., Hamilton, J., Mohan, J., Zangerl, A., Berenbaum, M., and DeLucia, E.  2005.  Elevated CO₂ reduces leaf damage by insect herbivores in a forest community.  New Phytologist  167:207-218. 

 

LaDeau, S.L. and Clark, J.S.  2006.  Elevated CO₂ and tree fecundity: the role of tree size, interannual variability and population heterogeneity.  Global Change Biology  12(5):822-833. 

 

LaDeau, S.L. and Clark, J.S.  2006.  Pollen production in Pinus taeda growing in elevated CO₂.  Functional Ecology  20:541-547. 

 

Lichter, J., Barron, S., Finzi, A., Irving, K., Roberts, M., Stemmler, E., and Schlesinger, W.  2005.  Soil carbon sequestration and turnover in a pine forest after six years of atmospheric CO₂ enrichment.  Ecology  86(7):1835-1847. 

 

Luo, Y., Hui, D., and Zhang, D. 2006. Elevated CO₂ stimulates net accumulations of carbon and nitrogen in land ecosystems:  a meta-analysis.  Ecology  87(1):53-63. 

 

Luo, Y., Su, B., Currie, W., Dukes, J., Finzi, A., Hartwig, U., Hungate, B., McMurtrie, R., Oren, R., Parton, W., Pataki, D., Shaw, M., Zak, D., and Field, C.  2004.  Progressive nitrogen limitation of ecosystem responses to rising atmospheric carbon dioxide.  BioScience  54(8):731-739. 

 

McCarthy, H.R., Oren, R., Finzi, A.C., and Johnsen, K.H.  2006.  Canopy leaf area constrains [CO₂]-induced enhancement of productivity and partitioning among aboveground carbon pools. In:  Proceedings of the National Academy of Sciences of the USA.  103:19356-19361. 

 

McCarthy, H.R., Oren, R., Kim, H-S., Johnsen, K.H., Maier, C., Pritchard, S.G., and Davis, M.A. 2006.  Interaction of ice storms and management practices on current carbon sequestration in forests with potential mitigation under future CO₂ atmosphere.  Journal of Geophysical Research  111: D15103, doi:10.1029/2005JD006428. 

 

McElrone, A.J., Reid, C.D., Hoye, K.A., Hart, E., and Jackson, R.B.  2005.  Elevated CO₂ reduces disease incidence and severity of a red maple fungal pathogen via changes in host physiology and leaf chemistry.  Global Change Biology  11:1828-1836. 

 

Mohan, J., Clark, J., and Schlesinger, W.  2004.  Genetic variation in germination, growth, and survivorship of red maple in response to subambient through elevated atmospheric CO₂. Global Change Biology  10:233-247. 

 

Mohan, J.E., Ziska, L.H., Thomas, R.B., Sicher, R.C., George, K., Clark, J.S., and Schlesinger, W.H.  2006.  Biomass and toxicity responses of poison ivy (Toxicodendron radicans) to elevated atmospheric CO₂. In:  Proceedings of the National Academy of Sciences of the USA.  103(24):9086-9089. 

 

Neher, D.A., Weicht, T.R., Moorhead, D.L., and Sinsabaugh,. R.L.  2004.  Elevated CO₂ alters functional attributes of nematode communities in forest soils.  Functional Ecology  18:584-591. 

 

Norby, R., DeLucia, E., Gielen, B., Calfapietra, C., Giardina, C., King, J., Ledford, J., McCarthy, H., Moore, D., Nowak, R.S., Ellsworth, D.S., and Smith, S.D.  2004.  Functional responses of plants to elevated atmospheric CO₂ - Do photosynthetic and productivity data from FACE experiments support early predictions? Tansley Review.  New Phytologist  162:253-280. 

 

Palmroth, S., Oren, R., McCarthy, H.R., Johnsen, K.H., Finzi, A.C., Butnor, J.R., and Ryan, M.G. 2006.  Aboveground sink strength in forests controls the allocation of carbon below ground and its [CO₂]-induced enhancement. In:  Proceedings of the National Academy of Sciences of the USA.  103:19362-19367. 

 

Parrent, J.L., Morris, W.F., and Vilgalys, R.  2006.  CO₂-enrichment and nutrient availability alter ectomycorrhizal fungal communities.  Ecology  87(9):2278-2287. 

 

Schlesinger, W.H., Bernhardt, E.S., DeLucia, E.H., Ellsworth, D.H., Finzi, A.C., Hendrey, G.R., Hofmockel, K.S., Lichter, J., Matamala, R., Moore, D., Oren, R., Pippen, J.S., and Thomas, R.B.  2006.  The Duke Forest FACE experiment:  CO₂ enrichment of a loblolly pine forest. In: ̈sberger, J., Long, S.P., Norby, R.J., Stitt, M., Hendrey, G.R., and Blum H (eds.) Managed Ecosystems and CO₂ Case Studies, Processes, and Perspectives.  Ecological Studies  187:197-212. 

 

Springer, C., DeLucia, E., and Thomas, R.  2005.  Relationships between net photosynthesis and foliar nitrogen concentrations in a loblolly pine forest ecosystem grown in elevated atmospheric carbon dioxide.  Tree Physiology  25(4):385-394.

 

Springer, C.J. and Thomas, R.B. 2007. Photosynthetic responses of forest understory tree species to long-term exposure to elevated carbon dioxide concentration at the Duke Forest FACE experiment. Tree Physiology 27(1):25-32.

 

Suwa, M., Katul, G., Oren, R., Andrews, J., Pippen, J., Mace, A., and Schlesinger, W. 2004. Impact of Elevated Atmospheric CO₂ on Forest Floor Respiration in a Temperate Pine Forest. Global Biogeochemical Cycles  18(2): GB2013, doi:10.1029/2003GB002182.

 

Taneva, L., Pippen, J.S., Schlesinger, W.H., and Gonzalez-Meler, M.A.  2006.  The turnover of carbon pools contributing to soil CO₂ and soil respiration in a temperate forest exposed to elevated CO₂ concentration.  Global Change Biology  12:983-994.