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Journal Abstract Search

1114 related items for PubMed ID: 23525155

  • 1. Which are the most important parameters for modelling carbon assimilation in boreal Norway spruce under elevated [CO(2)] and temperature conditions?
    Hall M, Medlyn BE, Abramowitz G, Franklin O, Räntfors M, Linder S, Wallin G.
    Tree Physiol; 2013 Nov; 33(11):1156-76. PubMed ID: 23525155
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  • 2. Spring photosynthetic recovery of boreal Norway spruce under conditions of elevated [CO(2)] and air temperature.
    Wallin G, Hall M, Slaney M, Räntfors M, Medhurst J, Linder S.
    Tree Physiol; 2013 Nov; 33(11):1177-91. PubMed ID: 24169104
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  • 3. Three decades of research at Flakaliden advancing whole-tree physiology, forest ecosystem and global change research.
    Ryan MG.
    Tree Physiol; 2013 Nov; 33(11):1123-31. PubMed ID: 24300337
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  • 4. Carbon dioxide exchange of buds and developing shoots of boreal Norway spruce exposed to elevated or ambient CO2 concentration and temperature in whole-tree chambers.
    Hall M, Räntfors M, Slaney M, Linder S, Wallin G.
    Tree Physiol; 2009 Apr; 29(4):467-81. PubMed ID: 19203983
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  • 5. Growth of mature boreal Norway spruce was not affected by elevated [CO(2)] and/or air temperature unless nutrient availability was improved.
    Sigurdsson BD, Medhurst JL, Wallin G, Eggertsson O, Linder S.
    Tree Physiol; 2013 Nov; 33(11):1192-205. PubMed ID: 23878169
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  • 6. Mineral nutrition and elevated [CO(2)] interact to modify δ(13)C, an index of gas exchange, in Norway spruce.
    Marshall JD, Linder S.
    Tree Physiol; 2013 Nov; 33(11):1132-44. PubMed ID: 23425689
    [Abstract] [Full Text] [Related]

  • 7. Interacting effects of elevated CO2 and weather variability on photosynthesis of mature boreal Norway spruce agree with biochemical model predictions.
    Uddling J, Wallin G.
    Tree Physiol; 2012 Dec; 32(12):1509-21. PubMed ID: 23042768
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  • 8. Atmospheric carbon dioxide concentration, nitrogen availability, temperature and the photosynthetic capacity of current-year Norway spruce shoots.
    Roberntz P.
    Tree Physiol; 2001 Aug; 21(12-13):931-40. PubMed ID: 11498340
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  • 9. Impact of elevated carbon dioxide concentration and temperature on bud burst and shoot growth of boreal Norway spruce.
    Slaney M, Wallin G, Medhurst J, Linder S.
    Tree Physiol; 2007 Feb; 27(2):301-12. PubMed ID: 17241972
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  • 10. A whole-tree chamber system for examining tree-level physiological responses of field-grown trees to environmental variation and climate change.
    Medhurst J, Parsby J, Linder S, Wallin G, Ceschia E, Slaney M.
    Plant Cell Environ; 2006 Sep; 29(9):1853-69. PubMed ID: 16913874
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  • 12. Industrial-age changes in atmospheric [CO2] and temperature differentially alter responses of faster- and slower-growing Eucalyptus seedlings to short-term drought.
    Lewis JD, Smith RA, Ghannoum O, Logan BA, Phillips NG, Tissue DT.
    Tree Physiol; 2013 May; 33(5):475-88. PubMed ID: 23677118
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  • 17. Annual and seasonal variation of sap flow and conductance of pine trees grown in elevated carbon dioxide and temperature.
    Wang KY, Kellomäki S, Zha T, Peltola H.
    J Exp Bot; 2005 Jan; 56(409):155-65. PubMed ID: 15533884
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