Data source for Cui GCB 2023 "Nitrogen use strategy drives interspecific differences in plant photosynthetic CO2 acclimation"

This dataset file contains the original data and a list of the literature involved in the meta-analysis.We sincerely thank all the scientists whose data and work were included in this meta-analysis. A list of references for 51 published papers extracting leaf photosynthetic capacity responses to CO₂ fertilization is included in the data source text. Authors who contributed to the original data for this article include Ainsworth, E. A. [1], Barnes, J. D. [2], Bauer, G. A. [3], Bader, M. K. F. [4], Bowler, J. M. [5], Campbell, C. D. [6], Carswell, F. E. [7], Cook, A. C. [8], Cruz, J. L. [9], Cruz, J. L. [10, 11], Eller, A. S. [12], Farage, P. K. [13], Greenep, H. [14], Griffin, K. L. [15], Herrick, J. D. [16], Hogan, K. P. [17], Hymus, G. J. [18], Inauen, N. [19], Jach, M. E. [20], KIM, S. H. [21], Kitaoka, S. [22], Knapp, A. K. [23], Koike, T. [24], Leakey, A. D. B. [25], Lee, T. D. [26], Lewis, J. D. [27], Liang, N. [28], Liozon, R. [29], Pettersson, R. [30], Polley, H. W. [31], Possell, M. [32], Rey, A. [33], Roumet, C. [34], Ruiz-Vera, U. M. [35, 36], Sage, R. F. [37], Sanz-Sáez, Á. [38], Schortemeyer, M. [39], Sharwood, R. E. [40], Sholtis, J. D. [41], Tissue, D. T. [42, 43, 44], Tjoelker, M. G. [45], Turnbull, M. H. [46], Vogel, C. S. [47], Volin, J. C. [48], von Caemmerer, S. [49], Warren, J. M. [50], Watanabe, M. [51] and other co-authors for these literature.Reference list:[1] Ainsworth, E. A., Davey, P. A., Hymus, G. J., Drake, B. G., &amp; Long, S. P. (2002). <i>Ecological Applications</i>, 12(5), 1267-1275.[2] Barnes, J. D., Bettarini, I., Polle, A., Slee, N., Raines, C., Miglietta, F., Raschi, A., &amp; Fordham, M. (1997). <i>Oecologia</i>, 110, 169-178.[3] Bauer, G. A., Berntson, G. M., &amp; Bazzaz, F. A. (2001). <i>New Phytologist</i>, 152(2), 249-266.[4] Bader, M. K. F., Siegwolf, R., &amp; Körner, C. (2010). <i>Planta</i>, 232, 1115-1125.[5] Bowler, J. M., &amp; Press, M. C. (1996). <i>New Phytologist</i>, 132(3), 391-401.[6] Campbell, C. D., &amp; Sage, R. F. (2006). <i>Plant, Cell &amp; Environment</i>, 29(5), 844-853.[7] Carswell, F. E., Grace, J., Lucas, M. E., &amp; Jarvis, P. G. (2000). <i>Tree Physiology</i>, 20(14), 977-986.[8] Cook, A. C., Tissue, D. T., Roberts, S. W., &amp; Oechel, W. C. (1998). <i>Plant, Cell &amp; Environment</i>, 21(4), 417-425.[9] Cruz, J. L., Alves, A. A., LeCain, D. R., Ellis, D. D., &amp; Morgan, J. A. (2016). <i>Scientia Horticulturae</i>, 202, 32-40.[10] Curtis, P. S., Vogel, C. S., Pregitzer, K. S., Zak, D. R., &amp; Teeri, J. A. (1995). <i>New Phytologist</i>, 129(2), 253-263.[11] Curtis, P. S., Vogel, C. S., Wang, X., Pregitzer, K. S., Zak, D. R., Lussenhop, J., Kubiske, M., &amp; Teeri, J. A. (2000). <i>Ecological Applications</i>, 10(1), 3-17.[12] Eller, A. S., McGuire, K. L., &amp; Sparks, J. P. (2011). <i>Tree Physiology</i>, 31(4), 391-401.[13] Farage, P. K., McKee, I. F., &amp; Long, S. P. (1998). <i>Plant Physiology</i>, 118(2), 573-580.[14] Greenep, H., Turnbull, M. H., &amp; Whitehead, D. (2003). <i>Tree Physiology</i>, 23(8), 569-576.[15] Griffin, K. L., Tissue, D. T., Turnbull, M. H., &amp; Whitehead, D. (2000). <i>Plant, Cell &amp; Environment</i>, 23(10), 1089-1098.[16] Herrick, J. D., &amp; Thomas, R. B. (2001). <i>Plant, Cell &amp; Environment</i>, 24(1), 53-64.[17] Hogan, K. P., Whitehead, D., Kallarackal, J., Buwalda, J. G., Meekings, J., &amp; Rogers, G. N. D. (1996). <i>Functional Plant Biology</i>, 23(5), 623-630.[18] Hymus, G. J., Snead, T. G., Johnson, D. P., Hungate, B. A., &amp; Drake, B. G. (2002). <i>Global Change Biology</i>, 8(4), 317-328.[19] Inauen, N., Körner, C., &amp; Hiltbrunner, E. (2012). <i>Global Change Biology</i>, 18(3), 985-999.[20] Jach, M. E., &amp; Ceulemans, R. (2000). <i>Tree Physiology</i>, 20(3), 145-157.[21] KIM, S. H., Sicher, R. C., Bae, H., Gitz, D. C., Baker, J. T., Timlin, D. J., &amp; Reddy, V. R. (2006). <i>Global Change Biology</i>, 12(3), 588-600.[22] Kitaoka, S., Matsuki, S., Kitao, M., Tobita, H., Utsugi, H., Maruyama, Y., &amp; Koike, T. (2016). <i>Journal of Agricultural Meteorology</i>, 72(1), 43-49.[23] Knapp, A. K., Hamerlynck, E. P., &amp; Owensby, C. E. (1993). <i>International Journal of Plant Sciences</i>, 154(4), 459-466.[24] Koike, T., Lei, T. T., Maximov, T. C., Tabuchi, R., Takahashi, K., &amp; Ivanov, B. I. (1996). <i>Tree Physiology</i>, 16(3), 381-385.[25] Leakey, A. D. B., Press, M. C., Scholes, J. D., &amp; Watling, J. R. (2002). <i>Plant, Cell &amp; Environment</i>, 25(12), 1701-1714.[26] Lee, T. D., Tjoelker, M. G., Ellsworth, D. S., &amp; Reich, P. B. (2001). <i>New Phytologist</i>, 150(2), 405-418.[27] Lewis, J. D., Tissue, D. T., &amp; Strain, B. R. (1996). <i>Global Change Biology</i>, 2(2), 103-114.[28] Liang, N., Tang, Y., &amp; Okuda, T. (2001). <i>Tree Physiology</i>, 21(14), 1047-1055.[29] Liozon, R., Badeck, F. W., Genty, B., Meyer, S., &amp; Saugier, B. (2000). <i>Tree Physiology</i>, 20(4), 239-247.[30] Pettersson, R., &amp; McDonald, A. J. S. (1992). <i>Plant, Cell &amp; Environment</i>, 15(8), 911-919.[31] Polley, H. W., Johnson, H. B., &amp; Mayeux, H. S. (1997). <i>Tree Physiology</i>, 17(2), 89-96.[32] Possell, M., &amp; Nicholas Hewitt, C. (2009). <i>Planta</i>, 229, 837-846.[33] Rey, A., &amp; Jarvis, P. G. (1998). <i>Tree Physiology</i>, 18(7), 441-450.[34] Roumet, C., Garnier, E., Suzor, H., Salager, J. L., &amp; Roy, J. (2000). <i>Environmental and Experimental Botany</i>, 43(2), 155-169.[35] Ruiz-Vera, U. M., De Souza, A. P., Long, S. P., &amp; Ort, D. R. (2017). <i>Frontiers in Plant Science</i>, 8, 998.[36] Ruiz-Vera, U. M., De Souza, A. P., Ament, M. R., Gleadow, R. M., &amp; Ort, D. R. (2021). <i>Journal of Experimental Botany</i>, 72(2), 542-560.[37] Sage, R. F., Sharkey, T. D., &amp; Seemann, J. R. (1989). <i>Plant Physiology</i>, 89(2), 590-596.[38] Sanz-Sáez, Á., Erice, G., Aranjuelo, I., Nogués, S., Irigoyen, J. J., &amp; Sánchez-Díaz, M. (2010). <i>Journal of Plant Physiology</i>, 167(18), 1558-1565.[39] Schortemeyer, M., Atkin, O. K., McFarlane, N., &amp; Evans, J. R. (1999). <i>Functional Plant Biology</i>, 26(8), 737-747.[40] Sharwood, R. E., Crous, K. Y., Whitney, S. M., Ellsworth, D. S., &amp; Ghannoum, O. (2017). <i>Journal of Experimental Botany</i>, 68(5), 1157-1167.[41] Sholtis, J. D., Gunderson, C. A., Norby, R. J., &amp; Tissue, D. T. (2004). <i>New Phytologist</i>, 162(2), 343-354.[42] Tissue, D. T., Griffin, K. L., &amp; Ball, J. T. (1999). <i>Tree Physiology</i>, 19(4-5), 221-228.[43] Tissue, D. T., Griffin, K. L., Thomas, R. B., &amp; Strain, B. R. (1995). <i>Oecologia</i>, 101, 21-28.[44] Tissue, D. T., &amp; Lewis, J. D. (2010). <i>Tree Physiology</i>, 30(11), 1361-1372.[45] Tjoelker, M. G., Oleksyn, J., &amp; Reich, P. B. (1998). <i>Tree Physiology</i>, 18(11), 715-726.[46] Turnbull, M. H., Tissue, D. T., Griffin, K. L., Rogers, G. N. D., &amp; Whitehead, D. (1998). <i>Plant, Cell &amp; Environment</i>, 21(10), 1019-1028.[47] Vogel, C. S., &amp; Curtis, P. S. (1995). <i>Global Change Biology</i>, 1(1), 55-61.[48] Volin, J. C., Kruger, E. L., &amp; Lindroth, R. L. (2002). <i>Tree Physiology</i>, 22(7), 435-448.[49] von Caemmerer, S., Ghannoum, O., Conroy, J. P., Clark, H., &amp; Newton, P. C. (2001). <i>Functional Plant Biology</i>, 28(6), 439-450.[50] Warren, J. M., Jensen, A. M., Medlyn, B. E., Norby, R. J., &amp; Tissue, D. T. (2015). AoB PLANTS, 7, plu074.[51] Watanabe, M., Watanabe, Y., Kitaoka, S., Utsugi, H., Kita, K., &amp; Koike, T. (2011). <i>Tree Physiology</i>, 31(9), 965-975.