Dry Weight (Biomass) References
Solanum tuberosum L. [White Potato]

Ahmadi Lahijani, M.J., Kafi, M., Nezami, A., Nabati, J. and Erwin, J.E. 2019. Effect of CO2 enrichment on gas exchanges, biochemical traits, and minituber yield in potato (Solanum tuberosum L.) cultivars. Journal of Agricultural Science and Technology 21: 883-894.

Aien, A., Pal, M., Khetarpal, S. and Pandey, S.K. 2014. Impact of elevated atmospheric CO2 concentration on the growth, and yield in two potato cultivars. Journal of Agricultural Science and Technology 16: 1661-1670.

Chen, C.-T. and Setter, T.L. 2003. Response of potato tuber cell division and growth to shade and elevated CO2. Annals of Botany 91: 373-381.

Chen, C.-T. and Setter, T.L. 2012. Response of potato dry matter assimilation and partitioning to elevated CO2 at various stages of tuber initiation and growth. Environmental and Experimental Botany 80: 27-34.

Conn, J.S. and Cochran, V.L. 2006. Response of potato (Solanum tuberosum L.) to elevated atmospheric CO2 in the North American Subarctic. Agriculture, Ecosystems and Environment 112: 49-57.

Fleisher, D.H., Timlin, D.J. and Reddy, V.R. 2008. Elevated carbon dioxide and water stress effects on potato canopy gas exchange, water use, and productivity. Agricultural and Forest Meteorology 148: 1109-1122.

Fleisher, D.H., Wang, Q., Timlin, D.J., Chun, J.-A. and Reddy, V.R. 2013. Effects of carbon dioxide and phosphorus supply on potato dry matter allocation and canopy morphology. Journal of Plant Nutrition 36: 566-586.

Heineke, D., Kauder, F., Frommer, W., Kuhn, C., Gillissen, B., Ludewig, F. and Sonnewald, U. 1999. Application of transgenic plants in understanding responses to atmospheric change. Plant, Cell and Environment 22: 623-628.

Hogy, P. and Fangmeier, A. 2009. Atmospheric CO2 enrichment affects potatoes: 1. Aboveground biomass production and tuber yield. European Journal of Agronomy 30: 78-84.

Katny, M.A.C., Hoffmann-Thoma, G., Schrier, A.A., Fangmeier, A., Jager, H.-J. and van Bel, A.J.E. 2005. Increase of photosynthesis and starch in potato under elevated CO2 is dependent on leaf age. Journal of Plant Physiology 162: 429-438.

Kauder, F., Ludewig, F. and Heineke, D. 2000. Ontogenetic changes of potato plants during acclimation to elevated carbon dioxide. Journal of Experimental Botany 51: 429-437.

Kumari, S., and Agrawal, M. 2014. Growth, yield and quality attributes of a tropical potato variety (Solanum tuberosum L. cv. Kufri chandramukhi) under ambient and elevated carbon dioxide and ozone and their interactions. Ecotoxicology and Environmental Safety 101: 146-156.

Lahijani, M.J.A., Kafi, M., Nezami, A., Nabati, J., Mehrjerdi, M.Z., Shahkoomahally, S. and Erwin, J. 2018. Variations in assimilation rate, photoassimilate translocation, and cellular fine structure of potato cultivars (Solanum Tuberosum L.) exposed to elevated CO2. Plant Physiology and Biochemistry 130: 303-313.

Lawson, T., Craigon, J., Black, C.R., Colls, J.J., Tullock, A.-M. and Landon, G. 2001. Effects of elevated carbon dioxide and ozone on the growth and yield of potatoes (Solanum tuberosum) grown in open-top chambers. Environmental Pollution 111: 479-491.

Lee, Y.-H., Sang, W.-G., Baek, J.-K., Kim, J.-H., Shin, P., Seo, M.-C. and Cho, J.-I. 2020. The effect of concurrent elevation in CO2 and temperature on the growth, photosynthesis, and yield of potato crops. PLoS ONE 15: e0241081.

Ludewig, F., Sonnewald, U., Kauder, F., Heineke, D., Geiger, M., Stitt, M., Muller-Rober, B.T., Gillissen, B., Kuhn, C. and Frommer, W.B. 1998. The role of transient starch in acclimation to elevated atmospheric CO2. FEBS Letters 429: 147-151.

Magliulo, V., Bindi, M. and Rana, G. 2003. Water use of irrigated potato (Solanum tuberosum L.) grown under free air carbon dioxide enrichment in central Italy. Agriculture, Ecosystems and Environment 97: 65-80.

Miglietta, F., Magliulo, V., Bindi, M., Cerio, L., Vaccari, F.P., Loduca, V. and Peressotti, A. 1998. Free Air CO2 Enrichment of potato (Solanum tuberosum L.): development, growth and yield. Global Change Biology 4: 163-172.

Olivo, N., Martinez, C.A. and Oliva, M.A. 2002. The photosynthetic response to elevated CO2 in high altitude potato species (Solanum curtilobum). Photosynthetica 40: 309-313.

Persson, K., Danielsson, H., Sellden, G. and Pleijel, H. 2003. The effects of tropospheric ozone and elevated carbon dioxide on potato (Solanum tuberosum L. cv. Bintje) growth and yield. The Science of the Total Environment 310: 191-201.

Plessl, M., Elstner, E.F., Rennenberg, H., Habermeyer, J. and Heiser, I. 2007. Influence of elevated CO2 and ozone concentrations on late blight resistance and growth of potato plants. Environmental and Experimental Botany 60: 447-457.

Pruski, K., Astatkie, T., Mirza, M. and Nowak, J. 2002. Photoautotrophic micropropagation of Russet Burbank Potato. Plant Cell, Tissue and Organ Culture 69: 197-200.

Sage, R.F., Sharkey, T.D. and Seemann, J.R. 1989. Acclimation of photosynthesis to elevated CO2 in five C3 species. Plant Physiology 89: 590-596.

Schapendonk, A.H.C.M., van Oijen, M., Dijkstra, P., Pot, C.S., Jordi, W.J.R.M. and Stoopen, G.M. 2000. Effects of elevated CO2 concentration on photosynthetic acclimation and productivity of two potato cultivars grown in open-top chambers. Australian Journal of Plant Physiology 27: 1119-1130.

Sicher, R.C. and Bunce, J.A. 1999. Photosynthetic enhancement and conductance to water vapor of field-grown Solanum tuberosum (L.) in response to CO2 enrichment. Photosynthesis Research 62: 155-163.

Tao, G.-Q., Letham, D.S., Yong, J.W.H., Zhang, K., John, P.C.L., Schwartz, O., Wong, S.C. and Farquhar, G.D. 2010. Promotion of shoot development and tuberisation in potato by expression of a chimaeric cytokinin synthesis gene at normal and elevated CO2 levels. Functional Plant Biology 37: 43-54.

Wheeler, R.M., Tibbitts, T.W. and Fitzpatrick, A.H. 1991. Carbon dioxide effects on potato growth under different photoperiods and irradiance. Crop Science 31: 1209-1213.

Yubi, Y., Jun, L., Haiyang, N. and Xiuyun, Z. 2020. Combined impact of elevated CO2 concentration and climatic warming on potato yield and quality in semi-arid regions. Potato Research, https://doi.org/10.1007/s11540-020-09466-w.

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