Dry Weight (Biomass) References
Cucumis sativus [Garden Cucumber]


Adamse, P. and Britz, S. 1992. Amelioration of UV-B damage under high irradiance. I. Role of photosynthesis. Photochemistry and Photobiology 56: 645-650.

Aguera, E., Ruano, D., Cabello, P. and de la Haba, P. 2006. Impact of atmospheric CO2 on growth, photosynthesis and nitrogen metabolism in cucumber (Cucumis sativus L.) plants. Journal of Plant Physiology 163: 809-817.

Dabu, X., Li, S., Cai, Z., Ge, T. and Hai, M. 2019. The effect of potassium on photosynthetic acclimation in cucumber during CO2 enrichment. Photosynthetica 57: 640-645.

Dong, J., Gruda, N., Li, X., Tang, Y. and Duan, Z. 2020. Impacts of elevated CO2 on nitrogen uptake of cucumber plants and nitrogen cycling in a greenhouse soil. Applied Soil Ecology 145: 103342.

Dong, J., Xu, Q., Gruda, N. Chu, W., Li, X. and Duan, Z. 2018. Elevated and super-elevated CO2 differ in their interactive effects with nitrogen availability on fruit yield and quality of cucumber. Journal of the Science of Food and Agriculture 98: 4509-4516.

Hartz, T.K., Baameur, A. and Holt, D.B. 1991. Carbon dioxide enrichment of high-value crops under tunnel culture. Journal of the American Society for Horticultural Science 116: 970-973.

Heij, G. and van Uffelen, J.A.M. 1984. Effects of CO2 concentration on growth of glasshouse cucumber. Acta Horticulturae 162: 29-36.

Jiang, Y.-P., Cheng, F., Zhou, Y.-H., Xia, X.-J., Shi, K. and Yu, J.-Q. 2012. Interactive effects of CO2 enrichment and brassinosteroid on CO2 assimilation and photosynthetic electron transport in Cucumis sativus. Environmental and Experimental Botany 75: 98-106.

Jokinen, K., Sarkka, L.E., Nakkila, J. and Tahvonen, R. 2011. Split root fertigaton enhances cucumber yield in both an open and a semi-closed greenhouse. Scientia Horticulturae 130: 808-814.

Klapwijk, D., and Wubben, C.F.M. 1984. The effect of carbon dioxide on growth of young tomato, cucumber and sweet pepper plants. Acta Horticulturae 162: 249-254.

Kriedemann, P.E. and Wong, S.C. 1984. Growth response and photosynthetic acclimation to CO2: Comparative behaviour in two C3 crop species. Acta Horticulturae 162: 113-128.

Madore, M. and Grodzinski, B. 1985. Effects of CO2 enrichment on growth and photoassimilate transport in a dwarf cucumber (Cucumis sativus L.) cultivar. Journal of Plant Physiology 121: 59-71.

Mortensen, L.M. 1984. The effect of nitrogen oxides (NOx) during CO2 enrichment on some greenhouse plants. Acta Horticulturae 162: 285-287.

Mortensen, L.M. 1985. Nitrogen oxides produced during CO2 enrichment. I. Effects on different greenhouse plants. New Phytologist 101: 103-108.

Peet, M.M. 1986. Acclimation to high CO2 in monoecious cucumbers. I. Vegetative and reproductive growth. Plant Physiology 80: 59-62.

Peet, M.M. and Willits, D.H. 1987. Greenhouse CO2 enrichment alternatives: Effects of increasing concentration or duration of enrichment on cucumber yields. Journal of the American Society for Horticultural Science 112: 236-241.

Tischler, C.R., Polley, H.W., Johnson, H.B. and Pennington, R.E. 2000. Seedling Response to Elevated CO2 in Fine Epigeal Species. International Journal of Plant Sciences 161: 779-783.

Sanchez-Guerrero, M.C., Lorenzo, P., Medrano, E., Baille, A. and Castilla, N. 2009. Effects of EC-based irrigation scheduling and CO2 enrichment on water use efficiency of a greenhouse cucumber crop. Agricultural Water Management 96: 429-436.

Sanchez-Guerrero, M.C., Lorenzo, P., Medrano, E., Castilla, N., Soriano, T. and Baille, A. 2005. Effect of variable CO2 enrichment on greenhouse production in mild winter climates. Agricultural and Forest Meteorology 132: 244-252.

Slack, G. and Hand, D.W. 1985. The effect of winter and summer CO2 enrichment on the growth and fruit yield of glasshouse cucumber. Journal of Horticultural Science 60: 507-516.

Willits, D.H. and Peet, M.M. 1989. Predicting yield responses to different greenhouse CO2 enrichment schemes: Cucumbers and tomatoes. Agricultural and Forest Meteorology 44: 275-293.


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