Dry Weight (Biomass) References
Vigna unguiculata (L.) Walp. [Blackeyed Pea]

Bhattacharya, N.C., Biswas, P.K., Bhattacharya, S., Sionit, N. and Strain, B.R. 1985. Growth and yield response of sweet potato to atmospheric CO2 enrichment. Crop Science 25: 975-981.

Dey, S.K., Chakrabarti, B., Prasanna, R., Pratap, D., Singh, S.D., Purakayastha, T.J. and Pathak, H. 2017. Elevated carbon dioxide level along with phosphorus application and cyanobacterial inoculation enhances nitrogen fixation and uptake in cowpea crop. Archives of Agronomy and Soil Science 63: 1927-1937.

Dey, S.K., Chakrabarti, B,., Purakayastha, T.J., Prasanna, R., Mittal, R., Singh, S.D. and Pathak, H. 2019. Interplay of phosphorus doses, cyanobacterial inoculation, and elevated carbon dioxide on yield and phosphorus dynamics in cowpea. Environmental Monitoring and Assessment 191: 223, doi: 10.1007/s10661-019-7378-3.

Morison, J.I.L. and Gifford, R.M. 1984. Plant growth and water use with limited water supply in high CO2 concentrations. II. Plant dry weight, partitioning and water use efficiency. Australian Journal of Plant Physiology 11: 375-384.

Overdieck, D., Reid, Ch. and Strain, B.R. 1988. The effects of preindustrial and future CO2 concentrations on growth, dry matter production and the C/N relationship in plants at low nutrient supply: Vigna unguiculata (Cowpea), Abelmoschus esculentus (Okra) and Raphanus sativus (Radish). Angewandte Botanik 62: 119-134.

Singh, S.K., Kakani, V.G., Surabhi, G.-K. and Reddy, K.R. 2010. Cowpea (Vigna unguiculata [L.] Walp.) genotypes response to multiple abiotic stresses. Journal of Photochemistry and Photobiology B: Biology 100: 135-146.

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