EFFECTS OF CARBON DIOXIDE AND PHOSPHORUS SUPPLY ON POTATO DRY MATTER ALLOCATION AND CANOPY MORPHOLOGY

Author： Fleisher D. H. Wang Q. Timlin D. J. Chun J.-A. Reddy V. R.

ISSN： 0190-4167

Source： Journal of Plant Nutrition, Vol.36, Iss.4, 2013-01, pp. : 566-586

Disclaimer: Any content in publications that violate the sovereignty, the constitution or regulations of the PRC is not accepted or approved by CNPIEC.

Previous Menu Next

Abstract

□ Data on combined effects of elevated carbon dioxide concentration (CO₂) and phosphorus fertilization (P) on potato are scarce. Growth chamber studies (E1 and E2) that used three P and two CO₂ levels were conducted. Leaf, stem, tuber, and stolon dry matter increased with P. Lateral-stem production was sensitive to P with a minimum 2.5-fold increase in mass. Leaf length increased an average 20.2% in E1 and 38.2% in E2 and leaf area increased an average 336% in E1 and 470% in E2 across CO₂ levels. Tuber dry mass increased 22% in E1 and 38.2% in E2 in response to elevated CO₂ and total dry mass by 14.1 and 15.4%. Tissue P contents increased with P but were unaffected by CO₂. Effects of P on canopy branching were associated with plant N status. The studies suggest elevated CO₂ levels are unlikely to alter potato P requirements on a unit mass basis.