Comparative response of Brassica carinata and B-napus vegetative growth, development and photosynthesis to nitrogen nutrition

Nitrogen availability is a major limiting factor controlling growth, CO2 assimilation and productivity of oilseed brassicas, however, little is known about the physiological and morphological responses of B. carinata to N. A greenhouse study was conducted at North Florida Research and Education Center, Quincy, Florida during 2014/2015 to determine the effects of N rate on carinata (B. carinata A. Braun) cv. AAC A110 and (B. napus L.) cv. Canterra 1918 growth, development and photosynthesis. Four N treatments (0, 33, 66 and 100% of N in full strength Hoagland solution) were imposed 30 days after planting. Plant height, leaf area, node number, branches and total biomass and its components (leaf, stem and root dry weights) in both species decreased linearly with N reduction. Intra-specific total dry matter and photosynthetic capacity did not vary 55 days after treatment (DAT). However, partitioning biomass to various plant components differed between the species and was modified by N availability. At all N rates, carinata apportioned >53% of total biomass to the stem, component while in canola stems comprised 17-34% of total biomass. Roots contributed more to total dry weight in canola (33-46%) than in carinata (23-29%) except at the highest N level. In both species, root dry matter increased with decreasing N availability. At 55 DAT, total chlorophyll, Chla and Chlb concentrations, specific leaf area and photosynthetic capacity for both species decreased with N deficiency. Parameters of leaf photosynthetic responses to photo-synthetically active radiation and internal CO2 concentration curves were also altered by N availability. During the vegetative stage, N deficiency restricted plant growth, biomass production and also modified resource allocation which may have implications for N use efficiency and recovery during reproductive development. (C) 2016 Elsevier B.V. All rights reserved.