Plant allocation to defensive compounds: interactions between elevated CO2 and nitrogen in transgenic cotton plants

doi:10.1093/jexbot/53.367.323

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Journal of Experimental Botany, Vol. 53, No. 367, pp. 323-331, February 1, 2002
© 2002 Oxford University Press

Original Papers

Plant allocation to defensive compounds: interactions between elevated CO₂ and nitrogen in transgenic cotton plants

Carlos E. Coviella¹^,2^,4, Robert D. Stipanovic³ and John T. Trumble¹

¹ Department of Entomology, University of California at Riverside, Riverside, California 92521, USA
² Laboratorio de Ecología, Universidad Nacional de Luján, CC 221 (6700) Luján, Argentina
³ USDA, ARS, Southern Plains Agricultural Research Center, College Station, Texas 77845, USA

Plant allocation to defensive compounds in response to growthin elevated atmospheric CO₂ in combination with two levels ofnitrogen was examined. The aim was to discover if allocationpatterns of transgenic plants containing genes for defensivechemicals which had not evolved in the species would respondas predicted by the Carbon Nutrient Balance (CNB) hypothesis.Cotton plants (Gossypium hirsutum L.) were sown inside 12 environmentalchambers. Six of them were maintained at an elevated CO₂ levelof 900 µmol mol^-1 and the other six at the current levelof $~$ 370 µmol mol^-1. Half the plants in each chamber werefrom a transgenic line producing Bacillus thuringiensis (Bt)toxin and the others were from a near isogenic line withoutthe Bt gene. The allocation to total phenolics, condensed tannins,and gossypol and related terpenoid aldehydes was measured. Allthe treatments were bioassayed against a non-target insect herbivorefound on cotton, Spodoptera exigua (Hübner) (Lepidoptera:Noctuidae). Plants had lower N concentrations and higher C:Nratios when grown in elevated CO₂. Carbon defensive compoundsincreased in elevated CO₂, low N availability or both. The increasein these compounds in elevated CO₂ and low N, adversely affectedgrowth and survival of S. exigua. The production of the nitrogen-basedtoxin was affected by an interaction between CO₂ and N; elevatedCO₂ decreased N allocation to Bt, but the reduction was largelyalleviated by the addition of nitrogen. The CNB hypothesis accuratelypredicted only some of the results, and may require revision.These data indicate that for the future expected elevated CO₂concentrations, plant allocation to defensive compounds willbe affected enough to impact plant–herbivore interactions.

Key words: Carbon dioxide, CO₂, cotton, global change, Gossypium hirsutum, plant allocation, plant–insect interactions.

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