Effect of Day and Night Temperature on Internode and Stem Length in Chrysanthemum: Is Everything Explained by DIF?

doi:10.1093/aob/mcf154

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Annals of Botany 90: 111-118, 2002
© 2002 Annals of Botany Company

Effect of Day and Night Temperature on Internode and Stem Length in Chrysanthemum: Is Everything Explained by DIF?

S. M. P. CARVALHO¹, E. HEUVELINK^*^,1, R. CASCAIS¹ and O. VAN KOOTEN¹

¹ Wageningen University, Department of Plant Sciences, Horticultural Production Chains Group, Marijkeweg 22, 6709 PG Wageningen, The Netherlands

* For correspondence. Fax +31 317 484709, e-mail Ep.Heuvelink{at}hpc.dpw.wag-ur.nl

Received: 7 January 2002; Returned for revision: 19 February 2002; Accepted: 2 April 2002

In many plant species, including chrysanthemum, a strong positivecorrelation between internode length and DIF [difference betweenday (DT) and night (NT) temperature] has been observed. However,Langton and Cockshull (1997, Scientia Horticulturae 69: 229–237)reported no such relationship and showed that absolute DT andNT explained internode length rather than DIF. To investigatethese conflicting results and to clarify the validity of theDIF concept, cut chrysanthemums (Chrysanthemum ‘ReaganImproved’) were grown in growth chambers at all 16 combinationsof four DT and four NT (16, 20, 24 and 28 °C) witha 12 h daylength. Length of internode 10, number of internodesand stem length were measured on days 5, 10, 17, 22 and 27 afterstarting the temperature treatments. Internode length on day 10showed a positive linear relationship with DIF (R² = 0·64).However, when internodes had reached their final length in alltreatments (day 27), a much stronger positive linear relationwas observed (R² = 0·81). A model to predictfinal internode length was developed based on the absolute DTand NT responses: both responses were optimum curves and nosignificant interaction between DT and NT occurred [final internodelength (mm) = –32·23 + 3·56DT + 1·08NT– 0·0687DT² – 0·0371NT²; R² = 0·91,where T_D is day temperature and T_N is night temperature]. Itis shown that DIF can predict final internode length only withina temperature range where effects of DT and NT are equal inmagnitude and opposite in sign (18–24 °C). Internodeappearance rate, as well as stem length formed during the experiment,showed an optimum response to DT.

Key words: Chrysanthemum, day temperature, DIF, elongation, internode length, modelling, night temperature, number of internodes, stem length, thermoperiodism.

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