Deutscher Tropentag, October 11 - 13, 2005 in Stuttgart-Hohenheim
"The Global Food & Product Chain- Dynamics, Innovations, Conflicts, Strategies"
Phyllochron of Lowland Rice Does Not Depend on Temperature Alone
Raja Ram Khanal1, Folkard Asch2, Mathias Becker1
1University of Bonn, Agricultural Science & Resource Management in Tropics and Subtropics (ARTS), Germany
2University of Bonn, Plant Nutrition in the Tropics and Subtropics, Germany
Developing cropping calendars to accommodate newly introduced crops requires flexibility in planting dates of the members of the existing crop rotation. In the midhills of Nepal, changing planting dates exposes the crop to new thermal environments changing both the overall duration and the speed of crop establishment. Crop establishment depends on the speed of leaf appearance and the longevity of individual leaves, which have been shown to be temperature depending. At eight planting dates staggered at 15 day intervals six lowland rice genotypes were planted in a rice garden in Lumle, Nepal. The appearance and development of successive leaves was observed up toleaf number 12. Germination was linearly and phyllochron was quadratically correlated with the phyllochrons' mean air temperature. Genotypes differed in their optimum temperature for leaf appearance. However, with each succeeding leaf appearance the influence of temperature on the phyllochron was less pronounced and ceased entirely after the appearance of leaf number five. For later leaves and particularly at later planting dates leaf appearance rate decreased independently of temperature and leaf development rate slowed down. With limited resources plants need to balance sinks against sources. The development stage of a leaf was expressed as a normalised senescence level or source-status. These were added-up for all existing leaves on the main tiller. The resulting figure was used as an overall senescence indicator for the tiller. Independent of planting date leaves were initiated at a genotypic level of tiller senescence after leaf number eight. The higher the level, the slower was the leaf turnover in the canopy. For early planting dates genotypes having a low optimum temperature for leaf appearance need to be selected, whereas for later planting dates where early leaf development is fast due to higher temperature, leaf longevity becomes an important factor for a sustainable source for grain filling.
Keywords: Cropping calendars, high altitude, leaf appearance, phenology, phyllochron, planting date, plastochron, rice
Contact Address: Folkard Asch, University of Bonn, Plant Nutrition in the Tropics and Subtropics, Karlrobert-Kreiten-Straße 13, 53115 Bonn, Germany, e-mail: fauni-bonn.de